Amada Holdings Co., Ltd.

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        Patent 254
        Trademark 38
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        World 214
        United States 74
        Canada 3
        Europe 1
Owner / Subsidiary
[Owner] Amada Holdings Co., Ltd. 292
Amada Machine Tools Co., Ltd 29
Date
2021 1
2020 59
Before 2020 232
IPC Class
B23K 26/38 - Removing material by boring or cutting 71
B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring 50
B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means 48
B23K 26/08 - Devices involving relative movement between laser beam and workpiece 23
B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms 22
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NICE Class
07 - Machines and machine tools 32
09 - Scientific and electric apparatus and instruments 15
42 - Scientific, technological and industrial services, research and design 4
08 - Hand tools and implements 2
10 - Medical apparatus and instruments 1
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1.

Nozzle

      
Application Number 29701584
Grant Number D0930057
Status In Force
Filing Date 2019-08-13
First Publication Date 2021-09-07
Grant Date 2021-09-07
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Kobayashi, Ryo
  • Sugiyama, Akihiko
  • Baba, Yasuhito

2.

Information projecting method and apparatus and laser processing apparatus

      
Application Number 16635785
Grant Number 10974347
Status In Force
Filing Date 2018-07-24
First Publication Date 2020-12-03
Grant Date 2021-04-13
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Saeki, Shuichi
  • Komiya, Hidenori

Abstract

An information projecting method projects information concerning a cut piece onto the cut piece, which is cut and separated from a plate-like work and is on a placement table, or onto a position adjacent to the cut piece. To adjust to an aspect ratio of a projector, the method assigns a long side of the work to an X-axis direction of the aspect ratio and a short side of the work to a Y-axis direction of the aspect ratio, finds a positional relationship d between a top face of the work and the projector according to plate thickness information of the work on the placement table and positioned corresponding to the projector arranged at a predetermined Y-axis-direction position, and with a zoom ratio based on the found positional relationship, projects the information concerning the cut piece onto the cut piece or onto a position adjacent to the cut piece.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/03 - Observing, e.g. monitoring, the workpiece
  • H04N 9/31 - Projection devices for colour picture display
  • B23K 26/70 - Auxiliary operations or equipment
  • B23K 37/04 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass for holding or positioning work
  • B23K 101/18 - Sheet panels

3.

LASER DIODE DEVICE

      
Application Number JP2020012167
Publication Number 2020/203326
Status In Force
Filing Date 2020-03-19
Publication Date 2020-10-08
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Kobayashi Hirokazu
  • Inoue Hirokazu
  • Yanase Atsushi
  • Anzai Kenji

Abstract

M laser diodes (12) are arranged in positions which become lower with increasing distance to a focusing lens (10) and become higher with decreasing distance thereto. N laser diodes (12) are arranged in positions which become higher with increasing distance to the focusing lens (10) and become lower with decreasing distance thereto. M mirrors (4La to 4Le) reflect respective laser beams so that the laser beams, from the one emitted from the laser diode (12) with the greatest distance to the focusing lens (10) to the one emitted from the laser diode (12) with the shortest distance thereto, are piled up successively on a same optical path. N mirrors (4Lf to 4Li) reflect respective laser beams so that the laser beams, from the one emitted from the laser diode (12) with the greatest distance to the focusing lens (10) to the one emitted from the laser diode (12) with the shortest distance thereto, are piled down successively on a same optical path.

IPC Classes  ?

  • H01S 5/022 - MountingsHousings
  • G02B 6/42 - Coupling light guides with opto-electronic elements

4.

CARRY-IN/CARRY-OUT SYSTEM

      
Application Number JP2020007608
Publication Number 2020/195468
Status In Force
Filing Date 2020-02-26
Publication Date 2020-10-01
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Ohsaka Fumio

Abstract

A carry-in/carry-out system characterized by comprising a product pallet (36) for stacking products extracted from a material, a skeleton pallet (38) for stacking skeletons, which are remnants, and an endless transfer chain (62) that is capable of circulating along a Y-axis direction and transferring the skeleton pallet in the Y-axis direction between a third operation area (A3) and a second operation area (A2) while transferring the product pallet in the Y-axis direction between a first operation area (A1) and the second operation area, and by being configured such that when the skeleton pallet is transferred in the Y-axis direction between the third operation area and the second operation area the product pallet separates from the transfer chain and is held above the transfer chain, or being configured such that when the product pallet is transferred in the Y-axis direction between the first operation area and the second operation area the skeleton pallet separates from the transfer chain and is held above the transfer chain.

IPC Classes  ?

  • B21D 43/12 - Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work by chains or belts
  • B21D 43/00 - Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profilesAssociations therewith of cutting devices
  • B21D 43/22 - Devices for piling sheets
  • B21D 43/24 - Devices for removing sheets from a stack
  • B65G 57/03 - Stacking of articles by adding to the top of the stack from above
  • B65G 57/04 - Stacking of articles by adding to the top of the stack from above by suction or magnetic devices
  • B65G 59/04 - De-stacking from the top of the stack by suction or magnetic devices

5.

Laser cutting method for plated steel sheet, laser processing head and laser processing device

      
Application Number 16649520
Grant Number 11691225
Status In Force
Filing Date 2018-10-02
First Publication Date 2020-10-01
Grant Date 2023-07-04
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Hara, Hideo
  • Uehara, Masanori

Abstract

Laser cutting on a plated steel sheet is executed by cutting the plated steel sheet by irradiating the plated steel sheet covered with a plate metal with laser light at a wavelength in a 1 micrometer band; and emitting assist gas onto a cut surface of the plated steel sheet, the cut surface being formed in the step of cutting, to make the plate metal fused by irradiation of the laser light flow to the cut surface so as to cover the cut surface with the plate metal.

IPC Classes  ?

  • B23K 31/10 - Processes relevant to this subclass, specially adapted for particular articles or purposes, but not covered by any single one of main groups relating to cutting or desurfacing
  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/06 - Shaping the laser beam, e.g. by masks or multi-focusing
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • B23K 26/12 - Working by laser beam, e.g. welding, cutting or boring in a special environment or atmosphere, e.g. in an enclosure
  • B23K 35/38 - Selection of media, e.g. special atmospheres for surrounding the working area
  • B23K 37/04 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass for holding or positioning work
  • B23K 37/06 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass for positioning the molten material, e.g. confining it to a desired area
  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/40 - Removing material taking account of the properties of the material involved
  • B23K 103/04 - Steel alloys
  • B23K 101/34 - Coated articles

6.

PROCESSING ESTIMATION DEVICE, PROCESSING ESTIMATION METHOD, AND PROCESSING ESTIMATION PROGRAM

      
Application Number JP2020003716
Publication Number 2020/175013
Status In Force
Filing Date 2020-01-31
Publication Date 2020-09-03
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Yamada Yoshinori

Abstract

According to the present invention, a camera (11) captures images of parts of an object to be estimated, which are generated by cutting a sheet metal in advance, and dimension reference markers. An image processing unit (12) generates edge data by extracting edges of the parts that are image-captured by the camera (11), and enlarges or contracts, on the basis of the sizes of the dimension reference markers that are image-captured by the camera (11), the edge data so as to be sizes corresponding to the actual sizes of the parts. A processing time calculation unit (13) calculates the lengths of cutting lines for cutting the parts from the sheet metal on the basis of the edges of the edge data corresponding to the actual sizes of the parts, and calculates, in correspondence to a material and a sheet thickness of the sheet metal, a processing time for constructing the parts by cutting the cutting lines.

IPC Classes  ?

7.

LASER PROCESSING MACHINE, LASER PROCESSING METHOD, AND PROCESSING PROGRAM CREATING DEVICE

      
Application Number JP2020004809
Publication Number 2020/170856
Status In Force
Filing Date 2020-02-07
Publication Date 2020-08-27
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nogi Kazuhisa
  • Kikkawa Noboru

Abstract

An NC device 20 determines that an opening-forming region is a first opening-forming region if the size of the opening-forming region in a prescribed direction is less than a prescribed maximum value, and determines that the opening-forming region is an opening-forming region that would form scrap interfering with a laser head 16 if the size of the opening-forming region in the prescribed direction is greater than a prescribed minimum value. If the size of the opening-forming region in the prescribed direction is less than the prescribed maximum value and greater than the prescribed minimum value, an opening-forming region within an interference-width added region obtained by adding a prescribed interference width to the opening-forming region is determines to be a second opening-forming region, and the second opening-forming region is processed before the first opening-forming region is processed.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting

8.

NOZZLE FOR LASER PROCESSING, AND LASER PROCESSING DEVICE

      
Application Number JP2020003091
Publication Number 2020/166327
Status In Force
Filing Date 2020-01-29
Publication Date 2020-08-20
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Kobayashi Ryo
  • Sugiyama Akihiko
  • Baba Yasuhito

Abstract

A nozzle (7) for laser processing includes a flange portion (7c) and is formed in the shape of a ring, and is provided with: a first communicating hole (7e) providing communication between a first end portion and a second end portion on the opposite side to the first end portion; a circumferential groove portion (7g) provided between the flange portion (7c) and the second end portion; and a plurality of second communicating holes (74) providing communication between a surface (7f) on a first end portion side of the flange portion (7c), and a side surface (7a2) on a first end portion side of the circumferential groove portion (7g). A side surface (7b2) on a second end portion side of the circumferential groove portion (7g) extends in such a way that the plurality of second communicating holes (74) cannot be seen from the second end portion side.

IPC Classes  ?

  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor

9.

Method of and apparatus for supplying cooling water to laser processing head and method of producing cooling water

      
Application Number 16867979
Grant Number 11878370
Status In Force
Filing Date 2020-05-06
First Publication Date 2020-08-20
Grant Date 2024-01-23
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor Iwasaki, Jun

Abstract

A method of supplying cooling water to a laser processing head includes arranging a cooling water supply path connected to the laser processing head, connecting, to the cooling water supply path, a water supply path for supplying water and an antirust supply path for supplying antirust, keeping constant a ratio between a water quantity fed by a water feed means connected to the water supply path and an antirust quantity fed by an antirust feed means connected to the antirust supply path, mixing the water and antirust in the cooling water supply path, and supplying cooling water to the laser processing head.

IPC Classes  ?

  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/146 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor the fluid stream containing a liquid
  • B23K 26/70 - Auxiliary operations or equipment
  • B23K 37/00 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass
  • B23Q 11/10 - Arrangements for cooling or lubricating tools or work

10.

PUNCH HEIGHT MEASUREMENT DEVICE

      
Application Number JP2020005049
Publication Number 2020/166546
Status In Force
Filing Date 2020-02-10
Publication Date 2020-08-20
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Hayashi Shiro
  • Miyashita Nobuhito

Abstract

A punch height measurement device (10) is provided with a support block (12) having a support surface (12f) for supporting an attachment reference surface (Pf) of a punching die (P), and a pressing member (14) for holding the proximal-end part of the punching die (P) cooperatively with the support block (12). A measuring instrument (40) is provided for measuring the distance from the support surface (12f) of the support block (12) to the distal end (Pt) of the punching die (P) in a state in which the attachment reference surface of the punching die (P) is supported in a position facing the support surface (12f) of the support block (12).

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B23Q 17/00 - Arrangements for indicating or measuring on machine tools

11.

Method for laser processing

      
Application Number 16651550
Grant Number 11052489
Status In Force
Filing Date 2018-10-05
First Publication Date 2020-08-13
Grant Date 2021-07-06
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Mizoguchi, Yuya
  • Ishiguro, Hiroaki
  • Ito, Ryohei
  • Kobayashi, Ryo
  • Masuda, Kenji

Abstract

In a laser processing method, laser lights of fiber lasers or direct diode lasers is irradiated onto an iron-based plate material from a nozzle, a nozzle with a nozzle opening whose opening diameter is preliminarily set according to a thickness of the plate material is selected from plural nozzles whose nozzle openings have different opening diameters from each other, and the plate material is cut while irradiating the laser lights onto the plate material and injecting assist gas from the nozzle opening toward the plate material.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/40 - Removing material taking account of the properties of the material involved
  • B23K 101/18 - Sheet panels
  • B23K 103/02 - Iron or ferrous alloys

12.

LASER MACHINING APPARATUS AND LASER MACHINING HEAD

      
Application Number JP2020000692
Publication Number 2020/153157
Status In Force
Filing Date 2020-01-10
Publication Date 2020-07-30
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Takatsu Masato
  • Setoguchi Jun

Abstract

A laser machining apparatus (51) is provided with: a laser oscillator (1); a laser machining head (2) having a housing (21); first and second optical elements (711, 712) for changing, to first and second beam profiles (P3, P2), the beam profile of laser light (Ls) supplied into the housing (21); a selector drive unit (23) for moving each of the first and second optical elements (711, 712) between an advanced position and a retracted position with respect to a light beam (Ls1); and a control device (3) that selectively shifts the first and second optical elements (711, 712) by means of the selector drive unit (23) among a first mode (M1) in which the first and second optical elements (711, 712) are set at the retracted position, a second mode (M2) in which only the first optical element (711) is set at the advanced position, and a third mode (M3) in which only the second optical element (712) is set at the advanced position and that stops the laser light (Ls) when the first and second optical elements (711, 712) are moved.

IPC Classes  ?

  • B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms

13.

Program creation device, welding system, and program creation method

      
Application Number 16651091
Grant Number 11007596
Status In Force
Filing Date 2018-10-02
First Publication Date 2020-07-23
Grant Date 2021-05-18
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor Terada, Kosei

Abstract

A welding program is created for performing spot welding by a program creation device. The program creation device includes a display unit configured to display an image, and an image generation unit configured to generate image data of a product model before being subjected to spot welding in accordance with shape data on a product and display the product model on the display unit, a display control unit configured to make a workpiece having a selected surface in the product model to be semitransparent, a welding portion setting unit configured to set welding portions to be allotted for the selected surface in the product model, and a program creation unit configured to create the welding program including related data for a welding robot with regard to the set welding portions.

IPC Classes  ?

  • B23K 9/095 - Monitoring or automatic control of welding parameters
  • B23K 9/04 - Welding for other purposes than joining, e.g. built-up welding
  • B23K 9/127 - Means for tracking lines during arc welding or cutting
  • G05B 19/401 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by control arrangements for measuring, e.g. calibration and initialisation, measuring workpiece for machining purposes
  • G06T 7/00 - Image analysis

14.

OPTICAL SAFETY DEVICE, PRESS BRAKE, AND WORK DETECTION METHOD

      
Application Number JP2019049092
Publication Number 2020/137644
Status In Force
Filing Date 2019-12-16
Publication Date 2020-07-02
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Amano Kanehide
  • Sasaki Hideki
  • Aoki Takayuki
  • Suzuki Taichi
  • Ohashi Humitaka

Abstract

A light reception amount acquisition unit 60 acquires a light reception amount of a light receiver 52 per unit time at certain sampling time intervals. A light shield detection unit 66 determines whether or not the acquired light reception amount of the light receiver per unit time becomes lower than a determination threshold value Th for detecting existence of a light shield for monitoring light B, thereby detecting existence/nonexistence of the light shield for the monitoring light B. A detection sensitivity of the light shield detection unit 66 is configured in such a manner that a normal sensitivity mode is switched to a high-sensitivity mode in the case where bending is an initial working based on a predetermined working program, and an acquired height position of the light receiver 52 becomes lower than a predetermined second height position LP2.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B30B 15/00 - Details of, or accessories for, pressesAuxiliary measures in connection with pressing

15.

BAND SAW EDGE

      
Application Number JP2019049509
Publication Number 2020/137720
Status In Force
Filing Date 2019-12-18
Publication Date 2020-07-02
Owner
  • AMADA HOLDINGS CO.,LTD. (Japan)
  • AMADA MACHINE TOOLS CO.,LTD. (Japan)
Inventor
  • Tsujimoto Susumu
  • Kawakami Tatsuya

Abstract

According to the present invention, saw tooth groups (12) each comprises: a first saw tooth small group (14) which is composed of three or more sheets of contiguous left set teeth (18, 20, 22) as a plurality of saw teeth, and three of more contiguous right set teeth (24, 26, 28) that trail or lead the left set teeth, and which includes the smallest inter-tooth pitch; and a second saw tooth small group (16) which is composed of straight teeth (30) as a plurality of saw teeth and left and right set teeth (32, 34) alternately arranged in the saw edge traveling direction, and which includes the largest inter-tooth pitch. The largest inter-tooth pitch is two or more times the smallest inter-tooth pitch, and the band width dimensions of the left set teeth (18, 20, 22, 32), the band width dimensions of the right set teeth (24, 26, 28, 34), and the band width dimension of the straight teeth (30) are set to the same dimension.

IPC Classes  ?

  • B23D 61/12 - Straight saw bladesStrap saw blades

16.

PUNCH-AND-DIE MANAGEMENT DEVICE AND PUNCH-AND-DIE MANAGEMENT METHOD

      
Application Number JP2019049981
Publication Number 2020/137841
Status In Force
Filing Date 2019-12-20
Publication Date 2020-07-02
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Ogino Masashi
  • Sano Tetsuya

Abstract

A cumulative wear amount calculation unit (205) calculates the wear amount of the cutting edge of a punch and die when a punch-and-die set has processed sheet metal once with a calculation formula that uses a real number of the clearance value between the punch cutting edge dimension and the die cutting edge dimension, or a coefficient corresponding to the clearance value, when a punching machine (1) has processed the sheet metal with the punch-and-die set comprising a punch and die. The cumulative wear amount calculation unit (205) calculates the cumulative wear amount of the cutting edge of the punch and die by accumulating the wear amount each time when the stamp-and-die set has processed sheet metal multiple times. A punch-and-die management information management unit (208) manages the state of the cutting edges of the punches and the dies by storing in a punch-and-die management information storage unit (209) punch-and-die management information that associates a punch-and-die identifier symbol given to each punch and each die and the cumulative wear amounts calculated by the cumulative wear amount calculation unit (205).

IPC Classes  ?

  • B21D 28/34 - Perforating toolsDie holders
  • B21D 37/00 - Tools as parts of machines covered by this subclass

17.

DIE MANAGEMENT DEVICE AND DIE MANAGEMENT METHOD

      
Application Number JP2019049984
Publication Number 2020/137844
Status In Force
Filing Date 2019-12-20
Publication Date 2020-07-02
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Ogino Masashi
  • Sano Tetsuya

Abstract

A cumulative wear amount calculation unit (205) calculates the wear amount of cutting edges of a punch and a die when a punching machine (1) processes a sheet metal once with a die set of the punch and the die, and calculates the cumulative wear amount of the cutting edges of the punch and the die by accumulating the wear amount of each time when the punching machine (1) processes the sheet metal more than once with the die set. The die management information management unit (208) causes a die management information storage unit (209) to store die management information that associates a die identification code provided to each punch and die with the cumulative wear amount calculated by the cumulative wear amount calculation unit (205). After receiving grinding record information indicating that a die grinding machine (3) has ground a cutting age of any of the punch or die, the die management information management unit (208) clears the cumulative wear amount stored in association with the die identification code of the punch or die that has been ground.

IPC Classes  ?

  • B21D 28/00 - Shaping by press-cuttingPerforating
  • B21D 28/34 - Perforating toolsDie holders
  • B21D 37/00 - Tools as parts of machines covered by this subclass

18.

Laser welding method and laser welding device

      
Application Number 16612923
Grant Number 11235421
Status In Force
Filing Date 2018-04-26
First Publication Date 2020-06-25
Grant Date 2022-02-01
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Jikihara, Takaaki
  • Ono, Ikuyasu

Abstract

A laser welding method is constituted of: emitting shield gas in advance through a laser nozzle provided on a laser processing head at a time of moving the laser processing head from a reference position to a starting position for welding the workpiece; and radiating laser light onto the workpiece through the laser nozzle at the starting position for welding when a feeding rate of the shield gas gets stabilized, whereby performing laser welding on the workpiece.

IPC Classes  ?

  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/21 - Bonding by welding
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece

19.

Workpiece storage device and workpiece loading method

      
Application Number 16225911
Grant Number 10898981
Status In Force
Filing Date 2018-12-19
First Publication Date 2020-06-25
Grant Date 2021-01-26
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Andujo, Abraham
  • Tsuruta, Hiroki

Abstract

A first plate-like member on a bottom surface side is disposed in a horizontal direction. A second plate-like member is disposed in a vertical direction. A first position restricting mechanism is engaged with a first end portion including a first side that opposes the first plate-like member in a workpiece in a state where the workpiece stands while a front surface and a rear surface of the plate-like workpiece are along a vertical direction, and restricts the position of the first end portion in a plate thickness direction. A second position restricting mechanism is engaged with a second end portion including a second side that opposes the second plate-like member in the workpiece, and restricts the position of the second end portion in the plate thickness direction.

IPC Classes  ?

  • A47F 7/00 - Show stands, hangers, or shelves, adapted for particular articles or materials
  • B23Q 7/10 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of magazines
  • B23Q 7/04 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of grippers
  • B65D 25/10 - Devices to locate articles in containers
  • B65D 85/48 - Containers, packaging elements or packages, specially adapted for particular articles or materials for articles particularly sensitive to damage by shock or pressure for glass sheets
  • B23Q 7/00 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
  • B23Q 7/14 - Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting co-ordinated in production lines

20.

WORKPIECE HOUSING DEVICE AND METHOD FOR LOADING WORKPIECE

      
Application Number JP2019047361
Publication Number 2020/129637
Status In Force
Filing Date 2019-12-04
Publication Date 2020-06-25
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Andujo Abraham
  • Tsuruta Hiroki

Abstract

In a workpiece housing device according to the present invention, a first plate-like member (51) located on a bottom side is arranged in a horizontal direction, and a second plate-like member (53) is arranged in a vertical direction. A first position restricting mechanism (54s) engages with a first end of a workpiece (W) including a first side of the workpiece (W) facing the first plate-like member (51), in a state where the workpiece (W) is erected such that a front surface and a back surface of the workpiece (W) extend along the vertical direction, and thus restricts the position of the first end in a plate thickness direction. A second position restricting mechanism (53s) engages with a second end of the workpiece (W) including a second side facing the second plate-like member (53), and thus restricts the position of the second end in the plate thickness direction.

IPC Classes  ?

  • B21D 43/20 - Storage arrangementsPiling or unpiling

21.

Laser processing machine

      
Application Number 16621955
Grant Number 10898970
Status In Force
Filing Date 2018-05-23
First Publication Date 2020-06-18
Grant Date 2021-01-26
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Ishiguro, Hiroaki
  • Ito, Ryouhei
  • Kobayashi, Tetsuya

Abstract

A profile selector includes at least one beam-forming lens refracting a laser beam to be incident so as to convert a beam profile and emits a laser beam having a beam profile selected from a plurality of beam profiles. A collimating lens converts a laser beam of a divergent beam to be incident into collimated light. A focusing lens focuses the collimated light emitted from the collimating lens and irradiates the focused beam to a sheet metal of a processing target. A moving mechanism moves the collimating lens along an optical axis such that a deviation of a focal point is reduced caused when the beam profile of the focused beam emitted from the focusing lens is selected by the profile selector.

IPC Classes  ?

  • B23K 26/066 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms by using masks
  • B23K 26/06 - Shaping the laser beam, e.g. by masks or multi-focusing
  • B23K 26/70 - Auxiliary operations or equipment
  • B23K 26/073 - Shaping the laser spot
  • B23K 26/21 - Bonding by welding
  • B23K 26/359 - Working by laser beam, e.g. welding, cutting or boring for surface treatment by providing a line or line pattern, e.g. a dotted break initiation line
  • B23K 26/38 - Removing material by boring or cutting

22.

Coolant supply system for laser processing head and method for supplying coolant to laser processing head

      
Application Number 16486308
Grant Number 11110545
Status In Force
Filing Date 2018-02-27
First Publication Date 2020-06-11
Grant Date 2021-09-07
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor Iwasaki, Jun

Abstract

A coolant supply system includes a coolant tank for accumulating coolant generated by using deionized water, a coolant supply passage for supplying the coolant in the coolant tank to the laser processing head, an electric conductivity meter for measuring an electric conductivity of the coolant to be supplied to the laser processing head, a drainage passage capable of draining the coolant from the coolant tank, an electromagnetic valve provided on the drainage passage, and a controller that controls open/close operations of the electromagnetic valve. The controller turns the electromagnetic valve from a closed state into an open state to drain the coolant in the coolant tank through the drainage passage when a measured value of the electric conductivity meter exceeds over a preset upper limit value.

IPC Classes  ?

  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/70 - Auxiliary operations or equipment

23.

LASER WELDING MACHINE, AND METHOD FOR MONITORING WELDING CONDITION

      
Application Number JP2019044226
Publication Number 2020/110694
Status In Force
Filing Date 2019-11-12
Publication Date 2020-06-04
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Wagner Alexander
  • Zschippang Mario
  • Lammert Michael
  • Yamanashi Takaaki

Abstract

A camera captures an image of a prescribed zone including a beam spot being radiated onto first and second sheet metals to be welded. An image analyzing device determines whether a welding defect has occurred, on the basis of an image signal capturing the first and second sheet metals. The image analyzing device sets an analysis window within a frame of the image signal, and the center of the beam spot is positioned at a reference point set within the analysis window. A region extracting unit extracts pixels, from among pixels contained in the analysis window, in a region of interest having a position set with reference to the reference point, in accordance with the welding defect being assessed. A welding defect assessing unit assesses whether the welding defect being assessed has occurred, on the basis of the brightness in the region of interest.

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/03 - Observing, e.g. monitoring, the workpiece

24.

Mold for press brake

      
Application Number 16747924
Grant Number 11638947
Status In Force
Filing Date 2020-01-21
First Publication Date 2020-05-21
Grant Date 2023-05-02
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Jin, Yingjun
  • Shibata, Takahiro
  • Hayashi, Shiro
  • Kobayashi, Shin

Abstract

A mold for a press brake includes an upper mold that is mountable on an upper table and a lower mold mountable on a lower table in a press brake. The upper mold and the lower mold vertically face each other and have respective pressurizing surfaces. The respective pressurizing surfaces are superposed with each other in a pressing direction so as to define a wedge shaped recess between the respective pressurizing surfaces. The respective pressurizing surfaces are configured to pressurize a workpiece positioned between the respective pressurizing surfaces. Further, one of the pressurizing surfaces is formed as a level surface and the other is formed as an inclined surface. The upper mold includes a V-shaped workpiece bending portion that can freely enter into a bending groove provided in the lower mold, and the respective pressurizing surfaces are positioned outside of the bending groove of the lower mold.

IPC Classes  ?

  • B21D 19/08 - Flanging or other edge treatment, e.g. of tubes by single or successive action of pressing tools, e.g. vice jaws
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 5/16 - FoldingPleating

25.

Laser cutting nozzle and laser cutting method

      
Application Number 16629424
Grant Number 11084124
Status In Force
Filing Date 2018-06-05
First Publication Date 2020-05-14
Grant Date 2021-08-10
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Kunihiro, Masato
  • Sugiyama, Akihiko
  • Ishiguro, Hiroaki
  • Miyoshi, Hironobu
  • Ito, Ryohei
  • Mizoguchi, Yuya

Abstract

A laser cutting nozzle includes an inner nozzle and an outer nozzle. The inner nozzle exhibits a tube shape having a through hole on an axis and having a diameter decreasing on a first end portion side and includes a notch extending in the axis direction along an outer peripheral surface on a second end portion side. The outer nozzle is fitted to the outer peripheral surface of the inner nozzle and includes a vent passage including the notch and communicating between the first end portion and the second end portion in the axis direction. A minimum flow cross-sectional area of the vent passage matches an opening area of the notch in an end surface on the second end portion side.

IPC Classes  ?

  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • B23K 26/38 - Removing material by boring or cutting

26.

Workpiece placement platform device having workpiece positioning member movable in and out relative to upper surface of placement platform

      
Application Number 16603989
Grant Number 11020787
Status In Force
Filing Date 2018-04-10
First Publication Date 2020-05-14
Grant Date 2021-06-01
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Sato, Masaaki
  • Hayashi, Iwao
  • Shirota, Masashi
  • Washio, Takeshi
  • Okamoto, Naoyuki

Abstract

A workpiece placement platform device including: an X-axis direction positioning member provided on one side of a placement platform on which to place a plate-shaped workpiece and configured to position one side edge of the workpiece in an X-axis direction by contacting the one side edge; a Y-axis direction positioning member provided on another side of the placement platform and configured to position another side edge of the workpiece in a Y-axis direction by contacting the another side edge; and a workpiece positioning member that is movable in and out relative to a workpiece placement surface of the placement platform and configured to partition the workpiece placement surface into sections in the X-axis direction and enable simultaneous positioning at the sections on the workpiece placement surface.

IPC Classes  ?

  • B23Q 3/18 - Devices holding, supporting, or positioning, work or tools, of a kind normally removable from the machine for positioning only
  • B21D 43/00 - Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profilesAssociations therewith of cutting devices
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 43/22 - Devices for piling sheets
  • B23Q 7/18 - Orienting work on conveyors
  • B65G 57/00 - Stacking of articles

27.

ASSIST GAS FLOW RATE CALCULATION DEVICE AND CALCULATION METHOD

      
Application Number JP2019041611
Publication Number 2020/095690
Status In Force
Filing Date 2019-10-24
Publication Date 2020-05-14
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Igarashi Kaori
  • Kitaoka Shigeaki

Abstract

Storage units 60 and 70 store a first computer program that calculates a flow rate of an assist gas in a processing head 35 by using a linear function in which the pressure of the assist gas is used as a variable, and a second computer program that calculates the slope of the linear function by using a function in which a gap G from the distal end of a nozzle 36 to the surface of a workpiece W is used as a variable. A control unit 50 substitutes a value of the gap G into the function, thereby calculating a slope of the linear function, and substitutes the slope of the linear function and the pressure value of the assist gas into the linear function, thereby calculating a flow rate of the assist gas.

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/14 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor
  • G01F 1/00 - Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow

28.

Press brake in which height position of operation panel is adjustable in sitting state

      
Application Number 16609576
Grant Number 10823328
Status In Force
Filing Date 2018-05-18
First Publication Date 2020-05-07
Grant Date 2020-11-03
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor Ikeda, Satoru

Abstract

A press brake includes paired fixation links, upper link arm, lower link arm and paired raised-lowered links, which form a parallel link mechanism configured to allow an operation panel to be raised and lowered. The press brake includes a spring configured to generate torque depending on a height position of the operation panel in an opposite direction to torque generated by weight of the operation panel; and a torque hinge configured to maintain a posture of the parallel link mechanism by absorbing a torque difference between the torque generated by the weight of the operation panel and the torque generated by the spring.

IPC Classes  ?

  • B21D 43/10 - Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work by grippers
  • F16M 13/02 - Other supports for positioning apparatus or articlesMeans for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
  • B21D 5/00 - Bending sheet metal along straight lines, e.g. to form simple curves
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

29.

LASER BEAM MACHINE, LASER BEAM MACHINING METHOD

      
Application Number JP2019039596
Publication Number 2020/085073
Status In Force
Filing Date 2019-10-08
Publication Date 2020-04-30
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Tanaka Yoichi
  • Kawahara Chiaki

Abstract

In the present invention , a movement mechanism moves, with respect to a sheet (W) along the surface of the sheet, a machining head which emits a laser beam. A beam oscillation mechanism oscillates, in a predetermined oscillation pattern, a laser beam with which the sheet (W) is irradiated, while moving the machining head by means of the movement mechanism. If fabricating a product with corners, an oscillation control unit sequentially reduces the amplitude of the oscillation pattern from a first position (P1) to the corner, once the machining head has moved towards the corner and has reached the first position (P1) a predetermined distance (L1) before the corner, and the machining head controls the beam oscillation mechanism in such a manner that the amplitude of the oscillation pattern is sequentially made larger from the corner until a second position (P2) a predetermined distance beyond the corner is reached.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

30.

LASER BEAM MACHINE, METHOD FOR SETTING MACHINING CONDITIONS, AND CONTROL DEVICE FOR LASER BEAM MACHINE

      
Application Number JP2019039598
Publication Number 2020/085074
Status In Force
Filing Date 2019-10-08
Publication Date 2020-04-30
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Tanaka Yoichi
  • Kawahara Chiaki
  • Funaki Koji
  • Watanabe Hideyuki

Abstract

In the present invention, movement mechanisms (22 and 23) move, with respect to a sheet along the surface of the sheet, a machining head which emits a laser beam. A beam oscillation mechanism oscillates a laser beam with which the sheet is irradiated, while the machining head is being moved in relative terms by the movement mechanisms (22 and 23). A machining condition setting unit (507) sets pattern selection information which selects the oscillation pattern for a laser beam generated by the beam oscillation mechanism to correspond to machining conditions including the machining speed of the sheet by relatively moving the machining head by means of the movement mechanisms (22 and 23) and which are specified for each machining command for machining the sheet in the machining program generated to machine the sheet, and parameters which determine the way in which the laser beam is oscillated by the oscillation pattern.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

31.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019041255
Publication Number 2020/085279
Status In Force
Filing Date 2019-10-21
Publication Date 2020-04-30
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Tanaka Youichi
  • Kawahara Chiaki
  • Funaki Koji
  • Makiguchi Kazuya

Abstract

In the present invention, a movement mechanism (22, 23) causes a machining head (35) that emits a laser beam through an opening (36a) of a nozzle (36) to move relative to sheet-metal (W) along the surface of the sheet metal (W) in order to cut the sheet-metal (W) so as to manufacture a product having a prescribed shape. While the movement mechanism (22, 23) causes the machining head (35) to move relatively, a beam oscillation/displacement mechanism (32) oscillates or displaces the laser beam emitted onto the sheet-metal (W) in order to manufacture the product. A movement mechanism control unit (505) controls the movement mechanism (22, 23) so as to cause the machining head (35) to move relatively in a first control period. An oscillation/displacement control unit (504, 5040) controls the beam vibration/displacement mechanism (32) so as to oscillate or displace the laser beam in a second control period that is shorter than the first control period.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

32.

REGIUS

      
Application Number 1528154
Status Registered
Filing Date 2020-03-11
Registration Date 2020-03-11
Owner AMADA HOLDINGS CO.,LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Metal working machines; metal working machines using lasers; laser processing machines for metal working; laser cutting machines for metal working.

33.

Laser processing machine and laser processing method

      
Application Number 16097973
Grant Number 10994374
Status In Force
Filing Date 2018-10-02
First Publication Date 2020-04-23
Grant Date 2021-05-04
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Yamanashi, Takaaki
  • Funaki, Kouji
  • Pohle, Dennis

Abstract

The laser processing machine includes a beam oscillation mechanism that oscillates a beam spot on a surface of a sheet metal. The control device controls the beam oscillation mechanism so as to oscillate the beam spot with an oscillation component in a direction orthogonal to a cutting direction of the sheet metal in a non-holding region, in which a holding portion of the conveyance apparatus for conveying a product is not held, when cutting the product from the sheet metal by irradiating the sheet metal with the laser beam. The non-holding region is at least a part of a periphery of a protrusion portion of the product, or at least a part of a periphery of a recess forming region in which a recess of the product is formed.

IPC Classes  ?

  • B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
  • B23K 26/06 - Shaping the laser beam, e.g. by masks or multi-focusing
  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • B23K 37/02 - Carriages for supporting the welding or cutting element
  • B23K 37/04 - Auxiliary devices or processes, not specially adapted for a procedure covered by only one of the other main groups of this subclass for holding or positioning work
  • B23K 101/18 - Sheet panels
  • B23K 103/04 - Steel alloys

34.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019039237
Publication Number 2020/075632
Status In Force
Filing Date 2019-10-04
Publication Date 2020-04-16
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Sugiyama Akihiko

Abstract

A galvano scanner unit (32), when cutting a sheet metal (W) by irradiating the sheet metal (W) with a laser beam while causing a processing head to be moved relative to the sheet metal (W), causes the laser beam to vibrate. A focusing lens drive unit (340) causes the focal point of the laser beam, with which the sheet metal (W) is irradiated, to be moved in an orthogonal direction orthogonal to the plane of the sheet metal (W). A focal point position control unit (502) controls the focusing lens drive unit (340) in order to cause the focal point of the laser beam to be positioned in a predetermined position in the orthogonal direction. A galvano control unit (501) controls the galvano scanner unit (32) so that the amplitude by which the laser beam is caused to vibrate is changed in accordance with the position of the focal point in the orthogonal direction.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/04 - Automatically aligning, aiming or focusing the laser beam, e.g. using the back-scattered light
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

35.

LASER CUTTING MACHINE AND CONTROL METHOD THEREFOR

      
Application Number JP2019037840
Publication Number 2020/071232
Status In Force
Filing Date 2019-09-26
Publication Date 2020-04-09
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Ito Satoshi
  • Tanaka Atsuya

Abstract

A laser cutting machine comprising: a laser head capable of irradiating laser light on to a workpiece; a belt conveyor provided at a distance apart in the irradiation direction of the laser light; and a control unit that controls the actions of the laser head and the belt conveyor. The laser head is configured so as to be movable at least in the rotation direction of the belt conveyor. The control unit is configured so as to control the action of at least either the laser head or the belt conveyor in order to avoid having the travel direction and the travel speed of the laser head matching the travel direction and the travel speed of the belt conveyor, if same match during laser light irradiation.

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/70 - Auxiliary operations or equipment

36.

LASER MACHINING METHOD, LASER MACHINING DEVICE, AND METHOD FOR MANUFACTURING LASER-MACHINED ARTICLE

      
Application Number JP2019036269
Publication Number 2020/066728
Status In Force
Filing Date 2019-09-17
Publication Date 2020-04-02
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Miyabuchi Shiroyuki
  • Yamazaki Takahiro
  • Kamiyama Takayuki
  • Mashiko Yutaka
  • Satou Haruya

Abstract

A member (W) to be processed and having a first plate-shaped part (1) and a second plate-shaped part (2) connected thereto in a direction intersecting the first plate-shaped part (1) is cut apart by using laser light. A cutting line (Lc1) spanning the first plate-shaped part (1) and the second plate-shaped part (2) is set. A notch portion (2a), which is open at a distal-end portion (2b) of the second plate-shaped part (2) and follows the cutting line (Lc1), is formed by a cutting process using the laser light such that a cutout piece (2ah) that is cut out due to the formation of the notch portion (2a) is divided into a distal-end portion and a base portion. The first plate-shaped part (1) is cut along a cutting line (Ls1) by being irradiated with the laser light from one direction.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting

37.

PLATE THICKNESS DETECTION DEVICE

      
Application Number JP2019035245
Publication Number 2020/066556
Status In Force
Filing Date 2019-09-06
Publication Date 2020-04-02
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Omata Hitoshi
  • Jin Yingjun
  • Suzuki Nobuhiro

Abstract

The present invention is provided with: a workpiece clamping mechanism 25 which is configured by rotatably connecting a first arm member (29A) that is rotatably equipped with a first roller (27A) and a second arm member (29B) that is rotatably equipped with a second roller (27B); a plate thickness detection unit for detecting the angle between the first arm member (29A) and the second arm member (29B); a slide member (15) which is movable in a direction approaching a workpiece (W) along a guide section (13) provided to a guide frame (7); an actuator (41) for reciprocally moving the second arm member (29B); and a slot (53) which is provided to the guide frame (7) so as to allow the workpiece clamping mechanism (25) to oscillate with respect to the workpiece (W) during the reciprocal movement of the second arm member (29B).

IPC Classes  ?

  • G01B 5/06 - Measuring arrangements characterised by the use of mechanical techniques for measuring length, width, or thickness for measuring thickness
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

38.

LASER CUTTING METHOD AND MACHINE, AND AUTOMATIC PROGRAMMING DEVICE

      
Application Number JP2019035139
Publication Number 2020/059533
Status In Force
Filing Date 2019-09-06
Publication Date 2020-03-26
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Hara Hideo
  • Kunihiro Masato

Abstract

In a laser cutting method, cut grooves (7) of welded protruding pieces (11), which are curved by laser cutting along a contour line (9L) of a processed part (3) cut from a workpiece (1) and which press on the peripheral surface of the processed part (3), are laser-cut in advance on the periphery of the processed part (3), a contour groove (9) is formed by laser cutting along the contour line (9L) of the processed part (3), and free ends of the welded protruding pieces (11) are welded to the peripheral surface of the processed part (3). Through the laser cutting method described above, the processed part (3) can be reliably and stably retained for a long time, and the processed part (3) can easily be separated from the workpiece (1) with almost no trace being left on the processed part (3).

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting

39.

PRESS BRAKE AND MANAGEMENT SYSTEM

      
Application Number JP2019032859
Publication Number 2020/059411
Status In Force
Filing Date 2019-08-22
Publication Date 2020-03-26
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Yanagawa Koichi
  • Kato Tetsuaki
  • Yoshida Hidehiko

Abstract

This press brake is provided with hydraulic cylinders which raise and lower an upper table and a lower table relative to each other, and a control unit that controls hydraulic circuits of the hydraulic cylinders, wherein the control unit preemptively manages the occurrence of abnormalities in the hydraulic circuits including first pressure control valves for controlling the back pressures of the hydraulic oil on the first port side of the hydraulic cylinders.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B30B 15/28 - Arrangements for preventing distortion of, or damage to, presses or parts thereof

40.

ARRANGEMENT DATA PREPARATION DEVICE AND ARRANGEMENT DATA PREPARATION METHOD

      
Application Number JP2019024538
Publication Number 2020/049834
Status In Force
Filing Date 2019-06-20
Publication Date 2020-03-12
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Ootsu Takaaki

Abstract

A storage unit (11) stores: component data, including length, for each of a plurality of components as information relating to each component; and material data, including length and the number possessed, for each of a plurality of materials, as information relating to each material. A arrangement data preparation unit (121) selects a first usable material, which is the longest usable material among a plurality of usable materials, and performs nesting in which each component to be produced is arranged in the first usable material. When it is possible to arrange each component to be produced in a second usable material that is shorter than the first usable material, among the plurality of usable materials, while maintaining the condition of the disposition of the components to be produced disposed in the first usable material, the arrangement data preparation unit (121) performs a first post-process in which each component to be produced is arranged in the second usable material.

IPC Classes  ?

  • G06F 17/50 - Computer-aided design
  • B23D 36/00 - Control arrangements specially adapted for machines for shearing or similar cutting, or for sawing, stock while the latter is travelling otherwise than in the direction of the cut

41.

REGIUS

      
Serial Number 79284507
Status Registered
Filing Date 2020-03-11
Registration Date 2020-09-29
Owner AMADA HOLDINGS CO., LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Metal working machines; metal working machines using lasers; laser processing machines for metal working; laser cutting machines for metal working

42.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019031856
Publication Number 2020/045081
Status In Force
Filing Date 2019-08-13
Publication Date 2020-03-05
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

This laser machining device (100) comprises a machining head (35), a movement mechanism (22, 23), a beam displacement mechanism (32), a movement control unit (501), a movement command division unit (503), a movement mechanism control unit (505), and a displacement control unit (506). The movement control unit (501) generates a movement command signal (CS) and determines, on the basis of coordinate information (CF), whether a laser beam (LB) is displaced within a region of an opening (36a) in a nozzle (36). When it has been determined that the laser beam (LB) is displaced within the region of the opening (36a), the movement command division unit (503) generates a main movement command signal (MCS) and a sub movement command signal (SCS) on the basis of the movement command signal (CS). The movement mechanism control unit (505) controls the movement mechanism (22, 23) on the basis of the main movement control signal (MCS). The displacement control unit (506) controls the beam displacement mechanism (32) on the basis of the sub movement command signal (SCS).

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

43.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019027431
Publication Number 2020/036021
Status In Force
Filing Date 2019-07-11
Publication Date 2020-02-20
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

A laser processing machine (100) comprises a movement control unit (501), a movement command division unit (503), a movement mechanism control unit (505), and a displacement control unit (506). The movement control unit (501) generates a movement command signal (CS) that controls the processing direction and the processing speed on the basis of trajectory information (TF), which includes information pertaining to the nozzle trajectory (TP), the beam trajectory (LP), the speed of a processing head (35), and the speed of a beam spot (BS). The movement command division unit (503) generates, on the basis of the movement command signal (CS), a main movement command signal (MCS) that controls the movement direction and movement speed of the processing head (35), and a sub movement command signal (SCS) that controls the movement direction and movement speed of the beam spot (BS). The movement mechanism control unit (505) causes the processing head (35) to move on the basis of the main movement command signal (MCS). The displacement control unit (506) causes the beam spot (BS) to be displaced on the basis of the sub movement command signal (SCS).

IPC Classes  ?

44.

FIBER LASER OSCILLATOR, FIBER FUSION METHOD, AND METHOD FOR MANUFACTURING FIBER LASER OSCILLATOR

      
Application Number JP2019026463
Publication Number 2020/026685
Status In Force
Filing Date 2019-07-03
Publication Date 2020-02-06
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Uchida Takahiro
  • Anzai Kenji
  • Miura Hideo
  • Arimoto Yosuke

Abstract

A fiber laser oscillator 1 that emits laser light comprises: a fiber Bragg grating 4 that reflects a specific wavelength component of the laser light, and an active fiber spool 6 in which an active fiber 6a is wound and accommodated. The active fiber spool 6 has a plurality of outer peripheral outlets 14 provided along the outer periphery thereof for pulling out the active fiber 6a. Where the number of unsuccessful fusions between the optical fiber from the fiber Bragg grating 4 and the active fiber 6a from the active fiber spool 6 is greater than or equal to a predetermined number, the outer peripheral outlet 14 of the active fiber 6a is changed to adjust the pull-out length of the active fiber 6a from the active fiber spool 6.

IPC Classes  ?

  • H01S 3/067 - Fibre lasers
  • G02B 6/255 - Splicing of light guides, e.g. by fusion or bonding
  • H01S 3/02 - Constructional details
  • H01S 3/042 - Arrangements for thermal management for solid state lasers

45.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019026806
Publication Number 2020/026701
Status In Force
Filing Date 2019-07-05
Publication Date 2020-02-06
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji
  • Sugiyama Akihiko
  • Shigefuji Takehiko

Abstract

A control device controls a beam oscillation mechanism so that: a beam spot is moved from a first irradiation position that is at a front end in a cutting progression direction to a second irradiation position that is toward the rear in the cutting progression direction and is displaced in a direction orthogonal to the cutting progression direction; the beam spot is caused to move from the second irradiation position to a third irradiation position that is at the front end in the cutting progression direction and is displaced in the direction orthogonal to the cutting progression direction; and a laser beam is oscillated in a C-shaped oscillation pattern by repeating a movement from the first irradiation position to the third irradiation position via the second irradiation position and a movement from the third irradiation position to the first irradiation position via the second irradiation position. The control device performs a control so that beam spots at the first to third irradiation positions overlap each other and so that sheet metal W is cut.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

46.

WELDING METHOD BY WELDING ROBOT, AND WELDING ROBOT

      
Application Number JP2019027517
Publication Number 2020/026750
Status In Force
Filing Date 2019-07-11
Publication Date 2020-02-06
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Kato Toshihide
  • Amano Tatsuya
  • Saito Junichi
  • Tashiro Masahiro

Abstract

Provided is a welding method by a welding robot (1) provided with: a wire supply device (25) for supplying a filler wire (FW); a sub-supply device (29) that is provided in the vicinity of a guide nozzle (27) for guiding the filler wire to a welding position and supplies the filler wire; and a guide tube (37) that is provided between the wire supply device and the sub-supply device and guides the filler wire, wherein both a step for controlling the wire supply device to stop operating or operate at low speed when a slight motion of the guide tube in the supply direction (F) of the filler wire is detected, and a step for returning the wire supply device to the original operation state when the return of the guide tube is detected are performed while continuously supplying the filler wire by means of the sub-supply device.

IPC Classes  ?

  • B23K 26/21 - Bonding by welding
  • B23K 9/12 - Automatic feeding or moving of electrodes or work for spot or seam welding or cutting

47.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019024556
Publication Number 2020/021924
Status In Force
Filing Date 2019-06-20
Publication Date 2020-01-30
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji
  • Knorr Andreas

Abstract

A delaying device delays a movement command signal for causing a machining head to move in a relative manner. A low-pass filter allows only low-frequency components from the movement command signal to pass and generates a main movement command signal. A subtraction device subtracts the main movement command signal from the delayed movement command signal and generates an auxiliary movement command signal for displacing the position of a laser beam in an opening by means of a beam displacement mechanism. A movement mechanism control unit controls a movement mechanism of the machining head so that the machining head moves in a relative manner on the basis of the main movement command signal. A displacement control unit controls the beam displacement mechanism so that the position of a laser beam, which is emitted through an opening of a nozzle, in the opening is displaced on the basis of the auxiliary movement command signal.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece

48.

TOOL FOR PRESS BRAKE

      
Application Number JP2019028025
Publication Number 2020/017532
Status In Force
Filing Date 2019-07-17
Publication Date 2020-01-23
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Hayashi Shiro
  • Kamata Shingo
  • Yamada Hideto
  • Yamaguchi Yohei

Abstract

A tool (10) for a press brake is provided with a tool main body (18), an attachment portion (20) which is formed on the base end side (one end side) of the tool main body and which is removably attached to a tool installation portion (14) of the press brake by a tool changer (12), and a bending portion (22) which is formed on the front end side (the other end side) of the tool main body and which bends a plate-like workpiece. In the tool main body, a circular cross-sectioned engagement hole (18h) with which a bar-like finger (30) of the tool changer engages extends in a thickness direction (the direction of thickness of the tool) at the same position, in a width direction, as the position of center of gravity (the position of center of gravity of the tool).

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 37/04 - Movable or exchangeable mountings for tools

49.

TOOL FOR PRESS BRAKE

      
Application Number JP2019028033
Publication Number 2020/017539
Status In Force
Filing Date 2019-07-17
Publication Date 2020-01-23
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Hayashi Shiro
  • Kamata Shingo
  • Yamada Hideto
  • Yamaguchi Yohei

Abstract

A tool (10) for a press brake is provided with a tool main body (18), an attachment portion (20) which is formed on the base end side of the tool main body and which is removably attached to a tool installation portion (14) of the press brake by a tool changer (12), and a bending portion (22) which is formed on the front end side of the tool main body and which bends a plate-like workpiece. A circular cross-sectioned engagement hole (18h) with which a bar-like finger (30) of the tool changer engages extends through the tool main body in a thickness direction. A rotation-preventing closed-end depressed portion (18f) which receives the front end of a rotation preventing member (34) of the tool changer is formed near the engagement hole.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 37/04 - Movable or exchangeable mountings for tools

50.

UPPER DIE STOCKER

      
Application Number JP2019028035
Publication Number 2020/017540
Status In Force
Filing Date 2019-07-17
Publication Date 2020-01-23
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Hayashi Shiro
  • Kamata Shingo
  • Yamada Hideto
  • Yamaguchi Yohei

Abstract

An upper die stocker (83, 97) for detachably supporting a plurality of divided upper dies (17) in a press brake (1) is provided with a stocker main body (83) that extends in the left-right direction and is provided with a left-right direction fitting groove (87) into which an attachment portion (79) provided at an upper portion of each divided upper die (17) is detachably fitted, wherein the stocker main body is provided with vertical-direction cutouts (101A-101D) that is communicated with the fitting groove in order to detach a divided upper die from the fitting groove in the downward direction or in the vertical direction.

IPC Classes  ?

  • B21D 37/04 - Movable or exchangeable mountings for tools
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

51.

TOOL CHANGER

      
Application Number JP2019028031
Publication Number 2020/017537
Status In Force
Filing Date 2019-07-17
Publication Date 2020-01-23
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Hayashi Shiro
  • Kamata Shingo
  • Yamada Hideto
  • Yamaguchi Yohei

Abstract

A tool changer (10) is provided with: a slider (46) provided behind (or in front of) a table (16) of a press brake and capable of sliding in a left-right direction along a tool installation portion (12) of the table; a finger (30) which is provided to the slider, is insertable into an engagement hole (18h) extending through a tool (14), and is movable in a front-rear direction; and an engagement member (32) capable of protruding and retracting relative to the front end-side outer peripheral surface of the finger and engaging with a peripheral edge of the engagement hole in the tool (or with an inner step section formed in the engagement hole at a position between the ends thereof).

IPC Classes  ?

  • B21D 37/04 - Movable or exchangeable mountings for tools
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

52.

METHOD FOR FITTING DIVIDED UPPER DIE TO UPPER DIE HOLDER PROVIDED ON UPPER TABLE OF PRESS BRAKE, DIE EXCHANGING DEVICE, AND DIE STOCKER

      
Application Number JP2019028038
Publication Number 2020/017541
Status In Force
Filing Date 2019-07-17
Publication Date 2020-01-23
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Hayashi Shiro
  • Kamata Shingo
  • Yamada Hideto
  • Yamaguchi Yohei

Abstract

In a fitting method for using a die exchanging device (20) to fit divided upper dies (17) to upper die holders (15) which are disposed spaced apart by an appropriate interval in a left-right direction on a lower portion of an upper table (11) of a press brake (1), a round rod-shaped finger (53) provided to the die exchanging device (20) latches into a circular latching hole (51) provided in a central portion, in the width direction, of each divided upper die (17). The divided upper die (17) is temporarily positioned in a gap between the upper die holder (15) to which the divided upper die (17) is to be fitted, and an adjacent upper die holder (15). The temporarily positioned divided upper die (17) is moved in the left-right direction and is fitted to the upper die holder (15) to which the divided upper die (17) is to be fitted.

IPC Classes  ?

  • B21D 37/04 - Movable or exchangeable mountings for tools
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

53.

AMADA

      
Application Number 1508935
Status Registered
Filing Date 2019-08-13
Registration Date 2019-08-13
Owner AMADA HOLDINGS CO.,LTD. (Japan)
NICE Classes  ? 42 - Scientific, technological and industrial services, research and design

Goods & Services

Computer programming, installation, maintenance, copying, converting (except physical change), updating, servicing of computer programs and computer software, including via the Internet; remote computer programming of machine controls, updating of computer software for machine controls; providing computer software for implementing computer programs to computer-controlled machines; technical consulting in regard to the design and development of computer software for data processing; design and developing of computer software for metalworking machines and tools in the field of telecommunications solutions, in particular telecommunications solutions for the remote diagnoses of machine malfunctions and machine servicing by means of telecommunications systems; design and developing of computer software for providing Internet access for computer-based machine controls; remote maintenance and repair of computer software for metalworking machines and tools via telecommunication, including via the Internet; maintenance and installation of machine control software, installation and updating of computer software for machine controls for fault elimination; technological advisory and consultancy services relating to the operation of machinery by providing of help-desk to machine users, providing technological information, namely information relating to machinery on the Internet; software as a service [SaaS]; cloud computing; platform as a service [PaaS].

54.

CUTTING MACHINE AND CUTTING METHOD

      
Application Number JP2019022104
Publication Number 2020/008778
Status In Force
Filing Date 2019-06-04
Publication Date 2020-01-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

A cutting machine (1) that comprises a machine body (100) and an NC device (200). The NC device (200) has a tool diameter correction amount computation part (201), a processing path computation part (202), and a drive control part (203). The tool diameter correction amount computation part (201): recognizes a non-circular tool path (TP) that is included in processing conditions (CP) and corresponds to a cutting tool that cuts a workpiece (W); determines whether a plurality of processing plane formation locations (MPL or MPR) are on the tool path (TP); and, upon determining that the plurality of processing plane formation locations (MPL or MPR) are on the tool path (TP), selects an arbitrary processing plane formation location (MPL or MPR). The processing plane formation locations (MPL or MPR) are locations on the tool path (TP) at which a tool diameter is greatest. The processing path computation part (202) generates a tool diameter correction control signal (TS). The drive control part (203) controls the machine body (100).

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/36 - Removing material
  • B23Q 15/00 - Automatic control or regulation of feed movement, cutting velocity or position of tool or work
  • G05B 19/4093 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by part programming, e.g. entry of geometrical information as taken from a technical drawing, combining this with machining and material information to obtain control information, named part programme, for the NC machine

55.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019023490
Publication Number 2020/008833
Status In Force
Filing Date 2019-06-13
Publication Date 2020-01-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji
  • Sugiyama Akihiko
  • Shigefuji Takehiko

Abstract

A beam oscillation mechanism causes a laser beam to oscillate in a parallel direction to the direction in which cutting of a metal sheet (W) proceeds. The amplitude amount of the laser beam is Qx, the radius of a first circular region having an area occupying 86% of optical energy on the central side of the entire optical energy in the cross sectional area of the laser beam on an upper surface of the metal sheet (W) is rtop, and the radius of a second circular region having an area occupying 86% of optical energy on the central side of the entire optical energy in the cross sectional area of the laser beam on a lower surface of the metal sheet (W) is rbottom. A computed value Va is expressed by the following expression. When the standard deviation of the computed value Va when cutting the metal sheet (W) of a plurality of thicknesses is Vasd, as a nozzle (36) attached to a processing head (35), a nozzle of which the diameter of an opening (36a) is between a minimum value obtained by 2Va - Vasd and a maximum value obtained by 2.5Va + Vasd is used.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

56.

Hard tip band-saw blade

      
Application Number 16482849
Grant Number 10821531
Status In Force
Filing Date 2018-02-21
First Publication Date 2020-01-09
Grant Date 2020-11-03
Owner
  • AMADA HOLDINGS CO., LTD. (Japan)
  • AMADA MACHINE TOOLS COMPANY, LTD. (Japan)
Inventor
  • Yamashita, Yoshihiro
  • Schloegl, Manfred
  • Maeda, Kensaku

Abstract

A hard tip band-saw blade includes alternating sawtooth groups. Each of the sawtooth groups includes two sawtooth subgroups. The first sawtooth subgroup includes, as a plurality of sawteeth, a first leading tooth and a first following tooth and the second sawtooth subgroup includes, as a plurality of sawteeth, a second leading tooth, a second following tooth, and a third following tooth. Each tooth top corner part of a hard tip of the first following tooth, a tooth top corner part on a left side of a hard tip of the second following tooth, and a tooth top corner part on a right side of a hard tip of the third following tooth most outwardly protrude in a left-right direction.

IPC Classes  ?

  • B23D 61/12 - Straight saw bladesStrap saw blades

57.

CUTTING MACHINE AND CUTTING METHOD

      
Application Number JP2019022105
Publication Number 2020/008779
Status In Force
Filing Date 2019-06-04
Publication Date 2020-01-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

A cutting machine (1) that comprises a machine body (100) and an NC device (200). The NC device (200) controls the machine body (100) and has a tool diameter correction amount computation part (201), a processing path computation part (202), and a drive control part (203). The tool diameter correction amount computation part (201) generates tool diameter correction information (TC). The processing path computation part (202) generates a tool diameter correction control signal (TS). The drive control part (203) generates a drive control signal (CS). The machine body (100) has a processing unit (104) and a tool path control part (300). The processing unit (104) moves relative to a workpiece (W) and thereby cuts the workpiece (W). On the basis of the drive control signal (CS), the tool path control part (300) controls a non-circular tool path that corresponds to a cutting tool.

IPC Classes  ?

  • B23K 26/36 - Removing material
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
  • B23K 26/073 - Shaping the laser spot
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23Q 15/00 - Automatic control or regulation of feed movement, cutting velocity or position of tool or work
  • G05B 19/4093 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by part programming, e.g. entry of geometrical information as taken from a technical drawing, combining this with machining and material information to obtain control information, named part programme, for the NC machine

58.

CUTTING MACHINE AND CUTTING METHOD

      
Application Number JP2019022106
Publication Number 2020/008780
Status In Force
Filing Date 2019-06-04
Publication Date 2020-01-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

A cutting machine (1) that comprises a machine body (100) and an NC device (200). The NC device (200) has a tool diameter correction amount computation part (201), a processing path computation part (202), and a drive control part (203). The machine body (100) has a processing unit (104) and a tool path control part (300). When cutting tool information that is for altering a tool path (TP) during cutting is included in processing conditions (CP), the tool diameter correction amount computation part (201) recognizes a plurality of tool paths (TP) that are included in the processing conditions (CP) and generates tool diameter correction information (TC) that includes the plurality of tool paths (TP). The processing path computation part (202) generates a tool diameter correction control signal (TS) on the basis of a processing program (PP), the processing conditions (CP), and the tool diameter correction information (TC). On the basis of the tool diameter correction control signal (TS), the drive control part (203) generates a drive control signal (CS) for controlling the machine body (100).

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/36 - Removing material
  • B23Q 15/00 - Automatic control or regulation of feed movement, cutting velocity or position of tool or work
  • G05B 19/4093 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by part programming, e.g. entry of geometrical information as taken from a technical drawing, combining this with machining and material information to obtain control information, named part programme, for the NC machine

59.

LASER MACHINING DEVICE AND LASER MACHINING METHOD

      
Application Number JP2019023394
Publication Number 2020/008827
Status In Force
Filing Date 2019-06-13
Publication Date 2020-01-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji
  • Sugiyama Akihiko

Abstract

A machining head (35) emits a laser beam for cutting a stainless steel metal sheet (W). A moving mechanism causes the machining head (35) to be moved relative to a surface of the metal sheet (W). A beam vibrating mechanism causes the laser beam to vibrate in a parallel direction to a direction in which the cutting of the metal sheet (W) proceeds. In a machining condition database (70), with respect to a maximum moving speed enabling the cutting of the metal sheet (W), a single specific vibration frequency enabling the cutting of the metal sheet (W) is set, and, with respect to a moving speed more than or equal to a minimum moving speed enabling the cutting of the metal sheet (W) and less than the maximum moving speed, a plurality of vibration frequencies from a maximum frequency to a minimum frequency enabling the cutting of the metal sheet (W) are set. An NC device (50) controls the beam vibrating mechanism so as to cause the laser beam to vibrate at the vibration frequencies set in the machining condition database (70).

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

60.

Laser cutting method and machine, and automatic programing apparatus

      
Application Number 16490180
Grant Number 10974346
Status In Force
Filing Date 2018-03-19
First Publication Date 2020-01-02
Grant Date 2021-04-13
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Jin, Yingjun
  • Omata, Hitoshi
  • Ishiguro, Hiroaki
  • Okamoto, Takuya
  • Hara, Hideo
  • Kunihiro, Masato

Abstract

According to a laser cutting method, a processed part is laser-cut so that the processed part doesn't drop off from a sheet-shaped workpiece. In the laser cutting method, a cut slit of a pressing protrusion, which is curved due to a laser cutting process along an outline of the processed part and then presses a peripheral surface of the processed part, is preliminarily formed around the processed part to be cut out from the workpiece. Then, the laser cutting process is carried out along the outline of the processed part. The pressing protrusion curves toward the processed part due to the laser cutting process of the processed part, and then the processed part is retained by the pressing protrusion.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/08 - Devices involving relative movement between laser beam and workpiece
  • G05B 19/4097 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by using design data to control NC machines, e.g. CAD/CAM

61.

LASER MACHINING HEAD AND LASER MACHINING DEVICE

      
Application Number JP2019022266
Publication Number 2019/239974
Status In Force
Filing Date 2019-06-05
Publication Date 2019-12-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Kato Toshihide

Abstract

In the present invention, a protective glass (7c) is disposed between a condenser lens (7b) and a nozzle (9). A swirling flow-channel part (82a) causes gas (G) supplied from the outside to swirl around an optical axis (CL7) of the condenser lens (7b). A filter (85) is formed of a porous material and is housed in the swirling flow-channel part (82a). An axial flow-channel part (82b) directs the flow of gas (G) that has passed through the filter (85) toward the protective glass (7c) along the optical axis (CL7) of the condenser lens (7b). A deflecting flow-channel part (82e) turns the flow of gas (G) that has passed through the axial flow-channel part (82b) into an inward flow (G4) directed to the optical axis (CL7) along a surface (7c1), of the protective glass (7c), on the near side of the nozzle (9).

IPC Classes  ?

  • B23K 26/142 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor for the removal of by-products
  • B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms

62.

SPLIT DIE ATTACHMENT METHOD AND PRESS BRAKE

      
Application Number JP2019021143
Publication Number 2019/239883
Status In Force
Filing Date 2019-05-28
Publication Date 2019-12-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Watanabe Katsumi
  • Onagi Yousuke
  • Nishihata Yuto

Abstract

In the present invention, in proximity to a split die (P1, D1) already mounted to a die mounting part (9U, 9L), another split die P2, D2 is mounted to the die mounting part by an automatic die changing device (13U, 13L). The other mounted split die (P2, D2) is moved in the direction of the already mounted split die (P1, D1) by the automatic die changing device (13U, 13L) and the other split die (P2, D2) is made to contact the already mounted split die (P1, D1). When the torque of a servomotor for moving the automatic die changing device (13U, 13L) in the left-right direction reaches a preset value, it is detected that the other split die has contacted the already mounted split die and the movement of the other split die is stopped.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 37/04 - Movable or exchangeable mountings for tools

63.

TRANSPORT DEVICE AND FETCHING UNIT

      
Application Number JP2019022300
Publication Number 2019/239979
Status In Force
Filing Date 2019-06-05
Publication Date 2019-12-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Sato Masaaki
  • Takahashi Yuki
  • Iwanaga Hiroshi

Abstract

This transport device comprises: a main pad joined to the transport body, the main pad chucking a workpiece by suction; a swinging member that is supported by the transport body so as to be capable of swinging about a swing axis; a contactor that rises and falls together with the transport body, the contactor contacting the workpiece; a first auxiliary pad supported by the swinging member at a location farther from the transport body than the swing axis, the first auxiliary pad chucking the workpice by suction, and the first auxiliary pad also being capable of contracting toward the workpiece; and a second auxiliary pad supported by the swinging member at a location closer to the transport body than the swing axis, the second auxiliary pad chucking the workpiece by suction, and the second auxiliary pad also being capable of contracting toward the workpiece in a stroke amount greater than that for the first auxiliary pad.

IPC Classes  ?

  • B25J 15/06 - Gripping heads with vacuum or magnetic holding means
  • B65H 3/08 - Separating articles from piles using pneumatic force

64.

CIRCULAR BAND SAW BLADE MANUFACTURING METHOD AND MANUFACTURING METHOD AND APPARATUS

      
Application Number JP2019021910
Publication Number 2019/235404
Status In Force
Filing Date 2019-06-03
Publication Date 2019-12-12
Owner
  • AMADA HOLDINGS CO.,LTD. (Japan)
  • AMADA MACHINE TOOLS CO.,LTD. (Japan)
Inventor Maeda Kensaku

Abstract

In a circularization step, both ends of a band saw blade (1) are welded together to form a circular shape, the band saw blade having a band-shaped body section (1a) and a toothed section (1b) including a plurality of teeth formed on one side of the body section. In a polishing step, an inner surface (14A), an outer surface (14B), and an edge surface (13) of the circularized circular band saw blade (1E) are polished, the edge surface being on the side opposite the toothed section. In a tooth tip forming step, after the polishing step, the circularized circular band saw blade is positioned using the edge surface and either the inner surface or the outer surface as references, cutting tips (15) are attached by welding to the tooth tips of the plurality of teeth, and the attached cutting tips are polished to form the tooth tip shapes.

IPC Classes  ?

  • B23D 63/12 - Sharpening the cutting edges of saw teeth by grinding
  • B23D 61/12 - Straight saw bladesStrap saw blades
  • B23D 65/00 - Making tools for sawing machines or sawing devices for use in cutting any kind of material
  • B23P 15/28 - Making specific metal objects by operations not covered by a single other subclass or a group in this subclass cutting tools

65.

INTERMEDIATE PLATE DEVICE

      
Application Number JP2019021597
Publication Number 2019/230909
Status In Force
Filing Date 2019-05-30
Publication Date 2019-12-05
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Shikanai Hirokatsu
  • Fuchinoue Yohei

Abstract

An intermediate plate device is provided with: an intermediate plate main body mounted on a lower portion of an upper table of a press brake; a pinching member for pinching a member to be pinched between the pinching member and the intermediate plate main body, the pinching member being attached to the intermediate main body; and an attachment mechanism for attaching the pinching member to the intermediate main body. The attachment mechanism is provided with: a bolt disposed on the intermediate plate main body and the pinching member so as to be penetrated therethrough in such a manner that a head portion of the bolt is disposed on one of the intermediate plate main body and the pinching member, and a shaft portion thereof is disposed on the other; a movable member which is screwed on a screw portion formed on the shaft portion of the bolt, and is provided movably along a shaft direction of the bolt in conjunction with a rotation of the shaft portion; and a fixed member fixed on a tip side of the shaft portion of the bolt.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 37/14 - Particular arrangements for handling and holding in place complete dies

66.

PRESS BRAKE CONTROL DEVICE, PRESS BRAKE CONTROL METHOD, DIE, AND DATA STRUCTURE OF DIE INFORMATION

      
Application Number JP2019015107
Publication Number 2019/230192
Status In Force
Filing Date 2019-04-05
Publication Date 2019-12-05
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Jin Yingjun
  • Fuchinoue Yohei
  • Omata Hitoshi

Abstract

At a time when a sheet metal is sandwiched between a punch held by a punch holder and a die held by a die holder, and the sheet metal is bent at a set bending angle by moving the punch toward the die, a stroke calculation unit (202) calculates a stroke (St) of the punch for bending the sheet metal at the bending angle in consideration of a spring back amount of the bent sheet metal. A bending load calculation unit (203) calculates a bending load (BF) required to bend the sheet metal at the bending angle. A punch warp amount calculation unit (206) calculates a punch warp amount (d206) according to the bending load (BF). A punch holder warp amount calculation unit (207) calculates the punch holder warp amount (d207) according to the bending load (BF). A depth value calculation unit (210) adds at least the punch warp amount (d206) and the punch holder warp amount (d207) to the stroke (St) to calculate a depth value (D210).

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

67.

PROCESSING HEAD

      
Application Number JP2019015106
Publication Number 2019/225174
Status In Force
Filing Date 2019-04-05
Publication Date 2019-11-28
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Miura Hideo
  • Ogata Minoru
  • Anzai Kenji

Abstract

A processing head (20) comprising a collimating lens (21) for converting laser light emitted from the emission end of a delivery fiber (12) into collimated light, and a focusing lens (22) for focusing and shining the collimated light onto a workpiece (metal plate W). An optical component provided in the interior of the processing head (20) has, applied thereto, a reflective coat (210) for attenuating unnecessary light (Lsrs) traveling from the delivery fiber (12) toward the workpiece and having a wavelength other than the oscillation wavelength of a fiber laser oscillator (10) among the wavelengths for which an active fiber (103) provided in the fiber laser oscillator (10) has a gain. The reflective coat (210) attenuates the unnecessary light (Lsrs) such that the amount of light when the unnecessary light (Lsrs) is reflected by the reflective coat (210) and enters the delivery fiber (12) from the emission end is no more than −50 dB relative to the light amount of the laser light emitted from the emission end.

IPC Classes  ?

  • B23K 26/064 - Shaping the laser beam, e.g. by masks or multi-focusing by means of optical elements, e.g. lenses, mirrors or prisms
  • G02B 6/32 - Optical coupling means having lens focusing means
  • H01S 3/00 - Lasers, i.e. devices using stimulated emission of electromagnetic radiation in the infrared, visible or ultraviolet wave range
  • H01S 3/067 - Fibre lasers
  • H01S 3/10 - Controlling the intensity, frequency, phase, polarisation or direction of the emitted radiation, e.g. switching, gating, modulating or demodulating

68.

DIE FOR FORMING CORNER SECTION, MANUFACTURING METHOD THEREFOR, AND CORNER SECTION FORMING METHOD

      
Application Number JP2019020367
Publication Number 2019/225673
Status In Force
Filing Date 2019-05-23
Publication Date 2019-11-28
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Imai Norio
  • Shikanai Hirokatsu

Abstract

A die (D) for forming a corner section and used in a corner section formation method comprises a core member (10) for forming an apex region, which includes an apex portion of a corner section (K) of a workpiece (W), into a rounded shape, and an outer tube member (20) arranged so as to surround the periphery of the core member (10). The core member (10) and the outer tube member (20) are configured so as to be movable between a retracted position in which the core member (10) is withdrawn into the outer tube member (20) and an advanced position in which the core member (10) is advanced from the retracted position relative to the outer tube member (20).

IPC Classes  ?

  • B21D 5/01 - Bending sheet metal along straight lines, e.g. to form simple curves between rams and anvils or abutments

69.

LASER BEAM PROCESSING MACHINE AND METHOD FOR DETECTING STATE OF OPTICAL COMPONENT

      
Application Number JP2019012301
Publication Number 2019/216040
Status In Force
Filing Date 2019-03-25
Publication Date 2019-11-14
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Koshimizu Hiroshi

Abstract

According to the present invention, a beam irradiation unit (a collimator unit 30, a processing head 35, and a nozzle 36) has a plurality of optical components for converting a laser beam, which is emission light, into collimator light and then focusing the collimator light to irradiate sheet metal (W). A light detection element (a photodiode 404) detects the intensity of light reflected from an optical component being inspected among the plurality of optical components. A control device (an NC device 50) controls a laser beam serving as inspection light so that the laser beam is emitted onto a pierced region after a piercing process performed in order to manufacture a product by cutting the sheet metal W, and compares the intensity of the reflected light detected by the light detection element when the inspection light is emitted and a threshold to detect for the presence of degradation of the optical component being inspected, or to detect the degree of the degradation.

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/38 - Removing material by boring or cutting

70.

LASER WELDING METHOD FOR CORNER JOINT

      
Application Number JP2019017381
Publication Number 2019/216217
Status In Force
Filing Date 2019-04-24
Publication Date 2019-11-14
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Tsuchiura Kenichi

Abstract

In this laser welding method for a corner joint, one plate member is made to abut another plate member, a corner joint is formed, and welding is performed. The laser welding method for a corner joint includes: a step in which one plate member is prepared by performing end surface processing in which a notch is made in an end surface of said plate member; a step in which the other plate member is prepared; a step in which the other plate member is fit to the notch in the end surface of the one plate member and a corner joint is formed; and a step in which laser welding is performed on the corner joint.

IPC Classes  ?

71.

ALLOCATION DATA CREATION DEVICE AND ALLOCATION DATA CREATION METHOD

      
Application Number JP2019011778
Publication Number 2019/188686
Status In Force
Filing Date 2019-03-20
Publication Date 2019-10-03
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nonaka Takashi
  • Ishikawa Yuuki

Abstract

A shared cut setting unit (103) sets a shared cut set line for two part figures. A part figure position control unit (110) separates the two part figures by a distance equal to a beam diameter. An expanded contour line setting unit (112) sets an expanded contour line at a position at which the contour lines of the two part figures are expanded by a distance equal to 1/2 the beam diameter. A shared cut line setting unit (113) sets one of the overlapping line segments among the two expanded contour lines as a shared cut line. A contour cut line setting unit (114) sets a portion excluding the overlapping line segments among the two expanded contour lines as a contour cut line for a collective parts figure. An allocation setting unit (115) allocates a laser beam cutting route for the contour cut line and the shared cut line, thereby creating allocation data for the collective parts figure.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting

72.

LASER PROCESSING MACHINE, LASER PROCESSING METHOD, AND PROCESSING PROGRAM CREATION DEVICE

      
Application Number JP2019011810
Publication Number 2019/188694
Status In Force
Filing Date 2019-03-20
Publication Date 2019-10-03
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Komatsu Takayuki
  • Nogi Kazuhisa
  • Kikkawa Noboru

Abstract

An NC device (20) controls a processing machine body (80) so as to cut the periphery of an opening forming region in a material (sheet metal W) to form an opening. The NC device (20) controls the processing machine body (80) so that, when one skid (13) is interfering with the opening forming region and the interfering skid (13) is positioned within a margin width in an arrayed direction of the skid (13) from the first center of gravity of the opening forming region, the opening forming region is cut along a dividing line which is set at a position spaced apart from the skid (13) by a predetermined distance in the arrayed direction. The predetermined distance is such that the material does not become welded to the skid (13) when the opening forming region is cut along the dividing line, and such that a second center of gravity of a scrap which is formed by the cutting of the opening forming region along the dividing line and by the cutting of the periphery of the opening forming region and interferes with the skid (13) is positioned at a distance from the skid (13) greater than the margin width.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring

73.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019011029
Publication Number 2019/181816
Status In Force
Filing Date 2019-03-18
Publication Date 2019-09-26
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Iwasaki Jun
  • Miyoshi Hironobu

Abstract

This laser processing machine is provided with: a laser oscillator which outputs laser light in a 1 μm wavelength band; a laser processing head which is optically connected to the laser oscillator and which radiates the laser light while injecting an assisting gas toward a workpiece; a detecting unit which is provided inside the laser processing head and which detects returned light directed toward the laser processing head, concomitant with the radiation of the laser light, from a processing point side including a processing point and an area in the vicinity of the processing point; and a monitoring unit which monitors the state of the laser processing by selecting, as a time series, a light level of a specific wavelength band corresponding to a processing condition, among the returned light detected by the detecting unit. The state of the laser processing is monitored on the basis of the time-series light level of the specific wavelength band.

IPC Classes  ?

  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring

74.

SAFETY DEVICE OF PROCESSING MACHINE

      
Application Number JP2019011028
Publication Number 2019/181815
Status In Force
Filing Date 2019-03-18
Publication Date 2019-09-26
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Aoki Takayuki

Abstract

An intruding object detection device (20) is attached at a side perpendicular to the moving direction of a movable body (upper table 1) in a processing machine. The intruding object detection device (20) is provided with a light projection unit, a light reception unit, a distance calculation unit, and an operation permission signal output unit. On the basis of high frequency signals, the light projection unit projects high frequency light between the movable body and a fixed body (lower table 2). The light reception unit generates a light reception signal on the basis of the light that enters therein. When an intruding object is present between the movable body and the fixed body, the distance calculation unit calculates the distance from the intruding object detection device (20) to the intruding object. If the distance calculated by the distance calculation unit is not within a pre-set reference distance, the operation permission signal output unit outputs an operation permission signal that permits operation of the processing machine, and if the distance is within the reference distance, the operation permission signal output unit stops the output of the operation permission signal.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 55/00 - Safety devices protecting the machine or the operator, specially adapted for apparatus or machines dealt with in this subclass
  • B23Q 11/00 - Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling workSafety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
  • B30B 15/00 - Details of, or accessories for, pressesAuxiliary measures in connection with pressing

75.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019004034
Publication Number 2019/176379
Status In Force
Filing Date 2019-02-05
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji

Abstract

A nozzle (36) for emitting a laser beam via an opening (36a) is mounted to the tip of a processing head (35). A focusing lens (34) provided in the processing head (35) focuses the laser beam and irradiates a sheet metal with the laser beam. A beam displacement mechanism (galvanoscanner unit 32) causes the position of the laser beam emitted via the opening (36a) to be displaced in the opening (36a). An NC device (50), when implementing a piercing process outside a product by means of the laser beam while an assist gas is sprayed onto the sheet metal, controls the beam displacement mechanism so that the position of the laser beam, emitted via the opening (36a), in the opening (36a) is displaced from the center of the opening (36a) to a position in a direction away from the product.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/142 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor for the removal of by-products
  • B23K 26/382 - Removing material by boring or cutting by boring

76.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019005195
Publication Number 2019/176431
Status In Force
Filing Date 2019-02-14
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji

Abstract

This laser processing machine is provided with a beam vibrating mechanism for vibrating a beam spot (Bs) on a surface of a sheet metal (W). The laser processing machine cuts from the sheet metal (W) a region to be cut (product 200) having a corner portion (C1), while spraying the sheet metal (W) with an assist gas. A control device controls the beam vibrating mechanism so as to cause the beam spot (Bs) to vibrate, by at least a first distance (distance L2) after the beam spot (Bs) has reached the corner portion (C1), in a vibration pattern including a vibration component in a direction perpendicular to a cutting proceeding direction.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/16 - Removal of by-products, e.g. particles or vapours produced during treatment of a workpiece

77.

CUTTING MACHINE AND CUTTING METHOD

      
Application Number JP2019008527
Publication Number 2019/176631
Status In Force
Filing Date 2019-03-05
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

The present invention provides a cutting machine including a cutting machine (1) which comprises a machine body (100) and an NC device (200). The NC device (200) has a tool diameter correction amount calculation unit (201), a processing path calculation unit (202), and a drive control unit (203). The processing path calculation unit (202) generates a tool diameter correction control signal (TS). The drive control unit (203) generates a drive control signal (CS). When tool path control information, which has been set so as to control a tool path (TP) when cutting a portion corresponding to a corner of a final processed product with respect to a workpiece (W), is included in a processing condition (CP), the tool diameter correction amount calculation unit (201) generates tool diameter correction information for correcting the tool diameter of the tool path (TP). The machine body (100) controls the tool path (TP) so that the tool path (TP) becomes the target tool diameter at a position (KP) corresponding to the corner of the final processed product in the workpiece (W).

IPC Classes  ?

  • G05B 19/404 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by control arrangements for compensation, e.g. for backlash, overshoot, tool offset, tool wear, temperature, machine construction errors, load, inertia
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/36 - Removing material
  • B23K 26/70 - Auxiliary operations or equipment

78.

LASER LIGHT CENTERING METHOD AND LASER PROCESSING DEVICE

      
Application Number JP2019009402
Publication Number 2019/176786
Status In Force
Filing Date 2019-03-08
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji
  • Miyoshi Hironobu

Abstract

A laser light centering method comprising: (1) capturing an image of the shape of a tip-end surface of a nozzle of a laser processing head of a laser processing device by means of a camera; (2) calculating the center position of a nozzle hole on the basis of the captured shape of the tip-end surface; (c) emitting examination light out of the nozzle hole; (3) capturing an image of the shape of the tip-end surface of the nozzle in a state in which the examination light is being emitted, and calculating the position of the examination light; (4) calculating a position error between the calculated center of the nozzle hole with the examination light; and (5) controlling, on the basis of the position error, an optical path adjustment mechanism for adjusting the incident angle of the examination light with respect to a focusing lens of the laser processing head, and causing the center of the nozzle hole and the optical axis of the examination light to be aligned with each other.

IPC Classes  ?

  • B23K 26/035 - Aligning the laser beam
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring

79.

OPTICAL SAFETY DEVICE FOR PRESS BRAKES, PRESS BRAKE, AND OPTICAL MONITORING METHOD

      
Application Number JP2019009951
Publication Number 2019/176924
Status In Force
Filing Date 2019-03-12
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Matsuura Kento

Abstract

In the present invention, an assessment unit (70) assesses, on the basis of the light reception state of a photodiode (564) positioned nearest an upper die (12), whether or not a shadow of the upper die (12) cast by a laser (B) projected on an optical receptor (52) side has expanded to the photodiode (564). A deactivation unit (72) deactivates the photodiode (564) positioned nearest the upper die (12) if it is determined that the shadow of the upper die (12) has expanded to said photodiode (564). A detection unit (74) detects the presence or absence of foreign matter between the upper die (12) and a lower die (14) on the basis of the light reception state of a plurality of active photodiodes (56) while an upper table (26) is descending.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B30B 15/00 - Details of, or accessories for, pressesAuxiliary measures in connection with pressing

80.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2018036909
Publication Number 2019/176149
Status In Force
Filing Date 2018-10-02
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Kouji
  • Pohle Dennis

Abstract

The laser processing machine includes a beam oscillation mechanism that oscillates a beam spot on a surface of a sheet metal. The control device controls the beam oscillation mechanism so as to oscillate the beam spot with an oscillation component in a direction orthogonal to a cutting direction of the sheet metal in a non-holding region, in which a holding portion of the conveyance apparatus for conveying a product is not held, when cutting the product from the sheet metal by irradiating the sheet metal with the laser beam. The non-holding region is at least a part of a periphery of a protrusion portion of the product, or at least a part of a periphery of a recess forming region in which a recess of the product is formed.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/10 - Devices involving relative movement between laser beam and workpiece using a fixed support

81.

LASER PROCESSING MACHINE AND LASER PROCESSING METHOD

      
Application Number JP2019001944
Publication Number 2019/176292
Status In Force
Filing Date 2019-01-23
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji

Abstract

A beam displacement mechanism causes the position of a laser beam, emitted via an opening (36a) of a nozzle (36), to be displaced in the opening (36a). An assist gas supply device (80) supplies an assist gas to a processing head (35) during processing of a metal sheet (W). A control device (NC device 50), when implementing a piercing process outside a product, controls the beam displacement mechanism so that the position of the laser beam in the opening (36a) is displaced from the center of the opening (36a) to a position in a direction away from the product. The control device, when cutting the outline of the product, controls the beam displacement mechanism so that the position of the laser beam in the opening (36a) is displaced from the center of the opening (36a) toward the front in a cutting proceeding direction.

IPC Classes  ?

  • B23K 26/38 - Removing material by boring or cutting
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23K 26/382 - Removing material by boring or cutting by boring

82.

NOZZLE CENTERING DEVICE AND NOZZLE CENTERING METHOD FOR LASER PROCESSING MACHINE

      
Application Number JP2019001955
Publication Number 2019/176294
Status In Force
Filing Date 2019-01-23
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Yamanashi Takaaki
  • Funaki Koji

Abstract

A beam displacement mechanism (galvanoscanner unit 32) causes a laser beam emitted via an opening of a nozzle attached to the tip of a processing head to be displaced. A light sensor (93) generates a sensor output value corresponding to the intensity of an incident laser beam. A beam displacement control unit (504) controls the displacement of the laser beam by the beam displacement mechanism. A center calculation unit (503), when the displacement of the laser beam due to the beam displacement mechanism is controlled by the beam displacement control unit (504) and at least three points at the edge of the opening have been irradiated with the laser beam, detects the positions of the at least three points on the basis of the sensor output value generated by the light sensor (93), and, on the basis of the detected positions of the at least three points, calculates the central point of the opening. The beam displacement control unit (504) controls the beam displacement mechanism so that the laser beam emitted via the opening is positioned at the central point calculated by the center calculation unit (503).

IPC Classes  ?

  • B23K 26/035 - Aligning the laser beam
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/04 - Automatically aligning, aiming or focusing the laser beam, e.g. using the back-scattered light
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head

83.

CUT-PROCESSING MACHINE AND CUT-PROCESSING METHOD

      
Application Number JP2019008525
Publication Number 2019/176630
Status In Force
Filing Date 2019-03-05
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

A cut-processing machine (1) comprises a numerical controller device (200). The numerical controller device (200) comprises a tool diameter correction amount calculation unit (201), a processing track calculation unit (202), and a drive control unit (203). If processing conditions (CP) include cutting tool change information in which a tool track (TP) is changed during cut-processing and a centre control point (CL) is provided so as to be fixed with respect to a processing surface of a final processing product when the tool track (TP) is changed, then: the tool diameter correction amount calculation unit (201) identifies a plurality of tool tracks (TP) included in the cutting tool change information, and generates tool diameter correction information (TC) that includes the plurality of tool tracks (TP), a processing surface formation location (MPL), a control centre point (CL), and a tool diameter correction value (MVL). The processing track calculation unit (202) generates a tool diameter correction control signal (TS).

IPC Classes  ?

  • B23K 26/36 - Removing material
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/082 - Scanning systems, i.e. devices involving movement of the laser beam relative to the laser head
  • B23P 17/00 - Metal-working operations, not covered by a single other subclass or another group in this subclass
  • G05B 19/404 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by control arrangements for compensation, e.g. for backlash, overshoot, tool offset, tool wear, temperature, machine construction errors, load, inertia

84.

CUTTING MACHINE AND CUTTING METHOD

      
Application Number JP2019008528
Publication Number 2019/176632
Status In Force
Filing Date 2019-03-05
Publication Date 2019-09-19
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Nagayama Takehiro
  • Kanno Kazuhiro

Abstract

The present invention provides a cutting machine including a cutting machine (1) which comprises a machine body (100) and an NC device (200). The NC device (200) has a tool diameter correction amount calculation unit (201), a processing path calculation unit (202), and a drive control unit (203). The machine body (100) has a processing unit (104) and a tool path control unit (300). When an offset amount (ST) between a control center point (CL) of a tool path (TP) and a center point (CN) of a nozzle (106) is set as a processing condition (CP), the processing path calculation unit (202) generates a tool path control signal (TS) for displacing the control center point (CL) relative to the center point (CN) of the nozzle (106) in the predetermined direction (DT) by the offset amount (ST). The machine body (100) controls the tool path (TP) on the basis of the tool path control signal (TS) so that the control center point (CL) is displaced in the predetermined direction (DT) with respect to the center point (CN) of the nozzle (106).

IPC Classes  ?

  • B23K 26/36 - Removing material
  • B23K 26/00 - Working by laser beam, e.g. welding, cutting or boring
  • B23K 26/142 - Working by laser beam, e.g. welding, cutting or boring using a fluid stream, e.g. a jet of gas, in conjunction with the laser beamNozzles therefor for the removal of by-products
  • G05B 19/404 - Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by control arrangements for compensation, e.g. for backlash, overshoot, tool offset, tool wear, temperature, machine construction errors, load, inertia

85.

CROWNING METHOD FOR PRESS BRAKE, AND PRESS BRAKE

      
Application Number JP2019005229
Publication Number 2019/163619
Status In Force
Filing Date 2019-02-14
Publication Date 2019-08-29
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Suzuki Taishi
  • Miura Koutaku
  • Aoki Makoto

Abstract

Provided is a crowning method for a press brake that comprises: an upper table and a lower table, which vertically face each other; and first slits formed in both the left and right sides of the upper table or the lower table and open in the left-right direction. The crowning method comprises performing a crowning adjustment by upwardly or downwardly deforming end sides of the lower portions or the upper portions of the first slits in the upper table or the lower table.

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

86.

AMADA

      
Serial Number 79276431
Status Registered
Filing Date 2019-08-13
Registration Date 2021-01-19
Owner AMADA HOLDINGS CO., LTD. (Japan)
NICE Classes  ? 42 - Scientific, technological and industrial services, research and design

Goods & Services

Programming, installation, maintenance, copying, non-physical converting, and updating of computer programs and computer software in the field of metalworking machines, both via the Internet and in person; remote computer programming of machine control software and updating of computer software for machine controls; providing temporary use of online, non-downloadable computer software for implementing computer programs to computer-controlled machines; technical consulting in the field of design and development of computer software for data processing; design and developing of computer software for metalworking machines and tools in the field of telecommunications solutions, in particular, telecommunications solutions for the remote diagnoses of machine malfunctions and machine servicing by means of telecommunications systems; design and developing of computer software for providing Internet access for computer-based machine controls; monitoring of computer systems by remote access to ensure proper functioning, namely, remote maintenance and repair of computer software for metalworking machines and tools via the Internet; maintenance and installation of machine control software and installation and updating of computer software for machine controls for fault elimination; technological advisory and consultancy services relating to the technical operation of machinery by providing of help-desk to machine users and providing technological information, namely, information relating to machinery technology on the Internet; software as a service (SaaS) services featuring software for operating and selling metalworking machines and tools and saw blades for metalworking machines, creating processing program data for metalworking machines, and controlling production of metalworking machines; cloud computing featuring software for operating and selling metalworking machines and tools and saw blades for metalworking machines, creating processing program data for metalworking machines, and controlling production of metalworking machines; platform as a service (PaaS) featuring computer software platforms for operating and selling metalworking machines, creating processing program data for metalworking machines, and controlling production of metalworking machines

87.

PRESS BRAKE CONTROL DEVICE, PRESS BRAKE CONTROL METHOD, DIE MANAGEMENT METHOD, AND DATA STRUCTURE FOR DIE MANAGEMENT DATA

      
Application Number JP2018048007
Publication Number 2019/150867
Status In Force
Filing Date 2018-12-27
Publication Date 2019-08-08
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Kenmotsu Hideki

Abstract

In the present invention, a die to be used for bending sheet metal is selected, and die layout data including a die ID, installation position information, and information of a storage location in die storage for the selected die are created in advance. A display control unit (202) performs control so that information indicating the storage location of the die is displayed in a display unit (51). A die collation unit (208) collates a die ID read by a reader when an operator takes a die out from die storage with a die ID of a die included in the die layout data. When the read die ID does not match the die ID of any die included in the die layout data, the display control unit (202) performs control so that a message indicating that the die taken out by the operator is a wrong die is displayed in the display unit (51).

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B21D 37/00 - Tools as parts of machines covered by this subclass
  • B21D 37/04 - Movable or exchangeable mountings for tools

88.

PRESS BRAKE

      
Application Number JP2019000929
Publication Number 2019/146447
Status In Force
Filing Date 2019-01-15
Publication Date 2019-08-01
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Akiyama Shogo

Abstract

A press brake (1) comprising a stretch (37) provided rearward of a lower table (11) so as to be capable of moving in the depth direction, sliders capable of moving along the stretch (37), a finger base (45) provided to each of the sliders, and a stopper finger (51) coupled with the finger base (45) via a coupling shaft (53). The stopper finger (51) is capable of flipping up about the coupling shaft (53). A engagement protruding portion projects in the depth direction from the distal end of the finger base (45), and an engagement depressed portion that is indented in the depth direction and that engages the engagement protruding portion is formed at the base end of the finger member (51). The width of the stopper finger (51) is set so as to be approximately equal to the width of the finger base (45).

IPC Classes  ?

  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means

89.

PRESS MACHINE AND PRESS-WORKING METHOD

      
Application Number JP2019000450
Publication Number 2019/139064
Status In Force
Filing Date 2019-01-10
Publication Date 2019-07-18
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Kawamoto Keiji

Abstract

In this press machine, a ram (1) is moved up and down by the rotation of an eccentric shaft. The press machine comprises a striker housing (9) provided to the lower part of the ram (1) and moved up and down along with the ram (1), a striker (3) capable of moving up and down relative to the striker housing (9), and a holding function (11, 13, 15, 19, 21, 25) that holds the striker (3) in a raised position and a lowered position. With this press machine, press-working can be reliably performed even when the eccentric shaft reciprocatingly turns with the rotation angle of the eccentric shaft at approximately 90° (or 270°).

IPC Classes  ?

  • B30B 1/26 - Presses, using a press ram, characterised by the features of the drive therefor, pressure being transmitted directly, or through simple thrust or tension members only, to the press ram or platen by cams, eccentrics, or cranks
  • B21D 28/34 - Perforating toolsDie holders
  • B30B 15/06 - Platens or press rams

90.

AXCELA BOOSTER

      
Application Number 1475905
Status Registered
Filing Date 2019-04-22
Registration Date 2019-04-22
Owner
  • AMADA HOLDINGS CO.,LTD. (Japan)
  • AMADA MACHINE TOOLS CO., LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Band saws for metal working; machine parts, namely, band saw blades for metal working.

91.

AXCELA STRIKER

      
Application Number 1476188
Status Registered
Filing Date 2019-04-22
Registration Date 2019-04-22
Owner
  • AMADA HOLDINGS CO.,LTD. (Japan)
  • AMADA MACHINE TOOLS CO., LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Band saws for metal working; machine parts, namely, band saw blades for metal working.

92.

PLATE MATERIAL TRANSFER DEVICE

      
Application Number JP2018046938
Publication Number 2019/131412
Status In Force
Filing Date 2018-12-20
Publication Date 2019-07-04
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor Hamachi Yusuke

Abstract

According to the present invention, a plate material (W) is scooped up to be placed on a fork device (7), and is transferred to a predetermined location. The fork device (7) is provided with: a plurality of fork units (71) arranged side by side; endless members (71b) which are hung in the longitudinal direction in the respective fork units (71) and which are provided so as to be able to travel while having the plate material (W) placed thereon; and a push-out bracket (71f) attached to some of the endless members (71b) so as to protrude toward and extend across the upper portions of the plurality of fork units (71).

IPC Classes  ?

  • B65G 57/11 - Stacking of articles by adding to the top of the stack the articles being stacked by direct action of the feeding conveyor
  • B65G 57/03 - Stacking of articles by adding to the top of the stack from above

93.

HRB

      
Application Number 1473704
Status Registered
Filing Date 2019-04-09
Registration Date 2019-04-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Metal working machines, namely, press brakes; bending machines; press brakes for metalworking; bending machines for metalworking; industrial robots for metal working machines; industrial robots for use with metal working machines.

94.

LBC

      
Application Number 1473106
Status Registered
Filing Date 2019-04-09
Registration Date 2019-04-09
Owner AMADA HOLDINGS CO.,LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Metal working machines; metal working machines using lasers; laser processing machines for metal working; laser cutting machines for metal working.

95.

Die-pressing punch capable of adjusting initial load of coil spring in accordance with material of workpiece, die-pressing die set, and beveling method

      
Application Number 16321248
Grant Number 10471491
Status In Force
Filing Date 2017-07-27
First Publication Date 2019-06-06
Grant Date 2019-11-12
Owner AMADA HOLDINGS., LTD. (Japan)
Inventor Otsuka, Yasuyuki

Abstract

A die-pressing punch used for die-pressing a workpiece includes a punch guide, a punch body that is provided vertically movably and non-rotatable about its axial center with respect to the punch guide, a punch head screw-fitted with the punch head. The die-pressing punch further includes a roller unit that is provided inside the punch guide beneath the punch body vertically movably and has a rotatable roller protruding downward from a bottom face of the punch guide, and an urging member that is provided between the punch body and the roller unit and urges the roller unit downward. The die-pressing punch further includes a joint member that is jointed with the punch head non-rotatably about the axial center, and an operable member. The operable member switches the joint member between a rotatable state and a non-rotatable state about the axial center with respect to the punch guide.

IPC Classes  ?

  • B21D 19/00 - Flanging or other edge treatment, e.g. of tubes
  • B21C 51/00 - Measuring, gauging, indicating, counting, or marking devices specially adapted for use in the production or manipulation of material in accordance with subclasses
  • B21D 22/02 - Stamping using rigid devices or tools
  • B21D 28/00 - Shaping by press-cuttingPerforating
  • B21D 28/36 - Perforating, i.e. punching holes using rotatable work or tool holders
  • B21D 28/34 - Perforating toolsDie holders

96.

Die-pressing die having dust collection passage at peripheral edge portion of roller unit

      
Application Number 16320765
Grant Number 10471492
Status In Force
Filing Date 2017-07-27
First Publication Date 2019-05-30
Grant Date 2019-11-12
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor Otsuka, Yasuyuki

Abstract

A die-pressing die used for die-pressing a workpiece includes a die body on whose upper face a die hole is formed and on whose bottom face a discharge hole for discharging dusts of the workpiece is formed, and a roller unit disposed within the die hole and having a roller protruding upward from the upper face of the die body. A collection passage for collecting the dusts is formed at a peripheral edge portion of the die hole. One end of the collection passage is opened at the upper face of the die body, and another end thereof is opened to the discharge hole. The collection passage is configured to suction air due to a negative pressure state in the discharge hole.

IPC Classes  ?

  • B21D 28/00 - Shaping by press-cuttingPerforating
  • B21D 22/06 - Stamping using rigid devices or tools having relatively-movable die parts
  • B21D 28/02 - Punching blanks or articles with or without obtaining scrapNotching
  • B21D 19/00 - Flanging or other edge treatment, e.g. of tubes
  • B21D 22/02 - Stamping using rigid devices or tools
  • B21D 28/36 - Perforating, i.e. punching holes using rotatable work or tool holders
  • B21D 37/00 - Tools as parts of machines covered by this subclass
  • B21D 45/06 - Stripping-off devices
  • B23Q 11/00 - Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling workSafety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools

97.

Safety device of press brake and controlling method of press brake

      
Application Number 16093026
Grant Number 10369607
Status In Force
Filing Date 2017-03-14
First Publication Date 2019-05-23
Grant Date 2019-08-06
Owner AMADA HOLDINGS CO., LTD. (Japan)
Inventor
  • Aoki, Takayuki
  • Matsuura, Kento
  • Okamoto, Ryota

Abstract

A projector emits laser light, and an optical receiver includes a photodetector. When an upper table is lowered, a safety controller controls lowering of the upper table to stop, when it is determined that the optical receiver is in a light obstructing state in a period in which a condition is satisfied that a first distance between a tip of a punch and an upper end of a material is equal to or greater than a second distance between the tip of the punch and the photodetector, and controls the lowering to continue without stopping the lowering of the upper table even when it is determined that the optical receiver is in the light obstructing state in a period in which a condition is satisfied that the first distance is less than the second distance.

IPC Classes  ?

  • D21D 5/02 - Straining or screening the pulp
  • B21D 5/02 - Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
  • B30B 15/16 - Control arrangements for fluid-driven presses
  • B30B 15/18 - Control arrangements for fluid-driven presses controlling the reciprocating motion of the ram
  • B21C 51/00 - Measuring, gauging, indicating, counting, or marking devices specially adapted for use in the production or manipulation of material in accordance with subclasses
  • H01L 27/146 - Imager structures
  • B21D 55/00 - Safety devices protecting the machine or the operator, specially adapted for apparatus or machines dealt with in this subclass
  • F16P 3/14 - Safety devices acting in conjunction with the control or operation of a machineControl arrangements requiring the simultaneous use of two or more parts of the body with means, e.g. feelers, which in case of the presence of a body part of a person in or near the danger zone influence the control or operation of the machine the means being photocells or other devices sensitive without mechanical contact

98.

TIG welding device

      
Application Number 15772685
Grant Number 10486259
Status In Force
Filing Date 2016-10-18
First Publication Date 2019-05-23
Grant Date 2019-11-26
Owner
  • AMADA MIYACHI CO., LTD. (Japan)
  • AMADA HOLDINGS CO., LTD. (Japan)
Inventor Ishikawa, Hiyoshi

Abstract

Through the present invention, the load of a torch (16) applied to a welding workpiece (W) in a touch start method is reduced, and stability is significantly enhanced. A welding head (10) has a rigid straight-advancing movable part (12), an elevator drive tower (14) for moving the straight-advancing movable part (12) straight forward in the vertical direction, and a torch (16) mounted on the straight-advancing movable part (12) so as to be able to move in the vertical direction. One end part of a balance arm (28) rotatably attached to a multi-purpose support part (22) of the straight-advancing movable part (12) is connected to a torch body (30), and a balance weight (98) is attached to the other end part of the balance arm (28).

IPC Classes  ?

  • B23K 9/167 - Arc welding or cutting making use of shielding gas and of a non-consumable electrode
  • B23K 9/29 - Supporting devices adapted for making use of shielding means
  • B23K 9/32 - Accessories

99.

VENTIS

      
Application Number 1466715
Status Registered
Filing Date 2019-02-20
Registration Date 2019-02-20
Owner AMADA HOLDINGS CO., LTD. (Japan)
NICE Classes  ? 07 - Machines and machine tools

Goods & Services

Metal working machines; metal working machines using lasers; laser processing machines for metal working; laser cutting machines for metal working.

100.

PRODUCT TRANSFER DEVICE AND PRODUCT TRANSFER SYSTEM

      
Application Number JP2018041439
Publication Number 2019/093407
Status In Force
Filing Date 2018-11-08
Publication Date 2019-05-16
Owner AMADA HOLDINGS CO.,LTD. (Japan)
Inventor
  • Hirono Jun
  • Tsuda Hiroshi
  • Fukushige Hideto
  • Abe Kuniaki
  • Kitano Ryoma

Abstract

A product transfer device (52) is provided with: a product suction pad unit (5c) having a suction disk section (5c1) capable of sucking a board-like product (WP); a transfer base (51a) having the product suction pad unit (5c) at a lower section thereof; and a label suction unit (11), which has a label pad (14a) capable of sucking a label (62a) to be adhered to the product (WP), and which has a raising/lowering function of raising/lowering the label pad (14a) between positions above and below a leading end of the suction disk section (5c1).

IPC Classes  ?

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