A work machine according to one embodiment of the present invention comprises: a lower traveling body; an upper turning body turnably mounted on the lower traveling body; an attachment attached to the upper turning body; a work tool provided at a tip of the attachment; a storage unit for storing reference surface information indicating a shape of a surface after construction; and a control device configured so as to perform control for moving the work tool along an area in which the surface represented by the reference surface information is extended.
A cryocooler includes a cylinder that has a first thermal conductivity and that extends in an axial direction, a cooling stage that has a second thermal conductivity higher than the first thermal conductivity and that includes a stage end portion and a stage tubular portion connecting the stage end portion to the cylinder in the axial direction, a displacer that is capable of reciprocating in the axial direction in the cylinder, that forms an expansion space with the stage end portion, and in which the expansion space takes a maximum volume at a top dead center, and a ceramic-based magnetic regenerator material that is accommodated in the displacer and of which an axial position in the displacer is determined to overlap the stage tubular portion in the axial direction when the displacer is at the top dead center.
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F25B 9/10 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point with several cooling stages
This cryocooler (10) comprises: a cold head motor (40); a crank (44) that is connected to the cold head motor (40); a cold head housing (20) that accommodates the cold head motor (40) and the crank (44); a crank-supporting bearing (50) that supports the crank (44) and is attached to the cold head housing (20) so as to divide, together with the crank (44), the cold head housing (20) into a first chamber (22a) and a second chamber (22b); and a pressure equalizing passage (58) that connects the first chamber (22a) and the second chamber (22b). The pressure equalizing passage (58) may be formed in the crank (44) or may be formed in the cold head housing (20).
The present invention addresses the problem of providing a carbon dioxide recovery device and a carbon dioxide recovery method by a method of calcium looping that permits calcination by heat in a low temperature region, for example, exhaust heat. This carbon dioxide recovery device is characterized by comprising a thermal decomposition device that thermally decomposes calcium carbonate into calcium oxide and carbon dioxide under reduced pressure and a carbonation device that generates calcium carbonate by reacting calcium oxide received from the thermal decomposition device and carbon dioxide supplied from the outside.
F01K 23/10 - Plants characterised by more than one engine delivering power external to the plant, the engines being driven by different fluids the engine cycles being thermally coupled combustion heat from one cycle heating the fluid in another cycle with exhaust fluid of one cycle heating the fluid in another cycle
A cryocooler includes a compressor, a cold head, and a flexible hose that connects the compressor to the cold head and that includes a conduit through which a working gas of the cryocooler flows and a braid externally mounted on the conduit, in which the braid includes a braided wire woven into a substantially tubular shape to cover the conduit, and is configured such that a tensile stress that acts on the braided wire when the working gas flows through the conduit at a nominal pressure is about 85 N/mm2 or less.
F16L 11/08 - Hoses, i.e. flexible pipes made of rubber or flexible plastics with reinforcements embedded in the wall
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
6.
STEEL PRODUCT AND METHOD FOR MODIFYING STEEL PRODUCT
A method for modifying a steel product according to the present invention comprises: a nitriding step for performing a nitriding treatment on a steel material and forming, on the surface of the steel material, a compound layer L1 in which iron and nitrogen are combined, and a diffusion layer L2 in which an alloy nitride is precipitated; and a compression step for applying a compressive load to the surface of the nitrided steel material.
C21D 9/32 - Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articlesFurnaces therefor for gear wheels, worm wheels, or the like
F16C 33/24 - BrassesBushesLinings with different areas of the sliding surface consisting of different materials
[Solution] This medical device 10 is configured to be inserted into a channel 511 of an insertion part 510 of an endoscope device 500 so as to be capable of moving forward and backward. The medical device includes: a puncture device 100; an outer sheath 200 into which the puncture device is inserted; and a handle part 300 disposed on the proximal end side of the puncture device and the outer sheath. The handle part includes: a first connection part 320 connected to the outer sheath; and a second connection part 330 that is connected to at least a portion of the puncture device and moves forward and backward relative to the first connection part, thereby projecting the tip of the puncture device from the tip of the outer sheath.
The present invention addresses the problem of providing a device and method that efficiently produce carbon monoxide under lower temperature conditions by using a transition metal oxide-containing catalyst while avoiding the equilibrium constraints of the reverse water-gas shift reaction. A carbon monoxide production device according to the present invention is characterized by producing carbon monoxide by bringing carbon dioxide into contact with a catalyst that contains a hydrogen reduction-treated transition metal oxide that can assume a plurality of oxidation numbers.
A construction machine includes a lower travel body, an upper slewing body mounted on the lower travel body in a slewable manner, a cab mounted on the upper slewing body, and a space recognition device disposed on a pillar in the cab.
A superconducting magnet device (10) comprises: a primary circuit comprising a superconducting coil (12) and a primary-side resistor connected to the superconducting coil (12); and a secondary circuit comprising a secondary coil (32) electromagnetically coupled to the superconducting coil (12), and a secondary-side resistor connected to the secondary coil (32). The time constant of the secondary circuit is greater than or equal to the time constant of the primary circuit. The coupling coefficient between the superconducting coil (12) and the secondary coil (32) may be 0.3 or more.
A polymerization reaction monitoring device 40 comprises: a polymerization reaction tank 400 in which a polymer is synthesized through a polymerization reaction of a depolymerized product of polyester; a polymerization reaction characteristic measurement unit for measuring a characteristic of a reaction liquid RL of the polymerization reaction containing the polymer and the depolymerized product; and a polymerization reaction progress monitoring unit 45 for monitoring the progress of the polymerization reaction on the basis of the characteristic of the reaction liquid RL measured by the polymerization reaction characteristic measurement unit. The polymerization reaction characteristic measurement unit measures a characteristic based on a chemical bond common to the depolymerized product and the polymer contained in the reaction liquid RL. The characteristic based on the common chemical bond changes according to the ratio between the depolymerized product and the polymer contained in the reaction liquid RL.
C08J 11/24 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation by treatment with organic material by treatment with organic oxygen-containing compounds containing hydroxyl groups
G01N 21/27 - ColourSpectral properties, i.e. comparison of effect of material on the light at two or more different wavelengths or wavelength bands using photo-electric detection
An actuator includes: a motor; and a speed reducer that reduces rotation of the motor, in which the speed reducer has an efficiency of 60% or more, and the actuator includes a control unit that performs control to suppress a cogging torque of the motor.
An actuator includes: a motor; and a speed reducer that reduces rotation of the motor, in which the speed reducer has an efficiency of 60% or more, and the motor is a low-cogging motor in which a multiplication of a cogging torque and a reduction ratio is equal to or less than an output starting torque of the speed reducer.
H02K 29/03 - Motors or generators having non-mechanical commutating devices, e.g. discharge tubes or semiconductor devices with a magnetic circuit specially adapted for avoiding torque ripples or self-starting problems
B25J 9/12 - Programme-controlled manipulators characterised by positioning means for manipulator elements electric
F16H 19/08 - Gearings comprising essentially only toothed gears or friction members and not capable of conveying indefinitely-continuing rotary motion for interconverting rotary motion and oscillating motion
H02K 7/116 - Structural association with clutches, brakes, gears, pulleys or mechanical starters with gears
H02K 11/20 - Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
H02K 21/16 - Synchronous motors having permanent magnetsSynchronous generators having permanent magnets with stationary armatures and rotating magnets with magnets rotating within the armatures having annular armature cores with salient poles
A superconducting magnet device includes a tubular cryostat defining a central cavity therein, a first superconducting coil set and a second superconducting coil set disposed outside the central cavity and inside the tubular cryostat, and a power supply system being capable of controlling a magnitude of a first exciting current to the first superconducting coil set and a magnitude of a second exciting current to the second superconducting coil set independently of each other. The first superconducting coil set generates a magnetic field distribution, which is convex downward on an X axis and convex upward on a Y axis when the first exciting current is supplied, in the central cavity. The second superconducting coil set generates a magnetic field distribution, which is convex upward on the X axis and convex downward on the Y axis when the second exciting current is supplied, in the central cavity.
An intermediate mold disposed between a stationary side mold and a movable side mold in a mold unit of an injection molding machine includes: a mold section performing mold opening and closing operations with a facing mold of the stationary side mold and the movable side mold; a rotating frame body rotated together with the mold section by a rotary shaft; a support section supporting both sides of the rotating frame body via shaft bodies; and a rotation drive section transmitting a rotational force to the rotating frame body, in which the mold section and the shaft bodies include a hollow portion that allows a pipe through which a fluid passes or an electrical wire to be disposed, and both end portions of the hollow portion form inlet/outlet ports through which the pipe or the electrical wire can enter and exit in a rotation axis direction of the shaft bodies.
A molten resin supply system 1 comprises a coupling device 10 that couples a decontamination machine 80 that outputs a molten resin to be recycled from an output port 801 with an injection molding machine 90 having an input port 911 for inputting the output molten resin, a heating cylinder 91 for heating the molten resin, and an injection cylinder that is independent of the heating cylinder 91 and injects the heated molten resin into a mold. One end of piping formed by pipes 11-14 for passing the molten resin and swivel joints 21-23 is connected to the output port 801 through a connection member 31, and the other end is connected to the input port 911 through a connection member 32, thereby coupling the decontamination machine 80 and the injection molding machine 90.
There is provided an intermediate mold disposed between a stationary-side mold and a movable-side mold in a mold unit of an injection molding machine, the intermediate mold including: a support portion that supports, in an attachable and detachable manner, both sides of a rotary shaft of a mold portion that is rotated; and a connection member that is detachably connected to a top side of the support portion in a top-bottom direction, in which, in a case where the mold portion is attached to and detached from the support portion, the mold portion is attached and detached through a space formed by removing the connection member from the support portion.
An intermediate mold is disposed between a stationary side mold and a movable side mold in a mold unit of an injection molding machine, the intermediate mold includes: a mold section that performs mold opening and closing operations with a facing mold of the stationary side mold and the movable side mold; a rotating frame body that is rotated together with the mold section by a rotary shaft; a support section that supports both sides of the rotating frame body via shaft bodies; and a rotation drive section that transmits a rotational force to the rotating frame body, in which the support section accommodates at least a part of the rotation drive section.
An intermediate mold disposed between a stationary-side mold and a movable-side mold in a mold unit of an injection molding machine, the intermediate mold including: a mold portion that performs a mold opening and closing operation with a facing mold facing one of the stationary-side mold and the movable-side mold; a guide bar that penetrates through the mold portion, and that guides the mold opening and closing operation; and a rotary frame body that includes a rotary shaft, and that rotates together with the guide bar and the mold portion in a state where the rotary frame body is joined to the guide bar. The mold portion is temporarily gripped by a tip part of the guide bar, and is temporarily gripped by the facing mold.
A work machine includes an attachment and a control device. The control device is configured to specify a hazardous zone in which a degree of hazard increases when an object falls during an operation of the attachment to lift and move the object, and make the specified hazardous zone visually recognizable.
G05B 13/02 - Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric
Provided is a technique that allows for smooth transition of a work machine from automatic operation of an actuator to operation by manipulation of an operator. In a shovel 100 according to an embodiment of the present disclosure, when an operator's manipulated input to a hydraulic actuator HA is started in a state in which the hydraulic actuator HA is automatically operated, the actual operation state of the hydraulic actuator HA and the operation state of the hydraulic actuator HA corresponding to the manipulated input of the operator approach each other over time, thereby transitioning to a state in which the hydraulic actuator HA operates according to the manipulated input of the operator.
An excavator according to one embodiment comprises: a lower traveling body; an upper revolving body that is mounted on the lower traveling body so as to revolve freely; an attachment that is attached to the upper revolving body; a work tool that is provided at the tip end of the attachment; and a control unit that is configured to acquire first position information representing a first surface shape, before construction, on a plane formed by two orthogonal axes along which the work tool can move relative to the upper revolving body, to acquire second position information representing a second surface shape, after construction by the work tool, on the plane, and to autonomously control driving of the attachment and the work tool such that an object between the first surface shape represented by the first position information and the second surface shape represented by the second position information is loaded onto the work tool.
09 - Scientific and electric apparatus and instruments
38 - Telecommunications services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Plastics processing machines, in particular injection
molding machines and related parts. Weighing, measuring, signaling and inspecting apparatus and
instruments for operating plastics processing machines;
electric and electronic controls for plastics processing
machines; computer programs for the control, regulation,
process monitoring, process analysis, process-data
determination, process evaluation and process visualization
of plastics processing machines; recorded data carriers
containing software for the control, regulation, process
monitoring, process analysis, process-data determination,
process evaluation and process visualization of plastics
processing machines; software for databases. Electronic data transmission via the internet and local
computer networks; transmission of online-based information;
provision of access to web pages and databases; all
aforementioned services, in relation to the following goods:
plastics processing machines. Hosting of digital content on the internet; programming of
computer software; software as a service [SaaS]; all
aforementioned services, in relation to the following goods:
plastics processing machines.
24.
ION IMPLANTATION METHOD, SOLID RAW MATERIAL FOR USE IN ION GENERATION, AND ION IMPLANTATION DEVICE
SUMITOMO HEAVY INDUSTRIES ION TECHNOLOGY CO., LTD. (Japan)
Inventor
Ninomiya Shiro
Kawasaki Yoji
Maeno Syuichi
Abstract
This ion implantation method comprises: generating, by heating a solid raw material 90 containing a first metal element at a prescribed operation temperature, a steam containing the first metal element; generating plasma P containing ions of the first metal element by using the steam; and implementing, into a processing target object, the ions of the first metal element obtained from the plasma P. The solid raw material 90 is provided with: a first material that contains the first metal element and that has a melting point, a sublimation point, or a degradation point that are lower than the operation temperature; and a second material that comprises an oxide, a nitride, a carbide, or a metal, and that has a melting point, a sublimation point, or a degradation point that are higher than the operation temperature.
H01J 37/317 - Electron-beam or ion-beam tubes for localised treatment of objects for changing properties of the objects or for applying thin layers thereon, e.g. ion implantation
H01J 27/08 - Ion sourcesIon guns using arc discharge
25.
INFORMATION PROCESSING SYSTEM, NON-TRANSITORY COMPUTER READABLE MEDIUM STORING PROGRAM, AND MANUFACTURING METHOD OF INJECTION MOLDING MACHINE
An information processing system includes: an acquisition unit that acquires waveform data obtained through an operation of control target equipment; an analysis unit that extracts, based on a relationship of variables included in the acquired waveform data, a first variable that is at least a portion of the variables and a second variable that is at least another portion of the variables, that derives variables corresponding to the second variables based on the first variable, and that defines characteristics of the control target equipment based on the derived variables and the second variable; and an output unit that outputs information used in controlling the control target equipment based on the characteristics of the control target equipment.
A friction transmission device 100 comprises: an input raceway ring 14; a planetary rolling element 20 that is disposed around a rotation axis La of the input raceway ring 14 and comes into contact with the input raceway ring 14; an output raceway ring 30 that comes into contact with the planetary rolling element 20 and is connected to an output member 32; and a first support raceway ring 26 and a second support raceway ring 28 that come into contact with the planetary rolling element 20. The friction transmission device includes a speed ratio changing mechanism 6 that changes the speed ratio by changing the relative positions of two outer raceway rings. The gear ratio changed by the speed ratio changing mechanism 6 is configured such that the maximum amount of an absolute value of the gear ratio on the positive side and the maximum amount of an absolute value of the gear ratio on the negative side are different from each other, and shapes of a first contact surface 20d and a second contact surface 20c that come into contact with the two outer raceway rings of the planetary rolling element 20 are different from each other.
A friction transmission device 100 includes: an input raceway ring 14; a planetary rolling element 20 disposed about a rotation axis La of the input raceway ring 14 and in contact with the input raceway ring 14; an output raceway ring 30 in contact with the planetary rolling element 20 and connected to an output member 32; and a support raceway ring 28 in contact with the planetary rolling element 20. The friction transmission device 100 includes: a casing 37 surrounding the planetary rolling element 20 and the output raceway ring 30; a thrust bearing 33 supporting the output raceway ring 30 on a side opposite from the planetary rolling element 20; and a support member 31 independent of the casing 37. The support member 31 is in abutment against the thrust bearing 33.
F16H 13/08 - Gearing for conveying rotary motion with constant gear ratio by friction between rotary members with members having orbital motion with balls or with rollers acting in a similar manner
F16H 13/10 - Means for influencing the pressure between the members
28.
LASER ANNEALING DEVICE, LASER ANNEALING METHOD, AND NON-TRANSITORY COMPUTER READABLE MEDIUM STORING LASER ANNEALING PROGRAM
A laser annealing device includes, in a laser control unit that controls a laser beam with which a workpiece is irradiated from a laser device for an annealing process, based on a control parameter, a correction value setting unit capable of setting different correction values for a plurality of control input values of the control parameter, and a control input unit that, in a case where any of the plurality of control input values is designated for controlling the laser beam, inputs a corrected control input value obtained by correcting the control input value using the corresponding correction value into the laser device.
A traveling robot 10 comprises: a plurality of wheels 16 that are rotatably supported by a frame 20; and a control part 37. The control part 37 detects derailment of the wheels 16. When a derailment of one of the wheels 16 has been detected, the control part controls the operation of wheels 16 excluding the one wheel 16 that has derailed, among the plurality of wheels 16, and brings said one derailed wheel into contact with the ground.
B62D 57/02 - Vehicles characterised by having other propulsion or other ground-engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members
B60B 19/00 - Wheels not otherwise provided for or having characteristics specified in one of the subgroups of this group
B62D 61/00 - Motor vehicles or trailers, characterised by the arrangement or number of wheels, not otherwise provided for, e.g. four wheels in diamond pattern
A friction transmission device 100 according to an embodiment of the present invention includes: a planetary rolling element 20 disposed about a rotation axis La; a first support raceway ring 26 and a second support raceway ring 28 in contact with the planetary rolling element 20; and a pressing force application mechanism 7 for pressing the second support raceway ring 28 to generate a pressing force on a contact surface between the second support raceway ring 28 and the planetary rolling element 20. The friction transmission device 100 has a cover 67 for covering this friction transmission device 100 from the axial direction. The pressing force application mechanism 7 has a pressing part 72 for pressing the second support raceway ring 28. The pressing force application mechanism 7 has an abutment part 56b in abutment against the cover 67 at a position overlapping the pressing part 72 in the axial direction or is formed integrally with the cover 67.
F16H 13/10 - Means for influencing the pressure between the members
F16H 13/08 - Gearing for conveying rotary motion with constant gear ratio by friction between rotary members with members having orbital motion with balls or with rollers acting in a similar manner
F16H 15/52 - Gearings providing a continuous range of gear ratios in which a member of uniform effective diameter mounted on a shaft may co-operate with different parts of another member
An oil lubrication-type compressor for a cryocooler includes an air-cooled heat exchanger that includes a cooling fan and a first oil line disposed to be forcibly cooled by the cooling fan and a second oil line that bypasses the first oil line.
This molding device molds a metal material with a first mold and a second mold. The first mold and the second mold have a quenching mode adjustment region for adjusting a quenching mode of at least a part of a region in the metal material. In the quenching mode adjustment region, one mold among the first mold and the second mold is provided with a quenching mechanism for only quenching the metal material, and the other mold is provided with a non-quenching mechanism for non-quenching of the metal material.
This molding device comprises: a heating unit for heating a metal material; a molding die for molding the heated metal material; and a temperature adjustment mechanism for adjusting the temperature of at least a part of a non-quenching portion of the molding die, to form a non-quenched region in a molded product after molding the metal material. The temperature adjustment mechanism includes: a heating mechanism for forming the non-quenched region in the molded product by heating the non-quenching portion of the molding die during molding by the molding die; and a cooling mechanism for cooling the non-quenching portion of the molding die at a timing after the non-quenched region is formed in the molded product.
A work machine includes: a traveling body; a rotating body rotatably mounted on the traveling body; an attachment attached to the rotating body; and a control part. In this work machine, the attachment has a hook for hoisting a load, and, when the load is positioned ahead of the hook in a rotating direction of the rotating body upon deceleration of rotation of the rotating body, the control part executes anti-swing control on the rotation of the rotating body such that the hook is positioned immediately above the load's center of gravity.
F15B 13/04 - Fluid distribution or supply devices characterised by their adaptation to the control of servomotors for use with a single servomotor
F15B 15/08 - Fluid-actuated devices for displacing a member from one position to anotherGearing associated therewith characterised by the construction of the motor unit
F15B 19/00 - Testing fluid-pressure actuator systems or apparatus, so far as not provided for elsewhere
A superconducting magnet device includes a superconducting coil, a quenching protection circuit that is connected in parallel to the superconducting coil and that allows a current in one direction, and an excitation power supply that is connected to the superconducting coil with proper polarity determined such that a current flows in the one direction to the quenching protection circuit when quenching occurs in the superconducting coil, and excites the superconducting coil. The excitation power supply is configured to detect incorrect connection with the superconducting coil when the excitation power supply is connected to the superconducting coil with a polarity opposite to the proper polarity.
A cryopump system includes a sensor that measures a measurement parameter related to the cryopump system, a cryopump controller that is configured to receive the measurement parameter from the sensor, to determine an operation parameter of the cryopump system such that the measurement parameter follows a target value, and to operate the cryopump system with the determined operation parameter, and a cryopump monitor that is configured to acquire time-series data of the measurement parameter and time-series data of the operation parameter and to display a time-series graph of the measurement parameter and a time-series graph of the operation parameter with time axes thereof aligned with each other.
F04B 51/00 - Testing machines, pumps, or pumping installations
F04B 15/08 - Pumps adapted to handle specific fluids, e.g. by selection of specific materials for pumps or pump parts for liquids near their boiling point, e.g. under subnormal pressure the liquids having low boiling points
A neutron capture therapy device includes an accelerator that generates a particle beam, a target that generates a neutron ray by reacting with the particle beam, a collimator that includes a hole portion penetrating in an irradiating direction of the neutron ray and forms an irradiation field of the neutron ray generated from the target, and a deceleration member that decelerates the neutron ray generated from the target, in which a part of the deceleration member is disposed in the hole portion of the collimator.
A friction transmission device includes: an input trajectory ring; a planetary rolling body that is disposed about a rotation axis line of the input trajectory ring and that comes into contact with the input trajectory ring; an output trajectory ring that comes into contact with the planetary rolling body and that is connected to an output member, and a first support trajectory ring and a second support trajectory ring that come into contact with the planetary rolling body; in which at least one of the input trajectory ring, the output trajectory ring, the first support trajectory ring, or the second support trajectory ring is a convex-concave contact trajectory ring that comes into convex-concave contact with the planetary rolling body.
F16H 15/52 - Gearings providing a continuous range of gear ratios in which a member of uniform effective diameter mounted on a shaft may co-operate with different parts of another member
39.
ASSISTANCE DEVICE, WORK MACHINE, AND RECORDING MEDIUM
An assistance device includes circuitry configured to acquire data relating to a shape of a work target around a work machine; and propose, to a user, a movement from among a plurality of candidate movements in a predetermined work of the work machine, based on the acquired data, the plurality of candidate movements being of different types from each other.
A neutron capture therapy apparatus includes a treatment unit including an irradiator irradiating an irradiation target with a neutron ray, a simulation unit simulating position adjustment of the target with respect to the irradiator in the treatment unit, a first moving mechanism capable of moving the target in the treatment unit, a second moving mechanism capable of moving the target with respect to the simulation unit, and a transport mechanism capable of transporting the target from the second moving mechanism to the first moving mechanism, in which the second moving mechanism moves the target such that a target position with respect to the simulation unit is substantially the same as a predetermined target position with respect to the irradiator in the treatment unit, and the first moving mechanism moves the target to the predetermined target position with respect to the irradiator in the treatment unit.
This recycling system comprises: a quality determination unit 710 that determines the quality of a solid material such as PET flakes including a polymer to be recycled, on the basis of a predetermined quality determination standard; a material selection unit 720 that sorts the solid material into a high-quality material determined to have a higher quality than the quality determination standard, and a low-quality material determined to have a lower quality than the quality determination standard; a mechanical recycling device 900 that performs mechanical recycling processing on the high-quality material; and a chemical recycling device 100 that performs chemical recycling processing on the low-quality material. The chemical recycling device 100 comprises: a depolymerization reaction tank 300 for decomposing the low-quality material into depolymerization products by a depolymerization reaction; foreign matter removal devices 340-360 for removing foreign matter from the depolymerization products; a polymerization reaction tank 400 for synthesizing the depolymerization products into a polymer by a polymerization reaction; and a polymerization promotion device 500 that increases the degree of polymerization of the polymer.
B29B 17/00 - Recovery of plastics or other constituents of waste material containing plastics
B29C 45/18 - Feeding the material into the injection moulding apparatus
C08J 11/10 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation
42.
RECYCLING SYSTEM, RECYCLING METHOD, AND STORAGE MEDIUM
This recycling system comprises: a partial depolymerization part 730 that partially decomposes a solid material such as PET flakes including a polymer to be recycled into a depolymerized product through a depolymerization reaction; a solid-liquid separation part 740 that separates a solid content and a liquid content which can be obtained by the partial depolymerization part 730; and a recycling device that performs recycling treatment on the solid content. The recycling device is a mechanical recycling device 900 that performs mechanical recycling treatment on the solid component. A chemical recycling device 100 is provided for performing chemical recycling treatment on the liquid content.
C08J 11/10 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation
B29C 45/18 - Feeding the material into the injection moulding apparatus
This molding system comprises: a heating unit for heating a metal pipe material; and a molding unit for molding the heated metal pipe material. The molding unit is provided with a quenching mechanism for quenching a molded article. The molded article is transported to a cooling mechanism, which is separate from the quenching mechanism, in the middle of quenching by the quenching mechanism.
C21D 9/00 - Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articlesFurnaces therefor
C21D 9/08 - Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articlesFurnaces therefor for tubular bodies or pipes
Semiconductor manufacturing machines; semiconductor manufacturing systems comprised of semiconductor wafer processing equipment and machines for manufacturing semiconductors; ion implantation machines used in manufacturing semiconductors
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Plastics processing machines, in particular injection molding machines and related parts. Electronic data transmission via the internet and local computer networks; transmission of online-based information; provision of access to web pages and databases; all aforementioned services, in relation to the following goods: plastics processing machines. Weighing, measuring, signaling and inspecting apparatus and instruments for operating plastics processing machines; electric and electronic controls for plastics processing machines; computer programs for the control, regulation, process monitoring, process analysis, process-data determination, process evaluation and process visualization of plastics processing machines; recorded data carriers containing software for the control, regulation, process monitoring, process analysis, process-data determination, process evaluation and process visualization of plastics processing machines; software for databases. Hosting of digital content on the internet; programming of computer software; software as a service [SaaS]; all aforementioned services, in relation to the following goods: plastics processing machines.
A method for operating a cryocooler, in which the cryocooler includes an expander including an expander motor that is connected to a power source by a power supply cable and is capable of being driven at a power source frequency, the method includes: releasing a connection between the power source and the expander motor by the power supply cable; connecting the power source and the expander motor via an inverter; executing an accelerated cooling operation of the cryocooler in which the power source frequency is converted into an operation frequency higher than the power source frequency by the inverter and the expander motor is driven at the converted operation frequency; and removing the inverter and reconnecting the power source and the expander motor, after the accelerated cooling operation is stopped.
Sumitomo Heavy Industries Ion Technology Co., Ltd. (Japan)
Inventor
Nakajima, Tsuyoshi
Ishikawa, Masaki
Matsushita, Hiroshi
Abstract
A method includes: recording time-series data in which a beam condition including an ion species, energy, and a beam current of an ion beam that is transported along a beamline in an ion implanter and a neutron dose rate that is measured at a predetermined measurement position in the ion implanter are associated with each other in a recording device; transporting a high-energy ion beam along the beamline; acquiring a measured value of the neutron dose rate that is measured at the predetermined measurement position when transporting the high-energy ion beam; calculating an estimated value of the neutron dose rate that is estimated at the predetermined measurement position when transporting the high-energy ion beam, by using the time-series data and the beam condition of the high-energy ion beam; and comparing the measured value with the estimated value.
H01J 37/317 - Electron-beam or ion-beam tubes for localised treatment of objects for changing properties of the objects or for applying thin layers thereon, e.g. ion implantation
An apparatus includes a spindle platform; a traversing platform configured to move in a first direction; a lift system connected to the spindle platform and the traversing platform, the lift system configured to move the spindle platform in a second direction perpendicular to the first direction; a movable arm connected to the spindle platform, the movable arm including a first link connected to the spindle platform, a second link connected to the first link, and a third link connected to the second link, and a first actuator connected to the spindle platform and configured to cause a rotation of the first link, and a second actuator in the movable arm and configured to cause a rotation of the second link. The first actuator extends from the spindle platform into the first link to occupy a combined thickness of the spindle platform and the first link.
B25J 9/04 - Programme-controlled manipulators characterised by movement of the arms, e.g. cartesian co-ordinate type by rotating at least one arm, excluding the head movement itself, e.g. cylindrical co-ordinate type or polar co-ordinate type
B25J 5/02 - Manipulators mounted on wheels or on carriages travelling along a guideway
B25J 9/10 - Programme-controlled manipulators characterised by positioning means for manipulator elements
B25J 9/12 - Programme-controlled manipulators characterised by positioning means for manipulator elements electric
B25J 11/00 - Manipulators not otherwise provided for
Sumitomo Heavy Industries Ion Technology Co., Ltd. (Japan)
Inventor
Matsushita, Hiroshi
Ishikawa, Masaki
Nakajima, Tsuyoshi
Yagita, Takanori
Abstract
An ion implantation method includes: acquiring a measured value of a neutron dose rate measured at a predetermined position in an ion implanter when a first ion beam containing a first ion species is transported along a beamline; determining whether the measured value exceeds a predetermined threshold; transporting a second ion beam containing a second ion species having a larger mass number than the first ion species along the beamline when the measured value exceeds the predetermined threshold; and irradiating a wafer with the transported first ion beam after transport of the second ion beam.
H01J 37/304 - Controlling tubes by information coming from the objects, e.g. correction signals
H01J 37/30 - Electron-beam or ion-beam tubes for localised treatment of objects
H01J 37/317 - Electron-beam or ion-beam tubes for localised treatment of objects for changing properties of the objects or for applying thin layers thereon, e.g. ion implantation
A cryocooler compressor includes a compressor casing, and a double pipe-type heat exchanger that is accommodated in the compressor casing and cools the compressor, in which the double pipe-type heat exchanger includes a double pipe disposed along at least one surface of the compressor casing.
A system for forming a bulk material having insulated boundaries from a metal material and a source of an insulating material is provided. The system includes a heating device, a deposition device, a coating device, and a support configured to support the bulk material. The heating device heats the metal material to form particles having a softened or molten state and the coating device coats the metal material with the insulating material from the source and the deposition device deposits particles of the metal material in the softened or molten state on the support to form the bulk material having insulated boundaries.
B22D 23/00 - Casting processes not provided for in groups
B05C 5/00 - Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
B22F 3/115 - Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sinteringApparatus specially adapted therefor by spraying molten metal, i.e. spray sintering, spray casting
C23C 6/00 - Coating by casting molten material on the substrate
H01F 1/24 - Magnets or magnetic bodies characterised by the magnetic materials thereforSelection of materials for their magnetic properties of inorganic materials characterised by their coercivity of soft-magnetic materials metals or alloys in the form of particles, e.g. powder pressed, sintered, or bound together the particles being insulated
H01F 3/08 - Cores, yokes or armatures made from powder
H01F 41/02 - Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformersApparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils or magnets
52.
PRODUCTION MANAGEMENT DEVICE, DISPLAY DEVICE, AND PRODUCTION DEVICE
A production management device includes circuitry configured to acquire information indicating an emission amount of carbon dioxide corresponding to an amount of electric power supplied from each of one or more power generation facilities owned by an electric utility company having a contract for supplying electric power to a production device and a power generation facility for in-house power generation; acquire information indicating a ratio of the amount of electric power supplied from a corresponding one of the power generation facilities for the production device to produce a product; and calculate an emission amount of carbon dioxide generated by the production of the product, based on an amount of electric power used for the production of the product, the ratios of the amounts of electric power, and emission amounts of carbon dioxide corresponding to the amounts of electric power generated by one or more of the power generation facilities.
A cryocooler compressor includes a control panel, and a compressor casing that includes a front panel and accommodates the control panel, in which the front panel includes a first panel portion that provides a pipe connection, and a second panel portion that is removably connected to the first panel portion and on which the control panel is mounted.
F25B 31/02 - Compressor arrangements of motor-compressor units
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
A sensor device that detects information related to a load or a torque acting on a detection object includes a plurality of sensor members that are attached to the detection object and are connected in parallel, and an estimation unit that estimates the information related to the load or the torque acting on the detection object based on detected values of the plurality of sensor members.
A work machine includes circuitry configure to receive an operation input by a user with respect to the work machine; receive an instruction relating to an operation of the work machine from outside the work machine; and notify the user of the received instruction relating to the operation of the work machine.
G07C 5/08 - Registering or indicating performance data other than driving, working, idle, or waiting time, with or without registering driving, working, idle, or waiting time
56.
CONTROLLER FOR INJECTION MOLDING MACHINE, INJECTION MOLDING MACHINE, AND CONTROL METHOD FOR INJECTION MOLDING MACHINE
Provided is a controller for an injection molding machine including an injecting member configured to inject a molding material from a cylinder to a mold part, and a drive source configured to cause the injecting member to operate. The controller includes a cold-start prevention part configured to, when a first condition is met, restrict an operation of the injecting member during a cold-start prevention time that is set in advance. When the first condition is met, the cold-start prevention part determines whether or not a second condition, which is different from the first condition, is met to determine whether or not a value shorter than an initial value will be used as the cold-start prevention time.
A production management device includes circuitry configured to display, on a display unit, detection results detected by a detection unit in a process of producing a product upon a plurality of products being produced by a production device; and display, upon receiving selection of a detection result or information for identifying the product, a detection result of a first product together with a detection result of a second product and a detection result of a third product on the display unit, the first product being identified by the detection result or the information for identifying the product, the second product being produced by the production device immediately before the first product, and the third product being produced by the production device immediately after the first product.
B29C 45/77 - Measuring, controlling or regulating of velocity or pressure of moulding material
B29C 45/78 - Measuring, controlling or regulating of temperature
B29C 45/80 - Measuring, controlling or regulating of relative position of mould parts
G05B 13/02 - Adaptive control systems, i.e. systems automatically adjusting themselves to have a performance which is optimum according to some preassigned criterion electric
H02K 11/01 - Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for shielding from electromagnetic fields
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F25B 41/35 - Expansion valves with the valve member being actuated by electric means, e.g. by piezoelectric actuators by rotary motors, e.g. by stepping motors
59.
GAS REPLACEMENT METHOD FOR EXPANDER OF CRYOCOOLER, CRYOCOOLER, AND GAS REPLACEMENT PIPE
A gas replacement method for an expander of a cryocooler, the expander including an expander cylinder, a pressure switching valve that switches a pressure inside the expander cylinder, a connection flow path from the pressure switching valve to the expander cylinder, and an expander motor that drives the pressure switching valve, includes connecting a nonflammable gas source to the connection flow path or the expander cylinder, and purging a residual gas in the expander cylinder with a nonflammable gas from the nonflammable gas source while the expander motor is stopped.
F25J 1/02 - Processes or apparatus for liquefying or solidifying gases or gaseous mixtures requiring the use of refrigeration, e.g. of helium or hydrogen
60.
PARTICLE BEAM THERAPY FACILITY AND PARTICLE BEAM THERAPY DEVICE
A particle beam therapy facility includes: a therapy room that is independent of other rooms and that is used to perform therapy with particle beams; a plurality of preparation rooms that is used to perform preparation for the therapy; and a transfer room that is independent of other rooms and that is used to transfer between the therapy room and the preparation rooms, in which the transfer room includes a single continuous space that allows communication between a therapy room entrance of the therapy room and a preparation room entrance of each of the plurality of preparation rooms.
An apparatus including a robot drive; and a robot arm connected to the robot drive, where the robot arm includes a first link connected to the robot drive, a second link rotatably connected to the first link at a first rotatable connection, and an end effector rotatably connected to the second link at a second rotatable connection. The end effector includes a heat choke located between a substrate support area of the end effector and the second rotatable connection. At least one of the first rotatable connector or the second rotatable connection includes a rotary thermal coupling having interleaved members which are rotatable relative to each other.
B25J 9/04 - Programme-controlled manipulators characterised by movement of the arms, e.g. cartesian co-ordinate type by rotating at least one arm, excluding the head movement itself, e.g. cylindrical co-ordinate type or polar co-ordinate type
B25J 11/00 - Manipulators not otherwise provided for
B25J 19/00 - Accessories fitted to manipulators, e.g. for monitoring, for viewingSafety devices combined with or specially adapted for use in connection with manipulators
62.
HYDROGEN PRODUCTION APPARATUS AND HYDROGEN PRODUCTION METHOD
The present invention addresses the problem of providing a hydrogen production apparatus and a hydrogen production method which, in the production of hydrogen by electrolysis of water, allow the use of salt water as a feedstock while suppressing generation of chlorine. In order to solve the above-described problem, the present invention provides: a hydrogen production apparatus for producing hydrogen by electrolysis of salt water, the hydrogen production apparatus being provided with an electrolysis unit in which a cation exchanger is disposed between electrodes, wherein an electrolyte solution that does not contain chloride ions is introduced to the anode side of the electrolysis unit, and salt water is introduced to the cathode side of the electrolysis unit; and a hydrogen production method. According to the present invention, electrolysis can be performed while maintaining a state in which chloride ions that cause chlorine gas generation do not exist on the anode side. Consequently, in the production of hydrogen by electrolysis of water, salt water can be used as the feedstock for the production of hydrogen while suppressing the generation of chlorine, and, when the hydrogen production apparatus is increased in scale, the cost and the environmental load can be reduced.
C25B 1/04 - Hydrogen or oxygen by electrolysis of water
C25B 9/00 - Cells or assemblies of cellsConstructional parts of cellsAssemblies of constructional parts, e.g. electrode-diaphragm assembliesProcess-related cell features
C25B 9/19 - Cells comprising dimensionally-stable non-movable electrodesAssemblies of constructional parts thereof with diaphragms
63.
HOOD FOR LASER DEVICE, LASER PROCESSING DEVICE, AND LASER PROCESSING METHOD
A hood 30 for a laser processing device 1 comprises: a cylindrical part 31 stretching along the axial direction; a protective glass 31a which is provided at one end of the cylindrical part 31 in the axial direction and transmits a laser; an opening 31b provided at the other end of the cylindrical part 31 in the axial direction; and nozzles 34 which are disposed on the cylindrical part 31 and supply gas to the interior. The nozzles 34 are disposed at the central section of the cylindrical part 31 in the axial direction and at portions thereof in the circumferential direction.
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
64.
SUBSTRATE PROCESSING APPARATUS, SUBSTRATE PROCESSING METHOD, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE
Sumitomo Heavy Industries Ion Technology Co., Ltd. (Japan)
Inventor
Naito, Tsunahiko
Yamauchi, Hideyuki
Abstract
A substrate processing apparatus includes: a vacuum processing chamber; a substrate holder provided in the vacuum processing chamber and holding the substrate; a sealing forming a closed space between the substrate held by the substrate holder and the substrate holder; a gas path communicating with the closed space; a gas supply path supplying a gas into the gas path; a gas exhaust path exhausting the gas from the gas path; a first valve capable of opening and closing a space between the gas path and the gas supply path; and a second valve capable of opening and closing a space between the gas path and the gas exhaust path.
An actuator 1 includes a motor 20 and a speed reducer 30 that are mutually connected. A heat transfer member 25 that is elastic is disposed between: a coil end 232a of the motor 20; and a first speed-reducer casing 34A of the speed reducer 30.
The invention relates to an injection molding machine and to a method for operating same. The injection molding machine has a plasticizing screw with a nonreturn valve for preventing a backflow of plasticized material during an injection process. At least one injection process is carried out, wherein at least one curve of at least one variable (IP, TM, RM, SP, SV, RV) which characterizes the injection process is detected. The detected curve is evaluated using an evaluation algorithm which is trained using a machine learning process in order to determine the closing behavior of the nonreturn valve, in particular the most probable closing time (S) and/or the backflow blocking efficiency.
An information processing device includes: a display control unit that displays on a display device an input screen for inputting information related to a quality of a molding product manufactured by an injection molding machine; a receiving unit that receives an operation performed on the input screen; and a generation unit that generates the information related to the quality of the molding product according to the operation received by the receiving unit, in which the input screen is a screen that includes a predetermined item, which is the information related to the quality of the molding product and that displays a content for each item in a graph, and on the input screen, the content displayed in the graph is changed according to the operation received by the receiving unit.
A display device of an injection molding machine includes a circuit configured to display a guidance screen that assists in providing conditions of an injection process. The injection process sequentially includes a filling process of controlling a travel speed of an injection member, a stopping process of stopping travel of the injection member, and a dwelling process of controlling a pressure applied from the injection member to a molding material. The guidance screen includes a first input field configured to receive an input of conditions upon completion of the filling process in a first test molding. In the first test molding, the filling process is performed under the conditions input to the first input field and subsequently the stopping process is performed, and then the dwelling process is performed under conditions that enable confirming a forward flow end position of the molding material upon completion of the stopping process.
A first wheel and a second wheel are attached to a vehicle body, the first wheel and the second wheel being attractable to a contact surface and being switchable between an attracted state and an attraction release state. A traveling motor rotates the first wheel and the second wheel. A control unit switches each of the first wheel and the second wheel between the attracted state and the attraction release state and controls rotation. The control unit implements a first traveling mode for traveling on a first surface in a direction from the second wheel toward the first wheel, and a second traveling mode for traveling by setting the first wheel to the attraction release state and setting the second wheel to the attracted state, and rotating the second wheel until the first wheel comes into contact with a second surface rising from the first surface.
SUMITOMO HEAVY INDUSTRIES ION TECHNOLOGY CO., LTD. (Japan)
Inventor
Futakuchi, Taisei
Abstract
An ion implanter includes a high energy multi-stage linear acceleration unit including a plurality of linear acceleration units, wherein each of the linear acceleration units includes high frequency accelerators respectively in a plurality of stages; and a control device controlling an operation of the high energy multi-stage linear acceleration unit in accordance with a data set defining a voltage amplitude, a frequency, and a phase of the high frequency accelerator in each of the plurality of stages.
H01J 37/302 - Controlling tubes by external information, e.g. programme control
H01J 37/317 - Electron-beam or ion-beam tubes for localised treatment of objects for changing properties of the objects or for applying thin layers thereon, e.g. ion implantation
H01L 21/265 - Bombardment with wave or particle radiation with high-energy radiation producing ion implantation
71.
MOLDING SYSTEM, APPARATUS FOR TAKING OUT MOLDED PRODUCT, MOLD EQUIPMENT, AND METHOD FOR MANUFACTURING HOLLOW MOLDED PRODUCT
An apparatus for taking out molded product in a molding system has an insert portion, abutting portion, recess, and suction port. The insert portion is inserted in a hollow molded product via an opening portion serving as a blow pin extraction port of the hollow molded product. The abutting portion is arranged at the circumference of the insert portion and abuts on an outer circumferential surface of the hollow molded product spaced a predetermined distance from the opening portion serving as the blow pin extraction port. The recess is provided between the insert portion and the abutting portion, accommodates the opening portion in the state where the outer circumferential surface of the hollow molded product abuts on the abutting portion, and forms a stretch of closed space to the inside of the hollow molded product. The suction port is provided in the insert portion and sucks an ambient atmosphere.
An apparatus includes a platform configured to traverse a stationary base along a motion path; a drive coupled to the platform; and a movable arm assembly. The movable arm assembly includes a pivoting base connected to the drive, first and second linkages connected to the pivoting base, each linkage having links connected via rotary joints and each link having at least one end-effector. The platform is configured to traverse the stationary base along a motion path in two opposing directions and the drive and the movable arm assembly are configured to cause independent and simultaneous movement and transfer of substrates from at least one of a first substrate holding area, a second substrate holding area, a third substrate holding area, or a fourth substrate holding area into or from a respective substrate workstation.
This shaping device is equipped with: a fluid supply part which is disposed at an end of a metal pipe material and supplies a fluid to the inside of the metal pipe material via an opening at the end; and a seal mechanism which performs sealing to prevent the fluid from leaking out of the metal pipe material when the fluid is supplied by the fluid supply part to the metal pipe material heated by a heating part. The seal mechanism performs the sealing by contact between the metal pipe material and a non-resin material, without applying an axial force to the metal pipe material.
A cryopump capable of being mounted on a vacuum chamber via a gate valve, the cryopump includes a cryocooler, and a controller configured to detect whether or not the gate valve is closed, and to control the cryocooler such that a cooling capacity of the cryocooler when the gate valve is closed is increased compared to a cooling capacity of the cryocooler when the gate valve is opened.
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
75.
MOLDING SYSTEM, MOLDING DEVICE, AND MOLDING METHOD
This molding system for molding a metal material comprises: a molding device for carrying out quenching by molding a heated metal material; and an aging treatment device for carrying out an aging treatment on a molded article molded in the molding device. In the molding device, the metal material is molded after a solution treatment and an artificial aging treatment have been carried out.
C22F 1/00 - Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
C22F 1/04 - Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of aluminium or alloys based thereon
A cryocooler includes: a compressor; a cold head; a bypass valve that is connected to the compressor to bypass the cold head; and a controller that is configured to stop the compressor, open the bypass valve with a delay from the stopping of the compressor, and operate the cold head during at least a portion of a period from the stopping of the compressor to the opening of the bypass valve.
F25B 49/02 - Arrangement or mounting of control or safety devices for compression type machines, plants or systems
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F25B 41/20 - Disposition of valves, e.g. of on-off valves or flow control valves
77.
REGENERATOR MATERIAL FOR CRYOCOOLER, REGENERATOR FOR CRYOCOOLER, AND CRYOCOOLER
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
A cryopump system includes a plurality of cryopumps each of which includes a cryopump container, an exhaust valve that exhausts an exhaust fluid from the cryopump container, and an exhaust purge valve that supplies a purge gas to the exhaust valve or downstream thereof and an exhaust line through which the exhaust fluid is exhausted from the plurality of cryopumps to a treatment device, the exhaust line including a plurality of branch lines and a merging line, the plurality of branch lines each connected to the exhaust valve and the exhaust purge valve of a corresponding cryopump, the merging line connecting the plurality of branch lines to the treatment device.
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
F04B 37/14 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for special use to obtain high vacuum
A cryogenic cooling device includes: a cooling system including a cryocooler that includes a precooling stage configured to cool a refrigerant, a cooling stage that is disposed to be separated from the precooling stage, and a refrigerant circulation circuit configured to cool the cooling stage with the refrigerant; a fixation portion that is fixed with respect to the precooling stage, is thermally coupled to the precooling stage, and is cooled by the precooling stage; and a cooling stage support member that connects the cooling stage to the fixation portion such that displacement of the cooling stage with respect to the fixation portion is allowed.
F25B 9/10 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point with several cooling stages
F25B 9/02 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point using Joule-Thompson effectCompression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point using vortex effect
A first-stage displacer of a Gifford-McMahon (GM) cryocooler, includes: a first-stage displacer main body; a metal upper cap attached to an upper end of the first-stage displacer main body and formed of a metal material; and at least one piston seal mounted on a side surface of the metal upper cap.
F25B 9/14 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point characterised by the cycle used, e.g. Stirling cycle
F16J 9/26 - Piston-rings, seats thereforRing sealings of similar construction in general characterised by the use of particular materials
F25B 9/10 - Compression machines, plants or systems, in which the refrigerant is air or other gas of low boiling point with several cooling stages
A cryopump includes: a cryopump container including a cryopump intake port; a radiation shield that is cooled to a first cooling temperature and extends from the cryopump intake port into the cryopump container; a cryopanel unit that is cooled to a second cooling temperature lower than the first cooling temperature and is disposed to be surrounded by the radiation shield in the cryopump container; and an intake port shield that is cooled to the first cooling temperature and is disposed at the cryopump intake port such that the cryopanel unit is not visible from an outside of the cryopump, in which the radiation shield includes a first gas inlet formed at a height between the intake port shield and the cryopanel unit.
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
F04B 37/14 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for special use to obtain high vacuum
A cryopump includes a cryopump container, a pressure sensor that measures a pressure in the cryopump container and generates time-series pressure data indicating the measured pressure, a vent valve that is provided on the cryopump container, is electrically operable to open and close, and is capable of being mechanically opened by a differential pressure between inside and outside the cryopump container, and a controller that, during cryopump regeneration, detects stabilization of the measured pressure based on the time-series pressure data from the pressure sensor and controls the vent valve to open upon detection of the stabilization of the measured pressure.
F04B 37/08 - Pumps specially adapted for elastic fluids and having pertinent characteristics not provided for in, or of interest apart from, groups for evacuating by thermal means by condensing or freezing, e.g. cryogenic pumps
F04B 49/03 - Stopping, starting, unloading or idling control by means of valves
A technique capable of more appropriately monitoring objects around a work machine is provided. A surround view monitor system includes: an excavator including a communication device; and an external surround view monitor sensor (for example, an imaging device or a distance sensor) configured to acquire data on objects around the excavator. The excavator acquires output data of the external surround view monitor sensor or processed data generated based on the output data of the external surround view monitor sensor via the communication device.
B60R 1/27 - Real-time viewing arrangements for drivers or passengers using optical image capturing systems, e.g. cameras or video systems specially adapted for use in or on vehicles for viewing an area outside the vehicle, e.g. the exterior of the vehicle with a predetermined field of view providing all-round vision, e.g. using omnidirectional cameras
A shovel according to one aspect comprises: a lower traveling body; an upper turning body mounted on the lower traveling body so as to be turnable; a boom attached to the upper turning body; an arm attached to the boom; an end attachment attached to the arm; and a control device that controls one or more of the boom, the arm, and the end attachment such that, when the operation of turning the upper turning body is being performed according to an operation from the operator, a work portion of the end attachment moves along a construction surface subject to construction work by the end attachment, after coming into contact with the construction surface.
In the present invention, a traveling robot 10 includes: a plurality of wheels 16 pivotally supported by a frame 20; a magnet 19 built into each of the plurality of wheels 16; a magnet drive unit 191 for causing the magnets 19 to rotate around a first rotation axis Ax1; and a control unit 37. On the basis of the output of the magnet drive unit 191 when the magnets 19 are caused to rotate, the control unit 37 detects the state of close contact between the wheels 16 and a traveling surface.
B62D 57/02 - Vehicles characterised by having other propulsion or other ground-engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members
B62D 11/04 - Steering non-deflectable wheelsSteering endless tracks or the like by differentially driving ground-engaging elements on opposite vehicle sides by means of separate power sources
A shovel includes a lower traveling body; an upper turning body that is turnably mounted on the lower traveling body; an attachment that is attached to the upper turning body; a posture detection device configured to detect a posture of the attachment; and processing circuitry configured to determine, based on position information of a slope and a posture of the attachment, whether or not the attachment and the slope contact each other during turning of the upper turning body.
An actuator includes a hollow portion; and a first connection member to which a first wiring member to be inserted into the hollow portion is connectable, in which the first wiring member includes a first wiring to be inserted into the hollow portion, and a first connected portion that is provided at one end portion of the first wiring and is connectable to the first connection member, and the first connection member is connectable to the first wiring member such that the first wiring extends from the first connected portion obliquely with respect to an axial direction and inward in a radial direction.
H02K 11/00 - Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
H02K 7/00 - Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
In this flexible meshing type gear device: a vibratory bearing 18 comprises a first holder 48A for holding a plurality of first rolling elements 40A and a second holder 48B for holding a plurality of second rolling elements 40B. The first holder 48A includes a plurality of first pockets 64A for accommodating the plurality of first rolling elements 40A, and the first pockets 64A are opened toward the second rolling element array 42B side in the axial direction. The second holder 48B includes a plurality of second pockets 64B for accommodating the plurality of second rolling elements 40B, and the second pockets 64B are opened toward the first rolling element array 42A side in the axial direction.
F16H 1/32 - Toothed gearings for conveying rotary motion with gears having orbital motion in which the central axis of the gearing lies inside the periphery of an orbital gear
F16C 19/06 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly with a single row of balls
F16C 19/08 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly with two or more rows of balls
F16C 19/54 - Systems consisting of a plurality of bearings with rolling friction
Provided is an actuator including a hollow portion penetrating the actuator in an axial direction, the actuator including: a first shaft that surrounds the hollow portion; and a second shaft that surrounds the hollow portion and is connected to the first shaft to be rotatable integrally therewith, in which the first shaft and the second shaft include a fitting portion in which the first shaft is fitted to an inner periphery of the second shaft, and are connected to each other in the fitting portion.
H02K 7/00 - Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
H02K 3/46 - Fastening of windings on the stator or rotor structure
A gear device includes an internal gear and an external gear that meshes with the internal gear; the internal gear includes an internal tooth ring portion that is provided with internal teeth on an inner periphery thereof, an outer ring portion that is provided on a radially outer side of the internal tooth ring portion, and an easily deformable portion that is provided between the internal tooth ring portion and the outer ring portion and that is adapted to be more easily deformable than the internal tooth ring portion; a strain sensor is installed on the easily deformable portion; and the easily deformable portion is adapted such that a variation range of a radial distribution of strain is small as compared to a case where the easily deformable portion is made of a single material to have a uniform axial thickness in a radial direction.
This compressor system for a cryocooler is provided with a compressor (12) and a hot water supply device (100) that uses exhaust heat from the compressor (12) to supply hot water. This compressor system for a cryocooler may further be provided with: an air-cooled heat exchanger (26) that cools the compressor; a compressor temperature sensor (60) that measures the temperature of the compressor (12); and a controller (200) that controls the air-cooled heat exchanger (26) on the basis of the temperature of the compressor (12) measured by the compressor temperature sensor (60).
A management device is for an injection molding machine including a cylinder divided into zones from upstream to downstream along a direction in which a molding material is fed, a temperature adjuster provided in each of the zones, and a temperature detector configured to detect an actual temperature of each of the zones. The management device includes processing circuitry configured to detect abnormal heat generation due to shearing of the molding material based on the actual temperature of a predetermined zone of the zones excluding a most upstream zone and a most downstream zone.
A management device is for an injection molding machine configured to repeatedly perform a shot that is a series of operations for producing a molded product in a mold part. The management device includes processing circuitry configured to: repeatedly obtain a numerical value of a physical quantity of at least an object that is withdrawn from an interior of the mold part to an exterior thereof or that is fed from the exterior of the mold part to the interior thereof, the numerical value of the physical quantity being measured externally of the mold part; and record the numerical value in association with identification data of the shot.
An injection molding machine includes a cylinder configured to heat a molding material including bioplastics and a rotating member provided in the cylinder. The molding material is fed from upstream to downstream along a helical groove formed in the rotating member by the rotating member being rotated. The rotating member includes a first region and a second region downstream of the first region. The first region and the second region are different in shape, dimensions, or both. A retention time of the molding material in the first region is longer than in a case in which the first region has the same shape and the same dimensions as in the second region.
A controller is for an injection molding machine including an injecting member configured to push a molding material in a forward direction, the molding material containing a bioplastic; and an injection drive source configured to cause the injecting member to travel forward or backward. The controller is configured to perform filling in which a forward travel speed of the injecting member is controlled so that an actual value of a pressure applied from the injecting member to the molding material does not exceed an upper limit of the pressure. In at least a part of the filling, a value of from 550 mm/s through 700 mm/s is settable as a set value of the forward travel speed of the injecting member, and a value of 200 MPa or higher is settable as the upper limit of the pressure.
09 - Scientific and electric apparatus and instruments
Goods & Services
Semiconductor manufacturing machines; thin film forming machines for semiconductor wafers; vacuum thin film forming machines; polymerized thin film forming machines using plasma; metal working machines Ion generators excluding those for air purification or water purification
A polymer stirring device 700 is provided with: a container 710 to which a polymer PM is supplied; a first rotating body 720 and a second rotating body 730 which rotate in the container 710 to stir the polymer PM; and an adhered position detection unit 760 which detects the position of polymer PM adhered to the first rotating body 720 and/or the second rotating body 730. The adhered position detection unit 760 detects a highest arrival position H, in the vertical direction, of polymer PM adhered to the first rotating body 720 and/or the second rotating body 730. The first rotating body 720 and the second rotating body 730 are provided with a first rotating plate 721 and a second rotating plate 731 which rotate around a first rotational axis 722 and a second rotational axis 732 both extending in a direction that intersects the vertical direction, and the adhered position detection unit 760 detects a highest arrival position H, in the vertical direction, of polymer PM adhered to the first rotating plate 721 and/or the second rotating plate 731.
B29B 7/28 - Component parts, details or accessoriesAuxiliary operations for measuring, controlling or regulating, e.g. viscosity control
B01F 27/73 - Mixers with rotary stirring devices in fixed receptaclesKneaders with stirrers rotating about a horizontal or inclined axis with rotary discs
B01F 27/115 - Stirrers characterised by the configuration of the stirrers comprising discs or disc-like elements essentially perpendicular to the stirrer shaft axis
B01F 35/214 - Measuring characterised by the means for measuring
B29C 45/00 - Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mouldApparatus therefor
B29C 45/17 - Component parts, details or accessoriesAuxiliary operations
C08J 11/24 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation by treatment with organic material by treatment with organic oxygen-containing compounds containing hydroxyl groups
98.
CARBONATE IMMOBILIZATION DEVICE AND CARBONATE IMMOBILIZATION METHOD
[Problem] The present invention addresses the problem of providing a carbonate immobilization device and a carbonate immobilization method for generating alkaline-earth metal carbonates from water being treated that contains alkaline-earth metal ions, using less energy than when concentration is performed via heating evaporation. [Solution] This carbonate immobilization device is characterized in that water being treated that contains alkaline-earth metal ions is concentrated using a membrane having a magnesium chloride blocking rate of 1.0-99.0%, so that alkaline-earth metal carbonates are generated. By using a membrane having a magnesium chloride blocking rate of 1.0-99.0%, some of the alkaline-earth metal carbonates generated when the water being treated is concentrated pass through the membrane. It is therefore possible to arrest any decline in performance regarding treating water to be be treated due to adhesion of the carbonates, known as scale, to the surface of the membrane, and carbon dioxide can be efficiently immobilized.
C02F 1/44 - Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
B01D 69/02 - Semi-permeable membranes for separation processes or apparatus characterised by their form, structure or propertiesManufacturing processes specially adapted therefor characterised by their properties
The present invention addresses the problem of providing: a condenser that suppresses generation of carbonate (scale) derived from calcium ions and suppresses clogging of a cooling pipe, even when a cooling liquid containing calcium ions is used; and a boiler system comprising the condenser. In order to solve the aforementioned problem, a condenser according to the present invention is characterized by comprising a supply unit that supplies carbon dioxide to a cooling liquid containing calcium ions. In the condenser according to the present invention, the supply unit of the condenser supplies carbon dioxide to the cooling liquid, whereby the pH of the cooling liquid can be reduced, and the condenser makes the cooling liquid less likely to generate carbonate ions, thereby exhibiting an effect for suppressing precipitation of calcium carbonate.
F28F 19/00 - Preventing the formation of deposits or corrosion, e.g. by using filters
C02F 5/00 - Softening waterPreventing scaleAdding scale preventatives or scale removers to water, e.g. adding sequestering agents
F28B 1/02 - Condensers in which the steam or vapour is separated from the cooling medium by walls, e.g. surface condenser using water or other liquid as the cooling medium
F28B 9/08 - Auxiliary systems, arrangements, or devices for collecting and removing condensate
F28G 13/00 - Appliances or processes not covered by groups Combinations of appliances or processes covered by groups
100.
ELECTRICAL HEATING DEVICE, FORMING DEVICE, AND ELECTRICAL HEATING METHOD
An electrical heating device includes a heating unit that causes a current to flow through a metal material to heat the metal material, and a measurement unit that measures a displacement amount of the metal material, in which the heating unit performs temperature control of the metal material based on the displacement amount of the metal material measured by the measurement unit.
