A conveyer of multi-type vehicle sharing, comprising a frame (1). An endless belt (10) and a drive mechanism that drives the endless belt (10) to work are arranged on the frame (1). A guide mechanism (2), a material separating mechanism (3), and a feeding mechanism (4) are arranged on the frame (1). The guide mechanism (2) is provided with two guide plates (20) that can be close to or distant from each other, and a feeding channel is formed between the two guide plates (20). The material separating mechanism (3) separates the feeding channel into a first area and a second area, and the feeding mechanism (4) is located in the second area. By means of the two guide plates (20) in the guiding mechanism (2) that are close to or distant from each other, the conveyer is suitable for feeding door frame rails with different lengths to implement multi-type vehicle collinear production and save floor space and device investment, and by means of the endless belt (10), the material separating mechanism (3), and the feeding mechanism (4), automatic feeding is implemented, production efficiency is improved, and the labor intensity of operators is reduced.
A special machine for automatically stacking guide rail rolling lines, comprising a frame (15) and a conveying belt (2). Both sides of the end of the conveying belt (2) are respectively arranged with an arranging device and an overturning device, and the end of the conveying belt (2) is arranged with a stop block (11). A portal frame (4) is placed across above the frame (15). One end of the portal frame (4) extends outside the frame (15), and a side surface of the portal frame (4) is arranged with a servo adsorption device. After the guide rails are conveyed in a U-like shape along the conveying belt (2) into the arranging device, the arranging device arranges the guide rails tidily, and then the servo adsorption device adsorbs and conveys the guide rails to a trolley; at the same time, a new batch of guide rails are arranged in the arranging device tidily, the overturning device adsorbs and overturns the guide rails into an n-like state, the servo adsorption device adsorbs the guide rails of the overturning device and stacks same in the previous batch of guide rails, so that the two batches of guide rails are staggered. On one hand, automatically stacking the guide rails is implemented, and the labor intensity is reduced, the production cycle and cost effectiveness are greatly improved, and on the other hand, the occupancy rate of trolleys and the turnover of a single trolley are improved.
An injection moulding machine smart conveying system, comprising a plurality of trays, a plurality of tray start areas (1), a conveying chain (3), a sorting chain (5), a plurality of tray end collection areas (6), first RFID read/write heads (7), raising/lowering mechanisms (2) and second RFID read/write heads (8). Each tray is provided with an RFID chip. The conveying chain (3) comprises an upper layer conveyor belt (30) and a lower layer conveyor belt (31), the upper layer conveyor belt (30) is provided with a number of upper layer feed ports (32) matched with the raising/lowering mechanisms (2), and the lower layer conveyor belt (31) is provided with lower layer return ports (33), the lower layer return ports (33) being located directly beneath the corresponding upper layer feed ports (32). Each second RFID read/write head (8) corresponds to one tray end collection area (6). The sorting chain (5) comprises an upper layer sorting belt (50) and a lower layer sorting belt (51), and the inside of each tray end collection area (6) is provided with a raising/lowering sorting platform connecting the upper layer sorting belt (50) and the lower layer sorting belt (51). The trays are returned to the tray start areas (1) after the first RFID read/write heads (7) and the second RFID read/write heads (8) have read corresponding information, and the conveying chain (3) and the sorting chain (5) have completed automatic sorting.
B07C 5/34 - Tri en fonction d'autres propriétés particulières
B07C 5/02 - Opérations précédant le tri, p. ex. mise en place des objets dans un courant, redressage
G06K 17/00 - Méthodes ou dispositions pour faire travailler en coopération des équipements couverts par plusieurs des groupes principaux , p. ex. fichiers automatiques de cartes incluant les opérations de transport et de lecture
A bracket ejecting-type feeding machine, comprising a frame (1) and a rotary work platform (2) mounted on an upper end surface of the frame (1), an ejecting cylinder (5) being arranged beneath the rotary work platform (2), a plurality of first through holes being arranged on an upper end surface of the rotary work platform (2), each first through hole being configured with an ejecting apparatus (3), the inside of each ejecting apparatus (3) being provided with a bracket placement channel which passes through the inside of the ejecting apparatus (3) from bottom to top, each ejecting apparatus (3) being fixed on the rotary work platform (2) via two clamp apparatuses (4). The bracket ejecting-type feeding machine stacks brackets in the ejecting apparatuses (3) to limit the brackets via the bracket placement channels, the brackets are ejected one at a time by the ejecting cylinder (5), and the ejecting apparatuses (3) are mounted on the rotary work platform (2) via the clamp apparatuses (4), so that operations are convenient, and output positions of the brackets are accurate, thereby effectively reducing operator labour intensity.
An automated system for removing burrs on three-dimensional edges of injection moulded pieces, said system comprising a control panel (8), an electrical control system, a workpiece positioning fixture, a mechanical arm (50), and a cutter (60) mounted on a tail end of the mechanical arm. A floating adjustment mechanism used for adjusting a blade position of the cutter is mounted between the mechanical arm and the cutter, and the cutter is mounted on the floating adjustment mechanism. The workpiece positioning fixture utilises a polyformaldehyde profile cushion block (32) which protects the exterior surface of an injection moulded piece, and is connected to a clamp mounting frame (30) by pins and bolts. The control panel switches processing programs to deburr different injection moulded pieces. The system deburrs injection moulded pieces by means of the mechanical arm, removes burrs on three-dimensional edges, increases production efficiency, and increases product processing quality. The floating adjustment mechanism prevents damage to parts caused by changes in the shapes of injection moulded pieces during deburring.
A polishing machine capable of automatic polishing amount compensation, said polishing machine comprising a robot and a polishing head (6), the polishing head (6) being mounted on the robot by means of an automatic polishing amount compensation unit, the automatic polishing amount compensation unit comprising a mounting plate (3), one side surface of the mounting plate (3) being mounted with a displacement sensor (10), another side surface of the mounting plate (3) being mounted with a slide platform (7), the slide platform (7) being provided with a polishing head mounting plate (8), a floating mechanism being mounted between the slide platform (7) and the mounting plate (3), a lower end of the slide platform (7) being mounted with a detection rod (9), one end of the detection rod (9) passing beneath the mounting plate (3) and being located beneath the displacement sensor (10), a working end of the displacement sensor (10) being in contact with an upper end surface of the detection rod (9). The polishing machine uses a system to detect a polishing amount of an electrode and a polishing amount of the polishing head (6), and starts polishing after locking the polishing head (6) by means of a locking mechanism, thereby increasing polishing quality and stability. The polishing machine implements automatic polishing, increases production efficiency, and reduces operator labour intensity.
A pneumatic door shutter system, comprising a mounting box, the inside of the mounting box being provided with an air cylinder (1), a first slide rail (4), a slide block (3) which is mounted at a tail end of the air cylinder and moves back and forth along the first slide rail, a driving sprocket (7), and a driven sprocket (9) which is connected to a rolling shutter door shaft. A first chain (8) is arranged between the driving sprocket and the driven sprocket. A first transmission sprocket is coaxially mounted beside the driving sprocket. The first transmission sprocket is connected to a second transmission sprocket via a second chain (6). One end of the second chain is fixed on the slide block (3). The other end of the second chain is wound on the first transmission sprocket and the second transmission sprocket then fixed on the slide block. Smooth and reliable transmission is achieved by means of the chain and sprocket transmission. The present invention has low mounting accuracy and low machining costs, and is not prone to wear and tear.
Disclosed is a mechanism for automatically replacing a grinding wheel piece for an electric sander. The mechanism comprises a first machine frame (1) and a sander manipulator (2) located above the first machine frame (1), wherein two grinding wheel piece positioning units are arranged on an upper end face of the first machine frame (1); the interior of the first machine frame (1) is provided with a horizontally moving slide platform (3) and a horizontal driving unit for driving the horizontally moving slide platform (3) to move back and forth between the two grinding wheel piece positioning units; and a vertical driving unit and a vertically moving slide platform moving up and down along the vertical driving unit are arranged on the horizontally moving slide platform (3), and a nut assembly and disassembly unit (8) is arranged on the vertically moving slide platform. The mechanism for automatically replacing a grinding wheel piece for an electric sander has a simple structure and realizes the automatic replacement of a grinding wheel piece, thereby shortening the time of replacing a sanding piece and improving working efficiency.
Disclosed is a door frame windowpane run channel prying mechanism, comprising a base (1) and a workbench (2) arranged on the base, wherein an upper end surface of the workbench is provided with a plurality of clamping units (3) arranged along the contour of the door frame, a prying unit (4) with a working end facing the door frame windowpane run channel, and a detection unit (5) arranged on an outer side of the prying unit. The door frame windowpane run channel is pried by means of the prying unit, and the detection unit can monitor the prying of the door frame windowpane run channel, thereby enabling effective control of the prying of the door frame windowpane run channel to be carried out, reducing the rejection rate of products, saving on costs, shortening the grinding time and reducing the labour intensity of staff.
Disclosed is an automatic abrasive paper switching mechanism for a pneumatic grinding and polishing machine. The mechanism comprises a new abrasive paper storage barrel (1) and a used abrasive paper unloading blade (2) located beside the new abrasive paper storage barrel (1), wherein a power source (6) for pushing abrasive paper upwards inside the new abrasive paper storage barrel (1) is arranged below the new abrasive paper storage barrel (1), and an upper end of the new abrasive paper storage barrel (1) is open. By providing the new abrasive paper storage barrel (1), the used abrasive paper unloading blade (2) and the power source (6) for pushing the abrasive paper upwards inside the new abrasive paper storage barrel (1), a robot moves a grinding and polishing head to be in front of the used abrasive paper unloading blade (2), and the robot moves slowly to tear off the used abrasive paper by the used abrasive paper unloading blade (2), and the robot then moves to a position right above new abrasive paper, and the power source (6) presses the abrasive paper onto the grinding and polishing machine, and then the robot moves away, thereby completing the adhesion of the new abrasive paper. The robot continues grinding and polishing, and when grinding and polishing are carried out a certain number of times, the above-mentioned actions are repeated. The automatic abrasive paper switching mechanism enables the automatic replacement of abrasive papers without manual operations, thus solving the safety risk in the prior art.
B24B 29/02 - Machines ou dispositifs pour polir des surfaces de pièces au moyen d'outils en matière souple ou flexible avec ou sans application de produits de polissage solides ou liquides conçus pour pièces particulières
B24B 41/00 - Éléments constitutifs des machines ou dispositifs à meuler, tels que bâtis, bancs, chariots ou poupées
A specialized A-grade door frame surface polisher, comprising a base (1). The base (1) is provided with a door frame positioning jig (2), a robot (3), and a control box (11). The robot (3) and the control box (11) are positioned next to the door frame positioning jig (3). A rotating base (10) is installed on a rotating shaft at a terminal of the robot (3). The rotating base (10) is installed with a servomotor (5), a pneumatic grinding machine (8), and a pneumatic polishing machine (9). An output terminal of the servomotor (5) is directly or indirectly installed with an electric-powered angle grinding machine (7). An upper surface or a side surface of the control box (11) is provided with a grinding wheel wear sensor (4) for measuring the degree of wear of an angle grinding wheel. An action of the output terminal of the servomotor (5) is controlled by a feedback signal sent by the grinding wheel wear sensor (4). After the angle grinding wheel completes a task, the wheel contacts the grinding wheel wear sensor at a uniform pressure. The grinding wheel wear sensor then feeds back data to the control box. The control box controls a feed amount of the output terminal of the servomotor, performing real-time monitoring of the amount of grinding performed by the angle grinding wheel, and compensating by use of the servomotor. The invention can achieve precision of up to 0.03 mm.
B24B 9/04 - Machines ou dispositifs pour meuler les bords ou les biseaux des pièces ou pour enlever des bavuresAccessoires à cet effet caractérisés par le fait qu'ils sont spécialement étudiés en fonction des propriétés de la matière propre aux objets à meuler du métal, p. ex. lames de patins à glace
B24B 29/02 - Machines ou dispositifs pour polir des surfaces de pièces au moyen d'outils en matière souple ou flexible avec ou sans application de produits de polissage solides ou liquides conçus pour pièces particulières
B24B 27/00 - Autres machines ou dispositifs à meuler
B24B 49/00 - Appareillage de mesure ou de calibrage pour la commande du mouvement d'avance de l'outil de meulage ou de la pièce à meulerAgencements de l'appareillage d'indication ou de mesure, p. ex. pour indiquer le début de l'opération de meulage
B24B 47/20 - Entraînement ou transmission des machines ou dispositifs à meulerÉquipement à cet effet liés au mouvement d'avance
B24B 51/00 - Systèmes pour la commande automatique d'une série d'opérations successives du meulage d'une pièce
An assembly machine for an inner cover plate is provided, comprising a frame (1). The frame (1) is provided with a working surface. An inner cover plate positioning fixture (2) is disposed on the working surface. The frame (1) is provided with a movable template (3) capable of moving vertically towards or away from the working surface. The movable template (3) is provided with three flash cutters (13), three plastic fastener pushing mechanisms (12), and five metal fastener pushing mechanisms (11). A driving mechanism for driving the inner cover plate positioning fixture (2) to move to a position below the movable template (3) along a straight line is disposed between the inner cover plate positioning fixture (2) and the working surface. The assembly machine for an inner cover plate of the invention reduces defective products by ensuring the quality of assembled products, reduces labor intensity by making operations of an operator simple and quick, and reduces labor costs by improving productivity by replacing two-worker assembly work with operations performed by one single worker.
B29C 69/00 - Combinaisons de techniques de façonnage non prévues dans un seul des groupes principaux , p. ex. associations de techniques de moulage et d'assemblageAppareils à cet effet
A chair frame small accessory riveting machine comprising a general machine frame (12) and an indexing plate (4). The indexing plate can rotate clockwise or counterclockwise around the center of rotation thereof. Several workpiece positioning fixtures (5) are arranged on the indexing plate. A rivet feeding mechanism, a manual operation platform (11), a rivet oiling mechanism (6), and a rivet rotating machine (7) are sequentially arranged outside the outer circumference of the indexing plate. A rivet grabbing module is arranged between the rivet feeding mechanism and the indexing plate. A six-axis unloading robot (8) is arranged between the rivet rotating machine and the rivet feeing mechanism. Working extremities of the rivet oiling mechanism and of the rivet rotating machine respectively extend above the corresponding workpiece positioning fixtures. The riveting machine has high production efficiency, stable product quality, and great versatility and implements semi-automated production of chair frame small accessories.
An oiling mechanism for a seat framework, comprising a vertical frame (1) and a horizontal frame (2) mounted on the top end of the vertical frame; one end of the horizontal frame (2) is provided with an oiling cylinder (3) and an attracting cylinder (4); the extending end of the oiling cylinder (3) is directly or indirectly mounted with an oiling tube (5), the oil discharging end of the oiling tube (5) facing downwards, and the other end of the oiling tube (5) being in communication with an oil filling machine by means of a precise rationing-valve (10); the extending end of the attracting cylinder (4) is directly or indirectly provided with an electromagnet (6). The oiling mechanism implements rationed oiling by means of the oiling cylinder (3), the oiling tube (5), the precise rationing-valve (10), and the attracting cylinder (4) and the electromagnet (6) lift and replace a large riveting member so as to facilitate the oiling tube (5) to perform oiling. The oiling mechanism can apply oil evenly, improving the quality of a product; moreover, the oiling mechanism realizes automatic oiling, improving production efficiency.
B05C 5/02 - Appareillages dans lesquels un liquide ou autre matériau fluide est projeté, versé ou répandu sur la surface de l'ouvrage à partir d'un dispositif de sortie en contact, ou presque en contact, avec l'ouvrage
B05C 13/02 - Moyens pour manipuler ou tenir des objets, p. ex. des objets individuels pour des objets particuliers
B05C 11/10 - Stockage, débit ou réglage du liquide ou d'un autre matériau fluideRécupération de l'excès de liquide ou d'un autre matériau fluide
15.
SPECIALIZED WEATHERSTRIP CUTTING AND PUNCHING MACHINE
A specialized weatherstrip cutting and punching machine, comprising a conveying mechanism (1), a main cutting machine (2), and an automatic grabbing mechanism (3). The main cutting machine (2) comprises a main machine frame (20) and at least two sets of punching mold units. A workpiece drop opening (21) is provided on the main machine frame (20). Each of the punching mold units comprises a first punching mold (22) and a second punching mold (23). A first horizontal guide rail (220) is provided between the first punching mold (22) and the main machine frame (20). A second horizontal guide rail (230) is provided between the second punching mold (23) and the main machine frame (20). A first power source is provided next to the first horizontal guide rail (220). A second power source is provided next to the second horizontal guide rail (230). The automatic grabbing mechanism (3) is provided on the main machine frame (20), straddles the workpiece drop opening (21) and the conveying mechanism (1) and can be adapted to different lengths of weatherstrip cutting and punching. The invention effectively improves punching production efficiency and uses an automatic grabbing mechanism to realize automated production.
A special automatic assembly machine for a front fender comprises an electric screwdriver (10), a rack (1) and a work bench (2). A left jig (4) and a right jig (5) are disposed on the two ends of the work bench (2). A robot and a screw feeder (3) are disposed between the left jig (4) and the right jig (5). The robot comprises a base (6) fixed on the work bench (2), a rotary arm (7), a horizontal guide, a moving block and a servomotor. A vertical cylinder (8) is installed on the moving block. The electric screwdriver (10) is installed on the extended end of the vertical cylinder (8) by means of a L-shaped base (9). The screw feeder (3) connects to the electric screwdriver (10) by means of a screw conveyor. The invention realizes automation of tightening five screws by coordinating the robot with the electric screwdriver (10), increases production efficiency, has a simple structure and stable product quality, and reduces labor intensity for operators. The special automatic assembly machine for a front fender is capable of tightening screws on a left front fender and a right front fender alternately. The special automatic assembly machine for a front fender is used for automatic screw tightening for front fenders.
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