CN210999746U - Laser deburring divides cave balance equipment - Google Patents

Abstract

The utility model discloses a laser deburring and cavity-dividing swing disc device, which comprises an X-axis module, a laser machine, a Y-axis module and a cavity-dividing swing disc component; wherein: a carrier is arranged at the moving end of the X-axis module; the laser machine is positioned on one side of the X-axis module and corresponds to the carrier in position; an adsorption component is arranged at the moving end of the Y-axis module, and corresponds to the carrier in position; the hole-dividing swinging plate assembly comprises a conveying line body, a material carrying structure capable of moving along the length direction of the conveying line body, and a feeding structure and a discharging structure which are respectively positioned at two ends of the conveying line body, wherein the material carrying structure can convey a material plate from the position of the feeding structure to the position of the discharging structure. The utility model discloses can carry out unhairing limit operation to the injection molding fast, then divide the cave balance operation to the finished product automatically, reduce the consumption of manpower, greatly reduced workman's intensity of labour.

Description

Laser deburring divides cave balance equipment

Technical Field

The utility model belongs to the technical field of injection molding deckle edge is got rid of, especially, relate to a laser deckle edge divides cave balance equipment.

Background

The injection molding, adopt the mould to mould plastics and form usually, the injection molding is after production is accomplished, there can be deckle edge in the surface usually, need handle the deckle edge on its surface, present processing mode commonly used is manual handling, operate workman's handheld tool to handle the deckle edge on injection molding surface promptly, get rid of deckle edge, this kind of mode need consume a large amount of manpowers, still need to carry out the balance operation to the injection molding after handling the completion, avoid on-the-spot confusion, workman's intensity of labour has greatly been increased, and manual operation's inefficiency, the phenomenon is omitted to appear easily, be difficult to satisfy the demand of modernized high-speed production.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes prior art's is not enough, provides a laser unhairing limit divides cave balance equipment to solve the problem that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a laser deburring and cavity dividing swing disc device comprises an X-axis module, a laser machine, a Y-axis module and a cavity dividing swing disc assembly; wherein: a carrier is arranged at the moving end of the X-axis module; the laser machine is positioned on one side of the X-axis module and corresponds to the carrier in position; an adsorption component is arranged at the moving end of the Y-axis module, and corresponds to the carrier in position; the hole-dividing swinging plate assembly comprises a conveying line body, a material carrying structure capable of moving along the length direction of the conveying line body, and a feeding structure and a discharging structure which are respectively positioned at two ends of the conveying line body, wherein the material carrying structure can convey a material plate from the position of the feeding structure to the position of the discharging structure.

The utility model discloses a preferred embodiment still includes the quick-witted case, X axle module, laser machine, Y axle module and branch cave balance disk subassembly all are fixed in on the quick-witted case.

In a preferred embodiment of the present invention, a human-machine interface is disposed on the case, and the human-machine interface is electrically connected to the X-axis module, the laser, the Y-axis module, and the hole-dividing wobble plate assembly.

The utility model discloses a preferred embodiment, X axle module includes X axle driving motor, is located X axle feed screw of X axle driving motor pivot end and can follow the X axle motion seat that X axle feed screw length direction moved, the carrier pass through the connecting block with X axle motion seat is connected.

The utility model discloses a preferred embodiment, Y axle module includes Y axle driving motor, is located the Y axle feed screw of Y axle driving motor pivot end and can follow the Y axle motion seat that Y axle feed screw length direction moved, adsorption component through the installation piece with Y axle motion seat is connected.

In a preferred embodiment of the present invention, the suction assembly includes a driving cylinder, a suction motor located at the piston rod end of the driving cylinder, and a rotary suction cup located at the end of the rotary shaft of the suction motor.

In a preferred embodiment of the present invention, the material loading structure includes a jacking cylinder and a carrier located at a piston rod end of the jacking cylinder, and the carrier is connected to the conveyor line body.

In a preferred embodiment of the present invention, the carrier is provided with an opening, and the number of the jacking cylinders is two and corresponds to the position of the opening.

The utility model discloses a preferred embodiment, the feed structure includes the material loading frame, is located the material loading cylinder of material loading frame both sides and by material loading cylinder driven material loading supporting shoe, the material loading supporting shoe can support the charging tray.

The utility model discloses a preferred embodiment, blanking structure includes the unloading frame and is located the unloading supporting shoe of unloading frame both sides, the unloading supporting shoe is the one-way upset structure.

The utility model provides a defect that exists among the background art, the utility model discloses possess following beneficial effect:

the utility model discloses under the mating reaction of X axle module, laser machine, Y axle module and branch cave balance subassembly, can carry out unhairing limit operation to the injection molding fast, then divide the cave balance operation to the finished product piece automatically, the consumption of manpower has been reduced, workman's intensity of labour has greatly been reduced, the unhairing limit efficiency to the injection molding has still been improved greatly simultaneously, the phenomenon can not appear omitting at the unhairing limit in-process, can satisfy modernized high-speed production's demand, the benefit of recovering of improvement enterprise.

Drawings

The present invention will be further explained with reference to the drawings and examples;

fig. 1 is a schematic overall structure diagram of the preferred embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a partial schematic view of a preferred embodiment of the present invention;

FIG. 4 is another partial schematic structural view of the preferred embodiment of the present invention;

in the figure: 1. a chassis; 2. an X-axis module; 3. a laser machine; 4. a Y-axis module; 5. a hole-dividing swinging plate component; 51. a conveyor line body; 52. a material loading structure; 53. a feeding structure; 54. a blanking structure; 6. a carrier; 7. an adsorption component; 71. a driving cylinder; 72. an adsorption motor; 73. rotating the sucker; 8. and (4) a human-computer interface.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings and illustrate, by way of illustration only, the basic structure of the invention, and which therefore show only the constituents relevant to the invention.

As shown in fig. 1 to 4, a laser deburring and cavity-dividing wobble plate apparatus includes an X-axis module 2, a laser machine 3, a Y-axis module 4, and a cavity-dividing wobble plate assembly 5; wherein: a carrier 6 is arranged at the moving end of the X-axis module 2; the laser machine 3 is positioned at one side of the X-axis module 2, and the laser machine 3 corresponds to the carrier 6 in position; the moving end of the Y-axis module 4 is provided with an adsorption component 7, and the adsorption component 7 corresponds to the carrier 6 in position; the hole-dividing swinging plate assembly 5 comprises a conveyor line body 51, a material loading structure 52 capable of moving along the length direction of the conveyor line body 51, and a feeding structure 53 and a discharging structure 54 which are respectively positioned at two ends of the conveyor line body 51, wherein the material loading structure 52 can convey a material tray from the position of the feeding structure 53 to the position of the discharging structure 54.

In this embodiment, firstly, under the action of an external mechanism, an injection molding piece is placed on a carrier 6, under the drive of an X-axis module 2, the carrier 6 moves to a position under a laser machine 3, the injection molding piece is deburred by the laser machine 3, after the burrs are removed, the carrier 6 under the drive of the X-axis module 2 moves to a position under a Y-axis module 4, a driving cylinder 71 of an adsorption component 7 drives an adsorption motor 72 to move, the adsorption motor 72 drives a rotary suction cup 73 to rotate, after an angle is adjusted, the rotary suction cup 73 sucks the injection molding piece, then, under the drive of the Y-axis module 4, the rotary suction cup 73 moves to a position corresponding to a hole-dividing swing disk component 5, and under the action of the driving cylinder 71, the injection molding piece is placed in a material tray, and a swing disk operation is completed.

In this embodiment, a material tray is firstly stored at the position of the feeding structure 53, when the material tray needs to be added, the material carrying structure 52 moves to the position of the feeding structure 53 under the action of the conveyor line 51, the feeding cylinder of the feeding structure 53 drives the feeding support block to move, so that the feeding support block contracts, the material tray falls on the carrier of the material carrying structure 52, then the carrier moves to the receiving position of the injection molding part under the action of the conveyor line 51, the injection molding part is waited for receiving, after a material tray is filled with the injection molding part, the material carrying structure 52 moves to the position of the blanking structure 54 under the action of the conveyor line 51, then the jacking cylinder of the material carrying structure 52 jacks up the carrier, the material tray synchronously jacks up, because the blanking support block of the blanking structure 54 is a one-way turnover structure, the material tray is supported by the blanking support block after being jacked up to the blanking support block, and after the action of the material carrying structure 52 is completed, the operations are circularly carried out, injection molded parts are continuously collected, and hole-dividing and tray-swinging operations are carried out simultaneously.

The conveyor line body 51 used in this embodiment is a belt conveying structure, and the X-axis module 2 and the Y-axis module 4 are both linear driving modules.

Further, still include quick-witted case 1, X axle module 2, laser machine 3, Y axle module 4 and divide cave balance disk subassembly 5 all to be fixed in on quick-witted case 1.

In this embodiment, the chassis 1 is provided with a human-computer interface 8, the human-computer interface 8 is electrically connected with the X-axis module 2, the laser machine 3, the Y-axis module 4 and the hole-dividing wobble plate assembly 5, a programmable P L C controller (model: ohm dragon CPM1A-20CDT-D-V1) is arranged in the human-computer interface 8, and the programmable P L C controller controls the whole device.

Specifically, the X-axis module 2 includes an X-axis driving motor, an X-axis lead screw located at a rotation shaft end of the X-axis driving motor, and an X-axis moving seat capable of moving along a length direction of the X-axis lead screw, and the carrier 6 is connected with the X-axis moving seat through a connecting block.

Specifically, Y axle module 4 includes Y axle driving motor, is located the Y axle feed screw of Y axle driving motor pivot end and can follow Y axle motion seat that Y axle feed screw length direction moved, and adsorption component 7 is connected with Y axle motion seat through the installation piece.

Further, the adsorption component 7 includes driving cylinder 71, is located the adsorption motor 72 that drives cylinder 71 piston rod end and is located the rotary suction cup 73 of adsorption motor 72 pivot end, and the adsorption component 7 is at the during operation, realizes the vertical motion of rotary suction cup 73 by driving cylinder 71, and the adsorption motor 72 can drive rotary suction cup 73 and rotate, adjusts rotary suction cup 73's absorption angle, guarantees to absorb the injection molding smoothly.

Further, the material loading structure 52 includes a jacking cylinder and a carrying platform located at a piston rod end of the jacking cylinder, the carrying platform is connected with the conveyor line body 51, and the carrying platform is driven by the conveyor line body 51 to move, so as to realize the feeding and discharging operations of the material tray.

In this embodiment, be equipped with the opening on the microscope carrier, jacking cylinder quantity is two and corresponds with open position, and jacking cylinder can follow both sides and carry out the jacking to the microscope carrier, guarantees the stability of jacking.

Further, the feeding structure 53 includes a feeding frame, feeding cylinders located on two sides of the feeding frame, and feeding support blocks driven by the feeding cylinders, the feeding support blocks can support the material tray, when the feeding operation of the material tray needs to be performed, the feeding cylinders drive the feeding support blocks to contract, and at this time, the material tray located on the feeding support blocks falls onto the carrier and is moved away by the carrier.

Further, the blanking structure 54 includes a blanking frame and blanking support blocks located at two sides of the blanking frame, the blanking support blocks are one-way turnover structures, when the blanking operation of the material tray needs to be performed, the carrier is jacked up under the action of the jacking cylinder, so that the material tray reaches the blanking support blocks, and the blanking support blocks can stably support the material tray because the blanking support blocks are one-way turnover structures.

All in all, the utility model discloses under X axle module 2, laser machine 3, Y axle module 4 and the cooperation of dividing cave balance subassembly 5, can be fast carry out unhairing limit operation to the injection molding, then divide the cave balance operation to the finished product piece automatically, the consumption of manpower has been reduced, workman's intensity of labour has greatly been reduced, the unhairing limit efficiency to the injection molding has still been improved greatly simultaneously, the phenomenon can not appear omitting at the unhairing limit in-process, can satisfy the demand of modernized high-speed production, the revenue benefit of enterprise is improved.

In light of the foregoing, it is to be understood that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A laser deburring and hole-dividing swing disc device is characterized by comprising an X-axis module, a laser machine, a Y-axis module and a hole-dividing swing disc assembly; wherein:

a carrier is arranged at the moving end of the X-axis module;

the laser machine is positioned on one side of the X-axis module and corresponds to the carrier in position;

an adsorption component is arranged at the moving end of the Y-axis module, and corresponds to the carrier in position;

the hole-dividing swinging plate assembly comprises a conveying line body, a material carrying structure capable of moving along the length direction of the conveying line body, and a feeding structure and a discharging structure which are respectively positioned at two ends of the conveying line body, wherein the material carrying structure can convey a material plate from the position of the feeding structure to the position of the discharging structure.

2. The laser deburring and hole-dividing swing disc device according to claim 1, further comprising a case, wherein the X-axis module, the laser machine, the Y-axis module and the hole-dividing swing disc component are all fixed on the case.

3. The laser deburring and hole-dividing balance disk device of claim 2, wherein a human-computer interface is arranged on the case, and the human-computer interface is electrically connected with the X-axis module, the laser machine, the Y-axis module and the hole-dividing balance disk assembly.

4. The laser deburring and hole-dividing balance disc device of claim 1, wherein the X-axis module comprises an X-axis driving motor, an X-axis lead screw positioned at a rotating shaft end of the X-axis driving motor and an X-axis moving seat capable of moving along the length direction of the X-axis lead screw, and the carrier is connected with the X-axis moving seat through a connecting block.

5. The laser deburring and hole-dividing balance disk device as claimed in claim 1, wherein the Y-axis module comprises a Y-axis driving motor, a Y-axis lead screw located at a rotating shaft end of the Y-axis driving motor and a Y-axis moving seat capable of moving along the length direction of the Y-axis lead screw, and the adsorption assembly is connected with the Y-axis moving seat through a mounting block.

6. The laser deburring and hole-dividing balance disk device according to claim 1, wherein the adsorption assembly comprises a driving cylinder, an adsorption motor located at a piston rod end of the driving cylinder, and a rotary sucker located at a rotary shaft end of the adsorption motor.

7. The laser deburring and hole-dividing swinging plate equipment of claim 1, wherein the material carrying structure comprises a jacking cylinder and a carrying platform located at a piston rod end of the jacking cylinder, and the carrying platform is connected with the conveying line body.

8. The laser deburring and hole-dividing balance disk device of claim 7, wherein the carrier is provided with openings, and the number of the jacking cylinders is two and corresponds to the positions of the openings.

9. The laser deburring and hole-dividing swinging plate equipment as claimed in claim 1, wherein the feeding structure comprises a feeding frame, feeding cylinders positioned on two sides of the feeding frame and feeding support blocks driven by the feeding cylinders, and the feeding support blocks can support a material plate.

10. The laser deburring and hole-dividing swinging plate equipment as claimed in claim 1, wherein the blanking structure comprises a blanking frame and blanking support blocks positioned on two sides of the blanking frame, and the blanking support blocks are of one-way overturning structure bodies.

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