CN113523582A - Battery laser coding and tracing device - Google Patents

Abstract

The invention relates to the technical field of laser processing, in particular to battery laser coding tracing equipment. The automatic laser coding machine has the advantages that the automatic laser coding machine can be used for fully automatically ejecting and pressing products to carry out laser coding, and then returning materials are used for conveying the products out, so that the operation of workers is replaced, the effective efficiency of the products can be improved, the laser processing of the products can be accurately achieved, and the quality of the products is ensured.

Description

Battery laser coding and tracing device

Technical Field

The invention relates to the technical field of laser processing, in particular to a battery laser coding tracing device.

Background

In the manufacturing process, the surfaces of electronic products such as a charging power supply and a battery are often attached with two-dimensional codes, the two-dimensional codes comprise related information of the products, such as production date, model and the like of the products, and the information of the products can be conveniently acquired by scanning the two-dimensional codes on the products, so that the products can be conveniently classified or subsequently processed and traced.

At present, bar codes and two-dimensional codes on a plurality of products are finished in a manual attaching or ink spraying mode. The process of subsides sign indicating number mainly through manual operation, needs operating personnel discernment product back, will beat the manual attached on the product of the two-dimensional code that the ink recorder generated, because the operating personnel fatigue appears easily in artifical sign indicating number, the sign indicating number is makeed mistakes, leads to artifical inefficiency of pasting the sign indicating number.

Therefore, there is a need in the industry for a solution to the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a battery laser coding tracing device aiming at the defects of the prior art. The object of the present invention can be achieved by the following technical means.

A battery laser code-printing tracing device comprises a machine table, a stock bin assembly, a light path assembly, a conveying assembly, a moving assembly, an ejection assembly, a pressing assembly, a pushing assembly, a returning assembly and a receiving assembly, wherein the stock bin assembly is fixed on the machine table, the ejection assembly is arranged on the machine table and positioned below the stock bin assembly, the pressing assembly is arranged on the stock bin assembly and positioned above the ejection assembly, the pushing assembly is arranged on the position of the machine table positioned at the rear side of the stock bin assembly, the conveying assembly is arranged on the position of the machine table positioned at the front side of the stock bin assembly, the returning assembly is arranged on the position of the machine table positioned below the pushing assembly, the moving assembly is arranged on the position of the machine table positioned at the front side of the conveying assembly, the light path assembly is fixed on the moving assembly and positioned above the ejection assembly, the material receiving assembly is connected with the output end of the conveying assembly.

Preferably, the feed bin subassembly includes the feed bin mounting bracket, pushes away the material briquetting, puts the feed bin, ejection of compact locating piece, separates crossbeam and spacing block, a plurality of it is fixed to set up in the blowing bin on the top surface of feed bin mounting bracket, it sets up to push away the material briquetting the rear side of blowing bin, it is equipped with the material pushing mouth to push away the material briquetting, lie in on the feed bin mounting bracket be equipped with the space of stepping down on the position of blowing bin front side, it spans to separate the crossbeam the space of stepping down set up on the feed bin mounting bracket, it is a plurality of the spacing block is installed separate on the crossbeam, ejection of compact locating piece is fixed to be set up the side of feed bin mounting bracket is located the front side in the space of stepping down, a plurality of ejection of compact locating piece is installed on the ejection of compact locating piece.

Preferably, the liftout subassembly includes liftout mounting panel, liftout cylinder, liftout linear bearing, liftout guiding axle, buffer mounting panel, first buffer, second buffer, pushes away the material limiting plate and pushes away the material and accept the board, the liftout guiding axle is installed on the liftout mounting panel, liftout linear bearing installs on the liftout linear bearing, the liftout cylinder is installed on the liftout mounting panel and promote it goes up and down to push away the material limiting plate, it accepts the fixed setting of board to push away the material on the top surface that pushes away the material limiting plate, the buffer mounting panel is fixed on the liftout mounting panel, first buffer is installed on the buffer mounting panel and be located push away the below that pushes away the material limiting plate, the second buffer is installed push away on the material limiting plate and be located push away the side that the material accepted the board.

Preferably, the material pushing assembly comprises a material pushing mounting frame, a material pushing linear guide rail, a material pushing cylinder and a material pushing strip, the material pushing linear guide rail is fixedly arranged on the top surface of the material pushing mounting frame and is provided with each material pushing strip in sliding connection, and the material pushing cylinder is arranged on the material pushing mounting frame and pushes the material pushing strip to move.

Preferably, the compressing assembly comprises a material pressing mounting frame, a compressing cylinder, a material pressing guide shaft, a material pressing linear bearing, a compressing connecting block and a material pressing block, the material pressing guide shaft is mounted on the material pressing mounting frame, the material pressing linear bearing is mounted on the material pressing guide shaft, the material pressing block is connected with the compressing cylinder through the compressing connecting block, and the compressing cylinder is fixed on the material pressing mounting frame and pushes the material pressing block to move.

Preferably, the light path subassembly includes that laser light path spare, code scanner, scanning position control spare, CCD shoot the setting element, shoot position control spare and dust and adsorb the piece, laser light path spare is fixed remove on the subassembly, code scanner position control spare with it sets up respectively to shoot position control spare the both sides end department of laser light path spare, code scanner installs on the code scanning position control spare, CCD shoots the setting element and installs on the position control spare of shooing, the dust adsorbs the piece setting and is in the lower extreme of laser light path spare.

Preferably, the moving assembly comprises a moving platform mounting frame, an X-axis linear motor, a Y-axis linear motor and a hand-operated Z-axis, the X-axis linear motor is fixed on the moving platform mounting frame, the Y-axis linear motor is movably connected to the X-axis linear motor, and the hand-operated Z-axis is movably connected to the Y-axis linear motor.

As preferably, the material returned subassembly pushes away the strip including material returned mounting bracket, material returned linear bearing, material returned guiding axle, material returned cylinder and material returned, the material returned mounting bracket is fixed on the board, two material returned linear bearing is fixed the setting respectively two upper end angle departments of material returned mounting bracket, the material returned guiding axle is installed material returned linear bearing is last, the material returned pushes away the strip and installs material returned is epaxial, the material returned cylinder is fixed to be set up material returned mounting bracket is last and promote material returned pushes away the strip and removes.

Preferably, the conveying assembly comprises a conveying mounting frame, a conveyor belt component, an in-place sensor and a conveying pushing cylinder, the conveyor belt component is fixedly mounted on the conveying mounting frame, the in-place sensor is arranged at the output end of the conveyor belt component, and the conveying pushing cylinder is arranged on the conveyor belt component and located beside the in-place sensor.

Preferably, receive the material subassembly including receiving the material mounting panel, receiving the material link joint, connecting rod, material turning plate, stirring cylinder, receiving the material blocking piece and receiving the silo, receive the material link joint and fix receive on the material mounting panel, receive the material link joint with the output of conveying subassembly meets, the material turning plate rotates to be connected receive in the material link joint, the material turning cylinder is fixed receive on the material mounting panel, the material turning cylinder passes through the connecting rod with the material turning plate is connected, receive the silo with receive the output of material link joint and meet, receive the material blocking piece sliding connection be in receive in the silo.

Compared with the prior art, the invention has the beneficial effects that:

the invention develops a battery laser code printing tracing device, which can carry out material ejection and compaction on a product to carry out laser code printing in a full-automatic manner, and then return the material to convey the product out, thereby replacing the operation of workers, not only improving the effective efficiency of the product, but also ensuring the accurate laser processing of the product and ensuring the quality of the product.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a laser coding tracing device in the embodiment of the present invention.

Fig. 2 is a schematic diagram of an internal structure of a laser coding tracing device in the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a part of a laser coding tracing device in the embodiment of the present invention.

Fig. 4 is a schematic view of fig. 3 from another angle.

Fig. 5 is a schematic structural diagram of a bin assembly according to an embodiment of the present invention.

Figure 6 is a schematic view of another angle of the bin assembly in an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a material ejecting assembly in an embodiment of the invention.

Fig. 8 is a schematic structural diagram of a pusher assembly in an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a pressing assembly according to an embodiment of the present invention.

Fig. 10 is a schematic structural diagram of an optical path component in an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a moving assembly according to an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a material returning assembly according to an embodiment of the present invention.

FIG. 13 is a schematic structural diagram of a transfer assembly according to an embodiment of the present invention.

Fig. 14 is a schematic structural view of a receiving assembly in an embodiment of the invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A battery laser coding tracing device is shown in figures 1 to 4 and comprises a machine table 1, a bin assembly 2, a light path assembly 3, a conveying assembly 7, a moving assembly 4, an ejection assembly 6, a pressing assembly 10, a pushing assembly 9, a material returning assembly 8 and a material receiving assembly 5. And the bin assembly 2 is fixed on the machine table 1 and used for loading a battery product to be subjected to laser coding processing. The material ejecting component 6 is arranged on the machine table 1 and located below the material bin component 2, the material ejecting component 6 is used for bearing a product conveyed by the material bin component 2 and transferring the product to a preset position for processing, and the product is driven to fall to a position corresponding to the material returning component 8 after the processing is finished. Compress tightly subassembly 10 and install on the feed bin subassembly 2 and be located 6 tops of liftout subassembly compress tightly subassembly 10 and are used for compressing tightly the product that treats laser beam machining who is located liftout subassembly 6, leave the product with the position that treats laser beam machining simultaneously and come out, can effectively avoid the product to take place to shift in the course of working when guaranteeing that the product can process smoothly. The material pushing assembly 9 is arranged on the machine table 1 at the rear side of the stock bin assembly 2, and the material pushing assembly 9 is used for pushing a product to be processed of the stock bin assembly 2 to the material ejecting assembly 6 for laser processing. The conveying component 7 is arranged on a machine table 1 position on the front side of the stock bin component 2, the material returning component 8 is arranged on a machine table 1 position below the material pushing component 9, after the light path component 3 processes and processes a product on the material ejecting component 6, the material ejecting component 6 transfers the product to the position of the material returning component 8, and the material returning component 8 pushes the product to the conveying component 7 to be conveyed out. The moving component 4 is arranged on the machine table 1 in front of the conveying component 7, the light path component 3 is fixed on the moving component 4 and located above the material ejecting component 6, and the laser coding position of the light path component 3 can be adjusted through the moving component 4. The material receiving assembly 5 is connected with the output end of the conveying assembly 7 and used for receiving and containing the products transmitted by the conveying assembly 7.

Specifically, as shown in fig. 1 to 4, when a battery product is subjected to laser coding, the ejection component 6 rises to a position connected with the bin component 2, the pushing component 9 pushes a product in the bin component 2 to the ejection component 6, the ejection component 6 carries the product to be processed and transfers the product to a preset position, the pressing component 10 is used for pressing the product to be subjected to laser processing on the ejection component 6, the position of the product to be subjected to laser processing is left empty, and the light path component 3 identifies and positions the product on the ejection component 6 and performs laser coding on the position of the product left empty. After the laser coding is completed, the pressing assembly 10 releases the products, then the ejecting assembly 6 descends to the position of the material returning assembly 8, the material returning assembly 8 pushes the products on the ejecting assembly 6 to the conveying assembly 7, and the conveying assembly 7 conveys the processed products to the material receiving assembly 5 for collection. Laser coding processing can be completed on the product in a full-automatic mode, production efficiency can be greatly improved, each component is tightly matched, accurate processing on the product is guaranteed, and processing quality of the product is guaranteed.

In the embodiment, the battery laser coding tracing device is shown in fig. 5 and 6, the stock bin assembly 2 includes a stock bin mounting frame 21, a material pushing press block 22, a material discharging bin 23, a material discharging positioning plate 24, a material discharging positioning block 25, a separating beam 26 and a spacing block 27. A plurality of the discharge bin 23 is fixedly arranged on the top surface of the bin mounting frame 21, and the discharge bin 23 is provided with a width adjusting plate 232 and a length adjusting plate 231, so that the length and the width of the discharge bin 23 can be adjusted, and the discharge bin can be adapted to products with different sizes conveniently. The material pushing pressing block 22 is arranged on the rear side of the material discharging bin 23, the material pushing pressing block 22 is provided with a material pushing port, the material pushing assembly 9 penetrates through the material pushing port on the material pushing pressing block 22 to reach the material discharging bin 23, then a to-be-processed product in the material discharging bin 23 is pushed out to the material pushing assembly 6, and the material pushing strip on the material pushing assembly 9 can be prevented from being tilted to cause that the product cannot be pushed out accurately. The bin mounting frame 21 is provided with an abdicating space 28 on the position on the front side of the discharge bin 23, and the abdicating space 28 provides an adaptation condition for the lifting of the ejection component 6, so that the interference is avoided. The separating beam 26 spans the abdicating space 28 and is arranged on the stock bin mounting frame 21, the separating blocks 27 are arranged on the separating beam 26, the separating beam 26 is used for loading the separating blocks 27, the separating blocks 27 can limit the pushing route of the product, and the product is prevented from generating position deviation in pushing. The fixed setting of ejection of compact locating plate 24 is in the side of feed bin mounting bracket 21 is located the front side of the space of stepping down 28, a plurality of ejection of compact locating piece 25 is installed on ejection of compact locating plate 24, when liftout subassembly 6 rises to the space of stepping down 28 department, push away material subassembly 9 and release the product to liftout subassembly 6 on, and ejection of compact locating piece 25 on the ejection of compact locating plate 24 of the space of stepping down front side at this moment can restrict the processing position of product, avoids the product skew processing position.

The battery laser coding tracing device provided in the embodiment, as shown in fig. 7, the liftout component 6 includes a liftout mounting plate 61, a liftout cylinder 62, a liftout linear bearing 63, a liftout guide shaft 64, a buffer mounting plate 65, a first buffer 66, a second buffer 67, a material pushing limiting plate 68 and a material pushing receiving plate 69. Liftout guiding axle 64 is installed on the liftout mounting panel 61, liftout linear bearing 63 is installed on the liftout linear bearing 63, liftout cylinder 62 is installed on the liftout mounting panel 61 and promote it goes up and down to push away material limiting plate 68, under the cooperation of liftout linear bearing 63 and liftout guiding axle 64, can guarantee that liftout subassembly 6 accomplishes elevating movement steadily. The material pushing and receiving plate 69 is fixedly arranged on the top surface of the material pushing and limiting plate 68, and the material pushing and receiving plate 69 is used for receiving products to be processed. The buffer mounting plate 65 is fixed on the liftout mounting panel 61, first buffer 66 is installed on the buffer mounting plate 65 and be located push away the below of material limiting plate 68, first buffer 66 can play the cushioning effect to the decline that pushes away material limiting plate 68. The second buffer 67 is installed on the material pushing limit plate 68 and located beside the material pushing bearing plate 69, and the second buffer 67 can buffer the rising of the second buffer 67. Specifically, during material ejection, the material ejection cylinder 62 pushes the material pushing limiting plate 68 and the material pushing receiving plate 69 to ascend, the second buffers 67 at two ends of the material pushing limiting plate 68 firstly contact with the bottom surface of the top plate of the bin mounting frame 21 to slow ascending movement, so that the material pushing receiving plate 69 slowly ascends to the abdicating space 28 to receive a product to be processed, and then descends to the material returning assembly 8 to return the material after the product is processed, and the first buffer 66 plays a role in slowing down the descending movement of the material returning assembly.

The utility model provides a battery laser coding traceability equipment, as shown in fig. 8, it includes pushes away material mounting bracket 91, pushes away material linear guide 92, pushes away material cylinder 93 and pushes away material strip 94, a plurality of to push away material linear guide 92 fixed the setting and be in push away on the top surface of material mounting bracket 91, every it all is equipped with rather than sliding connection's material strip 94 to push away on the material linear guide 92, it sets up to push away material cylinder 93 push away on the material mounting bracket 91 and promote push away material strip 94 and remove. Specifically, when pushing is performed, the pushing cylinder 93 pushes the pushing strip 94 to pass through the pushing opening of the pushing block 22 along the pushing linear guide rail 92 to reach the discharging bin 23, so as to push out the product.

In the battery laser coding tracing apparatus provided in this embodiment, as shown in fig. 9, the pressing assembly 10 includes a pressing mounting frame 104, a pressing cylinder 101, a pressing guide shaft 102, a pressing linear bearing 103, a pressing connecting block 105, and a pressing block 106. The material pressing guide shaft 102 is mounted on the material pressing mounting frame 104, the material pressing linear bearing 103 is mounted on the material pressing guide shaft 102, and the material pressing guide shaft 102 and the material pressing linear bearing 103 are matched to ensure the stability of movement. The pressing block 106 is connected with the pressing cylinder 101 through the pressing connecting block 105, and the pressing cylinder 101 is fixed on the pressing mounting frame 104 and pushes the pressing block 106 to move so as to press a product or release the product.

The battery laser coding tracing device provided in this embodiment, as shown in fig. 10, the light path component 3 includes a laser light path component 31, a code scanner 35, a code scanner position adjusting component 33, a CCD photographing positioning component 34, a photographing position adjusting component 32 and a dust adsorbing component 36. The laser light path piece 31 is fixed on the moving component 4, and the laser light path piece 31 changes the laser coding position along with the movement of the moving component 4 to adapt to the product. Sweep sign indicating number position control piece 33 with it sets up respectively to shoot position control piece 32 the both sides end department of laser light path spare 31, bar code scanner 35 is installed sweep on the sign indicating number position control piece 33, can adjust bar code scanner 35's height and angle through sweep sign indicating number position control piece 33, bar code scanner 35 is used for reading the two-dimensional code on the product for whether the detection is beaten the sign indicating number and can be discerned. CCD location piece 34 of shooing is installed on the position control piece 32 of shooing, can shoot the position that location piece 34 was shot to the CCD through the position control piece 32 of shooing and aim at the product, and then the position of discerning the product, be convenient for carry out laser and beat the sign indicating number. The dust adsorbing member 36 is disposed at a lower end of the laser optical path member 31, and the dust adsorbing member 36 is used for adsorbing dust generated during product processing.

The utility model provides a battery laser coding trace back equipment that provides in this embodiment, as shown in fig. 11, removal subassembly 4 includes motion platform mounting bracket 41, X axle linear electric motor 42, Y axle linear electric motor 43 and hand Z axle 44, X axle linear electric motor 42 is fixed on the motion platform mounting bracket 41, Y axle linear electric motor 43 swing joint in on the X axle linear electric motor 42, hand Z axle 44 swing joint in on the Y axle linear electric motor 43 to this can drive light path subassembly 3 and carry out the position that each direction removed and adapt to the product.

The battery laser coding tracing device provided in the embodiment, as shown in fig. 12, the material returning component 8 includes a material returning mounting frame 81, a material returning linear bearing 83, a material returning guide shaft 84, a material returning cylinder 85 and a material returning push bar 82. Material returned mounting bracket 81 is fixed board 1 is last, two material returned linear bearing 83 is fixed the setting respectively and is in two upper end angle departments of material returned mounting bracket 81, material returned guiding axle 84 is installed material returned linear bearing 83 is last, the material returned pushes away the strip 82 and installs on the material returned guiding axle 84, material returned cylinder 85 is fixed to be set up material returned mounting bracket 81 is gone up and is promoted material returned pushes away the strip 82 and removes. The material returning cylinder 85 provides power and enables the material returning push bar 82 to smoothly push the product onto the conveying assembly 7 under the cooperation of the material returning linear bearing 83 and the material returning guide shaft 84.

In the present embodiment, as shown in fig. 13, the conveying assembly 7 includes a conveying mounting frame 71, a conveying belt member 72, an in-place sensor 74 and a conveying pushing cylinder 73, the conveying belt member 72 is fixedly mounted on the conveying mounting frame 71, the in-place sensor 74 is disposed at an output end of the conveying belt member 72, and the conveying pushing cylinder 73 is disposed on the conveying belt member 72 and beside the in-place sensor 74. Specifically, when the in-position sensor 74 senses that the product is conveyed by the conveyor belt part 72, the conveying pushing cylinder 73 pushes the product to the material receiving assembly 5 for collection.

In the present embodiment of the battery laser coding tracing apparatus, as shown in fig. 14, the material receiving assembly 5 includes a material receiving mounting plate 51, a material receiving connecting piece 54, a material turning plate 55, a material turning cylinder 52, a connecting rod 53, a material receiving blocking block 56, and a material receiving groove 57. The material receiving connecting piece 54 is fixed on the material receiving mounting plate 51, the material receiving connecting piece 54 is connected with the output end of the conveying assembly 7, and the material receiving connecting piece 54 is used for receiving the product conveyed by the conveying assembly 7. The material turning plate 55 is rotatably connected in the material receiving connecting piece 54, the material turning cylinder 52 is fixed on the material receiving mounting plate 51, the material turning cylinder 52 is connected with the material turning plate 55 through the connecting rod 53, the material receiving groove 57 is connected with the output end of the material receiving connecting piece 54, and the material receiving blocking block 56 is slidably connected in the material receiving groove 57. After the receiving connecting piece 54 receives the product conveyed by the conveying assembly 7, the material turning cylinder 52 turns over the material turning plate 55 backwards by pushing the connecting rod 53, so that the product falls on the blocking block, and the blocking block enables the product to be regularly collected in the receiving groove 57.

In addition, the battery laser coding equipment of traceing back that provides in this embodiment, as shown in fig. 1, still include upper shield subassembly 12 and display module 13, the frame of upper shield subassembly 12 is built by the panel beating and is formed, and the side back door is sealed by the panel beating, and the fix with screw, the transparent ya keli door of front-mounting can observe the equipment behavior, and the three-color lamp 15 that is equipped with on it can be used to equipment trouble alarm. The display assembly 13 is installed on the machine table 1, and the position rotation adjusting bracket 14 of the display assembly 13 is used for adjusting the direction and the position of the display assembly 13; the display module 13 is provided with a display inside and control buttons for emergency stop, power supply, start and stop, alarm reset and the like of the equipment.

The equipment is traceed back in battery laser coding that provides in this embodiment adopts enclosed construction, and automated operation alleviates operating personnel intensity of labour. The automatic feeding and discharging, limiting, clamping, automatic positioning, marking, code scanning, detecting, assembly line conveying, sensor detecting, cylinder pushing and other operations can be realized, and laser code printing is convenient to carry out. And the X, Y shaft is driven by a linear motor and a linear guide rail, so that the requirements of high precision and high speed can be met. The excellent light path design of whole equipment, the processing quality is stable, and machining efficiency improves. The MES system and the special intelligent laser control system software can be butted, and the automation degree is high. Multiple materials can be fed at one time, and the materials can be sequentially coded and processed to be returned uniformly; full automated production, the production of flexibility reduces manual operation, saves time more high-efficient.

The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (10)

1. A battery laser code-printing tracing device is characterized by comprising a machine table, a stock bin assembly, a light path assembly, a conveying assembly, a moving assembly, an ejecting assembly, a compressing assembly, a pushing assembly, a returning assembly and a receiving assembly, wherein the stock bin assembly is fixed on the machine table, the ejecting assembly is arranged on the machine table and positioned below the stock bin assembly, the compressing assembly is arranged on the stock bin assembly and positioned above the ejecting assembly, the pushing assembly is arranged on the machine table position at the rear side of the stock bin assembly, the conveying assembly is arranged on the machine table position at the front side of the stock bin assembly, the returning assembly is arranged on the machine table position below the pushing assembly, the moving assembly is arranged on the machine table position at the front side of the conveying assembly, the light path assembly is fixed on the moving assembly and positioned above the ejecting assembly, the material receiving assembly is connected with the output end of the conveying assembly.

2. The battery laser coding tracing device of claim 1, the stock bin assembly comprises a stock bin mounting rack, a material pushing press block, a material discharging bin, a material discharging positioning plate, a material discharging positioning block, a separating beam and an isolation block, wherein a plurality of material discharging bins are fixedly arranged on the top surface of the stock bin mounting rack, the pushing pressing block is arranged at the rear side of the discharging bin and provided with a pushing port, a yielding space is arranged at the position, positioned at the front side of the discharging bin, on the bin mounting rack, the separation cross beam is arranged on the bin mounting rack across the abdicating space, a plurality of the isolation blocks are arranged on the separation cross beam, the discharging positioning plate is fixedly arranged at the side end of the bin mounting frame and located at the front side of the yielding space, and the discharging positioning block is mounted on the discharging positioning plate.

3. The battery laser coding tracing device of claim 1, the ejection assembly comprises an ejection mounting plate, an ejection cylinder, an ejection linear bearing, an ejection guide shaft, a buffer mounting plate, a first buffer, a second buffer, a material pushing limiting plate and a material pushing bearing plate, the ejection guide shaft is arranged on the ejection mounting plate, the ejection linear bearing is arranged on the ejection linear bearing, the material ejecting cylinder is arranged on the material ejecting mounting plate and pushes the material pushing limiting plate to lift, the material pushing bearing plate is fixedly arranged on the top surface of the material pushing limiting plate, the buffer mounting plate is fixed on the ejection mounting plate, the first buffer is arranged on the buffer mounting plate and is positioned below the material pushing limiting plate, the second buffer is arranged on the material pushing limiting plate and positioned beside the material pushing bearing plate.

4. The battery laser coding tracing device according to claim 1, wherein the pushing assembly comprises a pushing mounting frame, a pushing linear guide rail, a pushing cylinder and a pushing bar, the pushing linear guide rail is fixedly arranged on the top surface of the pushing mounting frame, each pushing linear guide rail is provided with the pushing bar in sliding connection, and the pushing cylinder is arranged on the pushing mounting frame and pushes the pushing bar to move.

5. The battery laser coding tracing device according to claim 1, wherein the pressing component comprises a pressing mounting frame, a pressing cylinder, a pressing guide shaft, a pressing linear bearing, a pressing connecting block and a pressing block, the pressing guide shaft is mounted on the pressing mounting frame, the pressing linear bearing is mounted on the pressing guide shaft, the pressing block is connected with the pressing cylinder through the pressing connecting block, and the pressing cylinder is fixed on the pressing mounting frame and pushes the pressing block to move.

6. The battery laser coding tracing device according to claim 1, wherein the light path component comprises a laser light path component, a code scanner position adjusting component, a CCD camera positioning component, a camera position adjusting component and a dust adsorbing component, the laser light path component is fixed on the mobile component, the code scanner position adjusting component and the camera position adjusting component are respectively arranged at two side ends of the laser light path component, the code scanner is installed on the code scanner position adjusting component, the CCD camera positioning component is installed on the camera position adjusting component, and the dust adsorbing component is arranged at the lower end of the laser light path component.

7. The battery laser coding tracing device according to claim 1, wherein the moving assembly comprises a motion platform mounting frame, an X-axis linear motor, a Y-axis linear motor and a hand-operated Z-axis, the X-axis linear motor is fixed on the motion platform mounting frame, the Y-axis linear motor is movably connected on the X-axis linear motor, and the hand-operated Z-axis is movably connected on the Y-axis linear motor.

8. The battery laser coding tracing device according to claim 1, wherein the material returning component comprises a material returning mounting frame, a material returning linear bearing, a material returning guide shaft, a material returning cylinder and a material returning push bar, the material returning mounting frame is fixed on the machine table, the material returning linear bearing is respectively and fixedly arranged at two upper end corners of the material returning mounting frame, the material returning guide shaft is arranged on the material returning linear bearing, the material returning push bar is arranged on the material returning guide shaft, and the material returning cylinder is fixedly arranged on the material returning mounting frame and pushes the material returning push bar to move.

9. The battery laser coding tracing device of claim 1, wherein the conveying assembly comprises a conveying mounting frame, a conveying belt component, an in-place sensor and a conveying pushing cylinder, the conveying belt component is fixedly mounted on the conveying mounting frame, the in-place sensor is arranged at an output end of the conveying belt component, and the conveying pushing cylinder is arranged on the conveying belt component and located beside the in-place sensor.

10. The battery laser coding tracing device according to claim 1, wherein the material receiving assembly comprises a material receiving mounting plate, a material receiving joint, a connecting rod, a material turning plate, a material turning cylinder, a material receiving blocking block and a material receiving groove, the material receiving joint is fixed on the material receiving mounting plate and is connected with the output end of the conveying assembly, the material turning plate is rotatably connected in the material receiving joint, the material turning cylinder is fixed on the material receiving mounting plate and is connected with the material turning plate through the connecting rod, the material receiving groove is connected with the output end of the material receiving joint, and the material receiving blocking block is slidably connected in the material receiving groove.

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