CN211957806U

CN211957806U - Battery post-processing revolving stage device of moulding plastics

Info

Publication number: CN211957806U
Application number: CN202020400254.3U
Authority: CN
Inventors: 丁琛琦; 张士国; 骆圆圆; 白璐
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-26
Filing date: 2020-03-26
Publication date: 2020-11-17
Anticipated expiration: 2030-03-26

Abstract

The utility model relates to the technical field of battery production, in particular to a battery post-injection treatment turntable device, which comprises a rotary platform and a graduator, wherein the rotary platform is provided with a feeding station, a marking station, an electric detection station, a dust removal station and a blanking station, the feeding station and the blanking station are both provided with four-axis robots, the marking station is provided with a laser engraving device, the electric detection station is provided with an electric detection device, and the dust removal station is provided with a dust removal device; the indexer is arranged below the rotating platform and is driven by an indexer driving device. The utility model discloses a revolving stage system makes the work piece accomplish that the order gets into next station after the previous step is handled, and multichannel process can go on simultaneously, has improved the efficiency of production greatly.

Description

Battery post-processing revolving stage device of moulding plastics

Technical Field

The utility model relates to a battery production technical field, in particular to battery post-processing revolving stage device of moulding plastics.

Background

In the production process of the battery, after the injection molding is finished, a series of post-treatments are required to be carried out on the cooled workpiece, such as: marking, electric inspection and the like, and various post-treatment works are carried out separately, so that much time is consumed, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides an among the correlation technique battery after the completion of moulding plastics, the work piece after the cooling need carry out a series of aftertreatment, and each item aftertreatment work separately goes on, need consume a lot of time, causes the problem that production efficiency is low, provides a battery aftertreatment revolving stage device of moulding plastics, makes the work piece accomplish the order and gets into next station after the previous step is handled through revolving stage system, and multichannel process can go on simultaneously, has improved the efficiency of production greatly.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme: a battery post-injection treatment turntable apparatus, comprising:

the laser engraving machine comprises a rotary platform, wherein a feeding station, a marking station, an electric detection station, a dust removal station and a discharging station are arranged on the rotary platform, four-axis robots are arranged on the feeding station and the discharging station, the marking station is provided with a laser engraving device, the electric detection station is provided with an electric detection device, and the dust removal station is provided with a dust removal device;

and the indexer is arranged below the rotating platform and is driven by the indexer driving device.

Preferably, the rotary platform is installed on a support platform, and the laser etching device, the electric detection device and the dust removal device are all installed on the support platform.

As an optimal scheme, the laser etching device comprises a laser etching machine and a laser etching machine driving device used for driving the laser etching machine, wherein the laser etching machine driving device comprises two groups of air cylinders III and IV which are arranged in a cross mode, and the air cylinders III and IV are respectively used for driving the laser etching machine to mark a negative workpiece and a positive workpiece.

According to the preferable scheme, a cross sliding pair I and a cross sliding pair II are arranged at the bottom of the laser etching machine, a base of the laser etching machine is connected with the sliding pair I and driven by an air cylinder III, the sliding pair I is arranged on a sliding seat, the sliding seat is connected with the sliding pair II and driven by the air cylinder III, and the sliding pair II is arranged on a bottom plate.

As the preferred scheme, be provided with stopper I and stopper II on the bottom plate respectively, be used for carrying on spacingly to the motion of base and sliding seat respectively.

As preferred scheme, the electric detection device comprises a probe tool and a lifting cylinder, the probe tool is installed on the support through the sliding table module, and the lifting cylinder drives the probe tool to be in contact with the workpiece by means of the sliding table module.

As preferred scheme, the slip table module includes guide rail, slider and slip table, slider slidable mounting is on the guide rail, the slip table is installed on the slider, probe frock demountable installation is on the slip table, install cylinder I and cylinder II on the slip table, probe subassembly I and probe subassembly II are connected respectively to cylinder I and cylinder II, probe subassembly I and probe subassembly II dock with probe frock under the drive of cylinder I and cylinder II.

As the preferred scheme, probe I matched with the workpiece is arranged below the probe tool, and probe II and probe III are respectively arranged at the positions, corresponding to cylinder I and cylinder II, above the probe tool.

Preferably, the dust removing device comprises an ion air rod and a bracket, and the ion air rod is mounted on the support platform through the bracket.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model makes the workpiece enter the next station in sequence after finishing the previous treatment by the turntable system, and a plurality of processes can be carried out simultaneously, thereby greatly improving the production efficiency; in addition, the probe frock of electrical inspection device can be changed according to the product difference, and radium carving machine in the radium carving device of beating the mark station drives respectively through two cylinders, can be applicable to anodal work piece and negative pole work piece, then just can accomplish marking, electrical inspection and dust removal of anodal work piece and negative pole work piece through a revolving stage system, has reduced the occupation of land space, has also reduced the manufacturing cost of enterprise.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a top view of the present invention;

fig. 4 is a schematic structural diagram of the middle probe tool of the present invention;

FIG. 5 is a schematic structural view of the laser etching apparatus of the present invention;

FIG. 6 is a schematic structural view of the electric testing device of the present invention;

fig. 7 is a schematic structural diagram of the dust removing device of the present invention.

In the figure:

1. the laser engraving machine comprises a rotary platform, 11, a rotary table tool, 12, a rotary table protective cover, 2, a laser engraving device, 21, a cylinder III, 22, a cylinder IV, 23, a laser engraving machine, 231, a base, 24, a sliding seat, 25, a bottom plate, 26, a limiting block I, 27, a limiting block II, 28, a laser engraving cabinet, 3, an electrical detection device, 31, a probe tool, 311, a probe I, 312, a probe II, 313, a probe III, 32, a lifting cylinder, 33, a cylinder I, 331, a probe assembly I, 34, a cylinder II, 341, a probe assembly II, 35, a stop block, 36, a sliding table, 4, a dust removal device, 41, an ion wind rod, 42, a support, 421, an L-shaped plate, 422, a guide shaft I, 423, a switching block, 424, a guide shaft II, 425, a protective cover, 43, an ion wind rod power supply, 5, an indexer, 6 and a support table.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 7, a battery post-injection treatment turntable device comprises a rotary platform 1 and an indexer 5, wherein the rotary platform 1 is provided with a feeding station, a marking station, an electrical inspection station, a dedusting station and a blanking station, the feeding station and the blanking station are both provided with four-axis robots for grabbing workpieces, and the type of the four-axis robot is yamaha YK1000 XG; the marking station is provided with a laser carving device 2 for marking the workpiece; in addition, the marking station is also provided with a code scanning gun, so that the code scanning is conveniently carried out after the marking of the workpiece is finished; the electric detection station is provided with an electric detection device 3 for electric detection of the workpiece; the dust removal station is provided with a dust removal device 4 for removing dust from the workpiece; the indexer 5 is arranged below the rotating platform 1 and is driven by the indexer driving device, so that the rotating platform 1 rotates, workpieces sequentially enter the next station after the workpieces are processed in the previous step, and the working efficiency is improved.

In addition, in this embodiment, since the indexer 5 is six-index, there is an empty station between the dust removing station and the blanking station, and the rotary table fixture 11 of the lower shell is placed on each station of the rotary platform 1, and the middle part of the rotary platform 1 is further provided with a cylindrical rotary table shield 12 for protecting the workpiece on the rotary table fixture 11.

In one embodiment, the rotating platform 1 is installed on the supporting platform 6, specifically, the indexer 5 is installed on the top of the supporting platform 6, the rotating platform 1 is installed above the indexer 5, and the laser etching device 2, the electrical inspection device 3 and the dust removing device 4 are all installed on the supporting platform 6.

In one embodiment, the laser etching device 2 comprises a laser etching machine 23 and a laser etching machine driving device for driving the laser etching machine 23, and as the product is divided into a positive electrode and a negative electrode, in order to adapt to the positive electrode and the negative electrode, the laser etching machine driving device comprises two groups of air cylinders III 21 and IV 22 which are arranged in a cross manner and are respectively used for driving the laser etching machine 23 to mark a negative electrode workpiece and a positive electrode workpiece, when the positive electrode workpiece is adopted, the air cylinders III 21 retract, and the air cylinders IV 22 extend out; when the workpiece is a negative electrode workpiece, the air cylinder III 21 extends, and the air cylinder IV 22 retracts.

In one embodiment, a crisscross sliding pair i and a sliding pair ii are arranged at the bottom of the laser engraving machine 23, a base 231 of the laser engraving machine 23 is connected with the sliding pair i and driven by a cylinder iii 21, wherein the sliding pair i comprises a sliding block i and a guide rail i, specifically, two groups of sliding blocks i are arranged at the bottom of the base 231, the two groups of guide rails i are arranged on a sliding seat 24, a driving shaft of the cylinder iii 21 is connected with the base 231, and the driving shaft of the cylinder iii 21 pushes the base 231 to drive the sliding block i to move along the guide rail i, so that marking of a negative electrode workpiece is completed; the sliding seat 24 is connected with the sliding pair II and is driven by the air cylinder III 21, wherein the sliding pair II comprises a sliding block II and a guide rail II, the two groups of sliding blocks II are arranged at the bottom of the sliding seat 24, the two groups of guide rails II are arranged on the bottom plate 25, the driving shaft of the air cylinder IV 22 is connected with the sliding seat 24, and the driving shaft of the air cylinder IV 22 pushes the sliding seat 24 to drive the sliding block II to move along the guide rail II, so that marking of the positive workpiece is completed.

In addition, in order to limit the movement amplitude of the base 231 and the sliding seat 24, an L-shaped limiting block I26 and an L-shaped limiting block II 27 are respectively arranged on the bottom plate 25, specifically, the limiting block I26 is located on the opposite side of the air cylinder III 21, and the limiting block II 27 is located on the same side of the air cylinder IV 22.

In one embodiment, the electrical inspection device 3 comprises a probe tool 31 and a lifting cylinder 32, wherein the probe tool 31 is mounted on a bracket through a sliding table module, specifically, 2 pairs of guide rails are mounted on two sides of the bracket, a stop block 35 is mounted on the bracket at one end of each guide rail, which is far away from the lifting cylinder 32, a slide block is connected onto each guide rail in a sliding manner, and a sliding table 36 is connected onto each slide block, wherein each sliding table 36 comprises a concave plate connected with the two slide blocks, a tool fixing plate is vertically connected to the bottom of each concave plate, and side baffles are connected to two sides of each concave plate and the tool fixing plate; the probe tool 31 is detachably connected to the tool fixing plate through a screw so as to be convenient to replace; lift cylinder 32 is installed on the support through the cylinder block, lift cylinder 32 is through drive slip table 36 and then drive probe frock 31 and work piece contact, cylinder I33 and cylinder II 34 are all installed on the slip table through the cylinder block, probe subassembly I331 and probe subassembly II 341 are connected respectively to the drive shaft of cylinder I33 and cylinder II 34, wherein, probe subassembly I331 and probe subassembly II 341 include probe seat and probe, the probe passes through the probe seat to be installed on cylinder I33 and cylinder II 34, then probe subassembly I331 and probe subassembly II 341 can contact with probe frock 31 under the drive of cylinder I33 and cylinder II 34.

In this embodiment, the probe tool 31 includes a rectangular plate, a probe i 311 matched with the workpiece is arranged below the plate, a probe ii 312 and a probe iii 313 matched with the probe component i and the probe component ii are arranged above the plate, specifically, two probe seats are fixed above the plate, the probe ii 312 and the probe iii 313 are both mounted on the probe seats, and an opening is formed in a position of the tool fixing plate corresponding to the probe seats, so that the probe seats can be accommodated in the opening; in addition, because the products are divided into a positive electrode and a negative electrode, the probe tooling 31 structures of the positive electrode product and the negative electrode product are basically the same, and the difference is that the arrangement modes of the probes I311 which are contacted with the workpiece are different.

In one embodiment, the dust removing device 4 comprises an ion wind rod 41 and a bracket 42, the ion wind rod 41 is mounted on the support table 6 through the bracket 42, specifically, two ends of the ion wind rod 42 are mounted on a transfer block 423 at the front ends of two guide shafts i 422 through L-shaped plates 421, the two guide shafts i 422 are respectively vertically mounted on two vertical guide shafts ii 424, and a shield 425 is mounted on the bracket 42 at the side opposite to the ion wind rod 42 for shielding the ion wind rod 42.

In addition, a laser etching cabinet 28 for supplying power to the laser etching machine 23 and an ion wind rod power supply 43 for supplying power to the ion wind rod 41 are respectively arranged below the support table 6.

The working process is as follows:

when the workpiece is a positive electrode workpiece, the specific procedures are as follows:

(1) when the rotary platform 1 stops at the feeding station, the four-axis robot grabs the positive workpiece from the riveting press and places the positive workpiece at the feeding station, and the indexer 5 drives the rotary platform 1 to rotate for indexing;

(2) the positive workpiece enters a marking station, at the moment, the air cylinder III 21 retracts, the air cylinder IV 22 extends, after the marking of the laser etching device 2 is finished, the code scanning gun starts to scan codes, the code scanning is finished, and the indexer 5 drives the rotary platform 1 to rotate for one graduation;

(3) the positive workpiece enters an electrical inspection station, at the moment, a positive probe tool corresponding to the positive workpiece is arranged on the electrical inspection station, the lifting cylinder 32 drives the probe tool 31 to extend out, the probe I311 is contacted with the positive workpiece, the cylinder I33 extends out to drive the probe II 312 below the cylinder I33, the test voltage is completed, the cylinder I33 retracts, the cylinder II 34 extends out to drive the probe III 313 below the cylinder II 34, the test voltage is completed, the cylinder II 34 retracts, the lifting cylinder 32 retracts, and the indexer 5 drives the rotary platform 1 to rotate for indexing;

(4) the positive pole workpiece enters a dust removal station, an ion air bar 42 in the dust removal device 4 starts to blow air, the positive pole workpiece is subjected to dust removal, the dust removal is completed, and the indexer 5 drives the rotary platform 1 to rotate for indexing;

(5) the positive workpiece enters an empty station, the station has no operation process, and when the set time is reached, the indexer 5 drives the rotary platform 1 to rotate for indexing;

(6) the positive workpiece enters a blanking station, the four-axis robot grabs the positive workpiece, and the whole process flow is completed;

(7) the turntable system continues for the processes (1) to (6).

When the workpiece is a negative electrode workpiece, the specific procedures are as follows:

(1) when the rotary platform 1 stops at a feeding station, the four-axis robot grabs a negative workpiece from the riveting press and places the negative workpiece at the feeding station, and the indexer 5 drives the rotary platform 1 to rotate for indexing;

(2) the negative electrode workpiece enters a marking station, at the moment, the air cylinder III 21 extends out, the air cylinder IV 22 retracts, after the marking of the laser etching device 2 is finished, the code scanning gun starts to scan codes, the code scanning is finished, and the indexer 5 drives the rotary platform 1 to rotate for indexing;

(3) the negative workpiece enters an electrical detection station, at the moment, a negative probe tool corresponding to the negative workpiece is arranged on the electrical detection station, the lifting cylinder 32 drives the probe tool 31 to extend, the probe I311 contacts the negative workpiece, the cylinder I33 extends to drive the probe below the cylinder I33 to contact the probe II 312, the voltage is tested, the cylinder I33 retracts, the cylinder II 34 extends to drive the probe below the cylinder II 313, the pressure resistance is tested, the cylinder II 34 retracts, the lifting cylinder 32 retracts, and the indexer 5 drives the rotary platform 1 to rotate for one division;

(4) when the cathode workpiece enters a dust removal station, the ion air bar 42 on the dust removal device 4 starts to blow air to remove dust on the anode workpiece, and the indexer 5 drives the rotary platform 1 to rotate for one division after the dust removal is finished;

(5) the cathode workpiece enters an empty station, the station has no operation procedure, and when the set time is reached, the indexer 5 drives the rotating platform 1 to rotate for indexing;

(6) the negative pole workpiece enters a blanking station, the four-axis robot grabs the negative pole workpiece, and the whole process flow is completed;

(7) the turntable system continues for the processes (1) to (6).

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims

1. A battery post-injection treatment turntable device is characterized by comprising:

the automatic laser engraving and cutting machine comprises a rotary platform (1), wherein a feeding station, a marking station, an electric detection station, a dust removal station and a discharging station are arranged on the rotary platform (1), four-axis robots are arranged on the feeding station and the discharging station, the marking station is provided with a laser engraving device (2), the electric detection station is provided with an electric detection device (3), and the dust removal station is provided with a dust removal device (4);

and an indexer (5), wherein the indexer (5) is arranged below the rotating platform (1) and is driven by an indexer driving device.

2. The battery post-injection molding treatment turntable device according to claim 1, wherein: the rotary platform (1) is installed on the support platform (6), and the laser etching device (2), the electric detection device (3) and the dust removal device (4) are installed on the support platform (6).

3. The battery post-injection molding treatment turntable device according to claim 1, wherein: radium carving device (2) include radium carving machine (23) and be used for driving radium carving machine drive arrangement of radium carving machine (23), radium carving machine drive arrangement includes cylinder III (21) and cylinder IV (22) that two sets of cross set up, is used for driving radium carving machine (23) respectively and beats mark for negative pole work piece and positive pole work piece.

4. The battery post-injection molding treatment turntable device according to claim 3, wherein: the bottom of the laser carving machine (23) is provided with a sliding pair I and a sliding pair II which are crossed, a base (231) of the laser carving machine (23) is connected with the sliding pair I and driven by an air cylinder III (21), the sliding pair I is arranged on a sliding seat (24), the sliding seat (24) is connected with the sliding pair II and driven by the air cylinder III (21), and the sliding pair II is arranged on a bottom plate (25).

5. The battery post-injection molding treatment turntable device according to claim 4, wherein: and the bottom plate (25) is respectively provided with a limiting block I (26) and a limiting block II (27) which are respectively used for limiting the movement of the base (231) and the sliding seat (24).

6. The battery post-injection molding treatment turntable device according to claim 2, wherein: electric inspection device (3) include probe frock (31) and lift cylinder (32), probe frock (31) are installed on the support through the slip table module, lift cylinder (32) are with the help of slip table module drive probe frock (31) and work piece contact.

7. The battery post-injection molding treatment turntable device according to claim 6, wherein: the slip table module includes guide rail, slider and slip table (36), slider slidable mounting is on the guide rail, slip table (36) are installed on the slider, probe frock (31) demountable installation is on slip table (36), install cylinder I (33) and cylinder II (34) on slip table (36), probe subassembly I (331) and probe subassembly II (341) are connected respectively to cylinder I (33) and cylinder II (34), probe subassembly I (331) and probe subassembly II (341) dock with probe frock (31) under the drive of cylinder I (33) and cylinder II (34).

8. The battery post-injection molding treatment turntable device according to claim 7, wherein: probe I (311) matched with the workpiece is arranged below the probe tool (31), and a probe II (312) and a probe III (313) are respectively arranged at the positions, corresponding to the cylinder I (33) and the cylinder II (34), above the probe tool (31).

9. The battery post-injection molding treatment turntable device according to claim 2, wherein: the dust removal device (4) comprises an ion air rod (41) and a support (42), and the ion air rod (41) is installed on the support table (6) through the support (42).