CN115569807B - Production device for producing battery cover plate - Google Patents

Abstract

The invention belongs to the technical field of battery cover plate production equipment, in particular to a production device for producing a battery cover plate, which comprises a glue storage tank, wherein the glue storage tank is connected with a pair of glue dripping heads through a pipeline, one sides of the glue dripping heads, which are close to the glue storage tank, are respectively fixed with a sliding module, the outside of the sliding module is fixed with a shell, a limiting plate is arranged below the glue dripping heads, a plurality of clamping grooves matched with the battery cover plate are formed in the limiting plate, square glue discharging holes are formed in the glue dripping heads, an elastic film is arranged in the glue discharging holes, glue passing plates are respectively fixed on two sides of the elastic film, each glue passing plate is hollow, the outside of each glue passing plate is connected with a closing plate in a sliding mode, and the closing plate is fixedly connected with the glue dripping heads; through a pair of glue dripping heads reciprocating operation under the drive of slip module, improved the efficiency of glue dripping, can once carry out the glue dripping operation of a plurality of battery cover plates simultaneously, and then improved the production efficiency of battery cover plate.

Description

Production device for producing battery cover plate

Technical Field

The invention belongs to the technical field of battery cover plate production equipment, and particularly relates to a production device for producing a battery cover plate.

Background

The storage battery is also called a rechargeable battery, and generally refers to a general term of all chemical energy batteries which can be recharged and reused after the electric quantity is used to a certain extent, a cover plate is one of important component parts in the storage battery, and the battery cover plate is often subjected to glue dripping treatment in the production process for facilitating installation.

One chinese patent with publication number CN108777318A discloses a device for facilitating adhesive installation of a cover plate of a storage battery, which comprises a storage battery body, an operation table, a square frame, a round bar, a first electric push rod, an L-shaped plate, a second electric push rod, a cover plate, a square plate, a U-shaped plate, a glue bottle, a third electric push rod, a glue spreading slat, a one-way valve tube, a micro air pump, a cylindrical hole, a metal tube, a silica gel heating plate, a glue spraying tube, a placement round hole, a connecting tube, a strip-shaped chute and a reset spring. The invention has compact structure, is convenient for smearing the glue on the surface of the storage battery bonding cover plate through electric operation, solves the problem that the glue is easy to drip and adhere on skin clothes of operators caused by manual gluing during installation and repair, has reasonable design, is suitable for bonding the cover plates of various storage batteries, has stable operation, is favorable for clamping and fixing the cover plates and downwards moving the cover plates to cover the top of the storage batteries well, and has good installation effect.

In the technical scheme, the manual gluing is replaced by a gluing strip plate mode, however, in the scheme, the gluing operation of the battery cover plate can be only carried out one by one, the gluing efficiency is low, and the production efficiency is low; to this end, the invention provides a production device for producing battery cover plates.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a production device for producing a battery cover plate, which comprises a glue storage tank, wherein the glue storage tank is connected with a pair of glue dripping heads through a pipeline, one sides of the glue dripping heads, which are close to the glue storage tank, are respectively fixed with a sliding module, the outside of the sliding module is fixed with a shell, a limiting plate is arranged below the glue dripping heads, and a plurality of clamping grooves matched with the battery cover plate are formed in the limiting plate; during operation, there is a process just to drip the glue to the battery apron at battery apron production in-process, and put into limiting plate inside draw-in groove with the battery apron that treats when the glue dripping, then start the delivery pump of glue solution and pass through the pipeline and carry the glue solution to the glue dripping head by the inside transport of glue storage jar in to finally drip into the battery apron through the glue dripping head, thereby can drive the glue dripping head through the slip module and move and shift the glue dripping after accomplishing the glue dripping operation of a pair of battery apron, the device adopts a pair of glue dripping head to drip glue jointly, has improved the efficiency of glue dripping, can once carry out the glue dripping operation of a plurality of battery apron simultaneously, and then has improved the production efficiency of battery apron.

Preferably, a square glue discharging hole is formed in the glue dripping head, an elastic membrane is arranged in the glue discharging hole, glue passing plates are fixed on two sides of the elastic membrane, the glue passing plates are hollow, a closing plate is connected to the outer portion of each glue passing plate in a sliding mode, the closing plate is fixedly connected with the glue dripping head, and a reset spring is arranged between each glue passing plate and the glue dripping head; during operation, when glue is dropped, the glue solution is discharged through the glue discharging hole, in the process, the glue solution is firstly contacted with the elastic membrane, then a extrusion force is applied to the elastic membrane, the elastic membrane is pushed to deform and then pulled to slide in the closing plate, the hollow part of the glue passing plate slides out of the closing plate, the glue solution is discharged through the hollow part of the glue passing plate, when the glue is stopped after the glue is dropped, the glue passing plate is reset under the action of the reset spring, so that the elastic membrane is driven to reset, after the hollow part of the glue passing plate is completely immersed in the closing plate, a closed structure is formed between the elastic membrane and the glue passing plate, and then the glue passing plate moves continuously for a distance to pull the elastic membrane, and at the moment, the elastic membrane can apply a negative pressure to the glue solution which is not discharged, so that the glue solution is adsorbed, excessive glue solution is prevented from leaking or wire drawing, and the follow-up glue dropping operation is facilitated.

Preferably, a hollow groove is formed in one end, far away from the elastic membrane, of the rubber passing plate, and a counterweight ball is placed in the hollow groove; during operation, in the process that the glue passing plate is pulled back and forth, the counterweight ball in the hollow groove can roll back and forth under the action of inertia force, and the hollow groove can knock the glue passing plate in the rolling process, so that the glue passing plate vibrates, and the glue solution is separated from the hollow groove in an accelerating way.

Preferably, a plurality of elastic sheets are fixed on the inner wall of the glue passing plate, and a shaking ball is fixed at one end of the elastic sheet, which is far away from the glue passing plate; during operation, when the glue solution is discharged through the hollow part of the glue passing plate, the glue solution can slide over the shaking ball, so that the shaking ball is driven to pull the elastic piece to deform and then bounce, the shaking ball and the elastic piece can stir the glue solution in the reciprocating bouncing process, the glue solution discharge speed is slowed down and is more homogenized, and the situation that the glue solution splashes due to the fact that the glue solution discharge speed is too fast is prevented.

Preferably, a magnetic block is fixed at one end of the glue passing plate far away from the elastic membrane, the magnetic block is fixedly connected with the reset spring, a pair of alarm contacts are fixed outside the magnetic block, a circuit contact is arranged at one end of the alarm contact far away from the magnetic block, the circuit contact is fixedly connected with the closing plate, and the alarm contact is in signal connection with an external alarm through a circuit; when the automatic alarm device is operated, when the glue solution is completely discharged, the magnetic block at the moment can reset to the initial position under the action of the reset spring, so that the alarm contact is driven to be contacted with the circuit contact, when the alarm contact is in contact with the circuit contact, an alarm outside the alarm contact is signaled to start to operate, staff equipment is reminded to reset thoroughly, no glue solution remains in the alarm device, and otherwise, if the alarm device does not operate after cleaning is completed, staff is required to carefully check whether omission exists.

Preferably, one side of the closing plate, which is far away from the output end of the glue dripping head, is slidably connected with a follow-up magnetic block, a protective film is fixed between the follow-up magnetic block and the glue dripping head, and a shovel blade is fixed on one side of the follow-up magnetic block, which is far away from the protective film; during operation, in the gliding in-process of magnetic block, follow-up magnetic block can be under the gliding slip of effect of magnetic force, thereby follow-up magnetic block slides and drives the shovel sword motion, and then carry out the shovel to the glue solution on closure plate surface, prevent that the glue solution from remaining, the setting of protection film can effectually prevent that the glue solution from remaining in closure plate and the dead angle department of glue dripping head simultaneously.

Preferably, a supporting frame is fixed between the closing plate and the glue dripping head, and an electric heating plate is fixed inside the supporting frame; when the automatic glue dripping device works, once the alarm is not operated, a worker can turn on the power supply of the electric heating plate at the moment to enable the electric heating plate to be electrified to generate heat, and the heat is conducted into the glue dripping head through the supporting frame, so that residual glue liquid in the glue dripping head is secondarily heated, the fluidity of the glue liquid is improved, and the glue liquid is conveniently discharged.

Preferably, a connecting rope is arranged below the elastic membrane, and a bouncing ball is fixed at one end of the connecting rope, which is far away from the elastic membrane; during operation, after the operation of glue dripping is accomplished, need clear up the inside remaining glue solution of glue dripping head, just need the staff to hold the marble at this moment, reciprocal pulling afterwards, the marble can drive the reciprocal motion of elastic membrane through connecting rope after being pulled reciprocally to reciprocal will cross the inside pull out of glued board self-closing board, in this process, remaining glue solution just can flow out, and the staff can collect the reutilization to it.

Preferably, the outside of the bullet is rotatably connected with a homogenizing rotating blade, and the surface of the homogenizing rotating blade is plated with an anti-glue coating; during operation, in the normal discharging process of the glue solution, when the glue solution flows through the bullet balls, the external homogenizing rotary blades are driven to rotate, so that the glue solution is further homogenized, and meanwhile, the design of the homogenizing rotary blades is also convenient for the clamping operation of subsequent staff.

Preferably, a guide block is fixed at one end of the connecting rope far away from the bullet ball, a supporting block is connected to the outside of the guide block in a sliding manner, a guide spring is fixed at the top end of the guide block, a drainage hole is formed in the supporting block, and the drainage hole are mutually matched; when the adhesive dripping device is in operation, after the connecting rope is pulled, the connecting rope can drive the flow guide block to stretch the flow guide spring and then slide in the support block, and the flow guide block slides to drive the flow guide hole to slide until the flow guide hole is contacted with the flow discharge hole, so that residual adhesive liquid above the elastic membrane can be discharged through the flow guide hole and the flow discharge hole, and the adhesive liquid without residual adhesive liquid is further ensured, so that the subsequent adhesive dripping operation is facilitated.

The beneficial effects of the invention are as follows:

1. according to the production device for producing the battery cover plates, the pair of glue dropping heads are driven by the sliding module to reciprocate, so that the glue dropping efficiency is improved, and meanwhile, the glue dropping operation of a plurality of battery cover plates can be carried out at one time, and the production efficiency of the battery cover plates is improved.

2. According to the production device for producing the battery cover plate, the elastic film moves to reset when the glue dripping is stopped, and then the elastic film can apply negative pressure to the glue solution which is not discharged, so that the glue solution which is not discharged is adsorbed, excessive glue solution is prevented from leaking out or drawing, and the follow-up glue dripping operation is facilitated.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic diagram of a second embodiment of a dispensing head structure according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2A in accordance with the present invention;

FIG. 4 is an enlarged view of a portion of the invention at B in FIG. 2;

FIG. 5 is an enlarged view of a portion of the invention at C in FIG. 4;

fig. 6 is a schematic view of the structure of the battery cover plate of the present invention.

In the figure: 1. a glue storage tank; 2. a sliding module; 3. a glue dripping head; 4. a limiting plate; 5. an elastic film; 6. a glue passing plate; 7. a closing plate; 8. a return spring; 9. a hollow groove; 10. a weight ball; 11. an elastic sheet; 12. shaking the ball; 13. a magnetic block; 14. an alarm contact; 15. a circuit contact; 16. a follow-up magnetic block; 17. a shovel blade; 18. a protective film; 19. a support frame; 20. an electric heating plate; 21. a connecting rope; 22. a bouncing ball; 23. homogenizing the rotating leaves; 24. a flow guiding block; 25. a guide spring; 26. a support block; 27. drainage holes; 28. and a drainage hole.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1, the production device for producing a battery cover plate according to the embodiment of the invention comprises a glue storage tank 1, wherein the glue storage tank 1 is connected with a pair of glue dripping heads 3 through a pipeline, one sides of the glue dripping heads 3, which are close to the glue storage tank 1, are respectively fixed with a sliding module 2, a shell is fixed outside the sliding module 2, a limiting plate 4 is arranged below the glue dripping heads 3, and a plurality of clamping grooves matched with the battery cover plate are formed in the limiting plate 4; during operation, one procedure is carried out on the battery cover plate in the production process of the battery cover plate, the battery cover plate to be processed is placed into the clamping groove in the limiting plate 4 during glue dripping, then the glue solution is conveyed into the glue dripping heads 3 from the inside of the glue storage tank 1 by starting the glue solution conveying pump, finally the glue solution is dripped into the battery cover plate through the glue dripping heads 3, after the glue dripping operation of a pair of battery cover plates is completed, the glue dripping heads 3 can be driven to move through the sliding module 2 so as to replace the glue dripping, the device adopts the pair of glue dripping heads 3 to jointly drip the glue, the glue dripping efficiency is improved, and meanwhile, the glue dripping operation of a plurality of battery cover plates can be carried out at one time, so that the production efficiency of the battery cover plate is improved.

Example two

As shown in fig. 2 to 3, a comparative example one, in which another embodiment of the present invention is: square glue discharging holes are formed in the glue dripping heads 3, elastic films 5 are arranged in the glue discharging holes, glue passing plates 6 are fixed on two sides of each elastic film 5, each glue passing plate 6 is hollow, a closing plate 7 is connected to the outside of each glue passing plate 6 in a sliding mode, the closing plates 7 are fixedly connected with the glue dripping heads 3, and reset springs 8 are arranged between the glue passing plates 6 and the glue dripping heads 3; during operation, when glue is dropped, the glue solution is discharged through the glue discharging hole, in the process, the glue solution is firstly contacted with the elastic membrane 5, then a extrusion force is applied to the elastic membrane 5, the elastic membrane 5 is pushed to deform and then the glue passing plate 6 is pulled to slide in the closing plate 7, further the hollow part of the glue passing plate 6 slides out of the closing plate 7, the glue solution can be discharged through the hollow part of the glue passing plate 6, when the glue is stopped after the glue is dropped, the glue passing plate 6 is reset under the action of the reset spring 8, so that the elastic membrane 5 is driven to reset, a closed structure is formed between the hollow part of the glue passing plate 6 and the closing plate 7, and then the glue passing plate 6 continuously moves for a distance to pull the elastic membrane 5, and then the elastic membrane 5 applies a drawing pressure to the glue solution which is not discharged, so that the glue solution is prevented from being leaked or the glue solution is prevented from being drawn, and the glue is convenient to carry out subsequent glue dropping operation.

As shown in fig. 3, a hollow groove 9 is formed at one end of the rubber passing plate 6 far away from the elastic membrane 5, and a weight ball 10 is placed in the hollow groove 9; during operation, in the process that the glue passing plate 6 is pulled back and forth, the weight ball 10 in the glue passing plate can roll back and forth in the hollow groove 9 under the action of inertia force, and the hollow groove 9 can knock the glue passing plate 6 during rolling, so that the glue passing plate 6 vibrates, and the glue solution is separated from the glue solution rapidly.

As shown in fig. 3, a plurality of elastic pieces 11 are fixed on the inner wall of the glue passing plate 6, and a shaking ball 12 is fixed on one end of the elastic piece 11 far away from the glue passing plate 6; when the glue solution is discharged through the hollow part of the glue passing plate 6 in operation, the glue solution can slide over the shaking ball 12, so that the shaking ball 12 is driven to push the elastic piece 11 to deform and then bounce, the shaking ball 12 and the elastic piece 11 can stir the glue solution in the reciprocating bouncing process, the glue solution discharge speed is slowed down and is more uniform, and the situation that the glue solution splashes due to the too high glue solution discharge speed is prevented.

As shown in fig. 3, a magnetic block 13 is fixed at one end of the glue passing plate 6 far away from the elastic membrane 5, the magnetic block 13 is fixedly connected with the reset spring 8, a pair of alarm contacts 14 are fixed outside the magnetic block 13, a circuit contact 15 is arranged at one end of the alarm contacts 14 far away from the magnetic block 13, the circuit contact 15 is fixedly connected with the closing plate 7, and the alarm contacts 14 are connected with an external alarm signal through a circuit with the circuit contact 15; when the automatic glue cleaning device works, when glue solution is completely discharged, the magnetic block 13 at the moment can reset to the initial position under the action of the reset spring 8, so that the alarm contact 14 is driven to be contacted with the circuit contact 15, when an alarm outside the contact of the alarm contact 14 and the circuit contact 15 is signaled to start to operate, staff is reminded of completely resetting equipment, no glue solution remains in the equipment, and otherwise, if the alarm does not operate after cleaning is completed, staff is required to carefully check whether omission exists.

As shown in fig. 3, a follow-up magnetic block 16 is slidably connected to one side of the closing plate 7 far away from the output end of the glue dispensing head 3, a protective film 18 is fixed between the follow-up magnetic block 16 and the glue dispensing head 3, and a shovel blade 17 is fixed to one side of the follow-up magnetic block 16 far away from the protective film 18; during operation, in the sliding process of the magnetic block 13, the follow-up magnetic block 16 can slide reciprocally under the action of magnetic force, and the follow-up magnetic block 16 slides to drive the scraper knife 17 to move, so that glue solution on the surface of the closing plate 7 is scraped, glue solution residues are prevented, and meanwhile, the arrangement of the protective film 18 can effectively prevent the glue solution from remaining at dead corners of the closing plate 7 and the glue dropping head 3.

As shown in fig. 3, a supporting frame 19 is fixed between the closing plate 7 and the glue dripping head 3, and an electric heating plate 20 is fixed inside the supporting frame 19; when the automatic glue dropping head is in operation, once the alarm is not operated, a worker can turn on the power supply of the electric heating plate 20 at the moment to enable the electric heating plate to be electrified to generate heat, and the heat is conducted into the glue dropping head 3 through the supporting frame 19, so that the residual glue solution in the glue dropping head 3 is heated for the second time, the fluidity of the glue solution is improved, and the glue solution is conveniently discharged.

As shown in fig. 4, a connecting rope 21 is arranged below the elastic membrane 5, and a spring ball 22 is fixed at one end of the connecting rope 21 away from the elastic membrane 5; during operation, after the glue dripping operation is finished, the residual glue solution in the glue dripping head 3 needs to be cleaned, at the moment, staff is required to pull the elastic ball 22, and then the elastic ball 22 is pulled back and forth to drive the elastic membrane 5 to move back and forth through the connecting rope 21, so that the glue passing plate 6 is pulled out from the inner part of the closing plate 7 in a reciprocating manner, and in the process, the residual glue solution flows out, and the staff can collect the glue solution for secondary use.

As shown in fig. 4, the outer part of the bullet 22 is rotatably connected with a homogenizing rotary blade 23, and the surface of the homogenizing rotary blade 23 is plated with an anti-glue coating; during operation, in the normal discharging process of the glue solution, when the glue solution flows through the elastic ball 22, the outer homogenizing rotary vane 23 is driven to rotate, so that the glue solution is further homogenized, and meanwhile, the design of the homogenizing rotary vane 23 is also convenient for the clamping operation of subsequent staff.

As shown in fig. 5, a guide block 24 is fixed at one end of the connecting rope 21 far away from the bullet 22, a supporting block 26 is slidably connected to the outside of the guide block 24, a guide spring 25 is fixed at the top end of the guide block 24, a drainage hole 27 is formed in the guide block 24, a drainage hole 28 is formed in the supporting block 26, and the drainage hole 27 and the drainage hole 28 are mutually matched; when the adhesive dripping device is in operation, after the connecting rope 21 is pulled, the connecting rope drives the guide block 24 to stretch the guide spring 25 and then slide in the support block 26, and the guide block 24 slides to drive the guide hole 27 to slide until the guide hole 27 is in contact with the drainage hole 28, so that residual adhesive liquid above the elastic membrane 5 can be discharged through the guide hole 27 and the drainage hole 28, and further, no residual adhesive liquid is ensured, and the subsequent adhesive dripping operation is facilitated.

Working principle: in the production process of the battery cover plates, one procedure is to drip the battery cover plates, the battery cover plates to be processed are placed into a clamping groove in the limiting plate 4 during the process of drip, then a glue solution conveying pump is started to convey glue solution into the glue dripping heads 3 from the inside of the glue storage tank 1 through a pipeline, and finally the glue solution is dripped into the battery cover plates through the glue dripping heads 3, after the glue dripping operation of a pair of battery cover plates is completed, the glue dripping heads 3 can be driven to move through the sliding module 2 so as to replace the glue, and the device adopts the pair of glue dripping heads 3 to jointly drip the glue, so that the glue dripping efficiency is improved, and meanwhile, the glue dripping operation of a plurality of battery cover plates can be carried out at one time, so that the production efficiency of the battery cover plates is improved;

it should be noted that, the structures inside the glue dropping head 3 are all subjected to anti-gluing treatment, for example, an anti-gluing coating is plated on the surface of a structural member, when glue is dropped, the glue solution is discharged through a glue discharging hole, in the process, the glue solution is firstly contacted with the elastic membrane 5, then a pressing force is applied to the elastic membrane 5, the elastic membrane 5 is pushed to deform and then the glue passing plate 6 is pulled to slide in the closing plate 7, further the hollow part of the glue passing plate 6 slides out from the interior of the closing plate 7, the glue solution is discharged through the hollow part of the glue passing plate 6, when the glue dropping is stopped after the glue dropping is completed, the glue passing plate 6 is reset under the action of the reset spring 8, so that the elastic membrane 5 is driven to reset, and after the hollow part of the glue passing plate 6 is completely immersed into the interior of the closing plate 7, a closed structure is formed between the elastic membrane 5 and the glue passing plate 6 and the closing plate 7, then the glue passing plate 6 continues to move a distance to pull the elastic membrane 5, and then a negative pressure is applied to the glue solution which is not discharged, so that the glue solution is prevented from being excessively drawn, or the glue solution is conveniently dropped after the glue dropping operation is performed; when the glue solution is discharged through the hollow part of the glue passing plate 6, the glue solution slides over the shaking ball 12, so that the shaking ball 12 is driven to pull the elastic piece 11 to deform and then bounce, the shaking ball 12 and the elastic piece 11 stir the glue solution in the reciprocating bouncing process, the discharge speed of the glue solution is slowed down and is more uniform, and the situation that the glue solution splashes due to the excessively high discharge speed of the glue solution is prevented;

after the glue dripping operation is finished, the residual glue solution in the glue dripping head 3 needs to be cleaned, at the moment, staff is required to pull the elastic ball 22, then the elastic ball 22 is pulled back and forth, and the elastic membrane 5 is driven to move back and forth through the connecting rope 21 after being pulled back and forth, so that the glue passing through the glue plate 6 is pulled out from the inner part of the closing plate 7 in a reciprocating manner, and in the process, the residual glue solution flows out, and the staff can collect the glue solution for secondary use; in the process that the glue passing plate 6 is pulled back and forth, the weight ball 10 in the glue passing plate can roll back and forth in the hollow groove 9 under the action of inertia force, and the hollow groove 9 can knock the glue passing plate 6 in the rolling process, so that the glue passing plate 6 vibrates, and the glue solution is separated quickly;

when the glue solution is completely discharged, the magnetic block 13 is reset to an initial position under the action of the reset spring 8, so that the alarm contact 14 is driven to be contacted with the circuit contact 15, when the alarm contact 14 is contacted with the circuit contact 15, an external alarm is signaled to start to operate, staff equipment is reminded to reset thoroughly, no glue solution remains in the equipment, otherwise, if the alarm does not operate after cleaning is completed, staff is required to carefully check whether omission exists; in the sliding process of the magnetic block 13, the follow-up magnetic block 16 can slide reciprocally under the action of magnetic force, so that the follow-up magnetic block 16 slides to drive the shovel blade 17 to move, glue solution on the surface of the closing plate 7 is shoveled, glue solution residues are prevented, and meanwhile, the arrangement of the protective film 18 can effectively prevent the glue solution from being remained at dead corners of the closing plate 7 and the glue dripping head 3; once the alarm is not operated, the staff can turn on the power supply of the electric heating plate 20 at the moment to electrify the electric heating plate to generate heat, and the heat is conducted into the glue dripping head 3 through the supporting frame 19, so that the glue solution remained in the glue dripping head 3 is secondarily heated, the mobility of the glue solution is improved, and the glue solution is conveniently discharged; in the normal discharge process of the glue solution, when the glue solution flows through the bullet 22, the external homogenizing rotary blade 23 is driven to rotate, so that the glue solution is further homogenized, and meanwhile, the design of the homogenizing rotary blade 23 is also convenient for the clamping operation of subsequent staff;

after the connecting rope 21 is pulled, the connecting rope drives the guide block 24 to stretch the guide spring 25 and then slide in the support block 26, and the guide block 24 slides to drive the guide hole 27 to slide until the guide hole 27 contacts with the drainage hole 28, so that residual glue above the elastic membrane 5 can be discharged through the guide hole 27 and the drainage hole 28, further, no residual glue is ensured, and the subsequent glue dripping operation is facilitated.

Further, as shown in fig. 6, the battery cover plate of the present embodiment includes a top cover plate, a positive electrode post, a negative electrode post, a plastic on the positive electrode, a plastic on the negative electrode, a sealing ring, an explosion-proof valve, a plastic under the positive electrode, and a plastic under the negative electrode. That is, the production apparatus of the present embodiment can be used to produce a battery cover plate as shown in fig. 6.

It should be noted that the production apparatus of the present embodiment is not limited to use for producing the battery cover plate shown in fig. 6, and the production apparatus may also be used for producing battery cover plates with other structures, depending on the actual situation.

The front, rear, left, right, up and down are all based on fig. 1 in the drawings of the specification, the face of the device facing the observer is defined as front, the left side of the observer is defined as left, and so on, according to the viewing angle of the person.

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A apparatus for producing battery cover plate, characterized in that: the automatic glue storage device comprises a glue storage tank (1), wherein the glue storage tank (1) is connected with a pair of glue dripping heads (3) through a pipeline, one sides of the glue dripping heads (3) close to the glue storage tank (1) are respectively fixed with a sliding module (2), a shell is fixed outside the sliding module (2), a limiting plate (4) is arranged below the glue dripping heads (3), and a plurality of clamping grooves matched with a battery cover plate are formed in the limiting plate (4);

the novel plastic dispensing head is characterized in that square glue discharging holes are formed in the glue dispensing head (3), elastic films (5) are arranged in the glue discharging holes, glue passing plates (6) are fixed on two sides of each elastic film (5), the glue passing plates (6) are hollow, closing plates (7) are connected to the outer portions of the glue passing plates (6) in a sliding mode, the closing plates (7) are fixedly connected with the glue dispensing head (3), and reset springs (8) are arranged between the glue passing plates (6) and the glue dispensing head (3).

2. A production apparatus for producing a battery cover plate according to claim 1, wherein: the one end that the rubber coating board (6) kept away from elastic membrane (5) has seted up hollow groove (9), weight ball (10) have been placed to hollow groove (9) inside.

3. A production apparatus for producing a battery cover plate according to claim 1, wherein: the inner wall of the rubber passing plate (6) is fixed with a plurality of elastic sheets (11), and one end, far away from the rubber passing plate (6), of each elastic sheet (11) is fixed with a shaking ball (12).

4. A production apparatus for producing a battery cover plate according to claim 1, wherein: the one end that elastic membrane (5) was kept away from to rubberizing board (6) is fixed with magnetic block (13), magnetic block (13) and reset spring (8) fixed connection, magnetic block (13) outside is fixed with a pair of alarm contact (14), the one end that magnetic block (13) was kept away from to alarm contact (14) is provided with circuit contact (15), circuit contact (15) and closure plate (7) fixed connection, alarm contact (14) and circuit contact (15) pass through circuit and outside siren signal connection.

5. A production apparatus for producing a battery cover plate according to claim 1, wherein: one side of the closing plate (7) far away from the output end of the glue dripping head (3) is slidably connected with a follow-up magnetic block (16), a protective film (18) is fixed between the follow-up magnetic block (16) and the glue dripping head (3), and a shovel blade (17) is fixed on one side of the follow-up magnetic block (16) far away from the protective film (18).

6. A production apparatus for producing a battery cover plate according to claim 1, wherein: a supporting frame (19) is fixed between the closing plate (7) and the glue dripping head (3), and an electric heating plate (20) is fixed inside the supporting frame (19).

7. A production apparatus for producing a battery cover plate according to claim 1, wherein: a connecting rope (21) is arranged below the elastic membrane (5), and a spring ball (22) is fixed at one end, far away from the elastic membrane (5), of the connecting rope (21).

8. The production apparatus for producing a battery cover plate according to claim 7, wherein: the outside of the elastic ball (22) is rotationally connected with a homogenizing rotating blade (23), and the surface of the homogenizing rotating blade (23) is plated with an anti-glue coating.

9. The production apparatus for producing a battery cover plate according to claim 7, wherein: the one end that connecting rope (21) kept away from marble (22) is fixed with guide block (24), guide block (24) outside sliding connection has supporting shoe (26), guide block (24) top is fixed with guide spring (25), guide block (24) are inside to be seted up drainage hole (27), drainage hole (28) have been seted up to supporting shoe (26) inside, drainage hole (27) and drainage hole (28) looks adaptation each other.

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