CN117139067B - Portable sealing UV glue sealing structure for new energy battery - Google Patents

Abstract

The invention provides a portable sealing UV glue sealing structure of a new energy battery, which is applied to the field of UV glue sealing.

Description

Portable sealing UV glue sealing structure for new energy battery

Technical Field

The application relates to the field of UV glue sealing, in particular to a portable sealing UV glue sealing structure for a new energy battery.

Background

At present, the new energy power battery is mainly divided into three major categories of square batteries, cylindrical batteries and soft package batteries, wherein the square batteries comprise a top cover, a shell, a positive plate, a negative plate and a lamination or winding piece, an insulating piece, a safety component and the like which are formed by a diaphragm, the top cover and the shell are assembled together in a welding mode to wrap other internal materials of the battery cell, and the welding mode has the advantages of high strength, high speed and simpler process, but still has some problems: firstly, welding slag is easy to generate in the preparation process, and the welding slag enters the battery core to puncture the diaphragm, so that short circuit is caused, and spontaneous combustion of the battery is caused; secondly, the part of the positions cannot be effectively bonded due to the cold joint, and the risk of leakage of the internal electrolyte exists; thirdly, dust or impurities on the shell or the top cover easily cause explosion points during welding, tiny holes exist at the positions, and the risk of leakage of the electrolyte in the inner part exists; in addition, partial positions are excessively welded, so that the welding is penetrated, the risk of leakage of the internal electrolyte exists, and the risk that welding slag falls into the battery cell exists.

The use of glue to encapsulate the welded node of battery and electrode slice is the comparatively more common alternative mode at present, and traditional UV glues the point gum machine and constructs the required point gum mouth and go on the circle in the welded node department of battery and electrode slice and walk to this forms the gluey seal of circle shape on the battery top, and this kind of equipment structure is complicated, and running cost is higher, and dispensing efficiency and some gum quality all need to improve simultaneously.

Therefore, how to obtain a battery sealing structure with excellent comprehensive performance, high packaging safety and reliability, controllable curing process and simple and convenient operation becomes a technical problem to be solved in the field, and therefore, we propose a new energy battery portable sealing UV glue sealing structure to solve the above problems.

Disclosure of Invention

The utility model aims at designing a UV glues seal structure, make it compare in traditional point gum machine constructs, need not to carry out complicated planning of gluing that walks, can carry out the quick point gum seal action of batchization, with this promotion new energy battery UV glues sealed convenience, compare prior art and provide a new energy battery portable sealed UV glues seal structure, through frame and the point gum machine who sets up in the frame construct, point gum machine constructs including fixing the YZ axial line nature module on the frame mesa, the output of Z axial line nature module is fixed with translation frame, rotate on the translation frame and be connected with the upset base plate, one side of translation frame is fixed with the upset motor that is used for driving the upset base plate upset;

the bottom of the turnover substrate is fixedly provided with a purple light lamp, the top of the turnover substrate is equally divided and fixedly provided with a plurality of transfer mechanisms, each transfer mechanism comprises a transfer seat fixed on the turnover substrate, the outer side of each transfer mechanism is sleeved with a sliding ring sleeve in a sliding manner, a tensioning spring is clamped between each sliding ring sleeve and each transfer seat, one side, close to the turnover substrate, of each transfer seat is fixedly glued with a capsule storage body, the other side of each transfer seat is provided with a coating groove, a through hole is formed between each coating groove and each capsule storage body, a rubber guide pipe is connected in the through hole in a sliding manner, one end of each rubber guide pipe extends into each capsule storage body and is fixedly connected with the inner wall of each capsule storage body, a floating block is arranged at a connecting node of each rubber guide pipe and each capsule storage body, and a plurality of equally-angled material passing holes are formed in one side of each floating block;

an air cavity is further arranged in the middle rotary seat, a piston matched with the air cavity is fixed on the inner side of the sliding ring sleeve, a telescopic bag body is fixed in the through hole of the middle rotary seat, a synchronous plate fixedly glued with the top end of the telescopic bag body is fixed on the rubber guide pipe, and the telescopic bag body is communicated with the air cavity.

Further, the tensioning spring is of a high-strength anti-fatigue spring structure, and has elastic force for driving the sliding ring sleeve to move away from the capsule storage body.

Further, the tensioning spring is in a free state, the piston extrudes the air cavity to the bottom, the telescopic bag body is in an expanded state, and the rubber guide tube moves up to the highest point in the rubber storage bag body.

Further, the turnover motor is of a servo motor structure, and the turnover substrate is driven by the turnover motor to turn over at equal angles at an angle interval of one hundred eighty degrees.

Further, the gravity switch is arranged in the ultraviolet lamp, when the ultraviolet lamp is turned downwards, the gravity switch is turned on to irradiate the ultraviolet lamp, and when the ultraviolet lamp is turned upwards, the gravity switch is turned off to shut down the ultraviolet lamp.

Furthermore, the inner walls of the capsule storage body and the coating groove are coated with nano anti-adhesion coatings.

Further, the cladding groove is matched with the outer contours of the welding nodes of the battery and the electrode plate to be packaged by gluing, and the bottom of the sliding ring sleeve is of a flexible rubber structure.

Further, the dispensing mechanism further comprises a dispensing nozzle communicated with the output end of the dispensing tank, an electromagnetic valve is arranged between the dispensing nozzle and the dispensing tank, and the dispensing nozzle and the dispensing tank are arranged at the top of the turnover substrate through a Z-axis linear module.

Further, the number of the glue dispensing nozzles is matched with the number of the transfer seats one by one, and the diameter of the output end of the glue dispensing nozzle is not larger than that of the rubber guide pipe.

Further, the bottom of the turnover substrate of the frame is also provided with a transmission belt, and the transmission belt is provided with a dispensing jig for fixing the battery.

Compared with the prior art, the advantage of this application lies in:

(1) According to the invention, through the mutual matching of the rubber guide pipe of the telescopic bag body and the sliding ring sleeve with the piston, when the intermediate rotating mechanism is arranged upwards, the sliding ring sleeve is not pressed, the piston extrudes the air cavity to the bottom under the action of the elasticity of the tensioning spring, the telescopic bag body is in an expansion state at the moment, the rubber guide pipe is pushed to move to the maximum stroke in the capsule storage body, and the UV rubber can be input into the capsule storage body through the rubber guide pipe at the moment, so that the gluing process is formed.

(2) After the sizing action is finished, the overturning substrate overturns, so that the opening of the cladding groove of the middle rotary seat is downward, at the moment, the elastic force of the tensioning spring and the buoyancy of the floating block in the colloid are utilized to always keep the upward moving state of the rubber guide pipe, and at the moment, the material passing hole is higher than the liquid level of the rubber stored in the rubber storage body due to the action of the floating block, so that the rubber stored in the rubber storage body is not easy to leak.

(3) When the bottom side of slip ring cover is inconsistent with the battery top, slip ring cover pressurized overcomes the elasticity of tensioning spring and shifts up, and the air cavity forms negative pressure along with the upward movement of piston this moment, adsorbs the air in the flexible bag body, and then makes flexible bag body shrink, drags the rubber tube and moves down, makes the material hole be less than the liquid level of storing up in the capsule body on the one hand, and on the other hand makes the capsule body receive the pulling force shrink of rubber tube, and then will store up the gluey feeding cladding inslot, forms the UV gluey point at the battery top, accomplishes the efficient action of gluing.

(4) Through the upset setting of purple light lamp and transfer mechanism, when purple light lamp down, transfer mechanism carries out the material loading operation, and the purple light lamp carries out the light pre-curing to the UV gluey point that has glued this moment, when purple light lamp upset up, utilizes gravity switch self-closing, transfer mechanism down this moment, utilizes the drive of Z axis nature module to move down and supply gluey, accomplishes the point and glues the operation, realizes the efficient point in proper order and glues the operation.

(5) The design of the nanometer anti-adhesion coating is utilized, the inner walls of the capsule storage body and the coating groove are not easy to adhere with UV glue, glue residues are not easy to occur in the actions of feeding and feeding of the transfer mechanism, the phenomenon of flash caused by accumulation during feeding is avoided, the design of the bottom of the sliding ring sleeve of the flexible rubber is utilized, the transfer mechanism can form a sealing structure between the coating groove and the battery when the transfer mechanism is abutted against the top of the battery after being overturned, the coating groove is completely sealed, the UV glue is not easy to leak when the coating groove is filled with the UV glue, and the forming of UV glue points is facilitated.

(6) Through the conveyer belt that has the tool of gluing with have the mutual cooperation between the gluey jar of mouth of gluing of point, the battery that the tool centre gripping is waited to glue of usable point is circulated the material loading action, has effectively promoted automatic level, has reduced the cost of labor, through the design of gluing jar that has a plurality of points to glue the mouth, makes gluey jar can be synchronous to a plurality of transfer mechanisms and carries out the material loading, compares in traditional point and glues the structure, and it need not carry out complicated point and glue the orbit operation, and the point is glued efficiently, has market prospect, is fit for popularization and application.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

fig. 2 is a schematic structural diagram of the dispensing mechanism proposed in the present application;

FIG. 3 is a schematic structural diagram of a transfer mechanism according to the present disclosure;

FIG. 4 is a schematic diagram of an exploded construction of a relay mechanism as set forth in the present application;

FIG. 5 is a schematic cross-sectional view of a transfer mechanism according to the present disclosure;

FIG. 6 is an enlarged schematic view of the portion A in FIG. 5;

FIG. 7 is a schematic view of the structure of the ultraviolet lamp set forth in the present application during irradiation curing;

fig. 8 is a schematic structural diagram of the transfer mechanism provided in the present application when the transfer mechanism turns over to supply glue;

FIG. 9 is a schematic diagram of a gel state of a transfer mechanism according to the present disclosure;

fig. 10 is a schematic diagram of a state of the transfer mechanism in the application during gluing;

fig. 11 is a schematic view illustrating a state of a sliding ring sleeve before glue is supplied by a transfer mechanism provided in the present application;

fig. 12 is a schematic state diagram of a sliding ring sleeve when glue is supplied to the transfer mechanism provided in the present application.

The reference numerals in the figures illustrate:

the device comprises a frame 1, a conveying belt 2, a dispensing mechanism 3, a glue tank 31, a dispensing nozzle 32, a Z-axis linear module 33, a turnover motor 34, a turnover substrate 35, a dispensing jig 4, a transfer mechanism 5, a capsule storage body 51, a sliding ring sleeve 52, a piston 521, a transfer seat 53, a coating groove 531, an air cavity 532, a purple light lamp 6, a tension spring 7, a telescopic capsule body 8, a rubber guide tube 9, a synchronous plate 91, a material passing hole 92 and a floating block 93.

Detailed Description

The embodiments will be described in detail and throughout the specification with reference to the drawings, wherein, based on the embodiments in the application, all other embodiments obtained by persons skilled in the art without making creative efforts are within the scope of protection of the application.

Example 1:

the invention provides a portable sealing UV glue sealing structure of a new energy battery, referring to fig. 1-12, comprising a frame 1 and a glue dispensing mechanism 3 arranged on the frame 1, wherein the glue dispensing mechanism 3 comprises a YZ axial linear module 33 fixed on the table top of the frame 1, a translation base is fixed at the output end of the Z axial linear module 33, a turnover substrate 35 is rotatably connected on the translation base, and a turnover motor 34 for driving the turnover substrate 35 to turn is fixed on one side of the translation base;

the bottom of the turnover substrate 35 is fixedly provided with a purple light lamp 6, the top of the turnover substrate 35 is equally and equally divided and fixedly provided with a plurality of transfer mechanisms 5, each transfer mechanism 5 comprises a transfer seat 53 fixed on the turnover substrate 35, the outer side of each transfer seat 53 is slidably sleeved with a sliding ring sleeve 52, a tensioning spring 7 is clamped between each sliding ring sleeve 52 and each transfer seat 53, one side, close to the turnover substrate 35, of each transfer seat 53 is fixedly glued with a capsule storage body 51, the other side of each transfer seat 53 is provided with a coating groove 531, a through hole is formed between each coating groove 531 and each capsule storage body 51, a rubber guide pipe 9 is slidably connected in each through hole, one end of each rubber guide pipe 9 extends into each capsule storage body 51 and is fixedly connected with the inner wall of each capsule storage body 51, a floating block 93 is arranged at a connecting joint of each rubber guide pipe 9 and each capsule storage body 51, and a plurality of equally-angled material passing holes 92 are formed in one side of each floating block 93;

an air cavity 532 is further arranged in the middle rotary seat 53, a piston 521 matched with the air cavity 532 is fixed on the inner side of the sliding ring sleeve 52, a telescopic bag body 8 is fixed in a through hole of the middle rotary seat 53, a synchronous plate 91 which is fixedly glued with the top end of the telescopic bag body 8 is fixed on the rubber guide pipe 9, and the telescopic bag body 8 is communicated with the air cavity 532.

It should be noted that, in this embodiment, the tensioning spring 7 is a high-strength anti-fatigue spring structure, the tensioning spring 7 has an elastic force for driving the sliding ring sleeve 52 to move away from the capsule body 51, the tensioning spring 7 is in a free state, the piston 521 presses the air cavity 532 to the bottom, the telescopic capsule body 8 is in an expanded state, and the rubber guiding tube 9 moves up to the highest point in the capsule body 51.

Referring to fig. 10, through the mutual matching between the rubber guiding tube 9 of the telescopic capsule body 8 and the sliding ring sleeve 52 with the piston 521, when the transfer mechanism 5 is arranged upwards, the sliding ring sleeve 52 is not pressed, at this time, under the action of the elasticity of the tensioning spring 7, the piston 521 extrudes the air cavity 532 to the bottom, at this time, the telescopic capsule body 8 is in an expanded state, and the rubber guiding tube 9 is pushed to displace to the maximum stroke in the capsule storage body 51, at this time, the UV rubber can be input into the capsule storage body 51 through the rubber guiding tube 9, and in the process of sizing is formed;

after the sizing action is finished, the overturning substrate 35 overturns to enable the opening of the cladding groove 531 of the transit seat 53 to face downwards, at the moment, the elastic force of the tensioning spring 7 and the buoyancy of the floating block 93 in the colloid are utilized to always keep the upward moving state of the rubber guide tube 9, at the moment, the material passing hole 92 is higher than the liquid level of the rubber stored in the Chu Jiaonang body 51 due to the action of the floating block 93, and the rubber stored in the rubber stored body 51 is not easy to leak;

when the bottom side of the sliding ring sleeve 52 is in contact with the top of the battery, the sliding ring sleeve 52 is pressed to overcome the elasticity of the tension spring 7 to move upwards, at the moment, the air cavity 532 forms negative pressure along with the upward movement of the piston 521, air in the telescopic bag body 8 is adsorbed, the telescopic bag body 8 is contracted, the rubber guide tube 9 is dragged to move downwards, on one hand, the material passing hole 92 is lower than the rubber storage liquid level in the rubber storage body 51, on the other hand, the rubber storage body 51 is contracted by the tension of the rubber guide tube 9, and further the rubber storage is supplied into the coating groove 531, a UV rubber point is formed at the top of the battery, and the efficient dispensing action is completed.

Further, referring to fig. 7-9, in this embodiment, the turnover motor 34 is a servo motor structure, the turnover substrate 35 is driven by the turnover motor 34 to perform equal-angle turnover at an angle interval of one hundred eighty degrees, the ultraviolet lamp 6 is internally provided with a gravity switch, when the ultraviolet lamp 6 is turned downwards, the gravity switch is turned on to irradiate the ultraviolet lamp 6, and when the ultraviolet lamp 6 is turned upwards, the gravity switch is turned off to turn off the ultraviolet lamp 6.

Through the upset setting of purple light lamp 6 and transfer mechanism 5, when purple light lamp 6 down, transfer mechanism 5 carries out the material loading operation, and purple light lamp 6 carries out the light pre-curing to the UV gluey point that has glued this moment, when purple light lamp 6 upset up, utilizes gravity switch self-closing, and transfer mechanism 5 down this moment utilizes the drive of Z axial nature module 33 to move down and supply gluey, accomplishes the point and glues the operation, realizes the efficient point in proper order and glues the operation.

The inner walls of the capsule storage body 51 and the coating groove 531 are coated with nano anti-adhesion coatings, the coating groove 531 is matched with the outer contours of welding nodes of the battery and the electrode plate to be glued and packaged, and the bottom of the sliding ring sleeve 52 is of a flexible rubber structure.

Referring to fig. 9, the design of the nano anti-adhesion coating is utilized to make the inner walls of the capsule storage body 51 and the coating groove 531 not easy to adhere to the UV glue, so that the glue residue is not easy to occur in the feeding and feeding actions of the transfer mechanism 5, the phenomenon of flash caused by accumulation during feeding is avoided, and the design of the bottom of the sliding ring sleeve 52 of the flexible rubber is utilized to make the transfer mechanism 5 form a sealing structure between the coating groove 531 and the battery when the transfer mechanism is overturned and is in contact with the top of the battery, so that the coating groove 531 is completely sealed, the UV glue is not easy to leak when the coating groove 531 is filled with the UV glue, and the forming of the UV glue point is facilitated.

Example 2:

the present invention provides a portable sealing structure for a new energy battery, please refer to fig. 1-12, wherein the same or corresponding components as those in embodiment 1 are denoted by the corresponding reference numerals as those in embodiment 1, and only the differences from embodiment 1 are described below for the sake of brevity:

the dispensing mechanism 3 further comprises a dispensing nozzle 32 communicated with the output end of the dispensing nozzle 31 and a solenoid valve arranged between the dispensing nozzle 32 and the dispensing nozzle 31, the dispensing nozzle 32 and the dispensing nozzle 31 are arranged at the top of the overturning base plate 35 through a Z-axis linear module, the quantity of the dispensing nozzle 32 is matched with the quantity of the transferring seats 53 one by one, the diameter of the output end of the dispensing nozzle 32 is not larger than that of the rubber guiding tube 9, the bottom of the overturning base plate 35 of the frame 1 is further provided with a conveying belt 2, and the conveying belt 2 is provided with a dispensing jig 4 for fixing a battery.

Through the conveyer belt 2 that has the tool of gluing 4 and the mutual cooperation between gluey jar 31 that has the mouth 32 of gluing of point, the battery that the tool 4 centre gripping was waited to glue of usable point is circulated the material loading action, has effectively promoted automatic level, has reduced the cost of labor, through the design of gluing jar 31 that has a plurality of mouths 32 of gluing, makes gluey jar 31 can be synchronous to a plurality of transfer mechanisms 5 and carries out the material loading, compares in traditional point and glues the structure, and it need not carry out complicated point and glue the orbit operation, and the point is glued efficiently, has market prospect, is fit for popularization and application.

The foregoing is merely a preferred embodiment of the present application, which is used in connection with the actual requirement, but the scope of the present application is not limited thereto.

Claims (10)

1. The utility model provides a portable sealed UV of new energy battery glues seal structure, includes frame (1) and sets up point gum machine constructs (3) on frame (1), its characterized in that, point gum machine constructs (3) including fixing YZ axial line nature module (33) on the mesa of frame (1), the output of Z axial line nature module (33) is fixed with translation frame, rotate on the translation frame and be connected with upset base plate (35), one side of translation frame is fixed with upset motor (34) that are used for driving upset base plate (35);

the bottom of upset base plate (35) is fixed with purple light lamp (6), the top equidistance of upset base plate (35) is equallyd divide and is fixed with a plurality of transfer mechanism (5), transfer mechanism (5) are including fixing transfer seat (53) on upset base plate (35), slide ring cover (52) have been cup jointed in the outside of transfer seat (53), clamp between slide ring cover (52) and well transfer seat (53) has tensioning spring (7), one side that transfer seat (53) is close to upset base plate (35) glues and is fixed with and stores up capsule (51), the opposite side of transfer seat (53) is equipped with cladding groove (531), be equipped with the through-hole between cladding groove (531) and store up capsule (51), the through-hole sliding connection has rubber tube (9) that leads, the one end of rubber tube (9) extends to in storing up capsule (51) and is fixedly connected with its inner wall, the junction of rubber tube (9) and storing up capsule (51) is equipped with floating block (93), the one side of floating block (93) is equipped with a plurality of equal angle and equally dividing hole that sets up;

still be equipped with air cavity (532) in transfer seat (53), the inboard of slip ring cover (52) is fixed with piston (521) with air cavity (532) assorted, the through-hole internal fixation of transfer seat (53) has flexible bag body (8), be fixed with on rubber tube (9) with flexible bag body (8) top glue fixed synchronizing plate (91), flexible bag body (8) and air cavity (532) intercommunication setting.

2. The portable sealing UV glue sealing structure of the new energy battery according to claim 1, wherein the tensioning spring (7) is of a high-strength anti-fatigue spring structure, and the tensioning spring (7) has elastic force for driving the sliding ring sleeve (52) to move away from the capsule storage body (51).

3. The portable sealing UV glue sealing structure for new energy battery according to claim 2, wherein the tensioning spring (7) is in a free state, the piston (521) presses the air cavity (532) to the bottom, the expansion capsule (8) is in an expanded state, and the glue guiding tube (9) moves up to the highest point in the capsule storage body (51).

4. The portable sealing structure for the new energy battery UV glue according to claim 1, wherein the turnover motor (34) is of a servo motor structure, and the turnover substrate (35) is driven by the turnover motor (34) to perform equal-angle turnover at an angle interval of one hundred eighty degrees.

5. The portable sealing UV glue sealing structure of the new energy battery according to claim 4, wherein a gravity switch is arranged in the ultraviolet lamp (6), the ultraviolet lamp (6) is turned down, the gravity switch is turned on to enable the ultraviolet lamp (6) to irradiate, and the ultraviolet lamp (6) is turned up, and the gravity switch is turned off to enable the ultraviolet lamp (6) to be turned off.

6. The portable sealing structure of the new energy battery according to claim 1, wherein the inner walls of the capsule storage body (51) and the coating groove (531) are coated with nano anti-adhesion coatings.

7. The portable sealing structure for the new energy battery is characterized in that the coating groove (531) is matched with the outer contours of welding nodes of the battery to be glued and packaged and the electrode plate, and the bottom of the sliding ring sleeve (52) is of a flexible rubber structure.

8. The portable sealing structure of the new energy battery UV glue according to claim 1, wherein the glue dispensing mechanism (3) further comprises a glue tank (31) and a glue dispensing nozzle (32) communicated with the output end of the glue tank (31), an electromagnetic valve is installed between the glue tank (31) and the glue dispensing nozzle (32), and the glue tank (31) and the glue dispensing nozzle (32) are arranged at the top of the overturning substrate (35) through a Z-axis linear module.

9. The portable sealing structure for the UV glue of the new energy battery according to claim 8, wherein the number of the glue dispensing nozzles (32) is matched with the number of the transfer seats (53), and the diameter of the output end of the glue dispensing nozzle (32) is not larger than the diameter of the glue guiding pipe (9).

10. The portable sealing structure for the new energy battery UV glue according to claim 1, wherein the frame (1) is further provided with a transmission belt (2) at the bottom of the overturning substrate (35), and the transmission belt (2) is provided with a dispensing jig (4) for fixing the battery.