CN213026222U

CN213026222U - Battery cell positioning device of automatic side glue pasting equipment for battery cell

Info

Publication number: CN213026222U
Application number: CN202021588311.1U
Authority: CN
Inventors: 陈燕玲; 丁强兵
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2021-04-20
Anticipated expiration: 2030-08-03

Abstract

The utility model belongs to the technical field of battery automated production equipment and specifically relates to an automatic side of pasting of battery electricity core glues equipment electricity core positioner. The battery cell positioning device comprises a battery cell movable positioning mechanism and a battery cell fixed positioning mechanism; the battery cell movable positioning mechanism and the battery cell fixed positioning mechanism are both fixed on the workbench; the battery cell movable positioning mechanism is respectively connected with the plurality of battery cell side adhesive tape sticking devices; the battery cell fixing and positioning mechanism is respectively connected with the plurality of battery cell glue rolling devices; the battery core movable positioning mechanism and the battery core fixed positioning mechanism are both contacted with the battery core of the battery; the battery core movable positioning mechanism is used for positioning the battery core and adjusting the height of the battery core so that the battery core is accurately aligned with the plurality of battery core side adhesive tape sticking devices; the battery cell fixing and positioning mechanism is used for fixing and positioning the battery cell.

Description

Battery cell positioning device of automatic side glue pasting equipment for battery cell

Technical Field

The utility model belongs to the technical field of battery automated production equipment and specifically relates to an automatic side of pasting of battery electricity core glues equipment electricity core positioner.

Background

At present, electronic products are prevalent, and batteries occupy a core position in the electronic products, and the quality of the batteries has a critical influence on the electronic products. In the assembly process of the battery, the side surface of a battery core of the battery needs to be encapsulated, as shown in fig. 2, two sides of the battery core a are respectively encapsulated with an encapsulating layer b, the encapsulating layers b play a role in protecting the battery, the encapsulation is a very important work, and the encapsulation effect directly influences the durability of the battery. The difficulty of the rubber coating of the side surface of the battery cell is high, and the side edge rubber is difficult to be wrapped on the side surface of the battery cell smoothly. At present, manual or semi-automatic equipment is used in the industry to encapsulate the side of a battery cell, the dependence on manpower is large, the time of operation is long, defective products are easily generated, the productivity is influenced, the existing semi-automatic equipment can only encapsulate the side of the conventional battery cell, small batteries are difficult to process, the production efficiency is low, the performance of the battery after encapsulation is difficult to ensure, and the defective products are easily generated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned technical problem and provide an automatic side of pasting of battery electricity core equipment electricity core positioner, this equipment has solved technical problem such as current side rubber coating equipment production efficiency is low, the rubber coating effect is not good, easily produce defective products.

For the purpose of the utility model, the following technical scheme is adopted for solving:

a battery core positioning device of a battery core automatic side glue pasting device comprises a battery core movable positioning mechanism and a battery core fixed positioning mechanism; the battery cell movable positioning mechanism and the battery cell fixed positioning mechanism are both fixed on the workbench; the battery cell movable positioning mechanism is respectively connected with the plurality of battery cell side adhesive tape sticking devices; the battery cell fixing and positioning mechanism is respectively connected with the plurality of battery cell glue rolling devices; the battery core movable positioning mechanism and the battery core fixed positioning mechanism are both contacted with the battery core of the battery; the battery core movable positioning mechanism is used for positioning the battery core and adjusting the height of the battery core so that the battery core is accurately aligned with the plurality of battery core side adhesive tape sticking devices; the battery cell fixing and positioning mechanism is used for fixing and positioning the battery cell.

As a further improvement, the movable positioning mechanism of the battery core comprises a positioning rack, a positioning gear adjusting component and a positioning sucker component; the positioning frame is fixed on the workbench; the positioning gear adjusting assembly is fixed on the positioning rack, and the output end of the positioning gear adjusting assembly is connected with one end of the positioning sucker assembly; the other end of the positioning sucker component is contacted with a battery cell;

the positioning gear adjusting assembly comprises a positioning rotating shaft module, a positioning adjusting gear, a positioning adjusting guide pillar, a positioning adjusting guide sleeve and a positioning adjusting stopping assembly; the positioning rotating shaft module is fixed on the positioning rack; a plurality of positioning adjusting gears are arranged and fixed on the positioning rotating shaft module; the head and the tail ends of the positioning and adjusting guide columns are respectively embedded in the positioning and adjusting guide sleeves, and the positioning and adjusting guide columns are connected with the positioning sucker assembly; the middle sections of the positioning and adjusting guide columns are provided with gear teeth, and the positioning and adjusting guide columns are respectively meshed with the positioning and adjusting gears; the positioning adjusting guide sleeve and the positioning adjusting stopping component are fixed on the positioning rack; the positioning adjusting stop assembly is connected with the positioning rotating shaft module; the positioning rotating shaft module is used for driving the positioning adjusting gear to rotate; the positioning adjusting stop component locks or unlocks the fixed positioning rotating shaft module to control the rotating state of the fixed positioning rotating shaft module.

As a further improvement, the positioning frame comprises a positioning frame main body and a positioning frame opening; the opening of the positioning frame is matched with the gear teeth on the positioning adjusting guide column, and the length of the opening of the positioning frame is greater than that of the gear teeth on the positioning adjusting guide column;

the gear teeth on the positioning and adjusting guide post do not contact with the positioning and adjusting guide sleeve when moving up and down;

the positioning rotating shaft module comprises a positioning adjusting bearing seat, a positioning adjusting bearing, a positioning adjusting shaft and a positioning adjusting handle; a plurality of positioning adjusting bearing blocks are fixed on the positioning frame; the positioning adjusting bearings are respectively embedded in corresponding hole positions in the positioning adjusting bearing seats; the positioning adjusting shaft penetrates through the plurality of positioning adjusting bearings; the positioning adjusting handle is fixed at the head end of the positioning adjusting shaft.

As a further improvement, the positioning and adjusting stop assembly comprises an adjusting stop clamping block and an adjusting locking handle; the adjusting and stopping clamping block is fixed on the positioning rack and connected with the tail end of the positioning and adjusting shaft; the adjusting locking handle is connected with the adjusting locking clamping block;

the adjusting stop clamping block comprises a stop clamping block main body, a stop clamping block elastic groove, a stop clamping block locking hole and a stop clamping block shaft hole; the locking clamping block elastic groove is communicated with a locking clamping block shaft hole of the locking clamp; the locking hole of the locking clamping block penetrates through the elastic groove of the locking clamping block and is connected with the adjusting and locking handle; the shaft hole of the locking clamping block is matched with the positioning adjusting shaft; the elastic groove of the stop clamping block is a rectangular sliding groove.

As a further improvement, the positioning sucker assembly comprises a sucker bottom plate, a positioning sucker and a sucker cover plate; the sucker bottom plate is connected with a vacuum system, one end of the sucker bottom plate is connected with the positioning adjusting guide pillar, and the other end of the sucker bottom plate is respectively connected with the positioning sucker and the sucker cover plate; and the plurality of positioning suckers are in contact with the battery cell.

To sum up, the utility model discloses a technological effect is:

the utility model has the characteristics of simple structure, convenient operation, degree of automation are high, greatly reduced labour cost, simultaneously move the transportation of device through design electric core, paste the side mucilage binding through design electric core and put speed, greatly increased production efficiency etc. that have improved the rubberizing tape.

Drawings

Fig. 1 is the utility model discloses automatic side glue equipment explosion structure schematic diagram of pasting of battery electricity core.

Fig. 2 is a schematic diagram of an explosion structure of encapsulation on the side surface of a battery cell.

Fig. 3 is an exploded view of the cell positioning device.

Fig. 4 is a schematic structural diagram of the battery core movable positioning mechanism.

Fig. 5 is an exploded view of the positioning gear adjustment assembly.

Fig. 6 is an explosion structure diagram of the battery cell side adhesive tape sticking device.

Fig. 7 is a schematic structural diagram of a cutting pushing module.

FIG. 8 is a schematic view of a tape cutting assembly.

Fig. 9 is a schematic view of a structure of the tape application mechanism.

FIG. 10 is a schematic view of an exploded structure of a rubberized vacuum panel.

Detailed Description

The following describes in detail embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, an apparatus for automatically attaching a side adhesive to a battery cell includes a workbench, and a cell feeding device 1, a cell moving device 2, a cell positioning device 3, a cell attaching side adhesive device 4, a cell adhesive rolling device 5, and a cell discharging device 6 fixed on the workbench; the battery cell moving device 2 is respectively connected with the battery cell feeding device 1, the battery cell positioning device 3 and the battery cell blanking device 6; the battery core positioning device 3 is contacted with the battery core; the plurality of battery cell side glue pasting devices 4 and the plurality of battery cell glue rolling devices 5 are respectively connected with the battery cell positioning device 3; the cell feeding device 1 is used for feeding battery cells; the battery cell moving device 2 is used for moving and conveying battery cells; the battery core positioning device 3 is used for positioning the battery core; the battery core side adhesive tape sticking device 4 is used for sticking a protective adhesive tape to the side surface of the battery core of the battery; the battery cell glue rolling device 5 is used for rolling the pasted protective adhesive tape; the battery cell blanking device 6 is used for blanking a battery cell;

as shown in fig. 3, the cell positioning device 3 includes a cell movable positioning mechanism 31 and a cell fixed positioning mechanism 32; the battery cell movable positioning mechanism 31 and the battery cell fixed positioning mechanism 32 are both fixed on the workbench; the battery core movable positioning mechanism 31 is respectively connected with the plurality of battery core side adhesive sticking devices 4; the battery cell fixing and positioning mechanism 32 is respectively connected with the plurality of battery cell glue rolling devices 5; the cell movable positioning mechanism 31 and the cell fixed positioning mechanism 32 are both in contact with the battery cell; the battery core movable positioning mechanism 31 is used for positioning the battery core and adjusting the height of the battery core so that the battery core is accurately aligned with the plurality of battery core side adhesive sticking devices 4; the battery cell fixing and positioning mechanism 32 is used for fixing and positioning the battery cell;

as shown in fig. 4, the battery cell movable positioning mechanism 31 includes a positioning frame 311, a positioning gear adjustment assembly 312, and a positioning chuck assembly 313; the positioning frame 311 is fixed on the workbench; the positioning gear adjusting component 312 is fixed on the positioning frame 311, and the output end of the positioning gear adjusting component 312 is connected with one end of the positioning sucker component 313; the other end of the positioning sucker component 313 is contacted with a battery cell;

as shown in fig. 5, the positioning gear adjustment assembly 312 includes a positioning rotating shaft module 3121, a positioning adjustment gear 3122, a positioning adjustment guide column 3123, a positioning adjustment guide sleeve 3124, and a positioning adjustment stop assembly 3125; the positioning rotating shaft module 3121 is fixed on the positioning frame 311; a plurality of positioning adjustment gears 3122 are provided, and the plurality of positioning adjustment gears 3122 are fixed to the positioning rotating shaft module 3121; a plurality of positioning adjusting guide columns 3123 are provided, the head and tail ends of the plurality of positioning adjusting guide columns 3123 are respectively embedded in the plurality of positioning adjusting guide sleeves 3124, and the plurality of positioning adjusting guide columns 3123 are all connected with the positioning sucker component 313; the middle sections of the positioning adjusting guide columns 3123 are provided with gear teeth, and the positioning adjusting guide columns 3123 are respectively meshed with the positioning adjusting gear 3122; the positioning adjustment guide sleeve 3124 and the positioning adjustment stop assembly 3125 are both fixed to the positioning frame 311; the positioning adjusting stop assembly 3125 is connected with the positioning rotating shaft module 3121; the positioning rotating shaft module 3121 is used for driving the positioning adjusting gear 3122 to rotate; the positioning adjusting stop assembly 3125 locks or unlocks the fixed positioning rotating shaft module 3121 to control the rotating state thereof;

as shown in fig. 6, the cell adhesive-side attaching device 4 includes a tape conveying mechanism 41 and a tape attaching mechanism 42; the adhesive tape conveying mechanism 41 and the adhesive tape attaching mechanism 42 are both fixed on the workbench; the output end of the adhesive tape conveying mechanism 41 is connected with one end of the adhesive tape attaching mechanism 42; the other end of the adhesive tape attaching mechanism 42 is connected with the battery cell positioning device 3; the adhesive tape conveying mechanism 41 is used for protecting feeding, conveying and cutting of the adhesive tape; the tape attaching mechanism 42 is used to attach the protective tape to the side surface of the battery cell.

The adhesive tape conveying mechanism 41 comprises an adhesive tape feeding assembly 411, an adhesive tape cutting assembly 412 and an adhesive tape stretching assembly 413; the adhesive tape feeding assembly 411, the adhesive tape cutting assembly 412 and the adhesive tape stretching assembly 413 are all fixed on the workbench; the discharge hole of the adhesive tape feeding assembly 411 is connected with the adhesive tape cutting assembly 412; a discharge port of the adhesive tape cutting assembly 412 is connected with the adhesive tape stretching assembly 413, and the adhesive tape cutting assembly 412 and the adhesive tape stretching assembly 413 are respectively connected with the cell positioning device 3; the adhesive tape feeding assembly 411 is used for protecting the feeding of the adhesive tape; the adhesive tape cutting assembly 412 is used for protecting the transmission and cutting of the adhesive tape; the tape stretching assembly 413 is used for pressing the protective tape against the vacuum device of the tape attaching mechanism 42;

the tape cutting assembly 412 includes a cutting drive module 4121, a cutting push module 4122, a tape blocking head 4123 and a severing module 4124; the cutting driving module 4121 is fixed on the workbench; the cutting pushing module 4122 and the cutting module 4124 are both fixed on the output end of the cutting driving module 4121; the end of the cutting pushing module 4122 is engaged with the tape blocking head 4123 and the protective tape passes through the gap between the end of the cutting pushing module 4122 and the tape blocking head 4123; a plurality of adhesive tape blocking heads 4123 are fixed on the cutting pushing module 4122, and the adhesive tape blocking heads 4123 are engaged with the vacuum device of the adhesive tape attaching mechanism 42; the cutting module 4124 is positioned at the discharge end of the adhesive tape cutting assembly 412, and the cutting module 4124 is in contact with the protective adhesive tape; the cutting driving module 4121 is used for driving the cutting pushing module 4122, the adhesive tape blocking head 4123 and the cutting module 4124 to move; the cutting pushing module 4122 and the tape blocking head 4123 are used to clamp or loosen the protective tape; the cutting module 4124 is used for cutting the protective adhesive tape;

the adhesive tape stretching assembly 413 comprises an adhesive tape stretching frame 4131, a stretching pushing module 4132 and an adhesive tape stretching head 4133; the adhesive tape stretching frame 4131 is fixed on the workbench; the stretching pushing module 4132 is fixed on the adhesive tape stretching frame 4131, and the output end of the stretching pushing module 4132 is connected with the adhesive tape stretching head 4133; the tape stretching head 4133 is in contact with the protective tape, and the tape stretching head 4133 is respectively connected with the discharge port of the tape cutting assembly 412 and the vacuum device of the tape attaching mechanism 42; the stretching pushing module 4132 is used for pushing the adhesive tape stretching head 4133;

the adhesive tape mounting mechanism 42 comprises an adhesive tape mounting frame 421, a mounting rotary cylinder 422, an adhesive rotary bottom plate 423 and an adhesive rotary suction block assembly 424; the adhesive tape mounting frame 421 is fixed on the workbench; the mounting rotary cylinder 422 is fixed on the adhesive tape mounting frame 421, and the extending end of the mounting rotary cylinder 422 is connected with the adhesive rotary bottom plate 423; the plurality of rubberizing rotary suction block assemblies 424 are fixed at two ends of the rubberizing rotary bottom plate 423 respectively, and the plurality of rubberizing rotary suction block assemblies 424 are connected with the adhesive tape cutting assembly 412 and the electric core movable positioning mechanism 31 respectively.

The positioning frame 311 includes a positioning frame body 3111 and a positioning frame opening 3112; the positioning frame opening 3112 is matched with the gear teeth on the positioning adjusting guide column 3123, and the length of the positioning frame opening 3112 is greater than that of the gear teeth on the positioning adjusting guide column 3123; the gear teeth on the positioning and adjusting guide column 3123 do not contact with the positioning and adjusting guide sleeve 3124 when moving up and down;

the positioning rotating shaft module 3121 comprises a positioning adjusting bearing seat 31211, a positioning adjusting bearing, a positioning adjusting shaft 31213 and a positioning adjusting handle 31214; a plurality of positioning adjusting bearing seats 31211 are fixed on the positioning frame 311; the positioning adjusting bearings are respectively embedded in corresponding hole positions in the positioning adjusting bearing seat 31211; the positioning adjustment shaft 31213 passes through a plurality of positioning adjustment bearings; a positioning adjustment handle 31214 is fixed to the head end of the positioning adjustment shaft 31213.

Positioning adjustment stop assembly 3125 includes an adjustment stop clamp block 31251 and an adjustment lock handle 31252; the adjusting stop clamping block 31251 is fixed on the positioning frame 311, and the adjusting stop clamping block 31251 is connected with the tail end of the positioning adjusting shaft 31213; the adjusting and locking handle 31252 is connected with the adjusting and stopping clamping block 31251;

the adjustable retaining clip 31251 includes a retaining clip body 312511, a retaining clip resilient groove 312512, a retaining clip locking aperture 312513, and a retaining clip axle aperture 312514; the stop clamp block elastic groove 312512 is communicated with the stop clamp block axle hole 312514; the stop block locking aperture 312513 passes through the stop block resilient slot 312512 and is connected to the adjustment lock handle 31252; the stop clamping block shaft hole 312514 is matched with positioning regulation shaft 31213; the stop clamping block elastic groove 312512 is a rectangular sliding groove.

The positioning sucker assembly 313 comprises a sucker bottom plate 3131, a positioning sucker 3132 and a sucker cover plate 3133; the sucking disc base plate 3131 is connected with a vacuum system, one end of the sucking disc base plate 3131 is connected with the positioning adjusting guide column 3123, and the other end of the sucking disc base plate 3131 is connected with a positioning sucking disc 3132 and a sucking disc cover plate 3133 respectively; a plurality of positioning suction cups 3132 are in contact with the battery cells.

Cutting drive module 4121 includes cutting drive motor 41211, cutting drive screw guide rail 41212 and cutting drive connection plate 41213; both cutting drive motor 41211 and cutting drive screw guide rail 41212 are fixed on the table; the output end of the cutting driving motor 41211 is connected with the cutting driving screw guide rail 41212; a cutting drive connecting plate 41213 is fixed on the cutting drive screw guide rail 41212, and the cutting drive connecting plate 41213 is connected with a cutting pushing module 4122 and a cutting module 4124;

as shown in fig. 7, cutting push module 4122 includes a first cutting push member 41221 and a second cutting push member 41222; a first cutting pushing member 41221 is fixed on the cutting driving connecting plate 41213; a second cutting pushing member 41222 is fixed to the first cutting pushing member 41221, the second cutting pushing member 41222 is in contact with the protective tape, and the second cutting pushing member 41222 is engaged with the tape blocking head 4123;

first cutting push element 41221 includes a first push cylinder, a first cylinder connecting plate 412211, and a first cylinder rail slide 412212; the first cylinder attachment plate 412211 is fixed to the first cylinder rail block 412212 and the first cylinder attachment plate 412211 is connected to the first push cylinder;

second cut pushing element 41222 comprises a second pushing cylinder, second pushing head 412221 and second cylinder rail slide 412222; the extending end of the second pushing cylinder is connected with a second pushing head 412221 fixed on a second cylinder guide rail sliding block 412222; second pusher head 412221 is in contact with the protective tape and second pusher head 412221 is engaged with tape stop head 4123;

second cut pushing element 41222 further includes a stitching seat 412223, a stitching screw 412224, a stitching rail slide 412225, and a stitching head 412226; the pressing seat 412223 and the guide rail in the pressing guide rail sliding block 412225 are fixed on the first cylinder connecting plate 412211; the stitching screw 412224 passes through the stitching seat 412223, and the stitching screw 412224 is connected with the stitching head 412226; the pressing head 412226 is fixed on the slider in the pressing guide slider 412225, the lower end face of the extending end of the pressing head 412226 contacts with the upper end face of the protective tape, and the height of the lower end face of the extending end of the pressing head 412226 is the same as that of the upper end face of the protective tape output by the tape feeding assembly 411.

The cutting module 4124 includes a cutting cylinder 41241 and a cutting blade 41242; the cutting cylinder 41241 is fixed on the cutting driving connecting plate 41213; the cutting blade 41242 is connected with the extending end of the cutting cylinder 41241, and the cutting blade 41242 is contacted with the protective adhesive tape; the guillotine blade 41242 is not in contact with the tape stopper 4123.

As shown in fig. 9, the rubberizing rotary suction block assembly 424 comprises a rubberizing cylinder, a rubberizing guide rail slider 4241, a rubberizing push plate 4242 and a rubberizing vacuum plate 4243; the rubberizing cylinder is fixed on the rubberizing rotary bottom plate 423, and the extending end of the rubberizing cylinder is connected with the rubberizing push plate 4242; the rubberizing vacuum plates 4243 are all fixed on the rubberizing push plate 4242, the rubberizing vacuum plates 4243 are all in contact with the protective adhesive tape, and the rubberizing vacuum plates 4243 are respectively connected with the adhesive tape cutting assembly 412 and the battery cell movable positioning mechanism 31;

as shown in fig. 10, the rubberized vacuum panels 4243 comprise a vacuum panel body 42431 and vacuum panel suction holes 42432; the plurality of vacuum panel suction holes 42432 are cylindrical and the plurality of vacuum panel suction holes 42432 are rectangularly distributed; the total width of the vacuum plate suction holes 42432 is smaller than the width of the protective tape, and the total length of the vacuum plate suction holes 42432 is smaller than the length of the protective tape cut at one time.

The rubberizing rotary bottom plate 423 comprises a rubberizing bottom plate main body 4231, a rubberizing bottom plate shaft hole 4232 and a rubberizing cylinder fixing block 4233; the shaft hole 4232 of the rubberizing bottom plate is matched with the extending end of the rubberizing rotary cylinder 422; the plurality of rubberizing cylinder fixed blocks 4233 are staggered up and down, and the plurality of rubberizing cylinder fixed blocks 4233 are respectively connected with the plurality of rubberizing cylinders.

Claims

1. A battery core positioning device of a battery core automatic side glue pasting device is characterized in that the battery core positioning device (3) comprises a battery core movable positioning mechanism (31) and a battery core fixed positioning mechanism (32); the battery cell movable positioning mechanism (31) and the battery cell fixed positioning mechanism (32) are both fixed on the workbench; the battery core movable positioning mechanism (31) is respectively connected with the battery core side adhesive tape sticking devices (4); the battery cell fixing and positioning mechanism (32) is respectively connected with the plurality of battery cell glue rolling devices (5); the battery core movable positioning mechanism (31) and the battery core fixed positioning mechanism (32) are both contacted with the battery core; the battery cell movable positioning mechanism (31) is used for positioning the battery cell and adjusting the height of the battery cell to ensure that the battery cell is accurately aligned with the plurality of battery cell side adhesive sticking devices (4); the battery cell fixing and positioning mechanism (32) is used for fixing and positioning the battery cell.

2. The battery cell positioning device of the battery cell automatic side adhesive tape pasting equipment of claim 1, wherein the cell movable positioning mechanism (31) comprises a positioning rack (311), a positioning gear adjusting assembly (312) and a positioning sucker assembly (313); the positioning frame (311) is fixed on the workbench; the positioning gear adjusting component (312) is fixed on the positioning rack (311), and the output end of the positioning gear adjusting component (312) is connected with one end of the positioning sucker component (313); the other end of the positioning sucker component (313) is contacted with the battery cell;

the positioning gear adjusting assembly (312) comprises a positioning rotating shaft module (3121), a positioning adjusting gear (3122), a positioning adjusting guide pillar (3123), a positioning adjusting guide sleeve (3124) and a positioning adjusting stop assembly (3125); the positioning rotating shaft module (3121) is fixed on the positioning rack (311); a plurality of positioning adjusting gears (3122) are provided, and the plurality of positioning adjusting gears (3122) are all fixed on the positioning rotating shaft module (3121); a plurality of positioning and adjusting guide columns (3123) are provided, the head and tail ends of the plurality of positioning and adjusting guide columns (3123) are respectively embedded in the plurality of positioning and adjusting guide sleeves (3124), and the plurality of positioning and adjusting guide columns (3123) are connected with the positioning sucker component (313); the middle sections of the positioning adjusting guide columns (3123) are all provided with gear teeth, and the positioning adjusting guide columns (3123) are respectively meshed with the positioning adjusting gear (3122); the positioning adjusting guide sleeve (3124) and the positioning adjusting stop assembly (3125) are both fixed on the positioning frame (311); the positioning adjusting stop assembly (3125) is connected with the positioning rotating shaft module (3121); the positioning rotating shaft module (3121) is used for driving the positioning adjusting gear (3122) to rotate; the positioning adjusting stop assembly (3125) locks or unlocks the fixed positioning rotating shaft module (3121) to control the rotating state thereof.

3. The battery cell positioning device of the battery cell automatic side glue equipment of claim 2, wherein the positioning frame (311) comprises a positioning frame body (3111) and a positioning frame opening (3112); the positioning frame opening (3112) is matched with the gear on the positioning adjusting guide column (3123), and the length of the positioning frame opening (3112) is greater than that of the gear on the positioning adjusting guide column (3123);

the gear teeth on the positioning and adjusting guide column (3123) do not contact with the positioning and adjusting guide sleeve (3124) when moving up and down;

the positioning rotating shaft module (3121) comprises a positioning adjusting bearing seat (31211), a positioning adjusting bearing, a positioning adjusting shaft (31213) and a positioning adjusting handle (31214); a plurality of positioning adjusting bearing seats (31211) are all fixed on the positioning frame (311); the positioning adjusting bearings are respectively embedded in corresponding hole positions in the positioning adjusting bearing seat (31211); a positioning adjustment shaft (31213) passes through the plurality of positioning adjustment bearings; the positioning adjusting handle (31214) is fixed at the head end of the positioning adjusting shaft (31213).

4. The automatic battery cell positioning device for the battery cell side adhesive equipment of claim 2, wherein the positioning adjustment stop assembly (3125) comprises an adjustment stop clamping block (31251) and an adjustment locking handle (31252); the adjusting stop clamping block (31251) is fixed on the positioning frame (311), and the adjusting stop clamping block (31251) is connected with the tail end of the positioning adjusting shaft (31213); the adjusting locking handle (31252) is connected with the adjusting stop clamping block (31251);

the adjustable stop clamp block (31251) comprises a stop clamp block body (312511), a stop clamp block elastic groove (312512), a stop clamp block locking hole (312513) and a stop clamp block shaft hole (312514); the stop clamping block elastic groove (312512) is communicated with stop clamping block shaft hole (312514); the stop block locking hole (312513) passes through the stop block elastic groove (312512) and is connected with the adjusting locking handle (31252); the stop clamping block shaft hole (312514) is matched with positioning regulation shaft (31213); the stop clamping block elastic groove (312512) is a rectangular sliding groove.

5. The cell positioning device of the battery cell automatic side glue equipment of claim 2, wherein the positioning sucker assembly (313) comprises a sucker bottom plate (3131), a positioning sucker (3132) and a sucker cover plate (3133); the sucker bottom plate (3131) is connected with a vacuum system, one end of the sucker bottom plate (3131) is connected with the positioning adjusting guide post (3123), and the other end of the sucker bottom plate (3131) is respectively connected with the positioning sucker (3132) and the sucker cover plate (3133); a plurality of positioning suction cups (3132) are in contact with the battery cells.