CN213976389U - Device for pasting insulating adhesive on end face of battery cell - Google Patents

Abstract

The utility model relates to an electricity core terminal surface pastes insulated rubber device, include: the feeding device and the blanking device are respectively arranged at two ends of the feeding line, the rubberizing device is arranged on one side of the feeding line and located between the feeding device and the blanking device, the rotating device corresponds to the rubberizing device and is arranged below the feeding line, the rubberizing device is used for automatically pasting and cutting insulating glue, and the rotating device is used for driving the electric core to rotate after being contacted with an adhesive surface of the insulating glue. The utility model discloses be provided with the transportation line that is used for transporting electric core, correspond in transportation line both sides and be provided with rubberizing device and rotary device, the rubberizing device is used for carrying out the automation to the insulating cement and pastes and cut, and rotary device is used for driving electric core and insulating cement wainscot contact and rotation, realizes carrying out the self-pasting of insulating cement to the terminal surface of electric core through rubberizing device and rotary device cooperation, effectively improves the production efficiency that electric core wainscot insulating cement.

Description

Device for pasting insulating adhesive on end face of battery cell

Technical Field

The utility model relates to a battery production technical field, concretely relates to electric core terminal surface pastes insulated glue device.

Background

Before the battery module is assembled by the battery core, the end face of the battery core is required to be pasted with insulating glue, so that the insulation between the battery core shell and the module shell is realized. Among the prior art, the mode that generally adopts artifical rubberizing carries out the insulating cement subsides to electric core terminal surface, and is concrete, grips single electric core through the manual work, then utilizes the insulating cement of surely gluing the tool cutting corresponding length, pastes the insulating cement rotation to electric core terminal surface on after that. The process of sticking the insulating glue wastes time and labor, has low production efficiency and can not adapt to mass production.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that above-mentioned electricity core pastes the insulating cement inefficiency, the utility model provides an electricity core terminal surface subsides insulating cement device that production efficiency is high.

The utility model discloses an electric core terminal surface pastes insulated rubber device, include: the feeding device and the blanking device are respectively arranged at two ends of the feeding line, the rubberizing device is arranged on one side of the feeding line and located between the feeding device and the blanking device, the rotating device corresponds to the rubberizing device and is arranged below the feeding line, the rubberizing device is used for automatically pasting and cutting insulating glue, and the rotating device is used for driving the electric core to rotate after being contacted with an adhesive surface of the insulating glue.

According to the utility model discloses an embodiment is provided with the rotatory electric core locating piece along with driving belt on the transportation line, and electric core locating piece end is provided with the V type fixed slot that is used for fixed electric core.

According to the utility model discloses an embodiment, rubberizing device includes: rubberizing support, moulding mechanism, doubling mechanism and surely gluey mechanism, moulding mechanism, surely gluey mechanism and doubling mechanism set gradually on the rubberizing support along the supply line direction of transmission to moulding mechanism, slitting mechanism and doubling mechanism are located and are the supply line top, and doubling mechanism is used for with insulating adhesive tape centre gripping to the doubling mechanism below, and moulding mechanism is used for pushing down insulating adhesive tape and pastes to electric core terminal surface, and surely gluey mechanism is used for cutting insulating adhesive tape.

According to the utility model discloses an embodiment, doubling mechanism includes: the transfer cylinder drives the transfer plate to move towards the direction of the glue pressing mechanism.

According to the utility model discloses an embodiment, moulding mechanism includes: the rubber pressing cylinder and the rubber pressing roller are rotatably arranged at the bottom end of the rubber pressing cylinder, and the rubber pressing cylinder drives the rubber pressing roller to vertically lift.

According to the utility model discloses an embodiment, surely glue mechanism and include: the rubber cutting cylinder and the cutter arranged at the bottom end of the rubber cutting cylinder drive the cutter to vertically lift.

According to an embodiment of the present invention, the cutter is a saw-toothed shape.

According to the utility model discloses an embodiment, rubberizing device still includes: and the adhesive tape winding roller assembly is used for winding the insulating adhesive tape.

According to the utility model discloses an embodiment, rotary device includes: the device comprises a rotating mechanism arranged below the conveying line and a jacking cylinder arranged below the rotating mechanism, wherein the jacking cylinder drives the rotating mechanism to jack upwards and contact the battery cell, and the rotating mechanism is used for driving the battery cell to rotate.

According to the utility model discloses an embodiment, rotary mechanism includes: the rotary frame, rotatory drive roller that sets up in the revolving frame and the rotating electrical machines of drive rotatory drive roller rotation.

The utility model discloses be provided with the transportation line that is used for transporting electric core, correspond in transportation line both sides and be provided with rubberizing device and rotary device, the rubberizing device is used for carrying out the automation to the insulating cement and pastes and cut, and rotary device is used for driving electric core and insulating cement wainscot contact and rotation, realizes carrying out the self-pasting of insulating cement to the terminal surface of electric core through rubberizing device and rotary device cooperation, effectively improves the production efficiency that electric core pasted insulating cement, saves the labour and drops into, reduction enterprise manufacturing cost.

Drawings

Fig. 1 is one of the three-dimensional views of the device for sticking the insulating adhesive to the end surface of the middle cell of the present invention.

Fig. 2 is a second perspective view of the device for adhering an insulating adhesive to a terminal surface of a battery cell of the present invention.

Fig. 3 is a schematic structural view of the transportation line of the present invention.

Fig. 4 is a schematic structural view of the middle rubberizing device and the rotating device of the present invention.

Detailed Description

The following will describe the device for adhering insulating adhesive to the end surface of the electrical core in further detail with reference to the specific embodiments and the accompanying drawings.

Please refer to fig. 1 to 2.

The utility model provides an electricity core terminal surface pastes insulated adhesive device, mainly used carries out the insulated adhesive automatic sticking of terminal surface to electric core, and electricity core terminal surface pastes insulated adhesive device mainly includes: the device comprises a conveying line 1, a feeding device 2, a blanking device 3, a rubberizing device 4 and a rotating device 5. The feeding device 2 and the discharging device 3 are respectively arranged at two ends of the conveying line 1. Wherein, loading attachment 2 and unloader 3 are used for carrying out material loading and unloading to electric core respectively, rubberizing device 4 sets up in 1 one side of supply line and lies in between loading attachment 2 and the unloader 3, rotary device 5 corresponds and sets up in 1 below of supply line with rubberizing device 4, rubberizing device 4 is used for carrying out automatic pasting and cutting to the insulating cement, rotary device 5 is used for driving electric core rotatory after supply line 1 and insulating cement wainscot contact to the realization is pasted to electric core terminal surface on with the insulating cement is automatic.

Referring to fig. 3, a battery core positioning block 11 rotating along with a transmission belt is disposed on the transportation line 1, wherein a V-shaped fixing groove 111 for fixing the battery core is disposed at the end of the battery core positioning block 11, and when the battery core is transported on the transportation line 1, the battery core is fixed on the V-shaped fixing groove 111 of the battery core positioning block 11, so as to effectively improve the transportation effect of the battery core on the transportation line 1.

The feeding device 2 mainly comprises: the feeding device comprises a feeding support 21 arranged at one end of the transport line 1, a feeding moving module 22 arranged on the feeding support 21, a feeding lifting cylinder 23 arranged on the feeding moving module 22, and a feeding clamping air clamp 24 fixed at one end of the feeding lifting cylinder 23. 2 during operation of loading attachment, remove module 22 drive material loading lift cylinder 23 through the material loading and remove, then hold gas clamp 24 through material loading lift cylinder 23 drive material loading and go up and down, hold gas clamp 24 through the material loading again and press from both sides and get electric core, realize transporting to the supply line 1 with the electric core of predetermineeing the position on. Wherein because the electric core generally adopts vertical supplied materials transportation, in order to adapt to the supplied materials transportation direction of electric core, loading attachment 2 still includes the material loading revolving cylinder 25 that sets up between material loading lift cylinder 23 and centre gripping air clamp 24, can carry out the rotation of 90 degrees scopes through material loading revolving cylinder 25 drive centre gripping air clamp 24 to the realization is rotated the electric core of vertical supplied materials and is placed in transportation line 1.

Unloader 3 is the same and the theory of operation is the same with loading attachment 2 structure, and wherein unloader 3 mainly includes: the automatic blanking device comprises a blanking support 31 arranged at one end of the transportation line 1, which is far away from the feeding support 21, a blanking moving module 32 arranged on the blanking support 31, a blanking lifting cylinder 33 arranged on the blanking moving module 32, a blanking clamping air clamp 34 fixed at one end of the blanking lifting cylinder 33, and a blanking rotating cylinder 35 arranged between the blanking lifting cylinder 33 and the blanking clamping air clamp 34. The structure and the operation principle of the blanking device 3 are the same as those of the feeding device 2, and the operation principle of the blanking device 3 can be referred to the foregoing description, and the operation principle of the blanking device 3 is not described herein again.

Please refer to fig. 4.

Rubberizing device 4 mainly includes: a rubberizing bracket 41, a glue pressing mechanism 42, a glue cutting mechanism 43 and a glue clamping mechanism 44. The glue pressing mechanism 42, the glue cutting mechanism 43 and the glue clamping mechanism 44 are sequentially arranged on the gluing support 41 along the conveying direction of the conveying line, and the glue pressing mechanism 42, the glue cutting mechanism 43 and the glue clamping mechanism 44 are positioned above the conveying line 1. Doubling mechanism 44 is used for with insulating adhesive tape centre gripping to moulding mechanism 42 below, and moulding mechanism 42 is used for pushing down insulating adhesive tape and pastes to electric core terminal surface, and surely gluey mechanism 43 is used for cutting insulating adhesive tape, combines rotary device 5 to the rotatory drive of electric core, realizes pasting insulating adhesive tape to electric core terminal surface automatically on, and the rubberizing is effectual, and production efficiency is high.

Specifically, the adhesive tape clamping mechanism 44 mainly includes a transfer cylinder 441, a transfer plate 442 connected to the transfer cylinder 441, a clamp 443 disposed on the transfer cylinder 442, and a clamp cylinder 444 for driving the clamp 443 to open and close, wherein the clamp cylinder 444 drives the clamp 443 to open and close to clamp the insulating adhesive tape, and the transfer cylinder 441 drives the transfer plate 442 to move toward the adhesive tape pressing mechanism 42 to convey the insulating adhesive tape to the lower side of the adhesive tape pressing mechanism 42.

The glue pressing mechanism 42 mainly includes: moulding cylinder 421 and rotatory setting in moulding roller 422 of moulding cylinder 421 bottom, moulding cylinder 421 drive moulding roller 422 vertical lift, carry insulating glue to moulding roller 422 below when doubling mechanism 44, moulding cylinder 421 drive moulding roller 422 descends, realizes pressing the insulating glue area to electric core terminal surface on, cooperates rotary device 5 to the rotary drive of electric core, realizes that insulating tape automatic winding pastes to electric core terminal surface.

The glue cutting mechanism 43 mainly comprises: the rubber cutting cylinder 431 and the cutter 432 arranged at the bottom end of the rubber cutting cylinder 431 are arranged, the rubber cutting cylinder 431 drives the cutter 432 to vertically lift, the insulating tape is cut off by the cutter 432, the cutter 432 is of a saw-toothed structure, the acting force pressure of the cutter 432 relative to the insulating tape is effectively increased, and therefore the effectiveness of the rubber cutting mechanism 43 in the cutting process of the insulating tape is effectively guaranteed.

It is worth noting that rubberizing device 4 still includes and is used for winding the rubber-wound roller subassembly 45 who establishes insulating tape, and rubber-wound roller subassembly 45 comprises a plurality of rotatory rollers, winds insulating tape through a plurality of rotatory rollers and establishes, guarantees insulating tape material loading process's stability, makes insulating tape's material loading direction match doubling mechanism 44's the process of actuating simultaneously.

Rotary device 5 is including setting up in rotary mechanism 51 of transportation line 1 below and setting up in jacking cylinder 52 of rotary mechanism 51 below, jacking cylinder 52 drive rotary mechanism 51 upwards jacking and with electric core contact, rotary mechanism 51 is used for driving electric core rotatory, when electric core transports on transportation line 1 to the position that corresponds with rubberizing device 4, jacking cylinder 52 drive rotary mechanism 51 upwards jacking, rotary mechanism 51 contacts with electric core and drives electric core rotatory, cooperation rubberizing device 4 is to the self-adhesive of insulating tape, moulding and surely glue, the realization is to electric core self-adhesive insulating glue.

Specifically, the rotating mechanism 51 mainly includes a rotating frame 511, a rotating driving roller 512 rotatably disposed on the rotating frame 511, and a rotating motor 513 for driving the rotating driving roller 512 to rotate, the top end of the jacking cylinder 52 is connected with the rotating frame 511, when the battery cell is transported to a position corresponding to the adhesive tape sticking device 4 on the transportation line 1, the jacking cylinder 52 drives the rotating frame 511 to jack until the rotating driving roller 512 contacts with the battery cell, and meanwhile, the rotating motor 513 drives the rotating driving roller 512 to rotate to drive the battery cell to rotate.

In order to improve the battery core rubberizing effect, the battery core end face rubberizing device is provided with a positioning device 6 between the feeding device 2 and the rubberizing device 4, wherein the positioning device 6 is mainly used for clamping and positioning the battery core, so that the battery core can keep the consistency of the position in the transportation process on the transportation line. Specifically, the positioning device 6 includes two positioning mechanisms 61 symmetrically disposed on two sides of the transportation line 1, wherein each positioning mechanism 61 includes: the positioning cylinder 611 and the positioning plate 612 connected to the end of the positioning cylinder 611 are provided with a positioning column 6121 corresponding to the electric core on the positioning plate 612, when the electric core is transported to the position corresponding to the positioning device 6 on the transportation line 1, the two positioning mechanisms 61 operate simultaneously, the positioning plate 612 is driven to move towards the direction of the electric core through the positioning cylinder 611, the electric core is clamped by the positioning column 6121 from two side ends, so that the electric core is transported on a preset position, and the stability of the electric core rubberizing process is ensured.

The utility model discloses an operation principle as follows: the feeding moving module 22 drives the feeding lifting cylinder 23 to move, the feeding lifting cylinder 23 drives the feeding clamping gas clamp 24 to lift, the battery cell is clamped by the feeding clamping gas clamp 24, the battery cell at a preset position is transported to the transport line 1, when the battery cell is transported to the position corresponding to the positioning device 6 on the transport line 1, the two positioning mechanisms 61 of the positioning device 6 operate simultaneously, the positioning cylinder 611 drives the positioning plate 612 to move towards the battery cell direction, the positioning column 6121 is used for clamping the battery cell from two side ends to realize the positioning of the battery cell, then when the battery cell is transported to the position corresponding to the rubberizing device 4 and the rotating device 5 on the transport line 1, the clamping cylinder 444 drives the clamp 443 to open and close to realize the clamping of the insulating adhesive tape, the transferring cylinder 441 is matched with the moving plate 442 to move towards the rubberizing mechanism 42, and then the rubberizing cylinder 421 drives the rubberizing roller 422 to descend, the realization is pressed the insulating adhesive tape to electric core terminal surface on, then centre gripping cylinder 444 drive clip 443 opens, it resets the back to transfer cylinder 441 drive and move board 442, centre gripping cylinder 444 drive clip 443 is again to the insulating adhesive tape centre gripping, then it drives cutter 432 vertical lift to cut the rubber cylinder 431, utilize cutter 432 to realize cutting off to the insulating adhesive tape, jacking cylinder 52 drives swivel mount 511 jacking simultaneously and reaches rotatory drive roller 512 and electric core contact, rotating electrical machines 513 drives rotatory drive roller 512 rotatory, it is rotatory to drive electric core, the realization is pasted the insulating adhesive automatically to electric core terminal surface on, accomplish the electric core that the terminal surface pasted the insulating adhesive and continue to transport to the position that corresponds unloader 3 on the supply line 1, unloader 3 is through the same principle of actuating with last device 2 with electric core unloading to preset the position.

Rubberizing device 4 forms single group rubberizing processing unit with rotary device 5, can set up the rubberizing processing unit more than two sets of in this application, realizes that the same end of electric core or different end carry out the rubberizing processing, for example carry out the rubberizing processing of a lot of and different materials to the same end of electric core, for example carry out the rubberizing processing of the same material or different materials to electric core both ends, make the utility model discloses an electric core terminal surface pastes insulating cement device is suitable for different production demands.

To sum up, the utility model discloses set up the transportation line that is used for transporting electric core, correspond in transportation line both sides and be provided with rubberizing device and rotary device, the rubberizing device is used for carrying out automatic pasting and cutting to the insulating cement, and rotary device is used for driving electric core and insulating cement wainscot contact and rotation, realizes carrying out the automatic pasting of insulating cement to the terminal surface of electric core through rubberizing device and rotary device cooperation, effectively improves the production efficiency that electric core wainscot insulating cement, saves labour's input, reduces the manufacturing cost of enterprise.

In the description of the present invention, it is to be understood that the terms such as "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

While the invention has been described in conjunction with the specific embodiments set forth above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, all such alternatives, modifications, and variations are intended to be included within the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a battery core terminal surface pastes insulating cement device which characterized in that includes: the feeding device and the blanking device are respectively arranged at two ends of the feeding line, the rubberizing device is arranged on one side of the feeding line and located between the feeding device and the blanking device, the rotating device corresponds to the rubberizing device and is arranged below the feeding line, the rubberizing device is used for automatically pasting and cutting insulating glue, and the rotating device is used for driving an electric core to rotate after being contacted with a veneering surface of the insulating glue.

2. The device for pasting the insulating adhesive on the end face of the battery cell according to claim 1, wherein a battery cell positioning block rotating along with a transmission belt is arranged on the transportation line, and a V-shaped fixing groove for fixing the battery cell is arranged at the tail end of the battery cell positioning block.

3. The device for pasting the insulating adhesive on the end face of the battery core according to claim 1, wherein the device for pasting the insulating adhesive comprises: rubberizing support, moulding mechanism, surely gluey mechanism and doubling mechanism follow the transportation line direction of delivery set gradually in on the rubberizing support, and moulding mechanism, surely gluey mechanism and doubling mechanism are located and are the transportation line top, doubling mechanism is used for with the insulating tape centre gripping extremely moulding mechanism below, moulding mechanism is used for pushing down insulating tape and pastes to electric core terminal surface, surely gluey mechanism is used for cutting insulating tape.

4. The device for applying the insulating adhesive to the end face of the battery cell of claim 3, wherein the adhesive clamping mechanism comprises: the rubber pressing mechanism comprises a transferring cylinder, a transferring plate connected with the transferring cylinder, a clamp arranged on the transferring cylinder and a clamping cylinder for driving the clamp to open and close, wherein the transferring cylinder drives the transferring plate to move towards the direction of the rubber pressing mechanism.

5. The device for pasting the insulating adhesive on the end face of the battery core according to claim 3, wherein the adhesive pressing mechanism comprises: the rubber pressing cylinder and the rubber pressing roller are rotatably arranged at the bottom end of the rubber pressing cylinder, and the rubber pressing cylinder drives the rubber pressing roller to vertically lift.

6. The device for pasting the insulating adhesive on the end face of the battery core according to claim 3, wherein the adhesive cutting mechanism comprises: the rubber cutting cylinder and the cutter are arranged at the bottom end of the rubber cutting cylinder, and the rubber cutting cylinder drives the cutter to vertically lift.

7. The device for pasting the insulating adhesive on the end face of the battery core according to claim 6, wherein the cutter is serrated.

8. The device for pasting the insulating adhesive on the end face of the battery core according to any one of claims 3 to 7, wherein the device for pasting the insulating adhesive further comprises: and the adhesive tape winding roller assembly is used for winding the insulating adhesive tape.

9. The device for applying the insulating adhesive to the end face of the battery cell of claim 1, wherein the rotating device comprises: the jacking cylinder drives the rotating mechanism to jack upwards and the battery core is contacted, and the rotating mechanism is used for driving the battery core to rotate.

10. The device for applying the insulating adhesive to the end face of the battery cell of claim 9, wherein the rotating mechanism comprises: the rotary driving device comprises a rotating frame, a rotary driving roller and a rotary motor, wherein the rotary driving roller is rotatably arranged on the rotating frame, and the rotary motor drives the rotary driving roller to rotate.

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