CN221304713U - Welding strip composite part preparation device - Google Patents

Abstract

The utility model provides a welding strip composite part preparation device which comprises a welding strip material roll, a first pressing and holding mechanism, a cutting mechanism, a composite part transferring mechanism, a strip pulling hand and a tape conveying mechanism, wherein the welding strip material roll, the first pressing and holding mechanism, the cutting mechanism, the composite part transferring mechanism, the strip pulling hand and the tape conveying mechanism are sequentially arranged on a traction path of a welding strip at intervals along the traction direction of the welding strip, and the cutting mechanism is used for cutting a welding strip group led out by the strip pulling hand so as to form a welding strip section with a target length; the first pressing and holding mechanism is used for positioning the free end of the welding strip group wound on the welding strip material roll after the cutting mechanism finishes cutting, and releasing the positioning of the free end when the welding strip group is pulled by the handle; the composite part transfer mechanism is used for placing the welding strip section; the adhesive tape conveying mechanism is used for transferring the adhesive tape group to the composite part transferring mechanism and pre-bonding the adhesive tape group on the adhesive tape conveying mechanism and the welding tape section into a whole. The utility model realizes the automatic and efficient preparation of the welding strip composite part, and the prepared composite part can be directly adhered to the corresponding battery piece to realize the adhesion of the welding strip group, and has convenient use and convenient operation.

Description

Welding strip composite part preparation device

Technical Field

The utility model relates to the technical field of battery piece string making, in particular to a welding strip composite part preparation device.

Background

In the process of preparing the battery piece into the battery string, the welding strip is often welded on the surface of the battery piece in a welding mode to realize the interconnection of the battery piece and the battery piece, but the welding technology has the problems of high power and high temperature of the whole machine of the equipment, difficult control of the welding operation accuracy and the like.

Disclosure of utility model

The solder strip composite preparation device designed by the utility model can at least partially solve the problems.

The utility model aims to provide a welding strip composite part preparation device which comprises a welding strip material roll, a first pressing and holding mechanism, a cutting mechanism, a composite part transferring mechanism, a pull strip hand and an adhesive tape carrying mechanism, wherein the welding strip material roll, the first pressing and holding mechanism, the cutting mechanism, the composite part transferring mechanism, the pull strip hand and the adhesive tape carrying mechanism are sequentially arranged on a traction path of a welding strip at intervals along the traction direction of the welding strip, and the pull strip hand is used for a welding strip group drawn from the welding strip material roll; the cutting mechanism is used for cutting the welding strip group drawn out by the handle to form a welding strip section with a target length; the first pressing and holding mechanism is used for positioning the free end of the welding strip group wound on the welding strip material roll after the cutting mechanism finishes cutting, and releasing the positioning of the free end when the welding strip group is pulled by the handle; the composite part transfer mechanism is used for placing the welding strip section; the adhesive tape carrying mechanism is used for transferring the adhesive tape group to the composite part transferring mechanism and pre-bonding the adhesive tape group on the adhesive tape carrying mechanism and the welding tape section into a whole.

In some embodiments, the composite transfer mechanism includes a composite carrier having a plurality of solder slots configured on a top surface thereof for limiting each solder strip.

In some embodiments, the groove bottom of each welding groove is provided with an adsorption hole; and/or the two ends of each welding groove are provided with chamfers.

In some embodiments, the composite carrier has two sets that are capable of alternately switching between a strap set to-be-picked station and a strap set-fed station with respect to each other.

In some embodiments, the composite transfer mechanism further includes a first supporting seat, two groups of composite carrying platforms are respectively located at front and rear sides of the first supporting seat, and the two composite carrying platforms can be alternately located at the same station to be fetched by the welding belt group.

In some embodiments, the composite transfer mechanism further comprises a traversing drive assembly and/or a lifting drive assembly coupled to the first support base.

In some embodiments, the welding strip composite preparation device further comprises a second pressing mechanism, the second pressing mechanism is located between the cutting mechanism and the first pressing mechanism, and the second pressing mechanism and the cutting mechanism are arranged on the same sliding platform together.

In some embodiments, the cutting mechanism further comprises a welding strip threading die which is matched with the cutting knife provided with the cutting mechanism, the welding strip threading die comprises a base die, a plurality of welding strip guide grooves are formed in the base die, and the converging side of the welding strip guide grooves corresponds to the notch side of the cutting knife.

In some embodiments, the adhesive tape handling mechanism comprises a first bracket mounted on the linear module, a sucker is connected to the first bracket, and the sucker can be driven to lift.

In some embodiments, the pull belt is disposed on a second support, and the first support and the second support are both laterally connected to the second support base and share the same lateral sliding rail.

The utility model relates to a welding strip composite part preparation device which comprises:

The welding strip composite part preparation device is characterized in that the welding strip groups wound on the welding strip material roll are pulled out through the handle and cut by the cutting mechanism to form welding strip sections with target lengths, the welding strip sections can be placed on the composite part transferring mechanism, and meanwhile, the adhesive tape sections transferred by the adhesive tape transferring mechanism and the welding strip sections form pre-bonding, so that automatic and efficient preparation of the welding strip composite part is realized, the prepared composite part can be directly bonded on corresponding battery pieces to realize bonding of the welding strip groups, and the welding strip preparation device is convenient to use and convenient to operate.

Drawings

Fig. 1 is a schematic perspective view of a solder strip composite preparation apparatus according to the present utility model.

Fig. 2 is a schematic perspective view of the apparatus for manufacturing a solder strip composite in accordance with the present utility model at another view angle.

Fig. 3 is a top view of the solder strip composite preparation apparatus of fig. 2.

Fig. 4 is a cross-sectional view of A-A in fig. 3.

Fig. 5 is a schematic perspective view of the composite carrier in fig. 1.

Fig. 6 is a schematic perspective view of the solder strip threading die in fig. 1.

In the figure:

100. welding a strip material roll; 200. a first pressing mechanism; 300. a cutting mechanism; 310. welding strip threading die; 311. a base mold; 312. a solder strip guide groove; 400. a composite part transfer mechanism; 410. a composite carrier; 411. a welding groove; 412. adsorption holes; 420. a first support base; 500. a handle; 510. a second bracket; 600. an adhesive tape carrying mechanism; 610. a first bracket; 611. a lifting driving part; 620. a suction cup; 630. a second support base; 640. a traversing slide rail; 700. a second pressing mechanism; 800. a sliding platform; 901. and a main frame.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. In the drawings, the thickness of regions and layers are exaggerated for clarity. The same reference numerals in the drawings denote the same or similar structures, and thus detailed descriptions thereof will be omitted.

The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of embodiments of the utility model. One skilled in the relevant art will recognize, however, that the inventive aspects may be practiced without one or more of the specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the utility model.

The following examples describe embodiments of the solder ribbon composite manufacturing apparatus of the present utility model, which are only a few examples of the present utility model, but the scope of the present utility model is not limited thereto. All other embodiments, which can be made by those skilled in the art without the inventive effort, are intended to be encompassed within the scope of the present utility model.

Referring to fig. 1 to 6 in combination, according to an embodiment of the present utility model, there is provided a solder strip composite preparation apparatus, including a solder strip roll 100, a first pressing mechanism 200, a cutting mechanism 300, a composite transfer mechanism 400, a tape pulling handle 500, and a tape handling mechanism 600, wherein the solder strip roll 100, the first pressing mechanism 200, the cutting mechanism 300, the composite transfer mechanism 400, the tape pulling handle 500, and the tape handling mechanism 600 are sequentially arranged on a traction path of a solder strip at intervals along a traction direction of the solder strip, and the tape pulling handle 500 is used for a solder strip group pulled out from the solder strip roll 100; the cutting mechanism 300 is used for cutting the welding strip set drawn by the handle 500 to form a welding strip segment with a target length; the first pressing mechanism 200 is configured to position a free end of a welding band set wound on the welding band roll 100 after the cutting mechanism 300 finishes cutting, and release the positioning of the free end when the welding band set is pulled by the band pulling hand 500; the composite transfer mechanism 400 is used for placing the welding strip section; the tape handling mechanism 600 is used for transferring the tape set to the composite transferring mechanism 400 and pre-bonding the tape set thereon and the solder strip section into a whole. It will be appreciated that the aforementioned solder strip reel 100 is a placement component of a solder strip reel that is capable of feeding a solder strip set; the cutting mechanism 300 is provided with a corresponding cutting knife and the like, so that the welding strip group pulled from the welding strip coil 100 can be cut to form a welding strip section with a target length, and the first pressing mechanism 200 can ensure that the position of the welding strip group is reliable and stable when the cutting mechanism 300 cuts, thereby facilitating smooth cutting; the tape pulling handle 500 can linearly translate back and forth along the length direction of the tape assembly, so as to pull the tape assembly out of the target length, and the composite transferring mechanism 400 is used for placing the cut tape section with the target length so as to facilitate the tape assembly transferred by the tape handling mechanism 600 to be attached to the tape section to form a tape composite. It should be noted that, the other related components can all adopt mechanisms existing in the industry to realize corresponding functions, and the preparation of the welding strip composite part can be realized through the functional coordination of the technical scheme.

According to the welding strip composite part preparation device in the technical scheme, the welding strip groups wound on the welding strip material roll 100 are pulled out through the belt pulling hand 500 and cut by the cutting mechanism 300 to form welding strip sections with target lengths, the welding strip sections can be placed on the composite part transferring mechanism 400, and meanwhile, the adhesive tape sections transferred by the adhesive tape transferring mechanism 600 and the welding strip sections form pre-bonding, so that automatic and efficient preparation of the welding strip composite part is realized, the prepared composite part can be directly bonded on corresponding battery pieces, and bonding of the welding strip groups can be realized, and the welding strip composite part preparation device is convenient to use and convenient to operate.

In some embodiments, the composite transferring mechanism 400 includes a composite carrier 410, and a plurality of strap slots 411 for limiting each strap are configured on the top surface of the composite carrier 410, and it can be understood that each strap slot 411 corresponds to each strap in the strap set one by one, so as to achieve accurate guiding and positioning of each strap.

In a preferred embodiment, the bottom of each welding groove 411 is provided with a suction hole 412, and the suction holes 412 can reliably position the welding belt in the welding groove 411 to prevent the welding belt from being separated; further, chamfer angles are provided at both ends of each of the solder strip grooves 411 for guiding the solder strip so that the solder strip can accurately fall into the solder strip groove 411 below, and after the solder strip section is placed, the adhesive strip section conveyed by the adhesive strip conveying mechanism 600 is pressed and covered to prepare the required solder strip composite.

Referring specifically to fig. 1, in a preferred embodiment, the composite carrier 410 has two groups, and the two groups of composite carriers 410 can be alternately switched between the station to be extracted and the station to be fed by the welding strip group, and by alternately switching the two groups of composite carriers 410, the prepared beats can be lifted to be supplied to the back-end pipeline, which is beneficial to improving the processing efficiency. The composite transferring mechanism 400 further includes a first supporting seat 420, two groups of composite carrying platforms 410 are respectively located at front and rear sides of the first supporting seat 420, the two groups of composite carrying platforms 410 can be circularly lifted in an o shape, and the two groups of composite carrying platforms 410 are respectively arranged at the front and rear sides of the first supporting seat 420 to prevent physical interference and installation interference in installation, which may occur when the two are alternately switched.

In some embodiments, the composite transfer mechanism 400 further includes a traverse drive assembly and/or a lift drive assembly coupled to the first support 420 to implement the O-ring lift motion switching station of the aforementioned two sets of composite carriers 410. It should be noted that, the lifting driving assembly can drive the composite carrier 410 to lift, so that each adhesive tape placed on the composite carrier 410 in advance can be attached from the bottom surface of the solder tape section by controlling the lifting driving assembly to lift.

In another preferred embodiment, the apparatus for preparing a solder strip composite further includes a second pressing mechanism 700, the second pressing mechanism 700 is located between the cutting mechanism 300 and the first pressing mechanism 200, and the second pressing mechanism 700 and the cutting mechanism 300 are disposed together on the same sliding platform 800. In this technical solution, by setting the second pressing mechanism 700 adjacent to the cutting mechanism 300, the position change of the welding band set can be avoided when the cutting mechanism 300 cuts the welding band set, so as to ensure good cutting, and the second pressing mechanism 700 may be identical to the first pressing mechanism 200 in specific structure, or may be different from the first pressing mechanism, or may be a pressing mechanism commonly used in the prior art. At this time, it should be noted that, in a specific application process, when the strap set is cut and then the strap handle 500 is required to pull the strap set with the target length outward again, the first pressing mechanism 200 is controlled to reliably press the strap set to achieve positioning of the strap set, meanwhile, the second pressing mechanism 700 releases the pressing of the strap set at this time, and along with the cutting mechanism 300, it follows the sliding platform 800 towards the strap coil 100 side, that is, the first pressing mechanism 200 side approaches, and leaks the clamping end of the strap set, and the strap handle moves towards the cutting mechanism 300 side and clamps the clamping end and moves the strap set reversely to the target length.

The foregoing cutting mechanism 300 further includes a welding strip threading die 310 that is disposed in a pair with the cutting knife thereof, as shown in fig. 6, where the welding strip threading die 310 includes a base die 311, a plurality of welding strip guiding slots 312 are disposed on the base die 311 for ensuring an accurate threading direction of the welding strip, a converging side of the welding strip guiding slots 312 corresponds to a cutting side of the cutting knife, and an edge side of the base die 311 aligns with a cutting edge of the cutting knife, and is used as a lower cutting die to implement cutting action of the welding strip.

The tape handling mechanism 600 is disposed corresponding to a tape set preparing mechanism (not shown), and is used for handling the prepared tape set onto the composite carrier 410, so as to make the pre-bonding action of the tape and the solder tape; specifically, it includes the first support 610 of installing on the linear movement module, is equipped with corresponding actuating mechanism on the first support 610, and actuating mechanism's below is equipped with sucking disc 620, and sucking disc 620 is used for adsorbing the sticky tape, and actuating mechanism (such as lift drive part 611, concretely can be the electric putter subassembly) is used for driving the sucking disc and moves in vertical direction to place the sticky tape that is adsorbed on compound carrier 410, with attaching the welding set of bands. It should be noted that, the above-mentioned adhesive tape handling mechanism 600 may be used to handle an upper adhesive tape or a lower adhesive tape, where the upper adhesive tape refers to an adhesive tape with an adhesive surface facing downward, and the lower adhesive tape refers to an adhesive tape with an adhesive surface facing upward, and when the upper adhesive tape is absorbed, it is noted that the contact surface of the composite carrier 410 should be non-adhesive, and when the lower adhesive tape is absorbed, the contact portion of the suction cup and the adhesive surface of the adhesive tape is non-adhesive.

Referring to fig. 3, in some embodiments, the pull belt hand 500 is disposed on the second support 510, the first support 610 and the second support 510 are both laterally connected to the second support base 630, and the two supports share the same lateral sliding rail 640, so that the structural design of the device can be simplified, and the space occupied by the structure can be reduced.

When the welding strip composite part is specifically applied, the welding strip composite part can be prepared by adopting the following steps on the basis of the composite part preparation device:

S1, moving a first composite carrying platform 410 to a welding strip group material-taking station, wherein a welding strip group is pulled out by a handle 500 from a welding strip coil 100 through a first pressing mechanism 200, a second pressing mechanism 700 and a cutting mechanism 300 in sequence, and at the moment, the corresponding second composite carrying platform 410 is positioned at the welding strip group material-feeding station;

S2, after the welding strip set is pulled out by a target length, the cutting mechanism 300 cuts the welding strip set, the cut welding strip segment is placed on the first composite part carrying platform 410 by the handle 500, and the first composite part carrying platform 410 is positioned by adsorption on the welding strip segment placed on the handle;

S3, resetting the handle 500 to a side close to the cutting mechanism 300, placing the adhesive tape group on the composite carrying platform 410 of the station to be taken, and forming a welding tape composite by the welding tape section and the adhesive tape group, wherein when the handle 500 is reset, the adhesive tape carrying mechanism 600 is controlled to synchronously move towards a side close to the handle 500;

S4, moving the first composite carrying platform 410 out to the composite feeding position, and synchronously moving the second composite carrying platform 410 to the welding set material taking station.

In this technical solution, the tape handling mechanism 600 moves along with the tape pulling handle 500, so that the tape pulling handle 500 does not need to additionally perform avoiding action when the tape handling mechanism is used for handling the tape, which is beneficial to saving the action beats of the equipment; the composite carrier 410 is used for continuously supplying composite to the feeding position in a circulating manner, and the other composite carrier 410 is used for taking materials during feeding, so that the waiting time of the equipment can be further shortened, and the productivity of the equipment can be improved.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The welding strip composite part preparation device is characterized by comprising a welding strip material roll (100), a first pressing and holding mechanism (200), a cutting mechanism (300), a composite part transferring mechanism (400), a strip pulling handle (500) and an adhesive tape conveying mechanism (600), wherein the welding strip material roll (100), the first pressing and holding mechanism (200), the cutting mechanism (300), the composite part transferring mechanism (400), the strip pulling handle (500) and the adhesive tape conveying mechanism (600) are sequentially arranged on a traction path of a welding strip at intervals along the traction direction of the welding strip, and the strip pulling handle (500) is used for pulling out a welding strip group from the welding strip material roll (100); the cutting mechanism (300) is used for cutting the welding strip group drawn by the handle (500) to form a welding strip section with a target length; the first pressing mechanism (200) is used for positioning the free end of the welding strip group wound on the welding strip material roll (100) after the cutting mechanism (300) finishes cutting, and releasing the positioning of the free end when the welding strip group is pulled by the handle (500); the composite part transfer mechanism (400) is used for placing the welding strip section; the adhesive tape conveying mechanism (600) is used for transferring the adhesive tape group to the composite part transferring mechanism (400) and pre-bonding the adhesive tape group on the adhesive tape conveying mechanism and the welding tape section into a whole.

2. The solder strip composite preparation device according to claim 1, wherein the composite transfer mechanism (400) comprises a composite carrier (410), and a plurality of solder strip grooves (411) for limiting each solder strip are formed on the top surface of the composite carrier (410).

3. The solder strip composite preparation device of claim 2, wherein a bottom of each of the solder strip grooves (411) has an adsorption hole (412); and/or both ends of each welding groove (411) are provided with chamfers.

4. The solder strip composite preparation device of claim 2, wherein the composite carrier (410) has two sets, the two sets of composite carriers (410) being capable of switching alternately with each other between a solder strip set to-be-picked-up station and a solder strip set feed station.

5. The apparatus for preparing a solder strip composite according to claim 4, wherein the composite transfer mechanism (400) further comprises a first supporting seat (420), two groups of composite carrying platforms (410) are respectively located at front and rear sides of the first supporting seat (420), and the two composite carrying platforms (410) can be alternately located at the same station for taking out solder strip groups.

6. The solder strip composite preparation device of claim 5, wherein the composite transfer mechanism (400) further comprises a traverse drive assembly and/or a lift drive assembly coupled to the first support base (420).

7. The solder strip composite preparation device of claim 1, further comprising a second press-holding mechanism (700), wherein the second press-holding mechanism (700) is located between the cutting mechanism (300) and the first press-holding mechanism (200), and wherein the second press-holding mechanism (700) and the cutting mechanism (300) are co-located on the same sliding platform (800).

8. The welding strip composite preparation device according to claim 1, wherein the cutting mechanism (300) further comprises a welding strip threading die (310) which is arranged in a matched mode with a cutting knife provided with the cutting mechanism, the welding strip threading die (310) comprises a base die (311), a plurality of welding strip guide grooves (312) are formed in the base die (311), and a converging side of the welding strip guide grooves (312) corresponds to a cutting side of the cutting knife.

9. The apparatus according to claim 1, wherein the tape handling mechanism (600) includes a first bracket (610) mounted on the linear module, a suction cup (620) is connected to the first bracket (610), and the suction cup (620) can be driven to lift.

10. The apparatus of claim 9, wherein the handle (500) resides on a second support (510), the first support (610) and the second support (510) are both laterally connectable to a second support (630), and both share the same lateral sliding rail (640).