CN219800801U - Battery piece's burst conveyer and processing equipment - Google Patents

Abstract

The embodiment of the utility model discloses a battery piece slicing and transporting device and processing equipment, wherein the transporting device comprises a transporting mechanism, the transporting mechanism comprises a first transporting component and a second transporting component, the first transporting component comprises a first supporting piece and a first transporting piece, the first transporting piece is transported and arranged along a first direction, the second transporting component comprises a second supporting piece and a second transporting piece, and the whole or part of the second transporting piece is deviated from the first direction towards a direction far away from the first transporting piece; the first conveying part is arranged on the first supporting part in a transmission way, the material carrying part of the first conveying part is arranged on the first supporting part in a lamination way, the second conveying part is arranged on the second supporting part in a transmission way, and the material carrying part of the second conveying part is arranged on the second supporting part in a lamination way. The first support piece laminating supports first conveyer, the second support piece laminating supports second conveyer and whole or part of second conveyer deviate from first direction towards keeping away from first conveyer setting, can promote burst security and stability.

Description

Battery piece's burst conveyer and processing equipment

Technical Field

The utility model relates to the technical field of battery piece slicing transportation, in particular to a battery piece slicing transportation device and processing equipment.

Background

In the production of solar cells, larger solar cells are often cut into a plurality of smaller cells, the cutting means generally adopts laser cutting, the separation among the plurality of smaller cells after cutting is not obvious, the subsequent photographing and recognition difficulty is high, and whether the solar cells are cut or not is not easy to accurately recognize.

The related art discloses a unloading conveying mechanism, this unloading conveying mechanism utilizes the battery piece after the relative skew of a plurality of conveyer belts transportation cutting, along with the relative skew conveying of conveyer belt, make adjacent less battery piece separate thereupon gradually, so both accomplished the unloading, again separate the battery piece, the conveyer belt that adopts in this related art is the setting of in the air, the conveyer belt is equipped with the power wheelset that can play the supporting role only at both ends, the direction of delivery of conveyer belt utilizes the spacing interference of guide pillar in order to control the skew, and the scheme that the direction of delivery both sides of conveyer belt are in the air sets up the guide belt, in driving power wheelset rotation in-process, the production of vibration is unavoidable, the conveyer belt that the air sets up and guide belt are very easy consequently shake, make battery piece transportation stability relatively poor, even influence the butt joint of follow-up technology and get the piece.

The related art still discloses a manipulator for unloading, does benefit to the manipulator and snatchs less battery piece and separate, then transports to next station, because the battery piece is very weak and fragile, and the manipulator is comparatively hard when getting the piece, and the piece action of getting rid of in handling and the burst in-process easily causes the damage to the battery piece moreover.

Therefore, how to separate the cut battery pieces safely and stably is to be solved.

Disclosure of Invention

The embodiment of the utility model relates to a battery piece slicing and transporting device and processing equipment, which utilize a first supporting piece capable of stably supporting a first conveying piece and a second supporting piece capable of stably supporting a second conveying piece, and can realize safe and stable separation of cut battery pieces by matching with the relative deviation and transportation of the first conveying piece and the second conveying piece.

The embodiment of the utility model discloses a battery piece slicing and transporting device, which comprises a transporting mechanism, wherein the transporting mechanism comprises a first transporting component and a second transporting component, the first transporting component comprises a first supporting piece and a first transporting piece, the whole or part of the first transporting piece is transported and arranged along a first direction, the second transporting component comprises a second supporting piece and a second transporting piece, and the whole or part of the second transporting piece is arranged away from the first transporting piece and deviated from the first direction; the first conveying part is arranged on the first supporting part in a transmission mode, the material carrying part of the first conveying part is arranged on the first supporting part in a lamination mode, the second conveying part is arranged on the second supporting part in a transmission mode, and the material carrying part of the second conveying part is arranged on the second supporting part in a lamination mode.

Optionally, the loading surface of the first conveying member and the loading surface of the second conveying member are horizontally and flush.

Optionally, the first conveying member and the second conveying member are respectively conveying belts, the first supporting member and the second supporting member are respectively arranged in parallel and level with the surfaces of the corresponding material carrying parts, driving wheels which are arranged in a rotating manner are respectively arranged at two ends of the first supporting member and the second supporting member along the corresponding conveying direction, the rims of the driving wheels on the first supporting member are tangent to the surfaces of the first supporting member attached to the material carrying parts of the first conveying member, and the rims of the driving wheels on the second supporting member are tangent to the surfaces of the second supporting member attached to the material carrying parts of the second supporting member; the first support piece and the second support piece correspond to carry the material part and are equipped with the sand grip respectively along the both sides of direction of transfer, the sand grip protrusion in first support piece with the second support piece corresponds to carry the surface setting of material part, first conveyer enclose and locate on the drive wheel at the both ends of first support piece and set up in between the both sides sand grip of first support piece, second conveyer enclose and locate on the drive wheel at the both ends of second support piece and set up in between the both sides sand grip of second support piece.

Optionally, the transporting device further comprises a driving piece, the driving wheels on the first supporting piece and the second supporting piece are respectively divided into a driving wheel and a driven wheel, and the driving end of the driving piece is respectively in driving connection with the driving wheels on the first supporting piece and the second supporting piece; the driving wheel on the first supporting piece is equal to the driving wheel on the second supporting piece in wheel diameter, the driven wheel on the first supporting piece is equal to the driven wheel on the second supporting piece in wheel diameter, the driving wheel is larger than or equal to the driven wheel in wheel diameter, and the driven wheel is arranged at the feeding end corresponding to the first supporting piece and the second supporting piece.

Optionally, the transportation device further includes a coupling, the driving end of the driving element is in driving connection with the driving wheel on the first supporting element or the driving wheel on the second supporting element, and the driving wheel on the first supporting element and the driving wheel on the second supporting element are respectively connected with the coupling, so that the driving element drives the driving wheels on the first supporting element and the second supporting element to rotate synchronously.

Optionally, the first supporting piece is arranged along a first direction, and the first conveying piece is arranged on the first supporting piece in a transmission way along the first direction; the second supporting piece comprises a first supporting portion and a second supporting portion, the first supporting portion is arranged along a first direction, the second supporting portion is arranged away from the first supporting piece in a direction deviating from the first direction, and the second conveying piece is arranged on the first supporting portion along the first direction and is arranged on the second supporting portion along the arrangement direction of the second supporting portion.

Optionally, the transporting device further includes a supporting frame, the first supporting member is adjustably moved along a first direction and is disposed on the supporting frame, the first supporting portion is fixedly disposed on the supporting frame along the first direction, and the second supporting portion is adjustably moved away from the first supporting member and is offset from the first direction.

Optionally, the first support piece is provided with a bar hole along a first direction, the second support portion is sequentially provided with a circular hole and an arc hole which are coaxially arranged along a corresponding conveying direction, the circular hole is provided with at least one, the support frame corresponds to the first support piece and the second support portion is respectively provided with a threaded hole, and the bar hole is respectively penetrated by a screw, the circular hole is screwed with the arc hole in a corresponding threaded hole.

Optionally, the first conveying component and the second conveying component further comprise elastic pieces, the elastic pieces comprise connecting plates and guide wheels rotatably arranged on the connecting plates, the connecting plates of the elastic pieces of the first conveying component are arranged on the first supporting pieces, the connecting plates of the elastic pieces of the second conveying component are arranged on the second supporting pieces, the first conveying pieces are arranged on the driving wheels at two ends of the first supporting pieces and the guide wheels corresponding to the elastic pieces in a surrounding mode, and the second conveying pieces are arranged on the driving wheels at two ends of the second supporting pieces and the guide wheels corresponding to the elastic pieces in a surrounding mode; the guide wheels of the elastic members are adjustably movably arranged on the connecting plates along the second direction, and/or the connecting plates of the elastic members of the first conveying assembly are adjustably movably arranged on the first supporting members along the second direction, and the connecting plates of the elastic members of the second conveying assembly are adjustably movably arranged on the second supporting members along the second direction.

The embodiment of the utility model also discloses processing equipment of the battery piece, which comprises the conveying device.

The first conveying piece and the second conveying piece of the conveying mechanism are respectively used for conveying the sliced battery piece, the first conveying piece is supported by the first supporting piece in a laminating mode, and the second conveying piece is supported by the second supporting piece in a laminating mode, so that vibration of the first conveying piece and the second conveying piece in conveying operation can be prevented, and a stable supporting effect is provided; the first conveying member is conveyed along the first direction, and the whole or part of the second conveying member is deviated from the first direction and is far away from the first conveying member, so that the sliced battery pieces can be gradually separated along with the conveying of the first conveying member and the second conveying member. And then overcome the transmission stability relatively poor and the easy problem that causes the damage to the battery piece in the transportation process because of the transmission piece vibration in the conveying process, reached the effect that promotes the separated security and the stability of battery piece after cutting.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. It is evident that the figures in the following description are only some embodiments of the utility model, from which other figures can be obtained without inventive effort for a person skilled in the art. In the drawings:

FIG. 1 is a schematic view of a transport device according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of part A in FIG. 1;

FIG. 3 is a schematic top view of the transport apparatus of FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of part B in FIG. 3;

fig. 5 is a schematic structural view of a processing apparatus according to an embodiment of the present utility model.

10, a transportation device; 11. a conveying mechanism; 12. a first transfer assembly; 13. a second transfer assembly; 14. a first support; 15. a first transfer member; 16. a second support; 17. a second transfer member; 18. a driving wheel; 19. a convex strip; 20. a driving member; 21. a driving wheel; 22. driven wheel; 23. a coupling; 24. a first support portion; 25. a second supporting part; 26. a support frame; 27. a bar-shaped hole; 28. a circular hole; 29. an arc-shaped hole; 30. a threaded hole; 31. an elastic member; 32. a connecting plate; 33. a guide wheel; 34. processing equipment; 35. and a slicing device.

Detailed Description

It is to be understood that the terminology used herein, the specific structural and functional details disclosed are merely representative for the purpose of describing particular embodiments, but that the utility model may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

In the description of the present utility model, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating relative importance or implicitly indicating the number of technical features indicated. Thus, unless otherwise indicated, features defining "first", "second" may include one or more such features either explicitly or implicitly; the meaning of "plurality" is two or more. The terms "comprises," "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that one or more other features, integers, steps, operations, elements, components, and/or groups thereof may be present or added.

In addition, terms of orientation or positional relationship indicated by "vertical", "horizontal", etc. are described based on the orientation or relative positional relationship shown in the drawings, and are merely for convenience of description of the present utility model, and are not meant to indicate that the apparatus or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The utility model is described in detail below with reference to the attached drawings and alternative embodiments.

In the embodiment of the utility model, the first direction is denoted as X, the second direction is denoted as Y, an included angle is formed between the first direction and the second direction, and specifically, the first direction is taken as a horizontal direction and the second direction is taken as a vertical direction as an example.

As shown in fig. 1, an embodiment of the present utility model discloses a sliced transportation device 10 for battery slices, the transportation device 10 includes a transportation mechanism 11, the transportation mechanism 11 includes a first transportation assembly 12 and a second transportation assembly 13, the first transportation assembly 12 includes a first supporting member 14 and a first transportation member 15, the whole or part of the first transportation member 15 is transported along a first direction, the second transportation assembly 13 includes a second supporting member 16 and a second transportation member 17, and the whole or part of the second transportation member 17 is deviated from the first direction in a direction away from the first transportation member 15; the first conveying member 15 is driven to be arranged on the first supporting member 14, the material carrying part of the first conveying member 15 is attached to be arranged on the first supporting member 14, the second conveying member 17 is driven to be arranged on the second supporting member 16, and the material carrying part of the second conveying member 17 is attached to be arranged on the second supporting member 16.

The first conveying member 15 in the embodiment of the present utility model may be understood as a conveying direction of a more distal end is a first direction, and a conveying direction of a more distal end of the first conveying member 15 may be other directions, and similarly, a conveying direction of a more distal end of the second conveying member 17 is deviated from the first direction toward a direction away from the first conveying member 15, and a conveying direction of a more distal end of the second conveying member 17 may be other directions, so that the sliced battery pieces can be gradually separated along with the conveying. In particular, in the embodiment of the present utility model, taking the case that the first conveying member 15 is integrally conveyed along the first direction as an example, when the first conveying member 15 and the second conveying member 17 are driven to operate, the first supporting member 14 can support and damp the material loading portion of the first conveying member 15 attached to the first supporting member 14, and similarly, the second supporting member 16 can support and damp the material loading portion of the second conveying member 17 attached to the second supporting member 16. It should be noted that the conveying direction of the first conveying member 15 and the second conveying member 17 is not closer to the conveying direction of the front end, so as to avoid the pressing of the carried battery pieces due to the approaching.

Of course, in the embodiment of the present utility model, each portion of the first conveying member 15 is disposed in a manner of being attached to the first supporting member 14, and each portion of the second conveying member 17 is disposed in a manner of being attached to the second supporting member 16, so that a better damping effect can be provided for the whole of the first conveying member 15 and the second conveying member 17.

The first conveying member 15 and the second conveying member 17 may be provided with positioning members for fixing the battery sheet, for example, adsorption fixing, so that the first conveying member 15 and the second conveying member 17 can be suitably arranged in an inclined manner.

In the embodiment of the utility model, the loading surface of the first conveying member 15 and the loading surface of the second conveying member 17 are horizontally and flush, for example, so that the first conveying member 15 and the second conveying member 17 can respectively provide supporting effects for corresponding battery pieces, and therefore, the battery pieces can be placed on the corresponding loading portions of the first conveying member 15 and the second conveying member 17, thereby achieving the effects of stably and safely conveying the fragments.

As shown in fig. 1 and 2, further, the first conveying member 15 and the second conveying member 17 are respectively conveying belts which are of a belt-shaped structure with equal thickness and are connected in a closed end-to-end manner; the first supporting piece 14 and the second supporting piece 16 are respectively arranged flush with the surfaces of the corresponding material carrying parts, so that the first supporting piece 14 and the second supporting piece 16 are respectively matched with the conveyor belt to achieve the same horizontal supporting effect and stable conveying on the battery piece.

The first supporting member 14 and the second supporting member 16 are respectively provided with driving wheels 18 which are arranged in a rotating manner along two ends of the corresponding conveying direction, the rim of the driving wheel 18 on the first supporting member 14 is tangent to the surface of the carrying part of the first conveying member 15, which is attached to the first supporting member 14, of the driving wheel 18 on the second supporting member 16 is tangent to the surface of the carrying part of the second supporting member 16, the first conveying member 15 is arranged on the driving wheels 18 at two ends of the first supporting member 14 in a surrounding manner, the second conveying member 17 is arranged on the driving wheels 18 at two ends of the second supporting member 16 in a surrounding manner, and therefore the surfaces from the conveying starting end to the conveying terminating end of the first conveying member 15 and the second conveying member 17 are respectively horizontal, so that the stable supporting and conveying effects on the battery pieces can be achieved.

The protruding strips 19 provided on the first supporting member 14 and the second supporting member 16 can prevent the corresponding first conveying member 15 and second conveying member 17 from falling off, thereby being beneficial to improving the safety and stability of conveying.

It will be appreciated that the transport device 10 may further include a driving member 20, where the driving wheels 18 on the first support member 14 and the second support member 16 are respectively divided into a driving wheel 21 and a driven wheel 22, and the driving end of the driving member 20 is respectively in driving connection with the driving wheels 21 on the first support member 14 and the second support member 16. The driving end of the driving member 20 may be directly connected to the driving wheel 21 on the first supporting member 14, or may be indirectly connected to the driving wheel 21 on the second supporting member 16 by using an intermediate member, and similarly, the driving end of the driving member 20 may be directly connected to the driving wheel 21 on the second supporting member 16, or may be indirectly connected to the driving wheel 21 on the first supporting member 14 by using an intermediate member. The embodiment of the present utility model takes as an example that the driving wheels 21 on the first support 14 and the second support 16 are disposed on the same side and the driven wheels 22 on the first support 14 and the second support 16 are disposed on the same side.

The diameters of the driving wheel 21 on the first supporting member 14 and the driving wheel 21 on the second supporting member 16 are equal, and the diameters of the driven wheel 22 on the first supporting member 14 and the driven wheel 22 on the second supporting member 16 are equal, so that the driving effect of the first conveying member 15 and the driving effect of the second conveying member 17 are the same, the same-speed conveying can be conveniently realized, and the follow-up synchronous blanking is facilitated. In the embodiment of the utility model, the wheel diameter of the driving wheel 21 is larger than or equal to the wheel diameter of the driven wheel 22, and in the embodiment of the utility model, the wheel diameter of the driving wheel 21 is larger than the wheel diameter of the driven wheel 22, the driven wheel 22 is arranged at the corresponding feeding end of the first support 14 and the second support 16, and the relatively larger driving wheel 21 has a larger linear speed, so that the driving efficiency can be improved, the smaller driven wheel 22 is arranged at the feeding end side of the corresponding support, the sizes of the corresponding feeding ends of the first support 14 and the second support 16 can be smaller, the butt joint feeding is more convenient, and the butt joint interference is effectively avoided.

In an embodiment, the transporting device 10 may further include a coupling 23, where the driving end of the driving member 20 is drivingly connected to the driving wheel 21 on the first supporting member 14 or the driving wheel 21 on the second supporting member 16, and the driving wheel 21 on the first supporting member 14 and the driving wheel 21 on the second supporting member 16 are respectively connected to the coupling 23, so that the driving member 20 drives the driving wheels 21 on the first supporting member 14 and the second supporting member 16 to rotate synchronously. The driving member 20 may be in driving connection with one of the driving wheel 21 on the first supporting member 14 and the driving wheel 21 on the second supporting member 16, for example, the driving member 20 is in driving connection with the driving wheel 21 on the first supporting member 14, the driving member 20 drives the driving wheel 21 on the first supporting member 14 to rotate, and the driving wheel 21 on the first supporting member 14 drives the driving wheel 21 on the second supporting member 16 to rotate synchronously through the transmission of the coupling 23, so that the first conveying member 15 and the second conveying member 17 can synchronously perform synchronous conveying motion at the same speed, so as to synchronously feed and discharge materials, and the driving efficiency of the driving member 20 is higher.

In the embodiment of the present utility model, the number of the transfer mechanism 11 may be one or a plurality. In the case of a plurality of the transfer mechanisms 11, the synchronous driving may be realized by using one driving member 20 in combination with a coupling 23 or the like, or the driving members 20 may be separately driven. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

In one embodiment, the first supporting member 14 is disposed along a first direction, and the first conveying member 15 is disposed on the first supporting member 14 in a driving manner along the first direction; the second supporting member 16 includes a first supporting portion 24 and a second supporting portion 25, the first supporting portion 24 is disposed along a first direction, the second supporting portion 25 is disposed away from the first supporting member 14 away from the first direction, and the second conveying member 17 is disposed on the first supporting portion 24 along the first direction and on the second supporting portion 25 along a direction in which the second supporting portion 25 is disposed.

In the embodiment of the present utility model, the first supporting member 14 and the first supporting portion 24 are arranged in parallel along the first direction, and in the process of conveying the battery pieces by the first conveying member 15 and the second conveying member 17, the battery pieces in the arrangement can be conveyed along the direction from the first supporting portion 24 to the second supporting portion 25, and the battery pieces firstly move in parallel along the first direction on the first conveying member 15 and the second conveying member 17, and when the battery pieces on the second conveying member 17 move to the second supporting portion 25, the battery pieces conveyed on the second conveying member 17 are gradually separated from the battery pieces conveyed on the first conveying member 15, and the separation distance is larger and larger; the battery pieces transferred on the second transfer member 17 may be transferred along the direction from the second support portion 25 to the first support portion 24, in which case the battery pieces transferred on the second transfer member 17 are gradually separated from the battery pieces transferred on the first transfer member 15 by a larger distance, and when the battery pieces on the second transfer member 17 move to the first support portion 24, the battery pieces transferred on the second transfer member 17 are transferred to move parallel to the battery pieces transferred on the first transfer member 15 along the first direction. Wherein the second conveying member 17 is made of a material having a certain elasticity so that it can be kept flat with the deflection between the first supporting portion 24 and the second supporting portion 25.

Of course, in the embodiment of the present utility model, the first supporting member 14 and the second supporting member 16 may be configured identically, that is, the first supporting member 14 also adopts the first supporting portion 24 and the second supporting portion 25, the first supporting portion 24 is configured along the first direction, and the second supporting portion 25 is configured away from the second supporting member 16 and is offset from the first direction, so that the separation effect of the battery sheets is more obvious.

The transporting device 10 may further include a supporting frame 26, the driving member 20 may be disposed on the supporting frame 26, the first supporting member 14 is adjustably disposed on the supporting frame 26 along a first direction, the first supporting portion 24 is fixedly disposed on the supporting frame 26 along the first direction, and the second supporting portion 25 is adjustably disposed away from the first supporting member 14 along the first direction. The first support 14 in this embodiment is capable of being displaced in a first direction in response to an adjustment, the adjustable displacement setting being any setting that is satisfactory for an adjustment displacement, and likewise the setting in which the second support 25 of the second support 16 is offset in an adjustable displacement.

As shown in fig. 3 and fig. 4, in a specific embodiment of the present utility model, the first support member 14 is provided with a bar-shaped hole 27 along a first direction, the second support portion 25 is sequentially provided with a circular hole 28 and an arc-shaped hole 29 coaxially arranged along a corresponding conveying direction, at least one circular hole 28 is arranged, at least one arc-shaped hole 29 is arranged, a threaded hole 30 is respectively arranged at a position of the support frame 26 corresponding to the first support member 14 and at the second support portion 25, and the bar-shaped hole 27, the circular hole 28 and the arc-shaped hole 29 are respectively threaded with screws. After the screws for connecting the first support 14 and the support frame 26 are tightened, the first support 14 and the support frame 26 are fixedly arranged; when the screw for connecting the first support 14 and the support frame 26 is loosened, the first support 14 can move the adjustment position relative to the support frame 26 along the bar-shaped hole 27 provided thereon, and the screw is tightened after being adjusted to the target position. Similarly, after the screws for connecting the second supporting portion 25 and the supporting frame 26 are tightened, the second supporting portion 25 and the supporting frame 26 are fixedly arranged; when the screw for connecting the second supporting portion 25 and the supporting frame 26 is loosened, the second supporting portion 25 can rotate relative to the supporting frame 26 along the arc-shaped hole 29 provided on the second supporting portion with the circular hole 28 as a rotation center, and the screw is tightened after being adjusted to a target position, wherein one or a plurality of arc-shaped holes 29 can be provided, and the screw is not limited.

As shown in fig. 1, in an embodiment, the first conveying component 12 and the second conveying component 13 may further include an elastic member 31, where the elastic member 31 includes a connecting plate 32 and a guide wheel 33 rotatably disposed on the connecting plate 32, the connecting plate 32 of the elastic member 31 of the first conveying component 12 is disposed on the first supporting component 14, the connecting plate 32 of the elastic member 31 of the second conveying component 13 is disposed on the second supporting component 16, the first conveying component 15 is disposed around the driving wheel 18 at two ends of the first supporting component 14 and the guide wheel 33 of the corresponding elastic member 31, and the second conveying component 17 is disposed around the driving wheel 18 at two ends of the second supporting component 16 and the guide wheel 33 of the corresponding elastic member 31; the guide wheel 33 of the elastic member 31 is adjustably movably disposed on the connection plate 32 along the second direction, and/or the connection plate 32 of the elastic member 31 of the first conveying assembly 12 is adjustably movably disposed on the first supporting member 14 along the second direction, and the connection plate 32 of the elastic member 31 of the second conveying assembly 13 is adjustably movably disposed on the second supporting member 16 along the second direction.

In the embodiment of the present utility model, if the guide wheel 33 of the elastic member 31 is adjustably movably disposed on the connecting plate 32 along the second direction, the connecting plate 32 of the elastic member 31 matched with the first conveying component 12 is fixedly disposed on the first supporting component 14, and the connecting plate 32 of the elastic member 31 of the second conveying component 13 is fixedly disposed on the second supporting component 16, the tightness of the corresponding conveying component can be adjusted by adjusting the guide wheel 33 to move along the second direction. If the connecting plate 32 of the elastic member 31 of the first conveying assembly 12 is adjustably movably disposed on the first supporting member 14 along the second direction, and the connecting plate 32 of the elastic member 31 of the second conveying assembly 13 is adjustably movably disposed on the second supporting member 16 along the second direction, the connecting plate 32 is fixedly disposed with the matching guide wheel 33, and the tightness of the corresponding conveying member can be adjusted by adjusting the connecting plate 32 to move along the second direction. If the connecting plate 32 of the elastic member 31 of the first conveying assembly 12 is adjustably movably disposed on the first supporting member 14 along the second direction, and the connecting plate 32 of the elastic member 31 of the second conveying assembly 13 is adjustably movably disposed on the second supporting member 16 along the second direction, the guide wheel 33 matched with the elastic member 31 is adjustably movably disposed on the connecting plate 32 along the second direction, the tightness of the corresponding conveying member can be adjusted by adjusting the connecting plate 32 to move along the second direction and/or adjusting the guide wheel 33 to move along the second direction. The adjustable movement setting may be any setting that satisfies the adjustment movement, for example, a setting that uses a bar-shaped hole 27 and a screw, etc., and the adjustable movement setting modes of the elastic members 31 disposed on different supporting members may be the same or different.

As shown in fig. 5, the embodiment of the present utility model further discloses a processing apparatus 34 for battery slices, where the processing apparatus 34 includes the transporting device 10 as described above, and of course, the processing apparatus 34 may further include a control system (not shown in the drawing), a slicing device 35, and a blanking device (not shown in the drawing), where the control system (not shown in the drawing) controls the slicing device 35 to slice the battery slices, and then controls the sliced battery slices to be placed on the first conveying member 15 and the second conveying member 17 of the transporting device 10, and as the first conveying member 15 and the second conveying member 17 separate and convey the battery slices to the blanking device (not shown in the drawing), the blanking device (not shown in the drawing) completes taking the materials and blanking.

The above description of the utility model in connection with specific alternative embodiments is further detailed and it is not intended that the utility model be limited to the specific embodiments disclosed. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (10)

1. A sliced transportation device for battery slices, comprising:

a transfer mechanism including a first transfer assembly including a first support and a first transfer member, the whole or part of the first transfer member being disposed in a transfer direction, and a second transfer assembly including a second support and a second transfer member, the whole or part of the second transfer member being disposed offset from the first direction in a direction away from the first transfer member;

the first conveying part is arranged on the first supporting part in a transmission mode, the material carrying part of the first conveying part is arranged on the first supporting part in a lamination mode, the second conveying part is arranged on the second supporting part in a transmission mode, and the material carrying part of the second conveying part is arranged on the second supporting part in a lamination mode.

2. The transport apparatus of claim 1, wherein the loading surface of the first conveyor and the loading surface of the second conveyor are disposed horizontally and flush.

3. The transportation device according to claim 2, wherein the first transportation element and the second transportation element are respectively a transportation belt, the first supporting element and the second supporting element are respectively arranged in parallel with the surfaces of the corresponding material carrying parts, the first supporting element and the second supporting element are respectively provided with driving wheels which are arranged in a rotating way along the two ends of the corresponding transportation direction, the rim of the driving wheel on the first supporting element is tangential to the surface of the first supporting element, which is attached to the material carrying parts of the first transportation element, and the rim of the driving wheel on the second supporting element is tangential to the surface of the second supporting element, which is attached to the material carrying parts of the second supporting element;

the first support piece and the second support piece correspond to carry the material part and are equipped with the sand grip respectively along the both sides of direction of transfer, the sand grip protrusion in first support piece with the second support piece corresponds to carry the surface setting of material part, first conveyer enclose and locate on the drive wheel at the both ends of first support piece and set up in between the both sides sand grip of first support piece, second conveyer enclose and locate on the drive wheel at the both ends of second support piece and set up in between the both sides sand grip of second support piece.

4. A transport device according to claim 3, further comprising a driving member, wherein the driving wheels on the first support member and the second support member are respectively divided into a driving wheel and a driven wheel, and the driving end of the driving member is respectively in driving connection with the driving wheels on the first support member and the second support member;

the driving wheel on the first supporting piece is equal to the driving wheel on the second supporting piece in wheel diameter, the driven wheel on the first supporting piece is equal to the driven wheel on the second supporting piece in wheel diameter, the driving wheel is larger than or equal to the driven wheel in wheel diameter, and the driven wheel is arranged at the feeding end corresponding to the first supporting piece and the second supporting piece.

5. The transport device of claim 4, further comprising a coupling, wherein the drive end of the drive member is drivingly coupled to either the drive wheel on the first support member or the drive wheel on the second support member, and wherein the drive wheel on the first support member and the drive wheel on the second support member are respectively coupled to the coupling such that the drive member drives the drive wheels on the first support member and the second support member to rotate in unison.

6. The transport apparatus of claim 1, wherein the first support is disposed along a first direction, and the first transfer member is drivingly disposed on the first support along the first direction;

the second supporting piece comprises a first supporting portion and a second supporting portion, the first supporting portion is arranged along a first direction, the second supporting portion is arranged away from the first supporting piece in a direction deviating from the first direction, and the second conveying piece is arranged on the first supporting portion along the first direction and is arranged on the second supporting portion along the arrangement direction of the second supporting portion.

7. The transport device of claim 6, further comprising a support frame, wherein the first support member is adjustably moveable in a first direction on the support frame, wherein the first support portion is fixedly positioned in the first direction on the support frame, and wherein the second support portion is adjustably moveable away from the first support member in a direction offset from the first direction.

8. The transport device according to claim 7, wherein the first support member is provided with a bar-shaped hole along a first direction, the second support portion is sequentially provided with a circular hole and an arc-shaped hole which are coaxially arranged along a corresponding conveying direction, the circular hole is provided with at least one, the support frame is provided with threaded holes corresponding to the first support member and the second support portion respectively, and the bar-shaped hole, the circular hole and the arc-shaped hole are respectively threaded into the corresponding threaded holes by screws.

9. The transport apparatus of claim 3, wherein the first and second transport assemblies further comprise elastic members, the elastic members comprise connection plates and guide wheels rotatably disposed on the connection plates, the connection plates of the elastic members of the first transport assembly are disposed on the first support, the connection plates of the elastic members of the second transport assembly are disposed on the second support, the first transport members are disposed around the transmission wheels at both ends of the first support and the guide wheels of the corresponding elastic members, and the second transport members are disposed around the transmission wheels at both ends of the second support and the guide wheels of the corresponding elastic members;

the guide wheels of the elastic members are adjustably movably arranged on the connecting plates along the second direction, and/or the connecting plates of the elastic members of the first conveying assembly are adjustably movably arranged on the first supporting members along the second direction, and the connecting plates of the elastic members of the second conveying assembly are adjustably movably arranged on the second supporting members along the second direction.

10. A processing apparatus for battery sheets, characterized in that the processing apparatus comprises a transport device according to any one of claims 1-9.