CN217086538U - Large-size battery piece conveying mechanism - Google Patents

Abstract

The utility model provides a jumbo size battery piece transport mechanism, include: the first conveyor belt and the second conveyor belt are arranged in an end-to-end connection mode and used for conveying large-size battery pieces; the sliding system is arranged at the joint of the first conveyor belt and the second conveyor belt and is used for assisting in conveying the large-size battery pieces; and the power device is used for providing power for the transmission mechanism. The beneficial effects of the utility model are that when solving present jumbo size battery piece and conveying on a plurality of conveyer belts that link up end to end, direct contact between each conveyer belt, can cause the wearing and tearing at contact site, cause the damage to the conveyer belt edge, and possibly can cause jumbo size battery piece crooked and take off the problem in the conveying to appear along with the time extension, set up sliding system between adjacent conveyer belt, reduce the frictional force between the adjacent conveyer belt edge, prolong the life of conveyer belt, reduce jumbo size battery piece crooked and take off the phenomenon of taking appear in the conveying, conveying efficiency is improved.

Description

Large-size battery piece conveying mechanism

Technical Field

The utility model belongs to the technical field of the photovoltaic, especially, relate to a jumbo size battery piece transport mechanism.

Background

In the photovoltaic industry, when large-sized cell pieces are conveyed, the requirement of conveying on different conveying belts is often met. However, when the large-size battery pieces are conveyed on a plurality of conveyor belts connected end to end at present, the direct contact among the conveyor belts can cause the abrasion of the contact parts, damage to the edges of the conveyor belts, and the phenomena of deflection and strip falling of the large-size battery pieces during the conveying process can be caused as time goes on, which is a defect of the conventional large-size battery piece conveying.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the present jumbo size battery piece that proposes in the above-mentioned background art and when carrying out the conveying on a plurality of conveyer belts that link up from beginning to end, direct contact between each conveyer belt, can cause the wearing and tearing at contact site, cause the damage to the conveyer belt edge, and possibly can cause jumbo size battery piece to appear crooked and take off the problem in the conveying along with the time extension, a jumbo size battery piece transport mechanism is provided, set up sliding system between adjacent conveyer belt, reduce the frictional force between the adjacent conveyer belt edge, prolong the life of conveyer belt, reduce the phenomenon that the jumbo size battery piece appears crooked and takes off the area in the conveying, and the conveying efficiency is improved. And the positioning function is realized, the large-size battery piece on the conveying belt can be positioned, and the production requirement of the large-size battery piece is met.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a large-size battery piece conveying mechanism comprises:

the first conveyor belt and the second conveyor belt are arranged in an end-to-end connection mode and used for conveying large-size battery pieces;

the sliding system is arranged at the joint of the first conveyor belt and the second conveyor belt and is used for assisting in conveying the large-size battery pieces and reducing friction between the first conveyor belt and the second conveyor belt;

a power device for powering the transport mechanism.

Further, the sliding system includes:

the first rolling shaft and the second rolling shaft are arranged at the joint of the first conveying belt and the second conveying belt in parallel and used for enabling the large-size battery pieces to be transited from the first conveying belt to the second conveying belt when the large-size battery pieces are conveyed;

the fixing frames are arranged at two ends of the first conveying belt and at two ends of the second conveying belt respectively, and the fixing frames are used for fixing edges of two ends of the first rolling shaft and the second rolling shaft.

Further, the side edges of the first roller and the second roller are in contact with each other, the first roller is a non-rotatable roller, and the second roller is a rotatable roller.

Further, the first roller and the second roller are the same in length, height and structure.

The positioning device comprises a second conveying belt, a positioning rod and a position sensor, wherein the second conveying belt is used for conveying the battery piece to the second conveying belt, the positioning rod is used for positioning the battery piece with the large size, the battery piece with the large size is stopped at a required position, the position sensor is arranged on the positioning rod, and when the battery piece with the large size is conveyed to be in contact with the positioning rod, the battery piece with the large size stops running.

The buffer system is arranged on the second conveyor belt and is positioned in a contact area between the positioning rod and the large-size battery piece, and the buffer system is used for buffering the large-size battery piece before positioning.

Further, the buffer system includes:

and the buffer belt is a thin belt body, is arranged on the second conveyor belt and is used for conveying the large-size battery pieces to the buffer belt area to play a buffer role when the large-size battery pieces are conveyed to the position near the positioning rod.

Further, the maximum thickness of the buffer zone is 0.03 mm.

Furthermore, the positioning rod is arranged in parallel with the first roller and the second roller.

Further, the power device is one of an electric motor, an electromagnet and/or a pneumatic device.

Compared with the prior art, the utility model has the advantages and positive effect be: the utility model discloses a pair of jumbo size battery piece transport mechanism sets up sliding system between adjacent conveyer belt, reduces the frictional force between the adjacent conveyer belt edge, prolongs the life of conveyer belt, reduces the phenomenon that jumbo size battery piece appears crooked and takes off in the conveying, improves conveying efficiency. And the positioning function is realized, the large-size battery piece on the conveying belt can be positioned, and the production requirement of the large-size battery piece is met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a large-sized battery piece conveying mechanism according to an embodiment of the present invention.

In the figure:

1-a first conveyor belt 2-a second conveyor belt 3-a power device 4-a first roller 5-a second roller 6-a fixing frame 7-a positioning rod 8-a buffer belt

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, an embodiment of the present invention provides a large-sized battery piece conveying mechanism, including:

the device comprises a first conveyor belt 1 and a second conveyor belt 2, wherein the first conveyor belt 1 and the second conveyor belt 2 are arranged in an end-to-end connection mode and used for conveying large-size battery pieces;

the sliding system is arranged at the joint of the first conveyor belt 1 and the second conveyor belt 2 and is used for assisting in conveying large-size battery pieces and reducing friction between the first conveyor belt 1 and the second conveyor belt 2;

and the power device 3 is used for providing power for the transmission mechanism.

Specifically, the sliding system includes:

the large-size battery piece conveying device comprises a first roller 4 and a second roller 5, wherein the first roller 4 and the second roller 5 are arranged at the joint of a first conveying belt 1 and a second conveying belt 2 in parallel and used for enabling large-size battery pieces to be transited from the first conveying belt 1 to the second conveying belt 2 when the large-size battery pieces are conveyed;

the fixing frame 6 and the fixing frame 6 are two and are respectively arranged at two ends of the first conveying belt 1 and the second conveying belt 2, and the fixing frame is used for fixing edges of two ends of the first rolling shaft 4 and the second rolling shaft 5.

Preferably, the side edges of the first roller 4 and the second roller 5 are in contact with each other, the first roller 4 being a non-rotatable roller and the second roller 5 being a rotatable roller. Specifically, the edges of the first roller 4 and the second roller 5 are contacted with each other to roll so as to convey large-size battery pieces, transition of the large-size battery pieces from the first conveyor belt 1 to the second conveyor belt 2 is realized by means of rolling of the second roller 5, abrasion caused by back-and-forth rotation friction between the first roller 4 and the second roller 5 is reduced, and the service lives of the first roller 4 and the second roller 5 are prolonged.

Preferably, the first roller 4 and the second roller 5 have the same length, the same height and the same structure.

Preferably, the battery pack further comprises a positioning rod 7, the positioning rod 7 is disposed on the second conveyor belt 2, the positioning rod 7 is used for positioning the large-size battery piece to stop the large-size battery piece at a desired position, and a position sensor (not shown in the figure) is disposed on the positioning rod 7, and when the large-size battery piece is conveyed to be in contact with the positioning rod 7, the operation of the large-size battery piece is stopped.

Preferably, the battery cell positioning device further comprises a buffering system, the buffering system is arranged on the second conveyor belt 2 and is located in a contact area between the positioning rod 7 and the large-size battery cell, and the buffering system is used for buffering the large-size battery cell before the positioning. Specifically, the existence of the buffer system can prevent the positioning rod 7 from being damaged due to excessive power potential energy generated when the large-size battery piece is in contact with the positioning rod 7 when the transmission speed is too high.

Specifically, the buffer system includes:

the buffer belt 8 is a thin belt body, is arranged on the second conveyor belt 2, and is used for conveying the large-size battery pieces to the buffer belt 8 area to play a buffer role when the large-size battery pieces are conveyed to the vicinity of the positioning rod 7.

Preferably, the maximum thickness of the buffer zone 8 is 0.03 mm. Specifically, the thickness of buffer zone 8 can not be too thick to the big size battery piece produces when passing through from second conveyer belt 2 to buffer zone 8 and collides with and damages, can't smoothly pass through to buffer zone 8 on.

Preferably, the positioning rod 7 is arranged in parallel with the first roller 4 and the second roller 5.

Preferably, the power device 3 is one of an electric motor, an electromagnet and/or a pneumatic device.

Use the utility model provides a pair of method of jumbo size battery piece transport mechanism does: the large-size battery piece is transited to the second conveyor belt 2 through a sliding system formed by the first conveyor belt 1 and the second roller 4, the first roller 4 and the second roller 5 are fixed through fixing frames 6 on two sides of the first conveyor belt 1 and the second conveyor belt 2, and the first roller 4 and the second roller 5 are the same in length, height and structure. When the large-size battery piece needs to be positioned, the positioning rod 7 is arranged at the position, needing to be positioned, on the second conveyor belt 2, the positioning rod 7 is provided with a position sensor, and when the large-size battery piece is conveyed to be in contact with the positioning rod 7, the large-size battery piece stops running. Preferably, a buffer belt 8 can be arranged on the second conveyor belt 2, and is located in a contact area between the positioning rod 7 and the large-size battery piece, and used for buffering before positioning the large-size battery piece, so as to prevent the positioning rod 7 from being damaged due to excessive power potential energy generated when the large-size battery piece is in contact with the positioning rod 7 when the conveying speed is too fast.

Specifically, the position of the positioning rod 7 can be determined by the production requirement, so that the large-size battery piece is stopped at the required position.

Specifically, the sliding system can be arranged between any two adjacent conveying belts according to production requirements, so that friction is reduced, the conveying belts are protected, large-size battery pieces are stably and excessively arranged between the conveying belts, and the abrasion of the conveying belts is reduced.

The utility model discloses the advantage and the beneficial effect who produce are:

1. the utility model discloses a pair of jumbo size battery piece transport mechanism sets up sliding system between adjacent conveyer belt, reduces the frictional force between the adjacent conveyer belt edge, prolongs the life of conveyer belt, reduces the phenomenon that jumbo size battery piece appears crooked and takes off in the conveying, improves conveying efficiency. And the positioning function is realized, the large-size battery piece on the conveying belt can be positioned, and the production requirement of the large-size battery piece is met.

2. The utility model discloses a jumbo size battery piece transport mechanism adds buffer system on the conveyer belt, makes and to cushion in buffer area when the jumbo size battery piece of moving well advances line location, prevents because when jumbo size battery piece functioning speed was too fast, causes the damage to the locating lever, perhaps causes the damage to jumbo size battery piece.

3. The utility model discloses a pair of jumbo size battery piece transport mechanism can carry out nimble location to the jumbo size battery piece on the conveyer belt according to the production demand, makes jumbo size battery piece stop to carry out production on next step at required position, satisfies the production demand, improves production efficiency.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A jumbo size battery piece transport mechanism, its characterized in that includes:

the first conveyor belt and the second conveyor belt are arranged in an end-to-end connection mode and used for conveying large-size battery pieces;

the sliding system is arranged at the joint of the first conveyor belt and the second conveyor belt and is used for assisting in conveying the large-size battery pieces and reducing friction between the first conveyor belt and the second conveyor belt;

a power device for powering the transport mechanism.

2. The large-sized battery piece conveying mechanism according to claim 1, wherein the sliding system comprises:

the first rolling shaft and the second rolling shaft are arranged at the joint of the first conveying belt and the second conveying belt in parallel and used for enabling the large-size battery pieces to be transited from the first conveying belt to the second conveying belt when the large-size battery pieces are conveyed;

the fixing frames are arranged at two ends of the first conveying belt and at two ends of the second conveying belt respectively, and the fixing frames are used for fixing edges of two ends of the first rolling shaft and the second rolling shaft.

3. The large-size battery piece conveying mechanism as claimed in claim 2, wherein: the side edges of the first roller and the second roller are in mutual contact, the first roller is a non-rotatable roller, and the second roller is a rotatable roller.

4. A large-sized battery plate conveying mechanism as claimed in claim 3, wherein: the first roller and the second roller are the same in length, height and structure.

5. A large-size battery piece conveying mechanism as claimed in any one of claims 2 to 4, wherein:

the positioning device comprises a second conveying belt, a positioning rod and a position sensor, wherein the second conveying belt is arranged on the second conveying belt, the positioning rod is used for positioning the large-size battery piece to enable the large-size battery piece to stop at a required position, the position sensor is arranged on the positioning rod, and when the large-size battery piece is conveyed to be in contact with the positioning rod, the large-size battery piece stops running.

6. The large-size battery piece conveying mechanism according to claim 5, wherein: the buffer system is arranged on the second conveyor belt and is positioned in a contact area between the positioning rod and the large-size battery piece, and the buffer system is used for buffering the large-size battery piece before positioning.

7. The large-size battery piece conveying mechanism according to claim 6, wherein the buffer system comprises:

and the buffer belt is a thin belt body, is arranged on the second conveyor belt and is used for conveying the large-size battery pieces to the buffer belt area to play a buffer role when the large-size battery pieces are conveyed to the position near the positioning rod.

8. The large-size battery piece conveying mechanism according to claim 7, wherein: the maximum thickness of the buffer zone is 0.03 mm.

9. The large-size battery piece conveying mechanism according to claim 5, wherein: the positioning rod is arranged in parallel with the first rolling shaft and the second rolling shaft.

10. A large-sized battery sheet conveying mechanism according to any one of claims 1 to 4 and 6 to 9, wherein:

the power device is one of an electric motor, an electromagnet and/or a pneumatic device.

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