CN216917554U - A mechanism and conveyer of reforming for battery piece - Google Patents

Abstract

The application relates to the field of photovoltaic cell production, in particular to a correcting mechanism and a conveying device for a cell. This mechanism of reforming includes: base plate, subassembly and drive assembly of reforming, drive assembly includes: a first portion connected to a reforming assembly; a second part connected with another correcting component; and the driving component is connected with and acts on the first part and the second part and is used for driving the first part and the second part to approach or separate from each other, so that the two groups of the correcting components approach or separate from each other. The righting mechanism is provided with two groups of slidable righting assemblies, and under the driving action of one driving assembly on the two righting assemblies, the two groups of righting assemblies are close to or far away from each other, so that the technical problem that a battery piece is prone to being skewed on a conveying belt in the prior art is solved; the technical effect of correcting the skewed battery piece is achieved.

Description

A mechanism and conveyer of reforming for battery piece

Technical Field

The application relates to the field of photovoltaic cell production, in particular to a correcting mechanism and a conveying device for a cell.

Background

Solar cells are devices for converting solar energy into electrical energy, and solar energy is increasingly used as the cleanest renewable resource. The silicon solar cell is one of the solar cells, and most of the commercialized solar cells are manufactured by processing silicon wafers at present based on the advantages of no toxicity, low price and large storage in the earth crust. In the production process of the battery piece, a plurality of processes are often performed, such as a material loading and splitting process, a laser scribing process, a screen printing process, a splitting process, and the like.

In the prior art, the battery pieces are generally conveyed by a conveyor belt, and the whole production line is long, so that the battery pieces are prone to being skewed on the conveyor belt due to factors such as shaking or corner conveying in the conveying process of the conveyor belt.

Therefore, the technical problems of the prior art are as follows: how to correct the skewed cell.

SUMMERY OF THE UTILITY MODEL

The application provides a righting mechanism for a battery piece, which solves the technical problem that the battery piece is easy to incline on a conveying belt in the prior art; the technical effect of correcting the skewed battery piece is achieved.

The application provides a mechanism and conveyer of reforming for battery piece adopts following technical scheme:

a righting mechanism for a cell for use in handling a cell, the righting mechanism comprising: a substrate; the two groups of the correcting assemblies are connected to the substrate in a sliding mode, each group of the correcting assemblies is provided with a correcting part, and a correcting space allowing the battery piece to pass through is formed between the correcting parts on the two sides; a drive assembly, the drive assembly comprising: a first portion movable relative to the substrate, a moving direction of the first portion being parallel to a sliding direction of the reforming assembly, the first portion being connected to the reforming assembly; a second portion movable relative to the substrate, a moving direction of the second portion being parallel to a sliding direction of the centering assembly; the second part is connected with another correcting component; and the driving component is connected with and acts on the first part and the second part and is used for driving the first part and the second part to approach or separate from each other, so that the two groups of the correcting components approach or separate from each other.

Preferably, the driving assembly further comprises: a first wheel; the first wheel and the second wheel are arranged on the substrate along the moving direction of the correcting component; and the synchronous belt is connected between the first wheel and the second wheel in a transmission manner, and the two sides of the synchronous belt in the length direction form the first part and the second part respectively.

Preferably, the driving member is a motor, and the motor is fixed to the substrate, acts on the first wheel or the second wheel, and is used for driving the synchronous belt transmission.

Preferably, the driving assembly further comprises: a gear coupled to the base plate; the sliding pieces are respectively arranged between the base plate and the first part and between the base plate and the second part, so that the first part and the second part are connected to the base plate in a sliding manner; and a rack disposed on the first portion and the second portion, the rack being engaged with the gear.

Preferably, the driving member is a motor, and the motor is fixed to the base plate, acts on the gear, and is used for driving the gear to rotate, so as to drive the first portion and the second portion to move.

Preferably, each set of said righting elements comprises: the connecting seat is connected to the base plate in a sliding manner and fixedly connected with the first part or the second part; the guide wheels are connected to the connecting seat and are arranged in a straight line to form the correcting part.

Preferably, be provided with the subassembly that slides between the connecting seat with the base plate, the subassembly that slides includes: the sliding rail is fixed on the substrate; the sliding blocks are fixed on the connecting seats of the correcting assemblies of each group, and the sliding blocks are in sliding fit with the sliding rails.

Preferably, the guide wheels are arranged in a direction perpendicular to the slide rail.

A transfer device, comprising: the conveying mechanism is used for conveying the battery pieces; the correcting mechanism is fixed below the conveying mechanism, and the two groups of correcting assemblies are symmetrically arranged on two sides of the conveying mechanism.

Preferably, the transfer mechanism includes: a frame; a conveyor belt assembly disposed on the frame, the conveyor belt assembly comprising: the number of the driving wheels is at least two, and the driving wheels are connected to the rack; the conveying belt is in transmission connection between the transmission wheels; and the driving part acts on the driving wheel and is used for driving the driving wheel to rotate so as to drive the conveying belt to transmit.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the correcting mechanism is provided with two groups of slidable correcting assemblies, under the driving action of one driving assembly on the two correcting assemblies, the two groups of correcting assemblies are close to or far away from each other, when the battery piece is deviated and inclined, the two groups of correcting assemblies are close to each other, guide wheels on the two groups of correcting assemblies act on the battery piece to correct the battery piece deviated and inclined, and the battery piece is kept to be positioned at the middle position, so that the technical problem that the battery piece is easily inclined on a conveying belt in the prior art is solved; the technical effect of correcting the skewed battery piece is achieved.

2. Realize two distances of reforming between the subassembly through adjusting the relative position between first portion and the second portion in this application for the space size between two sets of subassemblies of reforming can be adjusted according to the size of battery piece, is adapted to the battery piece of different specifications and reforms.

3. Two components of reforming are connected respectively in the both sides of same hold-in range in this application, through drive hold-in range clockwise turning or anticlockwise rotation, ensure that can equidistance be close to each other or keep away from between two components of reforming, ensure that the battery piece after reforming is located the intermediate position.

4. The mechanism of reforming in this application through guide pulley and battery piece contact and reform the battery piece, the guide pulley can take place to rotate when contacting with the battery piece, reduces the battery piece and reforms the collision between the subassembly, reduces the broken possibility of in-process battery piece of reforming, improves the guard action to the battery piece.

Drawings

FIG. 1 is a schematic perspective view of a reforming mechanism according to the present application;

FIG. 2 is an exploded view of the righting mechanism described herein;

FIG. 3 is a perspective view of a conveyor according to the present application;

FIG. 4 is a schematic view of a conveyor belt assembly of the conveyor apparatus of the present application;

fig. 5 is a schematic view of the installation of the righting mechanism described herein.

Description of reference numerals: 100. a righting mechanism; 110. a substrate; 120. a reforming component; 121. a connecting seat; 122. a connecting rod; 123. a guide wheel seat; 124. a guide wheel; 126. a slider; 127. a slide rail; 128. a limiting block; 130. a drive assembly; 131. a first part; 132. a second section; 133. a first wheel; 134. a second wheel; 135. a synchronous belt; 136. a connecting plate; 137. a first motor; 200. a transport mechanism; 210. a fixing member; 220. a base plate; 230. a base; 240. a sensor; 251. a driving wheel; 252. a conveyor belt; 253. a second motor; 254. a drive shaft.

Detailed Description

The ordinal numbers used herein for the components, such as "first," "second," etc., are used merely to distinguish between the objects described, and do not have any sequential or technical meaning. The term "connected" and "coupled" as used herein includes both direct and indirect connections (couplings), unless otherwise specified. In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present application and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be considered as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

The embodiment of the application provides a battery piece correcting mechanism and a conveying device, wherein two groups of correcting assemblies are close to each other, guide wheels on the two groups of correcting assemblies act on battery pieces, the battery pieces with offset and skew are corrected, and the battery pieces are kept in the middle positions, so that the technical problem that the battery pieces are prone to skew on a conveying belt in the prior art is solved; the technical effect of correcting the skewed battery piece is achieved.

In order to better understand the technical scheme, the technical scheme is described in detail in the following with reference to the attached drawings of the specification and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

A righting mechanism for a battery piece, which acts on the battery piece in transportation and is used for righting a skewed battery piece, as shown in FIG. 1, the righting mechanism 100 comprises a base plate 110, a righting assembly 120 and a driving assembly 130, wherein the base plate 110 is used as a mounting base for each assembly; the two groups of correcting assemblies 120 act on the battery pieces and are used for correcting the inclined battery pieces; the drive assembly 130 is used to drive the two sets of reforming assemblies 120 closer to and farther away.

The substrate 110 is a rectangular plate horizontally disposed, the substrate 110 is fixed under the conveyer, and the correcting assembly 120 and the driving assembly 130 are both mounted on the substrate 110.

The two groups of the righting assemblies 120 are provided, the two groups of the righting assemblies 120 are both arranged on the upper surface of the substrate 110, and the righting assemblies 120 act on the battery pieces and righting the battery pieces with offset and skew positions. As shown in fig. 1, each of the aligning assemblies 120 includes a connecting seat 121, a connecting rod 122, a guide wheel 124 and a guide wheel seat 123, specifically, the connecting seat 121 is slidably connected to the base plate 110 through a sliding assembly, the sliding assembly includes a sliding rail 127 and a sliding block 126, the sliding rail 127 is fixed on the base plate 110, a setting direction of the sliding rail 127 is defined as a first direction, the sliding block 126 is fixed at the bottom of the connecting seat 121, and the sliding block 126 is slidably matched with the sliding rail 127, so that the connecting seat 121 can slide on the base plate 110 along the first direction; the connecting rod 122 is fixedly connected to the connecting seat 121, the connecting rod 122 is disposed along the first direction, and the connecting rod 122 extends toward the outside of the substrate 110; the guide wheel base 123 is connected to one end of the connecting rod 122 far away from the substrate 110, the guide wheel 124 is disposed on the guide wheel base 123, the guide wheel 124 has a plurality of guiding portions, in one embodiment, five guide wheels 124 are disposed on the guide wheel base 123, each guide wheel 124 can rotate, and the arrangement direction of the guide wheels 124 is perpendicular to the first direction. The limit blocks 128 are fixed on the substrate 110 at two ends of the slide rail 127 in the length direction, and the limit blocks 128 are used for preventing the slide rail 127 from being separated from the slide rail 127.

Further, the guide wheel seat 123 is slidably connected to one end of the connecting rod 122 far away from the substrate 110, a kidney-shaped hole is formed in the connecting rod 122, and the guide wheel seat 123 is slidably connected to the connecting rod 122 through the kidney-shaped hole, so that the distance between the two groups of guide wheels 124 can be adjusted in a self-adaptive manner, and the silicon wafer is prevented from being broken.

The two groups of reforming assemblies 120 are symmetrically arranged on the substrate 110, the arrangement directions of the reforming parts of the two groups of reforming assemblies 120 are parallel to the transportation direction of the battery pieces, and a reforming space is formed between the reforming parts of the two groups of reforming assemblies 120. Of course, the two sets of righting assemblies 120 may also be arranged in a straight-inclined manner, so that the righting space is in a bell mouth manner, which is convenient for guiding the battery piece to gradually perform the righting movement through the large mouth end of the bell mouth.

The driving assembly 130 is disposed on the substrate 110 and acts on the two sets of the reforming assemblies 120, and the driving assembly 130 is used for driving the two sets of the reforming assemblies 120 to move. As shown in fig. 2, the driving assembly 130 includes a first portion 131, a second portion 132 and a driving member, and specifically, the two sets of the centering assemblies 120 may be driven to move closer to or away from each other by using a form of driving a timing belt 135, specifically, a first wheel 133 and a second wheel 134 are disposed on the upper surface of the substrate 110, the first wheel 133 and the second wheel 134 are disposed along a first direction, the timing belt 135 is connected to the first wheel 133 and the second wheel 134 in a transmission manner, the first wheel 133 or the second wheel 134 may be fixed to a kidney-shaped hole on the substrate 110 by screws, and a tensioning degree of the timing belt 135 may be adjusted by adjusting a position of the first wheel 133 or the second wheel 134 on the kidney-shaped hole.

Wherein, both sides on the length direction of hold-in range 135 form first portion 131 and second portion 132 respectively, first portion 131 with one of them subassembly 120 fixed connection that reforms, concretely, first portion 131 passes through connecting plate 136 and connecting rod 122 fixed connection, make hold-in range 135 when the transmission, first portion 131 drives subassembly 120 that reforms and slides along slide rail 127 direction on base plate 110, the same reason, second portion 132 and another subassembly 120 fixed connection that reforms, wherein, all form the connecting point position that is used for being connected with subassembly 120 that reforms on first portion 131 and second portion 132, two connecting point positions are central symmetry about the mid point of first wheel 133 with second wheel 134, make when hold-in range 135 transmission, two sets of subassemblies 120 that reforms can equidistance are close to each other or are kept away from each other.

The driving piece is used for driving the synchronous belt 135 to drive. The driving member may be specifically a first motor 137, the first motor 137 and the first wheel 133 (or the second wheel 134) are located on the same vertical space, the first motor 137 is fixed on the lower surface of the substrate 110, an output shaft of the first motor 137 passes through the substrate 110 and acts on the first wheel 133 (or the second wheel 134), and the first motor 137 drives the first wheel 133 (or the second wheel 134) to drive the synchronous belt 135 to transmit.

Alternatively, in another embodiment, a form of a rack and pinion is used instead of the synchronous belt structure in the previous embodiment. Specifically, the driving assembly 130 may further include a first portion 131, a second portion 132, a gear, a sliding member, a rack, and a driving member, wherein the first portion 131 and the second portion 132 are disposed on the base plate 110 in parallel by the sliding member, and the first portion 131 and the second portion 132 are disposed along the first direction, wherein the first portion 131 and the second portion 132 may be rectangular plates in an elongated shape, specifically, the sliding member may be two slots disposed on the base plate 110, the slots are disposed along the first direction, the first portion 131 and the second portion 132 are slidably connected to the base plate 110 by the slots, the first portion 131 and the second portion 132 are disposed at an interval, the gear is connected to the base plate 110 between the first portion 131 and the second portion 132, the rack is disposed on a surface of the first portion 131 facing the second portion 132 and a surface of the second portion 132 facing the first portion 131, the two sets of racks are engaged with the gear, when the gear rotates, the first portion 131 and the second portion 132 are made to slide on the base plate 110 by the sliding member by the engagement of the rack and pinion.

First portion 131 and one of them subassembly 120 that reforms fixed connection, it is concrete, first portion 131 passes through connecting plate 136 and connecting rod 122 fixed connection for when rack and pinion cooperation transmission, first portion 131 drives subassembly 120 that reforms and slides along slide rail 127 direction on base plate 110, and the same reason, second portion 132 and another subassembly 120 fixed connection that reforms, wherein, all form the hookup point position that is used for being connected with subassembly 120 that reforms on first portion 131 and second portion 132, two hookup point positions are symmetrical about the gear center, make when rack and pinion cooperation transmission, two sets of subassemblies 120 that reforms can equidistance be close to each other or keep away from each other.

The driving piece is used for driving gear transmission. The driving member may specifically be the first motor 137, the first motor 137 and the gear are located in the same vertical space, the first motor 137 is fixed to the lower surface of the substrate 110, the output shaft of the first motor 137 passes through the substrate 110 to act on the gear, the first motor 137 drives the gear, and the gear and the rack are engaged with each other, so as to drive the synchronous belt 135 to transmit.

The embodiment also discloses a conveying device, as shown in fig. 3, which is used for conveying battery pieces and performing correction and centering on skewed battery pieces, and comprises a conveying mechanism 200, a control mechanism and a correction mechanism 100, wherein the conveying mechanism 200 is used for conveying the battery pieces; the control mechanism is used for detecting the position of the battery piece and controlling the correcting mechanism 100; the righting mechanism 100 is used for righting and centering the battery piece.

The conveying mechanism 200 is used for conveying the battery pieces. The conveying mechanism 200 includes a frame and a conveyor belt assembly, the conveyor belt assembly is disposed on the frame, specifically, as shown in fig. 3 and 4, the frame includes a base 230 and a bottom plate 220, the bottom plate 220 is rectangular and horizontally disposed, and is fixedly supported by two or more bases 230. The conveyor belt assembly comprises conveyor belts 252, driving wheels 251 and driving parts, in one embodiment, four driving wheels 251 are provided, the driving wheels 251 are arranged at four corners of the bottom plate 220 in pairs, two groups of conveyor belts 252 are respectively connected between the two driving wheels 251 in the length direction of the bottom plate 220 in a driving manner, and the battery pieces are placed on the two conveyor belts so as to realize the transportation of the battery pieces; wherein, a transmission shaft 254 is arranged between the two transmission wheels 251 positioned at one end of the bottom plate 220 in the length direction, and the transmission belt 252 can be driven to transmit by driving the transmission shaft 254. The drive division is used for the transmission of drive conveyer belt 252, and is concrete, and the drive division includes second motor 253, and second motor 253 is fixed in base 230, passes through the belt on the output shaft of second motor 253 and is connected with transmission shaft 254 transmission, and under the drive of second motor 253, drive transmission shaft 254 rotates to drive the transmission of conveyer belt 252.

The righting mechanism 100 is used for righting and centering the battery pieces. The restoring mechanism 100 is the structure of the restoring mechanism 100, and will not be described in detail here, wherein the restoring mechanism 100 is located below the bottom plate 220, as shown in fig. 5, the substrate 110 is fixed to the base 230 through the fixing member 210, so that the restoring mechanism 100 is fixed at a position below the bottom plate 220, specifically, two groups of restoring assemblies 120 in the restoring mechanism 100 are symmetrically distributed on two sides of the conveyor belt 252, when the driving assembly 130 drives the two groups of restoring assemblies 120 to approach each other, the restoring portion of each restoring assembly 120 acts on the battery piece, so that the battery piece is located at a middle position of the conveyor belt 252 after being restored.

The control mechanism is used for detecting the position of the battery piece and controlling the righting mechanism 100. The control mechanism comprises a sensor 240 and a controller, a slot is formed in the position of the bottom plate 220 between the two righting assemblies 120, the sensor 240 is installed in the slot, and the sensor 240 can adopt a capacitive proximity sensor 240 and is used for detecting whether a battery piece exists between the two righting assemblies 120 or not, namely, whether the battery piece is conveyed between the two righting assemblies 120 or not can be judged. The controller is used for receiving a detection signal of the sensor 240 and sending a control instruction to the righting mechanism 100 according to the detection signal, the controller can adopt a PLC or a single chip microcomputer, when the sensor 240 detects that a battery piece exists, the controller sends a righting instruction to the righting mechanism 100, the righting mechanism 100 carries out righting on the battery piece, and the two groups of righting assemblies 120 reset after the righting; otherwise, the reforming mechanism 100 does not operate. A light projector can be fixed on the bottom plate 220, a light receiver is arranged right above the light projector and can be fixed on the bottom plate 220 through a support, the light projector emits light signals to the light receiver, and when a silicon wafer passes through, light is blocked, and the position of the silicon wafer can also be detected.

Working principle/steps:

the battery piece is transported through the conveyor belt 252, the correcting parts of the correcting mechanism 100 are arranged at two ends of the conveyor belt 252, and after the sensor 240 detects that the battery piece reaches between the two groups of correcting assemblies 120, the controller acquires a detection signal and controls the correcting mechanism 100 to correct the battery piece.

The first portion 131 and the second portion 132 on the two sides of the synchronous belt 135 are respectively connected with one correcting assembly 120, the first motor 137 drives the first wheel 133 to rotate, the first wheel 133 drives the synchronous belt 135 to realize transmission, and because the connecting point positions on the synchronous belts 135 of the two correcting assemblies 120 are symmetrical about the center of the middle point of the first wheel 133 and the middle point of the second wheel 134, as shown in fig. 2, the synchronous belt 135 transmits clockwise, the two groups of correcting assemblies 120 are close to each other at equal intervals, the guide wheel 124 on each correcting assembly 120 gradually approaches to a battery piece, and pushes the skewed battery piece to the middle position of the conveyor belt 252, so that the correction of the battery piece is realized; after the two groups of components are righted, the first motor 137 drives the synchronous belt 135 to perform counterclockwise transmission, and the two groups of components 120 are separated from each other at equal distances to reach an initial state.

The technical effects are as follows:

1. the righting mechanism 100 is provided with two groups of slidable righting assemblies 120, under the driving action of one driving assembly 130 on the two righting assemblies 120, the two groups of righting assemblies 120 are close to or far away from each other, when a battery piece is deviated and inclined, the two groups of righting assemblies 120 are close to each other, guide wheels 124 on the two groups of righting assemblies 120 act on the battery piece to righting the battery piece deviated and inclined, and the battery piece is kept at the middle position, so that the technical problem that the battery piece is easily inclined on a conveyor belt 252 in the prior art is solved; the technical effect of correcting the skewed battery piece is achieved.

2. The distance between the two components 120 of reforming is realized by adjusting the relative position between the first part 131 and the second part 132 in the application, so that the space between the two groups of components 120 of reforming can be adjusted according to the size of the battery piece, and the battery piece reforming device is suitable for reforming battery pieces with different specifications.

3. Two components 120 that reform in this application are connected respectively in the both sides of same hold-in range 135, through drive hold-in range 135 clockwise turning or anticlockwise rotation, ensure that can equidistance be close to each other or keep away from between two components 120 that reform, ensure that the battery piece after reforming is located the intermediate position.

4. In the righting mechanism 100 described in the present application, the guide wheel 124 contacts the battery piece and straightens the battery piece, and the guide wheel 124 rotates when contacting the battery piece, so that the collision between the battery piece and the righting component 120 is reduced, the possibility of breakage of the battery piece in the righting process is reduced, and the protection effect on the battery piece is improved.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the utility model.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A reforming mechanism for a battery cell, for use in transporting the battery cell, the reforming mechanism comprising:

a substrate;

the two groups of the correcting assemblies are connected to the substrate in a sliding mode, each group of the correcting assemblies is provided with a correcting part, and a correcting space allowing the battery piece to pass through is formed between the correcting parts on the two sides;

a drive assembly, the drive assembly comprising:

a first portion movable relative to the substrate, a moving direction of the first portion being parallel to a sliding direction of the reforming assembly, the first portion being connected to the reforming assembly;

a second portion movable relative to the substrate, a moving direction of the second portion being parallel to a sliding direction of the centering assembly; the second part is connected with another correcting component; and

the driving component is connected with and acts on the first part and the second part and is used for driving the first part and the second part to approach or separate from each other, so that the two groups of the correcting components approach or separate from each other.

2. The righting mechanism for the battery slice as set forth in claim 1, wherein the drive assembly further comprises:

a first wheel;

the first wheel and the second wheel are arranged on the substrate along the moving direction of the correcting component; and

the hold-in range, hold-in range transmission connect in first wheel with between the second wheel the length direction both sides of hold-in range form respectively first portion with second portion.

3. The mechanism of claim 2, wherein the driving member is a motor, and the motor is fixed to the base plate and acts on the first wheel or the second wheel to drive the synchronous belt.

4. The righting mechanism for the battery slice as set forth in claim 1, wherein the drive assembly further comprises:

a gear coupled to the base plate;

the sliding pieces are respectively arranged between the base plate and the first part and between the base plate and the second part, so that the first part and the second part are connected to the base plate in a sliding manner; and

a rack disposed on the first portion and the second portion, the rack engaged with the gear.

5. The mechanism of claim 4, wherein the driving member is a motor, and the motor is fixed to the base plate, acts on the gear, and drives the gear to rotate, so as to drive the first portion and the second portion to move.

6. The righting mechanism for a cell segment as set forth in claim 1, wherein each set of said righting assemblies comprises:

the connecting seat is connected to the base plate in a sliding mode and fixedly connected with the first part or the second part;

the guide wheels are connected to the connecting seat and are arranged in a straight line to form the correcting part.

7. The mechanism of claim 6, wherein a sliding assembly is disposed between the connecting seat and the base plate, the sliding assembly comprises:

the sliding rail is fixed on the substrate;

the sliding blocks are fixed on the connecting seats of the correcting assemblies of each group, and the sliding blocks are in sliding fit with the sliding rails.

8. The mechanism of claim 7, wherein the guide wheels are arranged in a direction perpendicular to the sliding track.

9. A conveyor, comprising:

the conveying mechanism is used for conveying the battery pieces;

the correcting mechanism is the correcting mechanism in any one of claims 1-8 and is fixed below the conveying mechanism, and two groups of correcting assemblies are symmetrically arranged on two sides of the conveying mechanism.

10. A transfer device as in claim 9 wherein the transfer mechanism comprises:

a frame;

a conveyor belt assembly disposed on the frame, the conveyor belt assembly comprising:

the number of the driving wheels is at least two, and the driving wheels are connected to the rack;

the conveying belt is in transmission connection between the transmission wheels; and

and the driving part acts on the driving wheel and is used for driving the driving wheel to rotate so as to drive the conveying belt to transmit.

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