CN217837352U - Sheet turning mechanism, sheet turning equipment and laminating equipment - Google Patents

Abstract

The utility model discloses a piece turning mechanism, piece turning equipment and lamination equipment, the piece turning mechanism is applied to the transmission mechanism, including third transmission assembly, piece turning fork and position sensor, the third transmission assembly includes the power part, the power part drives the piece turning fork to rotate, realizes the interval piece turning of sheet, the position sensor is arranged below the piece turning fork, the piece turning fork includes the first working condition and the second working condition; in the first working state, the power piece drives the sheet turning fork to rotate from the initial position, so that the sheets are turned; in the second working state, the power part drives the blade turning fork to reset, and the blade turning fork is not contacted with the sheet. The position sensor determines the position of the sheet, and the power part drives the sheet turning fork to rotate, so that the sheet turning fork is in a first working state and a second working state to realize the spacer turning of the sheet, and the purpose of positive and negative lamination is achieved, thereby ensuring the consistency of the direction of a whole laminated product during subsequent lamination operation and eliminating the accumulation of warping degrees caused by different lamination directions.

Description

Sheet turning mechanism, sheet turning equipment and laminating equipment

Technical Field

The utility model relates to a sheet preparation technical field, in particular to turn over piece mechanism, turn over piece equipment and lamination equipment.

Background

Part of the sheet production and processing needs to be laminated. The existing lamination modes are mainly two, one mode is automatic lamination, products are sent out in the same direction through a transmission belt, the machine is stopped when the number of the counted full target pieces is full, the machine table is started to continue working after the products are taken out, the automatic lamination cannot realize the function of positive and negative lamination, the warping degree accumulation after the products are dried can be caused due to the fact that the positive and negative lamination is not available, the deformation exceeds the standard, the flatness is unqualified, the product brittleness is large, the products are easy to damage, the qualification rate is low, and the subsequent processing is influenced. The other method is that the target pieces are stacked and then placed manually in a positive-negative mode, the target pieces are placed and dried, the whole process is completely operated manually, the efficiency is low, and product pollution can be caused by manual contact.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide a piece mechanism turns over.

The utility model also provides a piece equipment that turns over with above-mentioned piece mechanism that turns over.

The utility model also provides a lamination equipment of having above-mentioned piece equipment of turning over.

According to a first aspect embodiment of the present invention, there is provided a sheet turning mechanism applied to a transmission mechanism, along which sheets are conveyed, comprising a third transmission assembly, a sheet turning fork and a position sensor, wherein the third transmission assembly comprises a power part, the power part drives the sheet turning fork to rotate, so as to realize interval sheet turning of the sheets, the position sensor is arranged below the sheet turning fork, and the sheet turning fork comprises a first working state and a second working state; in the first working state, the power part drives the turning fork to rotate from the starting position, so that the sheet is turned; in the second working state, the power part drives the blade turning fork to reset, and the blade turning fork is not contacted with the sheet.

Has the advantages that: the sheet turning mechanism is applied to a transmission mechanism, the sheets are conveyed along the transmission mechanism, and the sheet turning mechanism comprises a third transmission assembly, a sheet turning fork and a position sensor, wherein the third transmission assembly comprises a power part, the power part drives the sheet turning fork to rotate so as to realize interval sheet turning of the sheets, the position sensor is arranged below the sheet turning fork, and the sheet turning fork comprises a first working state and a second working state; in the first working state, the power part drives the sheet turning fork to rotate from the initial position, so that the sheets are turned; in the second working state, the power part drives the blade turning fork to reset, and the blade turning fork is not contacted with the sheet. The utility model discloses the during operation, position sensor confirms the position of sheet, when turning over the piece fork and being in first operating condition, turn over the piece fork through power part drive and rotate from the initial position, turn over the sheet with the sheet on the second transmission band, when turning over the piece fork and being in second operating condition, turn over the piece fork through power part drive and reset, do not turn over the piece to the sheet on the second transmission band, thereby reach a positive and negative lamination mesh, thereby the uniformity of whole pile product direction when guaranteeing follow-up lamination operation, eliminate because of the different accumulations that lead to warpage degree of lamination direction.

According to an embodiment of an aspect of the present invention, the power member adopts a first step motor, and the rotation angle of the first step motor for one-time interval sheet turning period is set to be n °, 360 ° -n ° -x °, wherein the range of the angle value n is 90-180 °; in the process that the first stepping motor drives the blade turning fork to rotate by an angle of n degrees from the initial position, the blade turning fork is in the first working state; and in the process that the first stepping electrode drives the blade turning fork to rotate by x degrees, the blade turning fork is in the second working state.

According to an aspect of the utility model provides a turn over piece mechanism, turn over piece fork and include annular connecting seat and two V type pieces, respectively the contained angle of V type piece is 180-n, two the V type piece sets up the both sides of annular connecting seat.

According to the utility model discloses an aspect embodiment the piece mechanism turn over, turn over and be provided with the buffer layer on the piece fork.

According to the utility model discloses an embodiment of first aspect provides a piece equipment turns over, including frame, transmission device and above arbitrary any piece turn over mechanism, transmission device includes the second transmission band, the second transmission band is installed in the frame, the piece fork setting of turning over is in on the second transmission band.

Has the advantages that: the piece turning device comprises a frame, a transmission mechanism and any one piece turning mechanism, wherein the transmission mechanism comprises a second transmission belt, the second transmission belt is installed on the frame, a piece turning fork is arranged on the second transmission belt, the position of a sheet is determined by a position sensor, when the piece turning fork is in a first working state, the piece turning fork is driven by a power part to rotate from an initial position, the sheet on the second transmission belt is turned, when the piece turning fork is in a second working state, the piece turning fork is driven by the power part to reset, the sheet on the second transmission belt is not turned, so that the sheet turning of the sheet is realized, a positive and negative lamination purpose is achieved, the consistency of the direction of a whole laminated product is ensured during subsequent lamination operation, and the accumulated warping degree caused by different lamination directions is eliminated

According to another aspect of the utility model embodiment the piece equipment turns over, transmission device includes first transmission subassembly, second transmission subassembly and counter, first transmission subassembly includes buncher, first action wheel, first transmission area and the first follow driving wheel of following, first action wheel with first follow driving wheel passes through first transmission area is connected, buncher with first action wheel coaxial rotation, second transmission subassembly include two seconds follow driving wheel with the second transmission area, two the second passes through from the driving wheel the second transmission area is connected, two the second from the driving wheel set up respectively in transmission device's input and output, be located the transmission device output the second from the driving wheel with first follow driving wheel coaxial rotation, the counter set up in transmission device's output.

According to the utility model discloses an on the other hand embodiment turn over piece equipment, third transmission assembly still includes that the third follows driving wheel, third action wheel and third transmission band, the third follows the driving wheel with the third action wheel passes through the third transmission band is connected, power part with third action wheel coaxial rotation, the third follows the output shaft of driving wheel along the width direction of second transmission band extends to the transmission horizontal plane below of second transmission band, turn over the piece fork with the third follows driving wheel coaxial rotation.

According to the utility model discloses an on the other hand embodiment turn over piece equipment, turn over the both wings of piece fork along the third sets up side by side from the length direction of driving wheel output shaft the both sides of the annular connecting seat of piece fork turn over, the third passes from the output shaft of driving wheel the annular connecting seat of piece fork turns over.

According to the utility model discloses an other aspect embodiments provide a lamination equipment, including transposition mechanism and above arbitrary any piece equipment turns over, transposition mechanism sets up transmission device's output one side, transposition mechanism includes second step motor and carousel, the second step motor with the coaxial rotation of carousel.

Has the advantages that: the lamination equipment comprises any one of the sheet turning equipment and the transposition mechanism, the transposition mechanism is arranged on one side of the output end of the transmission mechanism, the transposition mechanism comprises a second stepping motor and a rotating disc, and the second stepping motor and the rotating disc rotate coaxially. When the sheet count is full of the target number of sheets, the second stepping motor drives the rotary table to rotate, so that automatic transposition is realized, shutdown is not needed, and production efficiency is high.

According to the utility model discloses other aspect embodiments lamination equipment, the rotation horizontal plane of carousel is less than the transmission horizontal plane of second transmission band, be provided with two on the carousel and get the material level, two it sets up to get the material level the both sides in the centre of a circle of carousel, and with the centre of a circle of carousel is located a straight line.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples;

fig. 1 is a schematic view of the starting state of the sheet turning mechanism of the present invention;

FIG. 2 is a schematic view of the sheet turning mechanism of the present invention rotating n degrees at intervals;

FIG. 3 is a schematic view of the sheet turning mechanism of the present invention rotating 360-n-x degrees at intervals;

fig. 4 is a bottom view of the sheet turning mechanism of the present invention.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by referring to the orientation description, such as up, down, front, rear, left, right, top surface, bottom, inner side, outer side, etc., is the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device 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 invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

The sheet material mentioned in the embodiment of the present invention is exemplified by a ceramic sheet, the existing ceramic sheet mainly uses zirconia material, the length and width of the ceramic sheet is about 100 × 100mm, the thickness is 0.1-1 mm, and the sheet material is mainly applied to the fields of solid-state batteries, ceramic substrates, etc. Before the ceramic wafer is sent into the oven, the ceramic wafer needs to be stacked into dozens of wafers or dozens of wafers according to requirements, and then the ceramic wafer is sent into the oven to be dried and is subjected to the subsequent sintering process. The lamination process requires no pollution and the product is not deformed after being dried.

The existing lamination mode mainly has two types: the automatic lamination machine is characterized in that the automatic lamination is adopted, the product is punched out of the appearance from the production line and is conveyed out in the same direction through the conveying belt, the counting is carried out through one detection optical fiber at the tail part of the conveying belt, the counting is stopped when the target sheet number is full, the machine table is restarted after the counting is taken out to continue working, the automatic lamination machine cannot realize the function of positive and negative lamination, and due to the fact that no positive and negative lamination exists, the product is deformed and exceeds the standard after being dried, the flatness is unqualified, the product is large in brittleness, the product is easy to damage by collision, and the product is qualified and low in reduction.

In addition, because there is no automatic transposition device during the ejection of compact, need shut down and get the material.

The other method is that the target pieces are stacked and placed in a kiln for drying after the target pieces are manually placed in a positive mode and in a reverse mode, manual operation is completely adopted in the whole process, the manual operation efficiency is low, and the pollution is serious due to the fact that a person touches the products.

Referring to fig. 1 and 4, a sheet turning mechanism for turning a ceramic sheet on a second conveyor belt 222 is provided, and includes a third conveyor assembly 310, a sheet turning fork 320, and a position sensor 330.

As will be readily appreciated, the third transmission assembly 310 includes a power member, the power member drives the blade-turning fork 320 to rotate, so as to realize the spaced blade-turning of the sheet, the position sensor 330 is disposed below the blade-turning fork 320, and the blade-turning fork 320 includes a first working state and a second working state; in the first working state, the power part drives the turning fork 320 to rotate from the initial position, so that the sheets are turned; in the second working state, the power part drives the blade-turning fork 320 to reset, and the blade-turning fork does not contact with the sheet. The flap fork 320 goes through a cycle of the first operation state plus the second operation state, which is a cycle of two sheet conveyances.

As will be readily understood, the method of adjusting the angle of the stepping motor: the number and frequency of control pulses of the stepping motor are adjusted by programming a program, so that the positioning degree of the stepping motor is realized, and the rotation of the stepping motor is operated step by step at a fixed angle.

In a specific embodiment, the power part adopts a first stepping motor 312, and the rotation angles of the first stepping motor 312 for one interval turning period are set to be n degrees, 360 degrees to n degrees to x degrees and x degrees in sequence, wherein the range of the angle value n is 90-180 degrees, and the range of x is more than 0 and less than 360-n; in the process that the first stepping motor 312 drives the blade turning fork 320 to rotate by an angle of n degrees from the initial position, the blade turning fork 320 is in a first working state; then, during the process that the first stepping motor 312 drives the blade-turning fork 320 to rotate by x °, the blade-turning fork 320 is in the second working state.

Specifically, one turn-over interval is the time for two sheet conveyance, and the sheet without turn-over may start conveyance from the end of n ° rotation and before x ° rotation, or from the end of 360 ° -n ° -x ° rotation.

It will be readily appreciated that the blade-turning fork 320 is oriented toward the input end of the second conveyor belt 222 when the blade-turning fork 320 is in the starting position, and that the blade-turning fork 320 is oriented toward the output end of the second conveyor belt 222 after the blade-turning fork 320 is rotated n ° from the starting position.

In one specific embodiment, assume that it is desired to first apply no-flip processing to the sheet, where the start position of the flip fork 320 begins after one n ° turn of the alternate flip cycle, or after one 360 ° -n ° -x turn of the alternate flip cycle.

In a specific embodiment, the first stepping motor 312 drives the blade turning fork 320 to rotate by setting a rotation angle to realize the interval blade turning of the sheets, and the rotation angle of one interval blade turning period of the first stepping motor 312 is set to be n degrees, 360 degrees to n degrees, wherein the angle value n ranges from 90 to 180 degrees, and the included angle of each V-shaped blade is 180 degrees to n degrees.

It is easy to understand that when n is in the range of 0 to 90, it cannot function as a flip chip, and when n is in the range of 180 to 360, it cannot be realized, for example, when n is 180, the first side of the flip chip fork 320 is located below the second conveyor belt 222, and the second side is parallel to the second conveyor belt 222, and presses on the ceramic sheet, and for the ceramic sheet running on the second conveyor belt 222, it already functions as a barrier, and when the value exceeds 180, it cannot be realized. Since the second side of the flip fork 320 cannot pass through the ceramic sheet and thus is below the second conveyor belt 222.

Further, the third transmission assembly 310 further includes a third driven wheel 311, a third driving wheel 313 and a third transmission belt 314, the third driven wheel 311 and the third driving wheel 313 are connected by the third transmission belt 314, the first stepping motor 312 and the third driving wheel 313 rotate coaxially, an output shaft of the third driven wheel 311 extends to below a transmission horizontal plane of the second transmission belt 222 along a width direction of the second transmission belt 222, the flipping fork 320 is disposed at two sides of the second transmission belt 222, and the flipping fork 320 and the third driven wheel 311 rotate coaxially.

It is easily understood that the position sensor 330 is provided below the blade-flipping fork 320 for detecting the sheet.

In a specific embodiment, the rotation angle of the first stepping motor 312 is set to 135 °, 90 °, and 135 ° every other flipping period. When the position sensor 330 detects a sheet, the blade turning fork 320 rotates 135 degrees to turn the blade again by 90 degrees under the driving of the first stepping motor, and then when the position sensor 330 detects the sheet again, the blade turning fork 320 rotates 135 degrees to return to the initial position without turning the blade.

In a specific embodiment, the blade-turning fork 320 includes an annular connecting seat 321 and two V-shaped blades 322, the included angle of each V-shaped blade is 180 ° -n °, n is the value of the rotation angle of the aforementioned first stepping motor 312 from the initial position, the two V-shaped blades 322 are arranged side by side on both sides of the annular connecting seat 321 along the length direction of the output shaft of the third driven wheel 311, and the output shaft of the third driven wheel 311 passes through the annular connecting seat 321. Be provided with the silica gel grain on the piece fork 320 of turning over, play the cushioning effect to the sheet, prevent the striking damage.

In a specific embodiment, a dust cover 340 is arranged above the sheet turning mechanism, so that the cleanness of the production process of the product is ensured, and pollution is avoided.

Referring to fig. 1 and 4, there is provided a sheet turnover device including a frame 100, a transfer mechanism 200, and a sheet turnover mechanism.

Specifically, the transport mechanism 200 includes a first transport assembly 210, a second transport assembly 220, and a counter.

As will be readily understood, the first transmission assembly 210 includes a speed motor 211, a first driving wheel 212, a first transmission belt 213 and a first driven wheel 214, the first driving wheel 212 and the first driven wheel 214 are connected by the first transmission belt 213, and the speed motor 211 and the first driving wheel 212 rotate coaxially.

As will be readily understood, the second transmission assembly 220 includes two second driven wheels 221 and a second transmission belt 222, the second transmission belt 222 is mounted on the frame 100, the two second driven wheels 221 are connected by the second transmission belt 222, the two second driven wheels 221 are respectively disposed at the input end and the output end of the transmission mechanism 200, the second driven wheel 221 at the output end of the transmission mechanism 200 and the first driven wheel 214 rotate coaxially, the counter 500 is disposed at the output end of the transmission mechanism 200, and the counter 500 counts the number of sheets transmitted on the second transmission belt 222 by using an optical fiber.

Referring to fig. 1 and 4, there is provided a lamination apparatus including a transposition mechanism 400 and a sheet turning apparatus, the transposition mechanism 400 being disposed at an output end side of the transport mechanism 200, the transposition mechanism 400 including a second stepping motor 410 and a turntable 420, the second stepping motor 410 driving the turntable 420 to rotate synchronously, the rotation angle of the second stepping motor 410 being set in advance to 180 °.

It is easy to understand that the rotation level of the rotating disc 420 is lower than the transmission level of the second conveyor belt 222, two material taking positions 421 are arranged on the rotating disc 420, and the two material taking positions 421 are arranged on two sides of the center of circle of the rotating disc 420 and are located on the same straight line with the center of circle of the rotating disc 420. The output end of the second conveyor belt 222 is connected with an inclined plate, so that the ceramic plate can be conveniently transited to the material taking position.

In a specific embodiment, a striker plate 422 is disposed on one side of the material taking position 421 near the center of the rotating disc 420.

In a specific embodiment, a pallet 223 is arranged below the transport level of the second conveyor 222. When the second conveyor belt 222 of the conveying mechanism 200 is in a slack state or the distance between the upper horizontal surface and the lower horizontal surface of the second conveyor belt 222 is too small, the upper horizontal surface and the lower horizontal surface of the second conveyor belt 222 may interfere with each other. Therefore, a conveyor blade is generally disposed in the second conveyor 222.

In one particular embodiment, the second conveyor belt 222 is provided with a tensioning mechanism 224. The tensioning mechanism 224 adopts a tension spring assembly to tension the second conveyor belt 222, or adopts an expansion sleeve assembly to tension the second conveyor belt 222, so as to prevent the tightness variation caused by the belt length error of the second conveyor belt 222.

Referring to fig. 1, the position sensor 330 is disposed below the blade fork 320. When the position sensor 330 detects that the sheets reach the sheet turning fork 320, the sheet turning fork 320 carries the sheets and is driven by the first stepping motor 312 to pass through the two sides of the third conveying belt 314, the clockwise rotation of the sheets by 135 degrees is realized, the current position is determined by the optical coupling disc, the angle is set by the first stepping motor 312, the sheets are sent out, the sheet turning fork 320 rotates by 90 degrees clockwise, the next sheet is not turned, and the sheets are directly transmitted out, so that the feeding mode of turning one sheet and not turning one sheet is realized. The direction consistency of the whole laminated product is ensured during the subsequent lamination operation, and the accumulation of the warping degree caused by different lamination directions is eliminated.

It will be readily appreciated that the output end of the transport mechanism 200 is counted by the optical fibers, and the sheets are transported by the second transport belt 222 to slide down onto the turntable 420, the turntable 420 being driven by the second stepping motor 410. When the target number of sheets is reached, the turntable 420 rotates 180 ° to be sent to the material taking position 421 and then taken away. Automatic transposition is not needed during discharging, and stopping for discharging is not needed.

The working principle is as follows:

the rotation of the adjustable speed motor 211 drives the first driving wheel 212 to rotate, and further drives the first driven wheel 214 to rotate through the first transmission belt 213. The rotation of the first driven wheel 214 drives the second driven wheel 221 at the output end of the transmission mechanism 200 to rotate, and further drives the second transmission belt 222 and another second driven wheel 221 to rotate. The sheets are sent into the second conveying belt 222 from the input end of the conveying mechanism 200, when the position sensor 330 detects that the sheets reach the sheet turning fork 320, the sheet turning fork 320 carries the sheets and is driven by the first stepping motor 312 to pass through the two sides of the third conveying belt 314, the clockwise rotation of the sheets by 135 degrees is realized, the current position is determined through the optical coupling disc, the angle is set by the first stepping motor 312, the sheets are sent out, the sheet turning fork 320 rotates by 90 degrees clockwise, the sheets of the next sheet are not turned, and the sheets are directly conveyed out, so that the feeding mode of turning one sheet and not turning one sheet is realized. The output end of the transport mechanism 200 is counted by the optical fiber, the sheet is transported by the second transport belt 222 to slide down onto the turntable 420, and the turntable 420 is driven by the second stepping motor 410. When the target number of sheets is reached, the turntable 420 rotates 180 ° to be sent to the material taking position 421 and then taken away.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. A sheet turnover mechanism applied to a transport mechanism along which a sheet is conveyed, comprising:

the sheet turning device comprises a third transmission assembly, a sheet turning fork and a position sensor, wherein the third transmission assembly comprises a power part, the power part drives the sheet turning fork to rotate so as to realize the interval sheet turning of sheets, the position sensor is arranged below the sheet turning fork, and the sheet turning fork comprises a first working state and a second working state;

in the first working state, the power part drives the turning fork to rotate from the starting position, so that the sheet material is turned;

in the second working state, the power part drives the blade turning fork to reset, and the blade turning fork is not contacted with the sheet.

2. The flap mechanism of claim 1, wherein: the power part adopts a first stepping motor, and the rotation angle of the first stepping motor in one interval turning period is set to be n degrees, 360 degrees to n degrees to x degrees and x degrees, wherein the range of the angle value n is 90-180 degrees; in the process that the first stepping motor drives the blade turning fork to rotate by an angle of n degrees from the initial position, the blade turning fork is in the first working state; and in the process that the first stepping electrode drives the blade turning fork to rotate by x degrees, the blade turning fork is in the second working state.

3. The flap mechanism of claim 2, wherein: the blade turning fork comprises an annular connecting seat and two V-shaped blades, the included angle of each V-shaped blade is 180-n degrees, and the two V-shaped blades are arranged on two sides of the annular connecting seat.

4. The flap mechanism of claim 1, wherein: and a buffer layer is arranged on the turning piece fork.

5. A sheet turning apparatus, comprising:

a frame;

the conveying mechanism comprises a second conveying belt, and the second conveying belt is arranged on the rack; and

the flap mechanism according to any one of claims 1 to 4, the flap fork being disposed on the second conveyor belt.

6. The sheet turning apparatus according to claim 5, wherein: transport mechanism includes first transmission subassembly, second transmission subassembly and counter, first transmission subassembly includes buncher, first action wheel, first transmission area and the first driving wheel of following, first action wheel with first follow driving wheel passes through first transmission area is connected, buncher with the coaxial rotation of first action wheel, second transmission subassembly include two seconds follow the driving wheel with the second transmission area, two the second passes through from the driving wheel the second transmission area is connected, two the second from the driving wheel set up respectively in transport mechanism's input and output are located the transport mechanism output the second from the driving wheel with first follow coaxial rotation of driving wheel, the counter set up in transport mechanism's output.

7. The sheet turning apparatus according to claim 5, wherein: the third transmission assembly further comprises a third driven wheel, a third driving wheel and a third transmission belt, the third driven wheel and the third driving wheel are connected through the third transmission belt, the power part and the third driving wheel rotate coaxially, an output shaft of the third driven wheel extends to the lower portion of a transmission horizontal plane of the second transmission belt along the width direction of the second transmission belt, and the turnover fork and the third driven wheel rotate coaxially.

8. The sheet turning apparatus according to claim 7, wherein: two wings of the blade turning fork are arranged on two sides of the annular connecting seat of the blade turning fork side by side along the length direction of the output shaft of the third driven wheel, and the output shaft of the third driven wheel penetrates through the annular connecting seat of the blade turning fork.

9. A lamination apparatus, comprising:

the sheet turning apparatus according to any one of claims 5 to 8;

the transposition mechanism is arranged on one side of the output end of the transmission mechanism and comprises a second stepping motor and a rotary table, and the second stepping motor and the rotary table rotate coaxially.

10. The lamination apparatus according to claim 9, wherein: the rotation horizontal plane of carousel is less than the transmission horizontal plane of second transmission band, be provided with two on the carousel and get the material level, two it sets up to get the material level the both sides in the centre of a circle of carousel, and with the centre of a circle of carousel is located a straight line.

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