CN217555429U - Integrated device for laying adhesive tape paper and bus bar - Google Patents

Abstract

The utility model relates to an integrated device that is used for adhesive tape paper and busbar to lay, include: an X-axis sliding mechanism; the Y-axis sliding mechanism is connected with the X-axis sliding mechanism and comprises a first Y-axis sliding block and a second Y-axis sliding block, and the adhesive tape attaching mechanism is connected with the first Y-axis sliding block; the Z-axis linear screw rod mechanism is connected with the second Y-axis sliding block, and the Z-axis linear screw rod mechanism and the adhesive tape attaching mechanism are respectively positioned on two sides of the Y-axis sliding mechanism; the rotary sucker mechanism is connected with the Z-axis sliding mechanism; and the Y-axis conveying mechanism is arranged below the X-axis conveying assembly. During operation, sticky tape attaching mechanism pastes double-sided adhesive tape earlier on the glass substrate that is carried by Y axle conveying mechanism, then rotatory sucking disc mechanism will cut out the busbar that has specific length and shape in advance and lay double-sided adhesive tape again on, and whole device can set up in the middle part of production water line, can realize laying fast of adhesive tape and busbar, has improved production efficiency greatly.

Description

Integrated device for laying adhesive tape and bus bar

Technical Field

The utility model belongs to the technical field of the photovoltaic cell production technique and specifically relates to indicate an integrated device that is used for sticky tape and busbar to lay.

Background

With the development of photovoltaic technology, people have researched the technology of using a thin film photovoltaic cell to replace a monocrystalline silicon material to realize solar power generation, the traditional photovoltaic power generation material is a crystalline silicon material which is expensive and difficult to manufacture, and the traditional photovoltaic power generation material is difficult to popularize and apply, while the glass or other material substrates are coated with a plurality of layers of metal or nonmetal thin film materials by an electron gun to replace the crystalline silicon material to be used for solar power generation, so that the production cost can be greatly reduced, and the solar power generation material is more suitable for popularization and application.

At present, in the production process of the photovoltaic cell, double-sided adhesive tape paper is generally pasted on a glass substrate coated with a solar conductive coating, then a longitudinal bus bar is laid on the surface of the double-sided adhesive tape paper, two groups of screw rod mechanisms are generally arranged on common related equipment, and a tape pasting component and a bus bar laying component on the screw rod mechanisms are respectively driven to perform directional movement with specified length, wherein the bus bar laying component is provided with a bus bar winding wheel, the two components are mutually and alternately pasted on the glass substrate, but the equipment is limited by the screw rods, the yield and the precision of the equipment are not too high, the assembly line operation mode becomes normal along with the gradual deepening of a factory to the 'high-efficiency production' call, the bus bar is also generally made into a specific length and a specific shape in advance by a common factory, and an integration device is required to be matched with other production lines to realize the pasting of the photovoltaic cell.

SUMMERY OF THE UTILITY MODEL

Therefore, the technical problem to be solved by the present invention is to overcome the problem of lacking an integrated device capable of batch laying of adhesive tape and bus bar with specific length on glass substrate in the prior art.

In order to solve the technical problem, the utility model provides an integrated device that is used for sticky tape and busbar to lay, include:

an X-axis sliding mechanism;

the Y-axis sliding mechanism is connected with the X-axis sliding mechanism and comprises a first Y-axis sliding block and a second Y-axis sliding block;

the adhesive tape attaching mechanism is connected with the first Y-axis sliding block;

the Z-axis linear screw rod mechanism is connected with the second Y-axis sliding block, and the Z-axis linear screw rod mechanism and the adhesive tape attaching mechanism are respectively positioned on two sides of the Y-axis sliding mechanism;

the rotary sucker mechanism is connected with the Z-axis sliding mechanism;

the Y-axis conveying mechanism is arranged below the X-axis conveying assembly;

when the double-sided adhesive tape sticking mechanism works, the double-sided adhesive tape is firstly stuck to the glass substrate carried by the Y-axis conveying mechanism by the adhesive tape sticking mechanism, and then the bus bar which is cut in advance is laid on the double-sided adhesive tape by rotating the sucking disc mechanism.

In an embodiment of the present invention, the tape attaching mechanism includes a first fixing plate, a tape winding wheel, a material receiving wheel and an auxiliary wheel, the tape winding wheel, the material receiving wheel and the auxiliary wheel are connected to the first fixing plate, and the first fixing plate is connected to the first Y-axis slider.

The utility model discloses an in one embodiment, the attached mechanism of sticky tape still includes the first actuating cylinder of driving and rotates the connecting piece, rotate the connecting piece one end with first fixed plate rotates to be connected, rotate the connecting piece the other end with the first output that drives the actuating cylinder rotates to be connected, the first stiff end that drives the actuating cylinder is connected first fixed plate, it still is provided with first pinch roller to rotate the connecting piece.

In one embodiment of the present invention, the rotating connector is provided with an upper pressing block, the first fixing plate is provided with a lower pressing block, and a tape flowing groove is formed between the upper pressing block and the lower pressing block.

The utility model discloses an in one embodiment, the attached mechanism of sticky tape still includes that second pinch roller, sticky tape are cut and the second drives actuating cylinder, the second drives actuating cylinder and is provided with two, two the second drives actuating cylinder and connects respectively the second pinch roller with the sticky tape is cut, the second pinch roller is close to first pinch roller, the sticky tape cut set up in first pinch roller with between the second pinch roller.

In an embodiment of the present invention, the rotary chuck mechanism includes a rotary drive source and a strip chuck group, the strip chuck group is connected to the rotary drive source.

In an embodiment of the utility model, the output of Z axle straight line lead screw mechanism is provided with L shape mounting panel, the one end of L shape board is connected rotary drive source, the other end of L shape mounting panel is provided with telescopic cylinder, telescopic cylinder's output is provided with the busbar briquetting.

The utility model discloses an embodiment still includes the sucking disc mount, sucking disc mount parallel arrangement has a plurality ofly.

In an embodiment of the present invention, the Y-axis conveying mechanism is provided with a plurality of groups, and the plurality of groups are alternately distributed on the suction cup fixing frame.

In an embodiment of the utility model, the multiple sets of Y axle conveying mechanism is connected through the bed frame between, still be provided with elevating system below the bed frame.

Compared with the prior art, the technical scheme of the utility model have following advantage:

a integrated device for sticky tape and busbar lay, through setting up X axle slide mechanism and Y axle slide mechanism, and set up the attached mechanism of sticky tape and rotatory sucking disc mechanism respectively in Y axle slide mechanism's both sides, after Y axle conveying mechanism of below carried the glass substrate to come, the attached mechanism of sticky tape can realize horizontal and fore-and-aft double-sided sticky tape's attached along with top slide mechanism's removal, rotatory sucking disc mechanism can be attached to double-sided sticky tape with the busbar that has specific length and shape of cutting out in advance simultaneously, whole device can set up in the middle part of production water line, can realize laying fast of sticky tape and busbar, production efficiency is greatly improved.

Drawings

In order to make the content of the invention more clearly understood, the invention will now be described in further detail with reference to specific embodiments thereof, in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural view of an integrated device for laying adhesive tape and bus bars according to the present invention;

FIG. 2 is a schematic diagram of a tape application mechanism of the integrated device for taping and bus bar application of FIG. 1;

FIG. 3 is a schematic view of the rotary mechanism of the integrated taping and bus bar laying apparatus of FIG. 1;

fig. 4 is a schematic view of the structure of the Y-axis conveying mechanism in the integrated apparatus for applying adhesive tape and bus bar shown in fig. 1.

The specification reference numbers indicate: 1. an X-axis sliding mechanism; 2. a Y-axis slide mechanism; 201. a first Y-axis slide block; 202. a second Y-axis slide block; 3. a tape attaching mechanism; 301. a first fixing plate; 302. a tape reel; 303. a material receiving wheel; 304. an auxiliary wheel; 305. a first driving cylinder; 306. rotating the connecting piece; 307. a first pinch roller; 308. a second pinch roller; 309. cutting the adhesive tape; 4. a Z-axis linear screw mechanism; 401. a telescopic cylinder; 402. pressing the bus bar; 5. a rotary sucker mechanism; 501. a rotary drive source; 502. a strip sucker group; 6. a Y-axis conveying mechanism; 7. a suction cup fixing frame; 8. a lifting mechanism.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 to 4, the present invention provides an integrated device for laying adhesive tape and bus bars, comprising:

an X-axis slide mechanism 1;

specifically, the whole device is fixed on a frame body frame, and an X-axis sliding mechanism 1 is fixed above the frame body frame and consists of two groups of transmission belt conveying wheel sets along the X-axis direction.

The Y-axis sliding mechanism 2 is connected with the X-axis sliding mechanism 1, and the Y-axis sliding mechanism 2 comprises a first Y-axis sliding block 201 and a second Y-axis sliding block 202;

specifically, the Y-axis sliding mechanism 2 further includes a Y-axis driving source, and both ends of the Y-axis driving source are connected to the transmission belt of the X-axis sliding mechanism 1 through clamping pieces, so as to move the Y-axis sliding mechanism 2 in the X-axis direction.

A tape attaching mechanism 3 connected to the first Y-axis slider 201;

the Z-axis linear screw rod mechanism 4 is connected with the second Y-axis slide block 202, and the Z-axis linear screw rod mechanism 4 and the adhesive tape attaching mechanism 3 are respectively positioned at two sides of the Y-axis sliding mechanism 2;

specifically, the tape attaching mechanism 3 and the Z-axis linear lead screw mechanism 4 can independently realize movement in the X-axis direction and the Y-axis direction, so as to realize transverse and longitudinal laying of tape paper and bus bars.

A rotary sucker mechanism 5 connected with the Z-axis sliding mechanism;

specifically, the rotating chuck mechanism 5 is driven by the Z-axis sliding mechanism to suck and attach the bus bar.

The Y-axis conveying mechanism 6 is arranged below the X-axis conveying assembly;

specifically, the Y-axis conveying mechanism 6 is used for receiving and conveying the received glass substrate.

In operation, the tape attaching mechanism 3 attaches double-sided adhesive tape to the glass substrate carried by the Y-axis conveying mechanism 6, and then rotates the suction cup mechanism 5 to lay the pre-cut bus bar on the double-sided adhesive tape.

In conclusion, the integrated device for laying the adhesive tape paper and the bus bars is provided with the X-axis sliding mechanism 1 and the Y-axis sliding mechanism 2, the adhesive tape attaching mechanism 3 and the rotary sucker mechanism 5 are respectively arranged on two sides of the Y-axis sliding mechanism 2, when the glass substrate is conveyed by the Y-axis conveying mechanism 6 on the lower portion, the adhesive tape attaching mechanism 3 can attach the transverse and longitudinal double-sided adhesive tape paper along with the movement of the upper sliding mechanism, meanwhile, the rotary sucker mechanism 5 can attach the pre-cut bus bars with specific lengths and shapes to the double-sided adhesive tape paper, the whole device can be arranged in the middle of a production line, the adhesive tape paper and the bus bars can be laid quickly, and the production efficiency is greatly improved.

With continued reference to fig. 2, the tape attaching mechanism 3 includes a first fixing plate 301, a tape winding wheel 302, a material receiving wheel 303, and an auxiliary wheel 304, wherein the tape winding wheel 302, the material receiving wheel 303, and the auxiliary wheel 304 are connected to the first fixing plate 301, and the first fixing plate 301 is connected to the first Y-axis slider 201.

Specifically, the adhesive tape winding wheel 302 and the material receiving wheel 303 are arranged on two sides of the first fixing plate 301, the auxiliary wheels 304 are provided with a plurality of winding auxiliary wheels 304 and waste auxiliary wheels 304, and in addition, the auxiliary wheels further comprise waste driving wheels, and the waste driving wheels are connected with servo motors fixed on the first fixing plate 301, so that a power source is provided for material receiving.

Further, the tape attaching mechanism 3 further comprises a first driving cylinder 305 and a rotating connecting piece 306, one end of the rotating connecting piece 306 is rotatably connected with the first fixing plate 301, the other end of the rotating connecting piece 306 is rotatably connected with the output end of the first driving cylinder 305, the fixed end of the first driving cylinder 305 is connected with the first fixing plate 301, and the rotating connecting piece 306 is further provided with a first pressing wheel 307.

Specifically, a connecting piece is fixed at the end of the telescopic rod of the first driving cylinder 305, and the connecting piece is rotationally connected with the rotating connecting piece 306, it is conceivable that the whole driving cylinder can drive the rotating connecting piece 306 to rotate up and down and move when acting, and the practical effect is that the first pressing wheel 307 can be driven to switch the direction, so as to limit the position of the adhesive tape.

Further, the rotating connection member 306 is provided with an upper pressing block, the first fixing plate 301 is provided with a lower pressing block, and a tape circulation groove is formed between the upper pressing block and the lower pressing block.

Specifically, when the first driving cylinder 305 operates, the upper pressing block moves downward under the driving of the rotating connecting piece 306, and the tape flowing groove formed by the upper pressing block and the lower pressing block mainly provides a certain guiding function for the traction of the tape.

Further, the adhesive tape attaching mechanism 3 further comprises two second pressing wheels 308, two adhesive tape scissors 309 and two second driving cylinders, the two second driving cylinders are respectively connected with the second pressing wheels 308 and the adhesive tape scissors 309, the second pressing wheels 308 are close to the first pressing wheels 307, and the adhesive tape scissors 309 are arranged between the first pressing wheels 307 and the second pressing wheels 308.

Specifically, the second pressing wheel 308 is responsible for pressing the double-sided tape paper that has been peeled off onto the glass substrate, and the tape cutter 309 extends a certain distance to cut off the double-sided tape paper, and then extends back.

Continuing to refer to fig. 3, the rotary chuck mechanism 5 includes a rotary drive source 501 and a strip chuck group 502, the strip chuck group 502 being connected to the rotary drive source 501.

Specifically, the strip suction cup group 502 includes a mounting bar and a plurality of micro suction cups, and when two bus bars are mounted on a piece of adhesive tape paper, the rotation driving source 501 can ensure that the bus bars can be mounted symmetrically under the condition that the rotation center of the rotation driving source is not moved.

Further, an L-shaped mounting plate is arranged at the output end of the Z-axis linear screw rod mechanism 4, one end of the L-shaped plate is connected with the rotary driving source 501, a telescopic cylinder 401 is arranged at the other end of the L-shaped mounting plate, and a bus bar pressing block 402 is arranged at the output end of the telescopic cylinder 401.

Specifically, the terminal movable block that is provided with of lead screw of Z axle straight line lead screw mechanism 4, the lower extreme of this movable block is connected to the one end of L shape mounting panel, rotary drive source 501 sets up on L shape mounting panel and is located the movable block under, telescopic cylinder 401 then sets up in the side, busbar briquetting 402 is the gyro wheel form, for the compaction busbar, in actual work, Z axle straight line lead screw mechanism 4 adsorbs the busbar to double-sided sticky tape paper earlier, then move one section distance and let busbar briquetting 402 live this busbar, then telescopic cylinder 401 moves, compress tightly the busbar.

More, the Z-axis linear screw mechanism 4 is further provided with a guide shaft mechanism for the stability of the actions of the lower strip sucker group 502 and the side telescopic mechanism.

Continuing to refer to fig. 4, the device further comprises a plurality of sucker fixing frames 7, and the plurality of sucker fixing frames 7 are arranged in parallel. The Y-axis conveying mechanism 6 is provided with a plurality of groups, and the plurality of groups of Y-axis conveying mechanisms 6 and the plurality of sucker fixing frames 7 are alternately distributed.

Specifically, the suction cup fixing frame 7 includes a fixing frame formed by a plurality of groups of support rods and support plates, and a plurality of suction cups are further provided on a single support plate for fixing the glass substrate.

More, be provided with a plurality of stop gear on sucking disc mount 7.

Furthermore, the multiple groups of Y-axis conveying mechanisms 6 are connected through a base frame, and a lifting mechanism 8 is further arranged below the base frame.

Specifically, Y axle conveyor 6 comprises three parallel arrangement's belt biography belt conveyor groups of group, and three belt biography belt conveyor groups of group are fixed by the horizontal vertical bed frame of below for carry the glass substrate of coming from other production line, and still be connected with the jacking cylinder in the below of bed frame, when the during operation, the jacking cylinder will drive the glass substrate on the Y axle conveyor 6 and fall to sucking disc mount 7 on with fixed.

Further, the Y-axis conveying mechanism 6 is also provided with a mechanism for restricting the glass substrate.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. And obvious changes and modifications can be made without departing from the scope of the invention.

Claims (10)

1. An integrated device for taping and bus bar laying, comprising:

an X-axis sliding mechanism;

the Y-axis sliding mechanism is connected with the X-axis sliding mechanism and comprises a first Y-axis sliding block and a second Y-axis sliding block;

the adhesive tape attaching mechanism is connected with the first Y-axis sliding block;

the Z-axis linear screw rod mechanism is connected with the second Y-axis sliding block, and the Z-axis linear screw rod mechanism and the adhesive tape attaching mechanism are respectively positioned on two sides of the Y-axis sliding mechanism;

the rotary sucker mechanism is connected with the Z-axis sliding mechanism;

the Y-axis conveying mechanism is arranged below the X-axis conveying assembly;

when the double-sided adhesive tape sticking mechanism works, the double-sided adhesive tape is firstly stuck to the glass substrate carried by the Y-axis conveying mechanism by the adhesive tape sticking mechanism, and then the bus bar which is cut in advance is laid on the double-sided adhesive tape by rotating the sucking disc mechanism.

2. The integrated apparatus for taping and bus bar laying of claim 1, wherein: the adhesive tape attaching mechanism comprises a first fixing plate, an adhesive tape winding wheel, a material receiving wheel and an auxiliary wheel, the adhesive tape winding wheel, the material receiving wheel and the auxiliary wheel are connected with the first fixing plate, and the first fixing plate is connected with the first Y-axis sliding block.

3. The integrated apparatus for taping and bus bar laying of claim 2, wherein: the attached mechanism of sticky tape still includes first drive actuating cylinder and rotation connecting piece, the one end of rotation connecting piece with first fixed plate rotates to be connected, the other end of rotation connecting piece with first output that drives actuating cylinder rotates to be connected, first stiff end that drives actuating cylinder is connected first fixed plate, it still is provided with first pinch roller to rotate the connecting piece.

4. The integrated apparatus for taping and bus bar laying of claim 3, wherein: the rotating connecting piece is provided with an upper pressing block, the first fixing plate is provided with a lower pressing block, and an adhesive tape circulation groove is formed between the upper pressing block and the lower pressing block.

5. The integrated apparatus for taping and bus bar laying of claim 3, wherein: the adhesive tape attaching mechanism further comprises a second pressing wheel, adhesive tape scissors and a second driving cylinder, wherein the second driving cylinder is provided with two driving cylinders, the second driving cylinder is connected with the second pressing wheel and the adhesive tape scissors, the second pressing wheel is close to the first pressing wheel, and the adhesive tape scissors are arranged between the first pressing wheel and the second pressing wheel.

6. The integrated device for taping and bus bar laying according to claim 1, wherein: the rotary sucker mechanism comprises a rotary driving source and a strip sucker group, and the strip sucker group is connected with the rotary driving source.

7. The integrated device for taping and bus bar laying according to claim 6, wherein: the output of Z axle straight line lead screw mechanism is provided with L shape mounting panel, the one end of L shape board is connected rotary drive source, the other end of L shape mounting panel is provided with telescopic cylinder, telescopic cylinder's output is provided with the busbar briquetting.

8. The integrated device for taping and bus bar laying according to claim 1, wherein: still include the sucking disc mount, sucking disc mount parallel arrangement has a plurality ofly.

9. The integrated apparatus for taping and bus bar laying of claim 8, wherein: the Y-axis conveying mechanism is provided with a plurality of groups, and the Y-axis conveying mechanism and the sucker fixing frames are alternately distributed.

10. The integrated apparatus for taping and bus bar laying of claim 9, wherein: the Y-axis conveying mechanisms are connected through a base frame, and a lifting mechanism is further arranged below the base frame.

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