CN113690343A - Solar wafer stringer - Google Patents

Abstract

The invention relates to the technical field of solar cells, and provides a solar cell series welding machine which comprises a stacking device, a gluing device and a welding device, wherein the stacking device, the gluing device and the welding device are arranged on a rack along a conveying device, the conveying device is arranged at the tail end of the conveying device, a cooling device is arranged at the tail end of the conveying device, a support is rotatably arranged on the conveying device and moves along with the conveying device, a clamping jaw is rotatably arranged on the support, an open slot is formed in a conveying belt, a traction piece is slidably arranged on the rack through a second telescopic piece, and a second grabbing device is arranged between the conveying device and the cooling device. Through above-mentioned technical scheme, the inefficiency problem of the welding battery piece among the prior art has been solved.

Description

Solar wafer stringer

Technical Field

The invention relates to the technical field of solar cells, in particular to a solar cell series welding machine.

Background

A solar cell is a photoelectric semiconductor sheet that directly generates electricity by using sunlight, and is also called a "solar chip" or a "photovoltaic cell", and as long as illuminance under a certain illuminance condition is satisfied, voltage can be instantly output and current can be generated under the condition that a loop exists. Physically called solar photovoltaic, referred to as photovoltaic for short. Solar cells are devices that directly convert light energy into electrical energy through photoelectric effect or photochemical effect, crystalline silicon solar cells working with photovoltaic effect are the mainstream, and thin film cells working with photochemical effect are still in the germination stage. The solar cell is formed by welding solar cells one by one, a series welding machine is used for welding the solar cells, the series welding machine is used for carrying the solar cells by utilizing a mechanical transmission mechanism, and the solar cells are welded on a heating bottom plate by utilizing high-temperature gas of a hot air pipe. The existing series welding machine can only weld one joint at a time, the welding quality of each joint is different, defective products are easy to appear, and the welded joints are stored on a platform for cooling, so that the occupied space is large.

Disclosure of Invention

The invention provides a solar cell series welding machine, which solves the problem of low efficiency of welding cells in the related technology.

The technical scheme of the invention is as follows:

a solar cell series welding machine comprises a stacking device, a gluing device and a welding device which are sequentially arranged on a rack along a conveying device, and further comprises

A plurality of supports which are uniformly and rotatably arranged on the conveying device and advance along with the conveying device,

the clamping jaw is rotationally arranged on the bracket and used for clamping the battery piece,

and the feeding device is arranged in front of the welding device along the conveying direction of the conveying device and is used for conveying the welded battery piece to the next station.

As a further technical proposal, the method also comprises

The second grabbing device is arranged on the rack and positioned at the tail end of the feeding device,

the cooling device is arranged in front of the second grabbing device along the feeding direction of the feeding device,

and the second grabbing device vertically puts the battery panel into the fixing device.

As a further technical scheme, the conveying device comprises

A first driving piece arranged on the frame and used for driving the conveying belt to rotate,

the open slot is arranged on the conveyor belt, and the bracket enters the open slot after rotating.

As a further technical proposal, the method also comprises

A third driving member arranged on the bracket and used for driving the bracket to rotate on the conveying device,

and the fourth driving part is arranged on the bracket and drives the clamping jaws to rotate on the bracket.

As a further technical solution, the stacking device comprises

A material conveying platform arranged at the head end of the frame,

the first grabbing device is arranged on the rack and located above the material conveying table and used for placing the battery piece onto the clamping jaw from the material conveying table.

As a further technical solution, the glue spreading device comprises

A first slideway arranged on the frame and above the conveying device, wherein the direction of the first slideway is vertical to the conveying direction of the conveying device,

the first telescopic device is arranged on the first slideway in a sliding manner, the telescopic direction of the first telescopic device is vertical to the sliding direction,

and the glue coating port is arranged at the telescopic end of the first telescopic device and used for coating glue on the battery piece.

As a further technical proposal, the method also comprises

A second slideway arranged on the frame and positioned above the feeding device and the conveying device,

the second telescopic device is arranged on the second slideway in a sliding way, the sliding direction of the second telescopic device is the same as that of the conveying device,

and the traction piece is arranged at the telescopic end of the second telescopic device and used for drawing the battery panel to enter the feeding device.

As a further technical solution, the second grasping means includes

A third slideway arranged on the frame and positioned above the feeding device,

the sliding block is arranged on the third slide way in a sliding mode, the sliding direction of the sliding block is the same as the feeding direction of the feeding device,

a rotary disc which is rotatably arranged on the slide block,

a third telescopic device arranged on the turntable,

and the third grabbing device is arranged at the telescopic end of the third telescopic device and used for grabbing the welded battery piece.

As a further technical solution, the cooling device comprises

A plurality of cooling walls arranged on the frame and behind the second grabbing device, the fixing device is arranged on the cooling walls in a sliding manner, the cooling walls are provided with clamping cavities,

an air cooler connected to the cooling wall and communicated with the clamping cavity,

and the air outlets are provided with a plurality of air outlets which are dispersedly arranged on the cooling wall and communicated with the clamping cavity.

As a further technical solution, the fixing device comprises

A plurality of fixed seats which are arranged on the cooling wall in a sliding way,

and the fixing piece is arranged on the fixing seat and used for fixing the battery piece.

The working principle and the beneficial effects of the invention are as follows:

each manufactured solar cell is independent, the independent cell needs to be welded to be used, the used welding equipment is a series welding machine, and the existing series welding machine has two modes in welding, wherein one mode is to weld the cells together by using a welding strip, and the other mode is to weld the cells together in a superposition manner. The stitch welding method is characterized in that one battery piece is grabbed and placed on the last battery piece at each time, glue is coated at the interface in advance, one battery piece moves forwards when the battery piece is grabbed, and the welding devices are welded one by one.

The invention solves the problems that when the battery pieces are welded each time, the whole string of battery pieces are welded, the grabbing device places the battery pieces on the clamping jaws to be fixed, when one battery piece is placed, one battery piece is conveyed forwards, then the battery pieces are coated with glue, when the quantity requirement is met, the clamping jaws rotate, the battery pieces are attached, then the battery pieces enter the welding device to be welded in the whole string, the welding time is reduced, the whole string of battery pieces need to be welded for many times, the equipment only needs one battery piece welding time to complete the whole string of battery pieces welding, the time is reduced, and the efficiency is improved.

The stacking device comprises a stacking device body, a gluing device and a welding device, wherein the gluing device body and the welding device body are sequentially arranged on a conveying device, a support is provided with a plurality of parts, the parts are evenly rotated and arranged on the conveying device body, the parts are moved along with the conveying device body, a clamping jaw is rotated and arranged on the support, the rotating shaft on the support is rotated, every two support intervals are just two battery piece lap joint distances, the stacking device body is used for placing the battery pieces on the clamping jaw, the battery pieces are in a vertical state on the clamping jaw, the gluing device is convenient to glue, when the number of the battery pieces reaches a set value, the clamping jaw drives the battery pieces to rotate, the battery pieces are lapped together and then enter the welding device, the welding device welds the whole string of battery pieces, the battery pieces enter the feeding device after welding, the feeding device sends the battery pieces to a next station, the welding time of the equipment is one battery piece, the welding time of the battery pieces is greatly reduced, and the efficiency is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a partially enlarged view of the latch of the present invention;

FIG. 4 is a schematic view of the structure of the stave of the present invention;

FIG. 5 is a schematic view of the structure of the glue spreading device of the present invention;

FIG. 6 is a schematic view of the connection of the traction elements of the present invention;

in the figure: 1. stacking device, 2, gluing device, 3, welding device, 4, conveying device, 5, frame, 6, support, 7, jack catch, 8, feeding device, 9, second grabbing device, 10, cooling device, 11, fixing device, 12, first driving piece, 13, conveying belt, 14, open slot, 15, third driving piece, 16, fourth driving piece, 17, conveying table, 18, first grabbing device, 19, first slideway, 20, first telescoping device, 21, gluing opening, 22, second driving piece, 23, conveying belt, 24, second slideway, 25, second telescoping device, 26, traction piece, 27, third slideway, 28, sliding block, 29, turntable, 30, third telescoping device, 31, third grabbing device, 32, cooling wall, 33, air cooler, 34, air outlet, 35, fixing seat, 36 and fixing piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 6, the present embodiment proposes

A solar cell series welding machine comprises a stacking device 1, a gluing device 2 and a welding device 3 which are sequentially arranged on a rack 5 along a conveying device 4, and further comprises

A plurality of supports 6 which are uniformly and rotatably arranged on the conveying device 4 and advance along with the conveying device 4,

the clamping jaw 7 is rotationally arranged on the bracket 6 and used for clamping the battery piece,

and the feeding device 8 is arranged in front of the welding device 3 along the conveying direction of the conveying device 4 and is used for conveying the welded battery piece to the next station.

Each manufactured solar cell is independent, the independent cell needs to be welded to be used, the used welding equipment is a series welding machine, and the existing series welding machine has two modes in welding, wherein one mode is to weld the cells together by using a welding strip, and the other mode is to weld the cells together in a superposition manner. The stitch welding method is characterized in that one battery piece is grabbed and placed on the last battery piece at each time, glue is coated at the interface in advance, one battery piece moves forwards when the battery piece is grabbed, and the welding devices are welded one by one.

The thought of solving in this embodiment is when welding the battery piece at every turn, whole cluster welding, grabbing device puts the battery piece on the jack catch fixed, every puts one, just carry one forward, then the rubber coating, when reaching the quantity requirement enough, the jack catch is rotatory, the battery piece will laminate, then get into welding set and carry out whole cluster welding, reduce the welding time, whole cluster battery piece needs the welding many times before, this equipment only needs a battery piece welding time just can accomplish whole cluster battery piece welding, the reduction time, and the efficiency is improved.

Specifically, a stacking device 1, a gluing device 2 and a welding device 3 are sequentially arranged on a conveying device 4, a plurality of supports 6 are uniformly and rotatably arranged on the conveying device 4 and move along with the conveying device 4, a clamping jaw 7 is rotatably arranged on the supports 6 and rotates around a rotating shaft on each support 6, the distance between every two supports is just equal to the lap joint distance of two battery pieces, the stacking device 1 places the battery pieces on the clamping jaw 7, the battery pieces are in a vertical state on the clamping jaw 7, the gluing device 4 is convenient to glue, when the number of the battery pieces reaches a set value, the clamping jaw 7 drives the battery pieces to rotate, the battery pieces are lapped together and then enter the welding device 3, the welding device 3 welds the whole string of battery pieces, the battery pieces enter a feeding device 8 after welding, the feeding device 8 feeds the battery pieces to the next station, the welding time of the equipment is one battery piece welding time, and the welding time of the battery pieces is greatly reduced, increasing the efficiency.

Further, also comprises

A second gripping device 9 arranged on the frame 5 and positioned at the tail end of the feeding device 8,

a cooling device 10 which is arranged in front of the second grabbing device 9 along the feeding direction of the feeding device 8,

and the fixing device 11 is arranged in the cooling device 10 in a sliding mode and used for fixing the battery piece, and the second grabbing device 9 vertically puts the battery panel into the fixing device 11.

In the embodiment, in order to solve the cooling problem of the welded battery piece, the cooling device 10 is arranged at the tail end of the feeding device 8, specifically, the second grabbing device 9 is arranged at the tail end of the feeding device 8, the feeding device 8 conveys the battery piece to the grabbing device 9, the second grabbing device 9 grabs the welded battery string, the cooling device 10 is arranged behind the grabbing device 9, the fixing device 11 is arranged on the cooling device 11 in a sliding manner, the grabbing device 10 places the battery string on the fixing device 11, and the fixing device 11 slides the cooling device 10 to a specified position for cooling.

Further, the conveying device 4 comprises

A first driving member 12 arranged on the frame 5 for driving the conveying belt 13 to rotate,

and the open slot 14 is arranged on the conveying belt 13, and the bracket 6 enters the open slot 14 after rotating.

In this embodiment, provide conveyor 4 and carry the mode, it is specific that conveyor 4 rotates through first driving piece 12 drive conveyer belt 13 and carries, sets up open slot 14 on the conveyer belt 13, and open slot 14 has a plurality of, and 6 one-to-one with the support, support 6 rotates back entering open slot 14, and when support 6 rotated, jack catch 7 rotated simultaneously, guaranteed the battery piece level, rotated the battery piece and contacted stall with conveyer belt 13, then the battery piece gets into material feeding unit 8.

Further, also comprises

A third driving member 15 arranged on the bracket 6 for driving the bracket 6 to rotate on the conveying device 4,

and a fourth driving member 16 provided on the bracket 6 for driving the jaws 7 to rotate on the bracket 6.

In the embodiment, a support and jaw rotation mode is provided, specifically, the third driving element 15 drives the support 6 to rotate on the conveying device 4, the fourth driving element 16 drives the jaws 7 to rotate on the support 6, preferably, the third driving element 15 and the fourth driving element 16 are motors, a chute is arranged beside the conveying belt 13, and the motors are powered through a slide wire.

Further, the stacking apparatus 1 comprises

A material conveying platform 17 which is arranged at the head end of the frame 5,

and the first grabbing device 18 is arranged on the frame 5, and the first grabbing device 18 is positioned above the material conveying table 17 and used for placing the battery piece onto the clamping jaws 7 from the material conveying table 17.

In this embodiment, a stacking mode of stacking device 1 is provided, specifically, material conveying table 17 is arranged at the head end of frame 5, first grabbing device 18 is arranged on frame 5 and located above material conveying table 17, first grabbing device 18 grabs the battery piece from material conveying table 17 to claw 7, and first grabbing device 18 of preferred is current gripper, and present gripper is powerful, can realize this function.

Further, the glue applying device 2 comprises

A first slideway 19 arranged on the frame 5 and above the conveying device 4, the direction of the first slideway 19 is vertical to the conveying direction of the conveying device 4,

a first telescopic device 20 which is arranged on the first slideway 19 in a sliding way, the telescopic direction of the first telescopic device 20 is vertical to the sliding direction,

and the glue coating port 21 is arranged at the telescopic end of the first telescopic device 20 and is used for coating glue on the battery piece.

In this embodiment, a rubber coating mode is provided, specifically be that first slide 19 sets up in frame 5, is located conveyor 4 top, and the direction of sliding is perpendicular with direction of delivery, and first telescoping device 20 slides and sets up on first slide 19, and flexible direction is perpendicular with the direction of sliding, and rubber coating mouth 21 sets up at the flexible end of first telescoping device 20, drives rubber coating mouth 21 through first telescoping device 20 and slides and stretch out and draw back, accomplishes the rubber coating to the battery piece.

Further, also comprises

A second slideway 24 arranged on the frame 5 and positioned above the feeding device 8 and the conveying device 4,

a second telescopic device 25 which is arranged on the second slideway 24 in a sliding way, the sliding direction is the same as that of the conveying device 4,

and the traction piece 26 is arranged at the telescopic end of the second telescopic device 25 and is used for drawing the battery plate into the feeding device 8.

In this embodiment, in order to carry the battery piece from conveyor 4 to material feeding unit 8 on, it is specific that second slide 24 sets up in frame 5, be located material feeding unit 8 and conveyor 4 top, second telescoping device 25 slides and sets up on second slide 24, draw a 26 setting at the flexible end of second telescoping device 25, second telescoping device 25 slides to conveyor 4 battery piece position, it stretches out to drive draws a 26, it is fixed with the battery piece to draw a 26, second telescoping device 25 drives the battery piece through drawing a 26 and slides and get into on material feeding unit 8, preferred drawing a 26 can be a plurality of aspiration channels, through induced drafting with the battery piece adsorption column, both can draw the battery piece, also do not harm the battery piece.

Further, the second gripping means 9 comprise

A third slideway 27 arranged on the frame 5 and positioned above the feeding device 8,

a slide block 28 which is arranged on the third slide way 27 in a sliding way, the sliding direction is the same as the feeding direction of the feeding device 8,

a rotary disc 29 which is rotatably arranged on the slide block 28,

a third telescopic device 30 arranged on the rotary disc 29,

and the third grabbing device 31 is arranged at the telescopic end of the third telescopic device 30 and used for grabbing the welded battery piece.

In the embodiment, a second grabbing mode of the second grabbing device 9 is provided, specifically, a third slide way 27 is arranged on the rack 5 and located above the feeding device 8, a slide block 28 is slidably arranged on the third slide way 27, a rotary table 29 is rotatably arranged on the slide block 28, a third telescopic device 30 is arranged on the rotary table 29 and rotates along with the rotary table 29, a third grabbing device 31 is arranged at a telescopic end of the third telescopic device 30, and the preferred third grabbing device 31 may be an air suction pipe; after the third grabbing device 31 grabs the battery piece, the third telescopic device 30 is contracted, the turntable 29 drives the battery piece to rotate through the third telescopic device 30, and then the slider 28 drives the whole body to slide on the third slideway 27, enter the cooling device and be fixed on the fixing device 11.

Further, the cooling device 10 includes

A plurality of cooling walls 32 arranged on the frame 5 behind the second gripping device 9, the fixing device 11 is arranged on the cooling walls 32 in a sliding manner, the cooling walls 32 are provided with clamping cavities,

an air cooler 33 connected to the cooling wall 32 and communicated with the clamping cavity,

the air outlets 34 are distributed on the cooling wall 32 and communicated with the clamping cavity.

In the embodiment, a cooling manner is provided, specifically, the cooling wall 32 is provided with a plurality of cooling walls, the cooling walls are arranged on the rack 5, after the second grabbing device 9 is located, the fixing device 11 is slidably arranged on the cooling wall 32, a slide way on the cooling wall 11 is divided into a waiting area and a cooling area, after the fixing device 11 fixes the battery piece, the battery piece enters the cooling area for cooling, and after the cooling is finished, the battery piece is taken away, the battery piece enters the waiting area for waiting for the next battery piece; the cooling wall 32 is provided with a clamping cavity, the air cooler 33 is communicated with the clamping cavity through a pipeline, the inner wall of the cooling wall 32 is provided with a plurality of air outlets 34, and cold air of the air cooler 33 enters the clamping cavity and then goes out of the air outlets 34 of the barrel to cool the battery piece.

Further, the fixing device 11 comprises

A plurality of fixed seats 35 which are arranged on the cooling wall 32 in a sliding way,

and the fixing piece 36 is arranged on the fixing seat 35 and used for fixing the battery piece.

In this embodiment, a fixing device 11 is provided, specifically, the fixing base 35 has a plurality of, and the sliding setting is on the cooling wall 32, and the mounting 36 is disposed on the fixing base 35, and the mounting 36 fixes the battery piece, and the preferred mounting 36 may be an air suction pipe, and the fixing base 35 drives the mounting 36 to slide on the cooling wall 32.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a solar wafer stringer, includes along conveyor (4) set gradually putting device (1), rubber coating device (2) and welding set (3) on frame (5), its characterized in that still includes

A plurality of supports (6) which are uniformly and rotatably arranged on the conveying device (4) and advance along with the conveying device (4),

the clamping jaw (7) is rotationally arranged on the bracket (6) and is used for clamping the battery piece,

and the feeding device (8) is arranged in front of the welding device (3) along the conveying direction of the conveying device (4) and is used for conveying the welded battery pieces to the next station.

2. The solar cell stringer according to claim 1, further comprising

A second grabbing device (9) arranged on the frame (5) and positioned at the tail end of the feeding device (8),

a cooling device (10) arranged in front of the second gripping device (9) along the feeding direction of the feeding device (8),

and the fixing device (11) is arranged in the cooling device (10) in a sliding mode and used for fixing the battery piece, and the second grabbing device (9) vertically puts the battery panel into the fixing device (11).

3. Solar cell stringer according to claim 1, wherein said conveying means (4) comprise

A first driving part (12) arranged on the frame (5) and used for driving the conveying belt (13) to rotate,

the open slots (14) are arranged on the conveying belt (13), and the bracket (6) enters the open slots (14) after rotating.

4. The solar cell stringer according to claim 1, further comprising

A third driving part (15) arranged on the bracket (6) and used for driving the bracket (6) to rotate on the conveying device (4),

and the fourth driving piece (16) is arranged on the bracket (6) and drives the clamping jaws (7) to rotate on the bracket (6).

5. Solar cell stringer according to claim 1, wherein said stacking device (1) comprises

A material conveying platform (17) arranged at the head end of the frame (5),

the first grabbing device (18) is arranged on the rack (5), and the first grabbing device (18) is located above the material conveying table (17) and used for placing the battery piece onto the clamping jaws (7) from the material conveying table (17).

6. Solar wafer stringer according to claim 1, wherein said gluing means (2) comprise

The first slide way (19) is arranged on the rack (5) and is positioned above the conveying device (4), the direction of the first slide way (19) is vertical to the conveying direction of the conveying device (4),

the first telescopic device (20) is arranged on the first slideway (19) in a sliding manner, the telescopic direction of the first telescopic device (20) is vertical to the sliding direction,

and the glue coating port (21) is arranged at the telescopic end of the first telescopic device (20) and is used for coating glue on the battery piece.

7. The solar cell stringer according to claim 1, further comprising

A second slideway (24) arranged on the frame (5) and positioned above the feeding device (8) and the conveying device (4),

a second telescopic device (25) which is arranged on the second slideway (24) in a sliding way, the sliding direction of the second telescopic device is the same as that of the conveying device (4),

and the traction piece (26) is arranged at the telescopic end of the second telescopic device (25) and is used for drawing the battery plate into the feeding device (8).

8. Solar wafer stringer according to claim 2, wherein said second gripping means (9) comprise

A third slideway (27) arranged on the frame (5) and positioned above the feeding device (8),

a slide block (28) which is arranged on the third slide way (27) in a sliding way, the sliding direction of the slide block is the same as the feeding direction of the feeding device (8),

a rotary disc (29) which is rotatably arranged on the slide block (28),

a third telescopic device (30) arranged on the rotary disc (29),

and the third grabbing device (31) is arranged at the telescopic end of the third telescopic device (30) and used for grabbing the welded battery piece.

9. Solar cell stringer according to claim 2, wherein said cooling device (10) comprises

A plurality of cooling walls (32) arranged on the frame (5) and behind the second gripping device (9), wherein the fixing device (11) is arranged on the cooling walls (32) in a sliding manner, the cooling walls (32) are provided with clamping cavities,

an air cooler (33) connected to the cooling wall (32) and communicated with the clamping cavity,

and a plurality of air outlets (34) are dispersedly arranged on the cooling wall (32) and communicated with the clamping cavity.

10. Solar cell stringer according to claim 9, wherein said fixing means (11) comprise

A plurality of fixed seats (35) which are arranged on the cooling wall (32) in a sliding way,

and the fixing piece (36) is arranged on the fixing seat (35) and is used for fixing the battery piece.

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