CN116021865A - Photovoltaic cell laminating machine with trimming structure - Google Patents

Abstract

In order to solve the technical problems that redundant EVA and TPT can be extruded, redundant existing processes are carried out independently and are in a cooling state during processing, the operation flow is increased, and the cooling post-processing is inconvenient, the invention is extruded in a vacuum state through a photovoltaic cell, the buffer plate is pushed to move downwards, one end of the transmission component attached to the buffer plate is pushed, the other end of the transmission component is pushed to drive the trimming mechanism to move upwards, the driving mechanism drives the trimming mechanism to reciprocate, four sides of the photovoltaic cell are trimmed, the lamination trimming is processed at one time, the operation flow is reduced, the working efficiency is improved, and in addition, the side edge is softened and trimmed more easily in a heating state, and the operation is simple and convenient.

Description

Photovoltaic cell laminating machine with trimming structure

Technical Field

The invention relates to the technical field of photovoltaic cell laminating machines, in particular to a photovoltaic cell laminating machine with a trimming structure.

Background

The photovoltaic cell laminating machine is used for cutting EVA and TPT according to a size slightly larger than the glass area, laminating the materials, and then placing the materials into the laminating machine for lamination.

The utility model provides a vacuum laminator for photovoltaic cell subassembly production for publication number CN111688330A, includes the organism, the top fixed mounting of organism has lower vacuum chamber, the inside fixed mounting of organism has to rise the cylinder, it has to rise to play to swing joint on the output shaft of cylinder to rise to the frame, it has last vacuum chamber to rise to the bottom of frame top. According to the vacuum laminating machine for producing the photovoltaic cell assembly, the top of the driving strip and the top of the spring-shaped limiting column are contacted in the descending process, the top of the driving strip is pressed down to enable the other end of the driving strip to drive the control shifting piece to ascend, when the control shifting piece ascends, the resistance in the magnetic resistance controller is gradually weakened, the magnetic property of the first magnetic block gradually enhances the repulsive force between the second magnetic block and the first magnetic block, the second magnetic block gradually ascends to avoid contact with a heated heating plate, and bubbles are prevented from being generated due to uneven heating caused by the fact that the bottom is contacted with the heating plate to melt rapidly;

however, in the lamination process of the laminating machine, redundant EVA and TPT can be extruded, and the redundant EVA and TPT are processed by separate secondary treatment and are in a cooling state, so that the operation flow is increased, and the cooling post-treatment is inconvenient.

To solve the above problems. For this purpose, a photovoltaic cell laminator with a trimming structure is proposed.

Disclosure of Invention

The invention aims to provide a photovoltaic cell laminating machine with a trimming structure, which can solve the problems that in the background art, redundant EVA and TPT are extruded in the lamination process, the redundant EVA and TPT are processed separately and are in a cooling state, the operation flow is increased, and the cooling post-treatment is inconvenient.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a photovoltaic cell laminator with deburring structure, including organism and activity setting up the bonnet in the organism upper end, be located the inboard vacuum chamber that sets up in the organism, and be located the inboard bottom in vacuum chamber and be provided with heating mechanism, be located the inboard setting in vacuum chamber in lid upper end, be located the inboard buffer unit that is provided with of vacuum chamber down of heating mechanism upper end, the fixed buffer board that is provided with in buffer unit upper end, be located fixedly between heating mechanism and the buffer board, the laminating of upper side one end and the buffer board of drive unit, and the other end upper end slides and is provided with deburring mechanism, deburring mechanism overcoat is in the outside of buffer board, and wherein one end and actuating mechanism swing joint, photovoltaic cell is extruded under vacuum condition, promote buffer board downwardly moving, and promote the drive unit one end of laminating with the buffer board, and then the drive promotes the drive unit other end and drives deburring mechanism upward movement, actuating mechanism drive deburring mechanism reciprocating motion, the four sides of photovoltaic cell are deburred.

Further, the buffer mechanism comprises a connecting column and a first reset spring fixedly arranged at the lower end of the connecting column, a sleeve is fixedly arranged at the lower end of the first reset spring, and a plurality of buffer mechanisms are arranged at the lower end of the buffer plate.

Further, the transmission assembly comprises a supporting block and a pressing block movably arranged at the upper end of the supporting block, the buffer plate at the upper end face of the pressing block is attached to the upper end of the supporting block, an upward pushing block is movably arranged at the upper end of the supporting block located at one side of the pressing block, the lower end of the upward pushing block is movably connected with the pressing block through an adapter, the adapter is a lever of the pressing block and the upward pushing block, and the pressing block is pressed down to drive the adapter to drive the upward pushing block to move upwards.

Further, the adapter comprises a rotating lever and rotating columns fixedly arranged on two sides of the rotating lever, the rotating columns are movably connected with the supporting blocks, one end of the rotating lever is movably connected with the pressing blocks, and the other end of the rotating lever is movably connected with the pushing-up blocks.

Further, the driving mechanism comprises a servo motor and a rotary table fixedly arranged at the driving end of the servo motor, a transmission rod is movably arranged at the upper end of the rotary table, and a connecting column is movably arranged at one end, far away from the rotary table, of the transmission rod.

Further, the trimming mechanism comprises a first trimming component and a second trimming component movably arranged on one side of one end of the first trimming component, a third trimming component is arranged on one side of one end of the second trimming component, a fourth trimming component is arranged on one side of one end of the third trimming component, and the second trimming component, the third trimming component and the fourth trimming component are identical in structure.

Further, the first deburring subassembly includes drive connecting rod and fixed first reciprocating rod that sets up in drive connecting rod one end, and the upper end of first reciprocating rod is provided with first deburring blade, and the inboard of first reciprocating rod still activity is provided with the guide bar, and the one end and the lower vacuum chamber fixed connection of guide bar, and first recess has been seted up to one end of first reciprocating rod.

Further, the second trimming assembly comprises a second reciprocating rod and a second trimming blade fixedly arranged at the upper end of the second reciprocating rod, one end of the second reciprocating rod is provided with a convex block, the inner side of one end of the convex block, which is far away from the second reciprocating rod, is movably provided with a rolling ball, the rolling ball corresponds to the first groove, one end of the second reciprocating rod, which is far away from the convex block, is fixedly provided with a second reset spring for resetting the second reciprocating rod, one side of the same end is provided with a second groove, and the second groove corresponds to one end of the third trimming assembly.

Further, the spliced pole activity inserts in the one end of drive connecting rod, and the length is greater than the thickness of drive connecting rod one end far away, and when being convenient for drive connecting rod reciprocates, the spliced pole is connected with drive connecting rod all the time.

Compared with the prior art, the invention has the beneficial effects that: the photovoltaic cell is extruded under the vacuum state, promotes the buffer board and moves down to promote the drive assembly one end of laminating with the buffer board, and then the transmission promotes the drive assembly other end and drives the trimmer and upwards move, and actuating mechanism drive trimmer reciprocating motion carries out the deburring to the four sides of photovoltaic cell, and lamination deburring disposable processing reduces operation flow, improves work efficiency, and under the heating state, the side softens the deburring more easily moreover, easy operation is convenient.

Drawings

Fig. 1 is a schematic overall perspective view of a photovoltaic cell laminator with an edging structure of the present invention;

fig. 2 is a schematic perspective view of the internal structure of the lower vacuum chamber of the photovoltaic cell laminator with the trimming structure of the invention;

fig. 3 is a schematic perspective view of a drive assembly of a photovoltaic cell laminator with an edging structure according to the present invention;

FIG. 4 is a schematic side plan view of a drive assembly of a photovoltaic cell laminator having an edging structure of the invention;

FIG. 5 is a schematic perspective view of a drive mechanism and a trimming mechanism of a photovoltaic cell laminator having a trimming structure of the invention;

fig. 6 is a schematic perspective view of a first trimming assembly and a driving mechanism of a photovoltaic cell laminator having a trimming structure according to the present invention;

fig. 7 is a schematic perspective view of a second trim assembly of a photovoltaic cell laminator having a trim structure of the invention;

fig. 8 is a schematic view of the first groove and rolling ball plan structure of the photovoltaic cell laminator with the edging structure of the invention.

In the figure: 10. a body; 20. a cover; 1. a lower vacuum chamber; 2. an upper vacuum chamber; 3. a buffer mechanism; 31. a connecting column; 32. a first return spring; 33. a sleeve; 4. a buffer plate; 5. a photovoltaic cell; 6. a transmission assembly; 61. a support block; 62. briquetting; 63. a push-up block; 64. rotating the lever; 65. rotating the column; 66. a connecting block; 7. a driving mechanism; 71. a servo motor; 72. a turntable; 73. a transmission rod; 74. a connecting column; 8. a trimming mechanism; 81. a first trimming assembly; 811. a drive connection rod; 812. a first reciprocating lever; 813. a first trimming blade; 814. a guide rod; 815. a first groove; 82. a second trimming assembly; 821. a second reciprocating lever; 822. a second trimming blade; 823. a bump; 824. a rolling ball; 825. a second return spring; 826. a second groove; 83. a third trimming assembly; 84. and a fourth trimming assembly.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, in order to solve the technical problems that the existing photovoltaic cell laminating machine only laminates photovoltaic cells singly, but in the lamination process, redundant EVA and TPT are extruded, and the redundant photovoltaic cells are treated for a single time and are in a cooling state, the operation flow is increased, and the cooling post-treatment is inconvenient, the following technical scheme is provided:

the utility model provides a photovoltaic cell laminator with deburring structure, including organism 10 and activity setting up the bonnet 20 in the organism 10 upper end, be located organism 10 inboard setting at vacuum chamber 1 down, and be located vacuum chamber 1's inboard bottom and be provided with heating mechanism down, be located bonnet 20 upper end inboard setting at vacuum chamber 2 down, be located vacuum chamber 1 inboard of heating mechanism upper end and be provided with buffer gear 3, buffer gear 3 upper end is fixed and is provided with buffer board 4, superimposed photovoltaic cell 5 can be placed to buffer board 4's upper end, be located fixed being provided with drive assembly 6 between heating mechanism and the buffer board 4, drive assembly 6's upside one end and buffer board 4 laminating, and the upper end slip of another tip is provided with deburring mechanism 8, deburring mechanism 8 overcoat is in buffer board 4's outside, and wherein one end and drive mechanism 7 swing joint, photovoltaic cell 5 is extruded under the vacuum state, promote buffer board 4 to move down, and promote drive assembly 6 other end and drive mechanism 8 and upwards move, drive mechanism 7 drive deburring mechanism 8 reciprocating movement, to deburrent to laminate photovoltaic cell 5, the processing of deburring efficiency is reduced, and the operation is easy to the operation is convenient under the operation, and the operation is easy to lower side, the operation is easy to lower.

The buffer gear 3 includes linking post 31 and fixed first reset spring 32 that sets up in linking post 31 lower extreme, and the fixed sleeve 33 that is provided with of lower extreme of first reset spring 32, and be located buffer board 4 lower extreme and be provided with a plurality of buffer gear 3, the buffer board 4 of being convenient for resets when not receiving vacuum pressure, the secondary of being convenient for uses.

The transmission assembly 6 comprises a supporting block 61 and a pressing block 62 movably arranged at the upper end of the supporting block 61, the buffer plate 4 at the upper end of the pressing block 62 is attached to the upper end of the supporting block 61 at one side of the pressing block 62, an upper pushing block 63 is movably arranged at the upper end of the supporting block 61 at one side of the pressing block 62, the lower end of the upper pushing block 63 is movably connected with the pressing block 62 through an adapter, the adapter is a lever of the pressing block 62 and the upper pushing block 63, the pressing block 62 is downwards pressed to drive the adapter to drive the upper pushing block 63 to upwards move, the adapter comprises a rotating lever 64 and rotating columns 65 fixedly arranged at two sides of the rotating lever 64, the rotating columns 65 are movably connected with the supporting block 61, one end of the rotating lever 64 is movably connected with the pressing block 62, the other end of the rotating lever 64 is movably connected with the upper pushing block 63, the buffer plate 4 downwards moves to drive the pressing block 62 to downwards, the rotating columns 65 serve as the center, the rotating levers 64 are driven to rotate, the upper pushing block 63 are driven to upwards move, and the trimming mechanism 8 is driven to upwards move, the trimming mechanism 8 is enabled to be attached to the side of the photovoltaic cell 5, and trimming mechanism 8 is convenient to trim.

The upper end of the push-up block 63 is fixedly provided with a connecting block 66, and the connecting block 66 is movably connected with a corresponding driving connecting rod 811 for connecting the driving connecting rod 811 with the push-up block 63, and can limit the moving direction of the driving connecting rod 811 without deflection.

The driving mechanism 7 comprises a servo motor 71 and a rotary table 72 fixedly arranged at the driving end of the servo motor 71, a transmission rod 73 is movably arranged at the upper end of the rotary table 72, a connecting column 74 is movably arranged at one end, far away from the rotary table 72, of the transmission rod 73, the servo motor 71 drives the rotary table 72 to rotate, and then the transmission rod 73 is driven to reciprocate, and a driving connecting rod 811 connected through the connecting column 74 also reciprocates.

The connection post 74 is movably inserted into one end of the driving connection rod 811, and the length thereof is much greater than the thickness of one end of the driving connection rod 811, so that the connection post 74 is always connected to the driving connection rod 811 when the driving connection rod 811 moves up and down.

The trimming mechanism 8 comprises a first trimming component 81 and a second trimming component 82 movably arranged on one side of one end of the first trimming component 81, a third trimming component 83 is arranged on one side of one end of the second trimming component 82, a fourth trimming component 84 is arranged on one side of one end of the third trimming component 83, the second trimming component 82, the third trimming component 83 and the fourth trimming component 84 are identical in structure, the driving mechanism 7 drives the first trimming component 81 to reciprocate, the first trimming component 81 drives the second trimming component 82 to move, and the third trimming component 83 and the fourth trimming component 84 are driven to move in the same way, so that four sides of the photovoltaic cell 5 are trimmed.

The first trimming assembly 81 comprises a driving connecting rod 811 and a first reciprocating rod 812 fixedly arranged at one end of the driving connecting rod 811, a first trimming blade 813 is arranged at the upper end of the first reciprocating rod 812, a guide rod 814 is movably arranged at the inner side of the first reciprocating rod 812, one end of the guide rod 814 is fixedly connected with the lower vacuum cavity 1, and a first groove 815 is formed at one end of the first reciprocating rod 812.

The second trimming component 82 includes a second reciprocating rod 821 and a second trimming blade 822 fixedly disposed at an upper end of the second reciprocating rod 821, one end of the second reciprocating rod 821 is provided with a protruding block 823, an inner side of one end of the protruding block 823 far away from the second reciprocating rod 821 is movably provided with a rolling ball 824, the rolling ball 824 corresponds to the first groove 815, one end of the second reciprocating rod 821 far away from the protruding block 823 is fixedly provided with a second return spring 825 for resetting the second reciprocating rod 821, one side of the same end is provided with a second groove 826, the second groove 826 corresponds to one end of the third trimming component 83, the first reciprocating rod 812 is driven to reciprocate, the rolling ball 824 reciprocates at one end of the first groove 815 in a trapezoid shape under the action of the second return spring 825, and the third trimming component 83 and the fourth trimming component 84 reciprocate, so that trimming of the photovoltaic cell 5 is performed.

The invention provides another technical scheme that: the trimming method of the photovoltaic cell laminating machine with the trimming structure comprises the following steps of:

step one: the photovoltaic cells 5 are extruded in a vacuum state, push the buffer plate 4 to move downwards, and push one end of the transmission assembly 6 attached to the buffer plate 4;

step two: the other end of the transmission pushing transmission component 6 drives the trimming mechanism 8 to move upwards, and meanwhile, the driving mechanism 7 drives the first trimming component 81 to move reciprocally;

step three: the first reciprocating rod 812 is driven to reciprocate, the rolling ball 824 moves along a track to make the second reciprocating rod 821 reciprocate at one end of the trapezoid-shaped first groove 815 under the action of the second return spring 825, and similarly, the third trimming assembly 83 and the fourth trimming assembly 84 also reciprocate;

step four: and then the trimming blade trims four sides of the photovoltaic cell 5.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (10)

1. The photovoltaic cell laminating machine with the trimming structure comprises a machine body (10) and a machine cover (20) movably arranged at the upper end of the machine body (10), wherein a lower vacuum cavity (1) is arranged at the inner side of the machine body (10), a heating mechanism is arranged at the inner bottom of the lower vacuum cavity (1), the inner side of the upper end of the machine cover (20) is arranged in an upper vacuum cavity (2), a buffer mechanism (3) is arranged at the inner side of the lower vacuum cavity (1) at the upper end of the heating mechanism, a buffer plate (4) is fixedly arranged at the upper end of the buffer mechanism (3), a transmission assembly (6) is fixedly arranged between the heating mechanism and the buffer plate (4), one end part of the upper side of the transmission component (6) is attached to the buffer plate (4), the upper end of the other end part is slidably provided with the trimming mechanism (8), the trimming mechanism (8) is sleeved outside the buffer plate (4), one end part of the trimming mechanism (8) is movably connected with the driving mechanism (7), the photovoltaic cell (5) is extruded under the vacuum state, the buffer plate (4) is pushed to move downwards, one end of the transmission component (6) attached to the buffer plate (4) is pushed to further drive the other end of the transmission component (6) to drive the trimming mechanism (8) to move upwards, the driving mechanism (7) drives the trimming mechanism (8) to reciprocate, four sides of the photovoltaic cell (5) are trimmed.

2. A photovoltaic cell laminator with trimming structure according to claim 1, characterized in that the buffer mechanism (3) comprises a joint post (31) and a first return spring (32) fixedly arranged at the lower end of the joint post (31), a sleeve (33) is fixedly arranged at the lower end of the first return spring (32), and a plurality of buffer mechanisms (3) are arranged at the lower end of the buffer plate (4).

3. The photovoltaic cell laminating machine with the trimming structure according to claim 1, wherein the transmission assembly (6) comprises a supporting block (61) and a pressing block (62) movably arranged at the upper end of the supporting block (61), the buffer plate (4) at the upper end face of the pressing block (62) is attached to the upper end of the supporting block (61) positioned at one side of the pressing block (62), an upper pushing block (63) is movably arranged at the upper end of the supporting block (61), the lower end of the upper pushing block (63) is movably connected with the pressing block (62) through an adapter, the adapter is a lever of the pressing block (62) and the upper pushing block (63), and the pressing block (62) is pressed down to drive the adapter to drive the upper pushing block (63) to move upwards.

4. A photovoltaic cell laminator with trimming structure according to claim 3, wherein the adaptor comprises a rotating lever (64) and rotating columns (65) fixedly arranged at two sides of the rotating lever (64), the rotating columns (65) are movably connected with the supporting blocks (61), one end of the rotating lever (64) is movably connected with the pressing block (62), and the other end is movably connected with the pushing-up block (63).

5. A photovoltaic cell laminating machine with trimming structure according to claim 1, characterized in that the driving mechanism (7) comprises a servo motor (71) and a rotary table (72) fixedly arranged at the driving end of the servo motor (71), a transmission rod (73) is movably arranged at the upper end of the rotary table (72), and a connecting column (74) is movably arranged at one end of the transmission rod (73) far away from the rotary table (72).

6. A photovoltaic cell laminator with trimming structure according to claim 5, wherein the trimming mechanism (8) comprises a first trimming member (81) and a second trimming member (82) movably disposed at one end side of the first trimming member (81), a third trimming member (83) is disposed at one end side of the second trimming member (82), a fourth trimming member (84) is disposed at one end side of the third trimming member (83), and the second trimming member (82), the third trimming member (83) and the fourth trimming member (84) are identical in structural composition.

7. The photovoltaic cell laminating machine with the trimming structure according to claim 6, wherein the first trimming component (81) comprises a driving connecting rod (811) and a first reciprocating rod (812) fixedly arranged at one end of the driving connecting rod (811), a first trimming blade (813) is arranged at the upper end of the first reciprocating rod (812), a guide rod (814) is movably arranged at the inner side of the first reciprocating rod (812), one end of the guide rod (814) is fixedly connected with the lower vacuum cavity (1), and a first groove (815) is formed at one end of the first reciprocating rod (812).

8. The photovoltaic cell laminator with trimming structure according to claim 7, wherein the second trimming component (82) comprises a second reciprocating rod (821) and a second trimming blade (822) fixedly arranged at the upper end of the second reciprocating rod (821), one end of the second reciprocating rod (821) is provided with a protruding block (823), one end of the protruding block (823) far away from the second reciprocating rod (821) is movably provided with a rolling ball (824), the rolling ball (824) corresponds to the first groove (815), one end of the second reciprocating rod (821) far away from the protruding block (823) is fixedly provided with a second reset spring (825) for resetting the second reciprocating rod (821), one side of the same end is provided with a second groove (826), and the second groove (826) corresponds to one end of the third trimming component (83).

9. A photovoltaic cell laminator with trimming structure according to claim 5, characterized in that the connecting post (74) is movably inserted into one end of the driving connecting rod (811) and has a length much greater than the thickness of one end of the driving connecting rod (811), so that the connecting post (74) is always connected to the driving connecting rod (811) when the driving connecting rod (811) moves up and down.

10. A trimming method of a photovoltaic cell laminator having a trimming structure according to claim 8, comprising the steps of:

s1: the photovoltaic cell (5) is extruded in a vacuum state, pushes the buffer plate (4) to move downwards, and pushes one end of the transmission assembly (6) attached to the buffer plate (4);

s2: the other end of the transmission pushing transmission assembly (6) drives the trimming mechanism (8) to move upwards, and meanwhile, the driving mechanism (7) drives the first trimming assembly (81) to move reciprocally;

s3: the first reciprocating rod (812) is driven to reciprocate, the rolling ball (824) reciprocates on one end of the trapezoid-shaped first groove (815) under the action of the second return spring (825), the second reciprocating rod (821) is made to reciprocate by the moving track, and the third trimming assembly (83) and the fourth trimming assembly (84) reciprocate in the same way;

s4: and then the trimming knife trims four sides of the photovoltaic cell (5).

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