CN213692077U - Double-glass photovoltaic module lamination positioning device - Google Patents

Abstract

The utility model relates to a two glass photovoltaic module lamination positioner, comprises a workbench, locating plate and push pedal, the workstation intermediate position is equipped with the constant head tank, constant head tank and workstation fixed connection, constant head tank bottom intermediate position is equipped with through-hole one, the constant head tank is arranged in to the push pedal, push pedal all around with the laminating of constant head tank inner wall and with constant head tank sliding connection, perpendicular fixedly connected with catch bar in the middle of the push pedal lower surface, the catch bar passes through-hole one and is connected with pushing mechanism, pushing mechanism is located inside the workstation, the push pedal is along vertical direction reciprocating motion under the pushing mechanism effect. Set up constant head tank, push pedal and pushing mechanism, move dual-glass photovoltaic module to the constant head tank in and laminate the constant head tank inner wall for fixed dual-glass photovoltaic module prevents to take place the skew between upper glass and lower floor's glass at the lamination in-process.

Description

Double-glass photovoltaic module lamination positioning device

Technical Field

The utility model relates to a photovoltaic module technical field especially relates to a two glass photovoltaic module lamination positioner.

Background

The Double-glass photovoltaic module is a photovoltaic cell module (Double-glazed Solar photovoltaic module) formed by combining two pieces of glass and a Solar cell piece into a composite layer and collecting the two pieces of glass and the Solar cell piece to a lead end in series and parallel by welding strips. The double-glass photovoltaic module has good PID attenuation resistance, snail-streak occurrence resistance, excellent weather resistance and corrosion resistance, higher pressure-resistant grade and fireproof grade, and the high quality of the double-glass photovoltaic module enables the double-glass photovoltaic module to be more and more widely applied in the photovoltaic field. The lamination process is an important link in the production process of the dual-glass photovoltaic assembly, the phenomenon that the dual-glass photovoltaic assembly is easy to shift between upper glass and lower glass in the lamination packaging process is easily caused, once the phenomenon of dislocation occurs, the dual-glass photovoltaic assembly cannot be repaired, and the degradation or the scrapping of a product is directly caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a two glass photovoltaic module lamination positioner is provided, the problem of mentioning in solving above-mentioned background art.

In order to solve the technical problem, the utility model discloses a double-glass photovoltaic module lamination positioning device, including workstation, locating plate and push pedal, the workstation intermediate position is equipped with the constant head tank, constant head tank and workstation fixed connection, the constant head tank bottom intermediate position is equipped with through-hole one, the push pedal is arranged in the constant head tank, the push pedal all laminates with the constant head tank inner wall and with the constant head tank sliding connection all around, perpendicular fixed connection has the catch bar in the middle of the push pedal lower surface, the catch bar passes through-hole one and is connected with pushing mechanism, pushing mechanism is located the workstation inside, the push pedal is along vertical direction reciprocating motion under the effect of pushing mechanism; the positioning plate is located above the workbench and parallel to the workbench, the positioning plate is connected with the workbench through four guide pillars, guide sleeves are arranged at four corners of the positioning plate respectively, a second through hole is formed in each guide sleeve, one end of each guide pillar penetrates through the corresponding second through hole and the other end of each guide pillar is connected with the workbench, a pressing plate is arranged in the middle of the positioning plate and corresponds to the corresponding positioning groove, the pressing plate is matched with the positioning groove, and elastic buffer blocks are arranged on two sides of the pressing plate.

The double-glass photovoltaic assembly is arranged on the push plate, the push plate is moved downwards through the pushing mechanism, the double-glass photovoltaic assembly moves into the positioning groove along with the push plate and is attached to the inner wall of the positioning groove at the moment, the double-glass photovoltaic assembly is used for fixing the double-glass photovoltaic assembly, and the upper glass and the lower glass are prevented from offsetting in the laminating process; meanwhile, the push plate is pushed upwards through the pushing mechanism after lamination is completed, the laminated double-glass solar assembly can be pushed out of the positioning groove, automatic ejection is achieved, and material taking and placing time is shortened. Set up the guide pillar guide locating plate accuracy and push down, ensure that the clamp plate accurately gets into the constant head tank downwards, can not take place the dislocation phenomenon, set up the buffer block simultaneously and play the cushioning effect, avoid pressure too big to lead to double-glass photovoltaic module to damage.

As an improvement of the utility model, pushing mechanism is push cylinder, push cylinder fixes in the middle of the inside bottom of workstation, push cylinder output and catch bar fixed connection.

As an improvement of the utility model, pushing mechanism is including promoting chamber and two electric telescopic handle, inside the transversal cross of personally submitting of promotion chamber and being located the workstation, it includes horizontal cavity and vertical cavity to promote the chamber, the catch bar is located vertical cavity, two electric telescopic handle is located horizontal cavity both ends and about the vertical central axis symmetry of push pedal, two electric telescopic handle fixes respectively on the diapire of horizontal cavity through the fixing base, electric telescopic handle's telescopic end is fixed with the connecting plate, the inner wall sliding connection of connecting plate and horizontal cavity, the connecting plate other end is equipped with the fixed block, fixed block one end has the connecting rod through round pin axle swing joint, the connecting rod top is through round pin axle and catch bar bottom swing joint.

As an improvement of the utility model, the transverse cavity and the vertical cavity juncture are equipped with the dog along the vertical cavity inner wall direction. Preventing the connecting plate from sliding out of the transverse cavity.

As an improvement of the utility model, the thickness of the elastic buffer block is smaller than the thickness of the pressing plate.

Compared with the prior art, the utility model has the advantages that 1) the positioning groove, the push plate and the pushing mechanism are arranged, the double-glass photovoltaic assembly is placed on the push plate, the push plate is moved downwards through the pushing mechanism, and then the double-glass photovoltaic assembly moves into the positioning groove along with the push plate and is attached to the inner wall of the positioning groove, so that the double-glass photovoltaic assembly is fixed, and the upper glass and the lower glass are prevented from deviating in the laminating process; meanwhile, after lamination is finished, the push plate is pushed upwards through the push mechanism, so that the laminated double-glass solar module can be pushed out of the positioning groove, automatic ejection is realized, and the time for taking and placing materials is reduced; 2) set up the guide pillar guide locating plate accuracy and push down, ensure that the clamp plate accurately gets into the constant head tank downwards, can not take place the dislocation phenomenon, set up the buffer block simultaneously and play the cushioning effect, avoid pressure too big to lead to double-glass photovoltaic module to damage.

Drawings

Fig. 1 is a schematic structural view of an embodiment 1 of a double-glass photovoltaic module lamination positioning device of the present invention;

fig. 2 is a schematic structural view of an embodiment 2 of the double-glass photovoltaic module laminating and positioning device of the present invention;

in the figure: 1. a work table; 2. positioning a plate; 3. pushing the plate; 4. positioning a groove; 5. a first through hole; 6. a push rod; 7. a guide post; 8. a second through hole; 9. a guide sleeve; 10. an elastic buffer block; 11. pressing a plate; 12. a push cylinder; 13. a push chamber; 131. a transverse cavity; 132. a vertical cavity; 14. a telescopic rod; 15. a fixed seat; 16. a connecting plate; 17. a fixed block; 18. a connecting rod; 19. and a stop block.

The specific implementation mode is as follows:

for the purpose of enhancing the understanding of the present invention, the following detailed description is made with reference to the accompanying drawings.

Example 1: referring to fig. 1, a double-glass photovoltaic module lamination positioning device comprises a workbench 1, a positioning plate 2 and a push plate 3, wherein a positioning groove 4 is arranged at the middle position of the workbench 1, the positioning groove 4 is fixedly connected with the workbench 1, a through hole I5 is arranged at the middle position of the bottom of the positioning groove 4, the push plate 3 is arranged in the positioning groove 4, the four peripheral surfaces of the push plate 3 are attached to the inner wall of the positioning groove 4 and are in sliding connection with the positioning groove 4, a push rod 6 is vertically and fixedly connected to the middle of the lower surface of the push plate 3, the push rod 6 penetrates through the through hole I5 to be connected with a pushing mechanism, the pushing mechanism is arranged inside the workbench 1; the positioning plate 2 is located above the workbench 1 and is parallel to the workbench 1, the positioning plate 2 is connected with the workbench 1 through four guide pillars 7, guide sleeves 9 are respectively arranged at four corners of the positioning plate 2, through holes two 8 are formed in the guide sleeves 9, one ends of the guide pillars 7 penetrate through the through holes two 8, the other ends of the guide pillars pass through the through holes two 8 and are connected with the workbench 1, a pressing plate 11 is arranged in the middle of the positioning plate 2 and corresponds to the positioning groove 4, the pressing plate 11 is matched with the positioning groove 4, and elastic buffer blocks.

The double-glass photovoltaic assembly is arranged on the push plate, the push plate is moved downwards through the pushing mechanism, the double-glass photovoltaic assembly moves into the positioning groove along with the push plate and is attached to the inner wall of the positioning groove at the moment, the double-glass photovoltaic assembly is used for fixing the double-glass photovoltaic assembly, and the upper glass and the lower glass are prevented from offsetting in the laminating process; meanwhile, the push plate is pushed upwards through the pushing mechanism after lamination is completed, the laminated double-glass solar assembly can be pushed out of the positioning groove, automatic ejection is achieved, and material taking and placing time is shortened. Set up the guide pillar guide locating plate accuracy and push down, ensure that the clamp plate accurately gets into the constant head tank downwards, can not take place the dislocation phenomenon, set up the buffer block simultaneously and play the cushioning effect, avoid pressure too big to lead to double-glass photovoltaic module to damage.

Preferably, the pushing mechanism is a pushing cylinder 12, the pushing cylinder 12 is fixed in the middle of the bottom inside the workbench 1, and the output end of the pushing cylinder 12 is fixedly connected with the pushing rod 6. The push rod is directly pushed by the push cylinder, so that the push plate is driven to move up and down, and automatic ejection is realized.

Preferably, the thickness of the elastic buffer block 10 is smaller than that of the pressure plate 11.

The implementation scenario is specifically as follows: start the actuating cylinder, make the catch bar rebound, thereby drive the push pedal rebound to constant head tank notch department, place double-glass photovoltaic module in the push pedal, control actuating cylinder makes the catch bar rebound, drive the push pedal rebound, double-glass photovoltaic module moves to the constant head tank and laminating constant head tank inner wall along with the push pedal this moment, the top board carries out the lamination in the lamination clamp plate gets into the constant head tank downwards along the guide pillar, the lamination finishes the back, start the actuating cylinder rebound push pedal, thereby the ejecting constant head tank of double-glass photovoltaic module with the lamination completion.

Example 2: referring to fig. 2, the difference between embodiment 2 and embodiment 1 is that the pushing mechanism includes a pushing cavity 13 and two electric telescopic rods 14, the pushing cavity 13 is cross-shaped in cross section and is located inside the workbench 1, the pushing cavity 13 includes a horizontal cavity 131 and a vertical cavity 132, the pushing rod 6 is located in the vertical cavity 132, the two electric telescopic rods 14 are located at two ends of the horizontal cavity 131 and are symmetrical about the vertical central axis of the pushing plate 3, the two electric telescopic rods 14 are fixed on the bottom wall of the horizontal cavity 131 through fixing seats 15, the telescopic ends of the electric telescopic rods 14 are fixed with a connecting plate 16, the connecting plate 16 is connected with the inner wall of the horizontal cavity 131 in a sliding manner, the other end of the connecting plate 16 is provided with a fixing block 17, one end of the fixing block 17 is movably connected with a connecting rod 18 through.

Preferably, a stopper 19 is disposed at the junction of the horizontal cavity 131 and the vertical cavity 132 along the inner wall direction of the vertical cavity 132. Preventing the connecting plate from sliding out of the transverse cavity.

The implementation scenario is specifically as follows: electric telescopic handle circular telegram, make electric telescopic handle length extension, thereby drive the connecting plate along horizontal cavity inner wall rebound, thereby drive the fixed block rebound, rotate under the round pin axle, the connecting rod promotes the catch bar upwards, thereby drive push pedal rebound to constant head tank notch department, place dual-glass photovoltaic module in the push pedal, then make electric telescopic handle length shorten, drive the fixed block through the connecting plate along horizontal cavity inner wall rebound, the round pin axle rotates down, the connecting rod drives the catch bar rebound, drive the push pedal rebound, dual-glass photovoltaic module moves to the constant head tank in and the constant head tank inner wall of laminating along the push pedal this moment, the locating plate carries out the lamination in the lamination clamp plate gets into the constant head tank downwards along the guide pillar. After the lamination finishes, make electric telescopic handle length extension, drive the fixed block through the connecting plate and along horizontal cavity inner wall inwards remove, the round pin axle rotates down, and the connecting rod drives the catch bar rebound, and the push pedal also rebound to the ejecting constant head tank of double-glass photovoltaic module with the lamination completion.

Finally, it should be noted that: the technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by the arbitrary combination of the above technical features. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims (5)

1. The utility model provides a two glass photovoltaic module lamination positioner which characterized in that: the automatic positioning device comprises a workbench (1), a positioning plate (2) and a push plate (3), wherein a positioning groove (4) is formed in the middle of the workbench (1), the positioning groove (4) is fixedly connected with the workbench (1), a first through hole (5) is formed in the middle of the bottom of the positioning groove (4), the push plate (3) is arranged in the positioning groove (4), the four peripheral surfaces of the push plate (3) are attached to the inner wall of the positioning groove (4) and are in sliding connection with the positioning groove (4), a push rod (6) is vertically and fixedly connected to the middle of the lower surface of the push plate (3), the push rod (6) penetrates through the first through hole (5) and is connected with a pushing mechanism, the pushing mechanism is located inside the workbench (1), and the push plate (3) reciprocates in the vertical direction under the; the positioning plate (2) is located above the workbench (1) and is parallel to the workbench (1), the positioning plate (2) is connected with the workbench (1) through four guide pillars (7), guide sleeves (9) are respectively arranged at four corners of the positioning plate (2), a second through hole (8) is formed in each guide sleeve (9), one end of each guide pillar (7) penetrates through the other end of each second through hole (8) to be connected with the workbench (1), a pressing plate (11) is arranged in the middle of the positioning plate (2) and corresponds to the positioning groove (4), the pressing plate (11) is matched with the positioning groove (4), and elastic buffer blocks (10) are arranged on two sides of the pressing plate.

2. The dual-glass photovoltaic assembly lamination positioning device as recited in claim 1, wherein: the pushing mechanism is a pushing cylinder (12), the pushing cylinder (12) is fixed in the middle of the bottom inside the workbench (1), and the output end of the pushing cylinder (12) is fixedly connected with the pushing rod (6).

3. The dual-glass photovoltaic assembly lamination positioning device as recited in claim 1, wherein: the pushing mechanism comprises a pushing cavity (13) and two electric telescopic rods (14), the cross section of the pushing cavity (13) is cross and is positioned inside the workbench (1), the pushing cavity (13) comprises a transverse cavity (131) and a vertical cavity (132), the pushing rod (6) is positioned in the vertical cavity (132), the electric telescopic rods (14) are positioned at two ends of the transverse cavity (131) and are symmetrical about a vertical central shaft of the pushing plate (3), the electric telescopic rods (14) are fixed on the bottom wall of the transverse cavity (131) through fixing seats (15), a connecting plate (16) is fixed at the telescopic end of each electric telescopic rod (14), the connecting plate (16) is in sliding connection with the inner wall of the transverse cavity (131), a fixing block (17) is arranged at the other end of the connecting plate (16), and one end of the fixing block (17) is movably connected with a connecting rod (18) through a pin shaft, the top end of the connecting rod (18) is movably connected with the bottom end of the push rod (6) through a pin shaft.

4. The dual-glass photovoltaic assembly lamination positioning device as recited in claim 3, wherein: and a stop block (19) is arranged at the junction of the transverse cavity (131) and the vertical cavity (132) along the direction of the inner wall of the vertical cavity (132).

5. The dual-glass photovoltaic assembly lamination positioning device as recited in claim 1, wherein: the thickness of the elastic buffer block (10) is smaller than that of the pressure plate (11).

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