CN108538964B - Offline reflective strip pasting equipment for solar cell glass plate - Google Patents

Abstract

The invention discloses an off-line pasting reflective strip device for a solar cell glass plate, which comprises a grabbing device, a preheating device and a pasting device, wherein the preheating device and the pasting device are adjacently arranged, two grabbing devices are arranged, one grabbing device grabs the glass plate into the preheating device, and the other grabbing device grabs the glass plate in the pasting device; the invention has ingenious design, remarkably improves the production efficiency and quality, has low equipment manufacturing cost and simple structure, can realize automatic pasting and automatic cutting, and greatly improves the efficiency; in addition, the glass plates are limited at the same position through the arrangement of the four groups of positioning components, so that the production quality is ensured, and the reject ratio is greatly reduced; through the heating plate twice heating, to heating to preheating temperature through preheating device, then heat to the laminating temperature through the hot plate of laminating device again, further reduce loss and the waste of energy consumption, greatly reduced manufacturing cost.

Description

Offline reflective strip pasting equipment for solar cell glass plate

Technical Field

The invention relates to the field of solar cell panel manufacturing, in particular to a device for off-line pasting of a reflective strip on a solar cell glass panel.

Background

In the manufacturing step of the solar cell panel, the crisscrossed reflecting strips are required to be pasted on the glass panel, and the reflecting strips are generally pasted on the glass panel manually by tearing the reflecting adhesive tape, so that great labor force is required, the production cost is greatly improved, the production efficiency is low, the productivity is insufficient, in addition, the pasting quality cannot be well controlled by manual operation, and the reject ratio is often improved.

Disclosure of Invention

Aiming at the defects existing in the prior art, the main purpose of the invention is to overcome the defects of the prior art and discloses an off-line reflective strip pasting device for a solar cell glass plate, which is characterized by comprising a grabbing device, a preheating device and a pasting device, wherein the preheating device is arranged adjacent to the pasting device, two grabbing devices are arranged, one grabbing device grabs the glass plate into the preheating device, and the other grabbing device grabs the glass plate in the pasting device; wherein,

the preheating device comprises a preheating support, a heating plate and a conveying device, wherein the heating plate is fixed on the preheating support, and the conveying device is arranged in the heating plate;

the device that pastes is including pasting the support, the hot plate, conveyer, slide rail, first support, second support, actuating assembly and paste and cover the mechanism, the hot plate is installed paste and cover on the support, conveyer sets up in the hot plate, the slide rail is installed paste and cover around the support, first support with second support slidable installs on the slide rail to first support with the direction of movement mutually perpendicular of second support, actuating assembly drives respectively first support with the second support removes, paste and cover the mechanism setting first support with on the second support.

Further, the attaching mechanism comprises a discharging wheel, a supporting plate, a first air cylinder, a second air cylinder, a guide wheel and an attaching wheel, wherein the guide wheel and the attaching wheel are rotatably arranged on the supporting plate, the first air cylinder drives the supporting plate to vertically move, and the second air cylinder is fixed on the supporting plate.

Further, the cutter frame is rotatably mounted on the supporting plate, the cutter blade is arranged on the cutter frame, and the cutter frame is driven to rotate by the third air cylinder.

Further, the inner sides around the overlaying support are provided with positioning assemblies, each positioning assembly comprises a positioning rod, a fourth cylinder and a fifth cylinder, each positioning rod is installed on each fourth cylinder, each fourth cylinder drives each positioning rod to vertically move, and each fifth cylinder drives each fourth cylinder to horizontally move.

Further, the actuating assembly comprises an actuator and a horizontal moving mechanism, wherein the horizontal moving mechanism is arranged on the attaching bracket, and the actuator drives the horizontal moving mechanism to enable the first bracket and the second bracket to move along the sliding rail.

Further, the actuator is a servo motor, and the horizontal moving mechanism is a screw rod.

Further, the heating plate is in a grid shape, and the conveying device is arranged in the grid.

Further, the grabbing device comprises a frame, a track, a third support, a lifting mechanism, grabbing components and an actuating assembly, wherein the track is installed on the frame, the third support is slidably installed on the track, the lifting mechanism is fixed on the third support, the grabbing components are installed on the lifting mechanism, and the lifting mechanism drives the grabbing components to move up and down.

Further, the grabbing component comprises an integrated plate, a plurality of suckers and a plurality of exhaust pipes, wherein the suckers are fixed on the integrated plate, and the exhaust pipes are communicated with the suckers.

Further, the lifting mechanism is an air cylinder.

The invention has the beneficial effects that:

the invention has ingenious design, remarkably improves the production efficiency and quality, has low equipment manufacturing cost and simple structure, can realize automatic pasting and automatic cutting, and greatly improves the efficiency; in addition, the glass plates are limited at the same position through the arrangement of the four groups of positioning components, so that the production quality is ensured, and the reject ratio is greatly reduced; through the heating plate twice heating, to heating to preheating temperature through preheating device, then heat to the laminating temperature through the hot plate of laminating device again, further reduce loss and the waste of energy consumption, greatly reduced manufacturing cost.

Drawings

FIG. 1 is a schematic structural view of an off-line reflector strip attaching apparatus for a solar cell glass plate according to the present invention;

FIG. 2 is a schematic structural view of an attaching mechanism;

FIG. 3 is a schematic view of a positioning assembly;

FIG. 4 is a schematic view of the structure of the gripping member;

the reference numerals are as follows:

1. the device comprises a grabbing device, 2, a preheating device, 3, an attaching device, 11, a rack, 12, a track, 13, a third support, 14, a lifting mechanism, 15, grabbing components, 21, a preheating support, 31, an attaching support, 22, a heating plate, 23, a conveying device, 34, a sliding rail, 35, a first support, 36, a second support, 37, an attaching mechanism, 38, a frame, 39, a positioning component 371, a discharging wheel, 372, a supporting plate, 373, a first cylinder, 374, a second cylinder, 375, a guide wheel, 376, an attaching wheel, 377, a third cylinder, 378, a tool rest, 391, a positioning rod, 392, a fourth cylinder, 393, a fifth cylinder, 151, an integrated plate, 152, a sucker, 153 and an exhaust pipe.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The invention relates to an off-line reflective strip pasting device for a solar cell glass plate, which comprises a grabbing device 1, a preheating device 2 and a pasting device 3, wherein the preheating device 2 is arranged adjacent to the pasting device 3, the glass plate is firstly heated by the preheating device 2, and then reflective strips are pasted by the pasting device 3; two grabbing devices 1 are arranged, wherein one grabbing device 1 grabs the glass plate into the preheating device 2, and the other grabbing device 1 grabs the glass plate in the attaching device 3; wherein,

the preheating device 2 comprises a preheating support 21, a heating plate 22 and a conveying device 23, wherein the heating plate 22 is fixed on the preheating support 21, and the conveying device 23 is arranged in the heating plate 22; the conveying device 23 can be a roller, and the glass plate can be moved by the rotation of the roller; preferably, the heating plate 22 is grid-shaped, so that energy consumption can be saved as much as possible, and production cost can be reduced.

The application device 3 comprises an application stand 31, a heating plate 22, a conveyor 23, a slide rail 34, a first stand 35, a second stand 36, an actuating assembly (not shown) and an application mechanism 37, the heating plate 32 being mounted on the application stand 31, the conveyor 23 being arranged within the heating plate 22. The slide rails 34 are installed around the attaching bracket, two adjacent slide rails 34 are perpendicular to each other, the first bracket 35 and the second bracket 36 are slidably installed on the slide rails 34, the moving directions of the first bracket 35 and the second bracket 36 are perpendicular to each other, the actuating assembly is provided with two groups, which respectively drive the first bracket 35 and the second bracket 36 to move, in order to achieve that the first bracket 35 and the second bracket 36 can be perpendicular to each other, it is conceivable that only a frame 38 needs to be provided on the first bracket 35 or the second bracket 36, and the frame 38 allows the second bracket 36 or the first bracket 35 to pass through. The attaching mechanism 37 is provided on the first bracket 35 and the second bracket 36; the number of the light reflecting strips is set according to the requirement of pasting the light reflecting strips on the glass plate, and the number of the pasting mechanisms 37 is the same as the number of the light reflecting strips to be pasted.

As shown in fig. 2, the attaching mechanism 37 includes a discharge wheel 371, a support plate 372, a first cylinder 373, a second cylinder 374, a guide wheel 375 and an attaching wheel 376, where the guide wheel 375 and the attaching wheel 376 are rotatably disposed on the support plate 372, so that the attaching mechanism 37 is mounted on the first bracket 35, the first cylinder 373 and the discharge wheel 371 are fixed on the first bracket 35, the reflective strip roll is mounted on the discharge wheel 371, the support plate 372 is mounted on the first cylinder 373, and drives the support plate 372 to move vertically, so that the attaching wheel 376 contacts with the surface of the glass plate, the second cylinder 374 is fixed on the support plate 372, and after one reflective strip is attached, the second cylinder 374 abuts against the attaching wheel 376, so that the reflective strip is straight and is convenient to cut off. The third air cylinder 377 and the knife rest 378 are also installed on the supporting plate 372, the third air cylinder 377 is fixed on the supporting plate 372, the knife rest 378 is rotatably installed on the supporting plate 372 and connected with the third air cylinder 377, the knife blade is installed on the knife rest 378, the knife blade is driven to rotate through the third air cylinder 377, and the knife blade moves towards the reflecting strips. The principle of mounting the attaching mechanism 37 on the second bracket 36 is the same as that of mounting the attaching mechanism on the first bracket 35, and will not be described again.

In order to make the reflective tapes attached to the glass plates attached to the same position each time, it is necessary to make each glass plate at the same position, and a positioning assembly 39 is disposed on the inner side of the periphery of the attaching bracket 31, as shown in fig. 3, the positioning assembly 39 includes a positioning rod 391, a fourth cylinder 392 and a fifth cylinder 393, the positioning rod 391 is mounted on the fourth cylinder 392, the fourth cylinder 392 drives the positioning rod 391 to move vertically, and the fifth cylinder 393 drives the fourth cylinder 392 to move horizontally. The positioning rod 391 is moved upwards by the fourth air cylinder 392, then the positioning rod 391 is driven to move towards the glass plate by the fifth air cylinder 393, and the four groups of positioning components 39 are mutually matched to set the area formed by the four groups of positioning rods 391, so that the glass plate is positioned at the same position every time, and the attaching quality of the reflective strips is ensured.

As shown again in fig. 1, the gripping device 1 includes a frame 11, a rail 12, a third bracket 13, a lifting mechanism 14, a gripping member 15, and an actuating assembly (not shown), the rail 12 is mounted on the frame 11, the third bracket 13 is slidably mounted on the rail 12, the lifting mechanism 14 is fixed on the third bracket 13, the gripping member 15 is mounted on the lifting mechanism 14, and the lifting mechanism 14 may be a cylinder that drives the gripping member 15 to move up and down.

As shown in fig. 4, the gripping member 15 includes an integrated board 151, a plurality of suction cups 152 and a plurality of suction pipes 153, the suction cups 152 are fixed on the integrated board 151, the suction pipes 153 are communicated with the suction cups 152, and the gripping function is realized by accessing a vacuum extractor; when the glass plate is grabbed, the vacuumizing machine vacuumizes the sucker 152 through the exhaust pipe 153, so that vacuum is formed between the sucker 152 and the glass plate, and the glass plate is sucked; the number of suction cups 152 is determined by the actual size of the glass sheet, the larger the size, the greater the number of suction cups 152 required. Preferably, the suction cup 152 can be connected with the integrated board 151 through the suction pipe 153, and each suction pipe 153 is connected with the integrated board 151 and converged on one suction port, and is connected with the vacuum extractor through the suction port; of course, the mounting method of the suction cup 152 is not limited to the above method, and it is possible to grasp a glass plate.

The actuating assembly comprises an actuator and a horizontal moving mechanism, the horizontal moving mechanism is arranged on the overlaying support 31, the horizontal moving mechanism can be a screw rod, the actuator can be a servo motor, and the servo motor drives the screw rod to rotate so as to drive the first support 35 and the second support 36 to move along the sliding rail 34; it can be understood that the actuating components are two groups, and drive the first bracket 35 and the second bracket 36 respectively, so that it is conceivable that the screw rod driving the first bracket 35 is parallel to the moving direction of the first bracket 36, that is, parallel to the guiding direction of the slide rail 34; the screw driving the second bracket 35 is parallel to the moving direction of the second bracket 36, i.e., parallel to the guiding direction of the slide rail 34.

When the glass plate vacuum device is used, as shown in the figures 1-4, the lifting mechanism 14 drives the grabbing component 15 to descend and contact with the glass plate, the sucker 152 and the glass plate are vacuumized through the vacuum extractor, the glass plate is sucked, the lifting mechanism 14 is lifted, the actuating component drives the third bracket to move to the position right above the preheating device 2, the lifting mechanism 14 drives the grabbing component 15 to descend, the glass plate is placed on the preheating device 2, and the vacuum extractor stops vacuumizing the sucker 152, so that the glass plate is separated from the grabbing component 15; the preheating device 2 preheats the glass plate, through the grid design, energy loss is reduced as much as possible, after the preheating is finished, namely when the specified time and/or the specified temperature are reached, the conveying device 23 moves the glass plate to the pasting device 3, the glass plate is adjusted through the conveying device 23 on the pasting device 3, then the positioning rod 391 is moved upwards through the fourth air cylinder 392, the positioning rod 391 is driven to move towards the glass plate through the fifth air cylinder 393, four groups of positioning components 93 are simultaneously close to the glass plate, the glass plate is limited in a specified area, then the first support 35 starts to move, the first air cylinder 373 drives the supporting plate 372 to move downwards, the pasting wheel 376 is in contact with the glass plate, the reflective strip is positioned between the pasting wheel 376 and the glass plate, the first support 35 moves, the reflective strip is extruded through the pasting wheel 376, the reflective strip is pasted with the glass plate at a high temperature, and then the reflective strip is pulled out, after the pasting of the reflective strip is finished, the second air cylinder 374 supports the pasting wheel 376, the reflective strip is kept stationary, the first support 35 moves, the first support 372 drives the reflective strip, the reflective strip is convenient to rotate, and the reflective strip is reset, and the third support 377 is convenient to rotate, and the reflective strip is contacted with the reflective strip 377; after completion, the second support 36 moves, and at this time, the first support 35 is located in the frame 38 of the second support 36, and the attaching process of the second support 36 is the same as that of the first support 35. When the application is completed, the positioning assembly 39 is reset and the applied glass sheet is removed from the application device 3 by the other gripping device 1. Repeating the above operation to produce the glass plate coated reflective strip.

The invention has the beneficial effects that:

the invention has ingenious design, remarkably improves the production efficiency and quality, has low equipment manufacturing cost and simple structure, can realize automatic pasting and automatic cutting, and greatly improves the efficiency; in addition, the glass plates are limited at the same position through the arrangement of the four groups of positioning components, so that the production quality is ensured, and the reject ratio is greatly reduced; through the heating plate twice heating, to heating to preheating temperature through preheating device, then heat to the laminating temperature through the hot plate of laminating device again, further reduce loss and the waste of energy consumption, greatly reduced manufacturing cost.

The foregoing is merely a preferred embodiment of the present invention and is not intended to limit the scope of the present invention; modifications and equivalent substitutions are intended to be included in the scope of the claims without departing from the spirit and scope of the present invention.

Claims (7)

1. The off-line reflecting strip pasting device for the solar cell glass plate is characterized by comprising a grabbing device, a preheating device and a pasting device, wherein the preheating device is arranged adjacent to the pasting device, two grabbing devices are arranged, one grabbing device grabs the glass plate into the preheating device, and the other grabbing device grabs the glass plate in the pasting device; wherein,

the preheating device comprises a preheating support, a heating plate and a conveying device, wherein the heating plate is fixed on the preheating support, and the conveying device is arranged in the heating plate;

the device comprises a pasting support, a heating plate, a conveying device, a sliding rail, a first support, a second support, an actuating assembly and a pasting mechanism, wherein the heating plate is installed on the pasting support, the conveying device is arranged in the heating plate, the sliding rail is installed around the pasting support, the first support and the second support are slidably installed on the sliding rail, the moving directions of the first support and the second support are mutually perpendicular, the actuating assembly drives the first support and the second support to move respectively, and the pasting mechanism is arranged on the first support and the second support;

the attaching mechanism comprises a discharging wheel, a supporting plate, a first air cylinder, a second air cylinder, a guide wheel and an attaching wheel, wherein the guide wheel and the attaching wheel are rotatably arranged on the supporting plate, the first air cylinder drives the supporting plate to vertically move, and the second air cylinder is fixed on the supporting plate;

the cutter rest is rotatably arranged on the supporting plate, the cutter blade is arranged on the cutter rest, and the cutter rest is driven to rotate by the third air cylinder;

the inner sides around the overlaying support are all provided with positioning assemblies, each positioning assembly comprises a positioning rod, a fourth cylinder and a fifth cylinder, each positioning rod is installed on each fourth cylinder, each fourth cylinder drives each positioning rod to vertically move, and each fifth cylinder drives each fourth cylinder to horizontally move.

2. The apparatus of claim 1, wherein the actuating assembly comprises an actuator and a horizontal movement mechanism, the horizontal movement mechanism being disposed on the coating frame, the actuator driving the horizontal movement mechanism to move the first and second frames along the slide rail.

3. The off-line reflector strip attaching apparatus for a solar cell glass panel according to claim 2, wherein the actuator is a servo motor and the horizontal moving mechanism is a screw rod.

4. The off-line reflector strip attaching apparatus for a glass panel of a solar cell according to claim 1, wherein the heating plate is in a grid shape, and the conveying device is arranged in the grid.

5. The apparatus for off-line attachment of a reflector strip to a solar cell glazing panel of claim 1, wherein the gripping device comprises a frame, a rail mounted on the frame, a third support slidably mounted on the rail, a lifting mechanism secured to the third support, the gripping member mounted on the lifting mechanism, and the lifting mechanism driving the gripping member to move up and down.

6. The device for off-line attaching a reflector strip to a glass panel of a solar cell of claim 5, wherein the gripping member comprises an integrated plate, a plurality of suction cups and a plurality of suction tubes, the suction cups are fixed on the integrated plate, and the suction tubes are communicated with the suction cups.

7. The apparatus for off-line attachment of a reflector strip to a glass panel of a solar cell of claim 5, wherein the lifting mechanism is a cylinder.