CN117525208A - A glued membrane fixing device for photovoltaic module processing - Google Patents

Abstract

The invention relates to the technical field of glue film laying, in particular to a glue film fixing device for processing a photovoltaic module, which comprises a fixing frame, wherein a conveying belt for conveying glass and glue films is arranged above the fixing frame, the glue films are laid on the upper surface of the glass, the conveying belt is driven by a conveying roller, a supporting frame fixedly arranged on the fixing frame is arranged below the conveying belt, and a plurality of groups of electric hydraulic telescopic rods are arranged above the supporting frame; compared with the traditional soldering iron spot welding, the electronic spot welding can damage the adhesive film at high temperature, so that the adhesive film is damaged; secondly, compared with the traditional soldering iron spot welding and electronic spot welding, the soldering iron spot welding device does not generate smoke of spot welding; compared with the traditional soldering iron spot welding, the soldering iron does not burn or scald operators; the invention also does not affect the reliability of the assembly; the offset of the adhesive film when the adhesive film flows on the production line can be reduced, and the repair of the adhesive film can be reduced.

Description

A glued membrane fixing device for photovoltaic module processing

Technical Field

The invention relates to the technical field of glue film laying, in particular to a glue film fixing device for processing a photovoltaic module.

Background

The double-glass assembly adhesive film laying is an important procedure of a photovoltaic assembly, and at present, three methods of direct laying, middle spot welding laying and two-head spot welding laying are adopted for adhesive film laying in the industry, and the adhesive film is not damaged in the direct laying, but is easy to deviate on a glass surface; the adhesive film is fixed on the glass surface only by damaging the adhesive film by the middle spot welding and the two-head spot welding, so that the adhesive film fixing device for processing the photovoltaic module is provided, the adhesive film is well adsorbed on the glass surface by adopting the mode of fixing the adhesive film position by an infrared heating technology, and the phenomenon of deviation or bulge cannot be caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a glue film fixing device for processing a photovoltaic module, which enables a paved glue film to be well adsorbed on a glass surface and does not cause offset or bulge.

The technical scheme adopted by the invention for solving the technical problems is that the adhesive film fixing device for processing the photovoltaic module comprises a fixing frame, a conveying belt for conveying glass and adhesive films is arranged above the fixing frame, the adhesive films are paved on the upper surface of the glass, the conveying belt is driven by a conveying roller, a supporting frame fixedly arranged on the fixing frame is arranged below the conveying belt, a plurality of groups of electric hydraulic telescopic rods are arranged above the supporting frame, the output ends of the plurality of groups of electric hydraulic telescopic rods are fixedly connected with a supporting plate, and an infrared heater is arranged on the upper portion of the supporting plate and is used for heating the adhesive films.

By adopting the technical scheme, the glass is conveyed by virtue of the conveying belt, after the glass is conveyed to a certain position, the infrared heater is started to heat the adhesive film through the glass, the infrared heater is stopped to heat in a set temperature and time, and is automatically closed, at the moment, the heated adhesive film is not melted and can be firmly adsorbed on the glass surface under the condition of natural cooling, so that the adhesive film is fixed, and the adhesive film is not damaged;

the height of the infrared heater can be adjusted by means of the electrohydraulic telescopic rod, so that the height of the infrared heater can be adjusted conveniently according to actual use conditions;

compared with the traditional soldering iron spot welding, the electronic spot welding can damage the adhesive film at high temperature, so that the adhesive film is damaged; secondly, compared with the traditional soldering iron spot welding and electronic spot welding, the soldering iron spot welding device does not generate smoke of spot welding; compared with the traditional soldering iron spot welding, the soldering iron does not burn or scald operators; the invention also does not affect the reliability of the assembly; the offset of the adhesive film when the adhesive film flows on the production line can be reduced, and the repair of the adhesive film can be reduced.

Specifically, both sides of mount all are connected with sliding support structure, and sliding connection has between two sets of sliding support structure and preheats the structure, sliding support structure all includes first fixed block and second fixed block, all be equipped with the movable rod that the level set up between first fixed block, the second fixed block, the movable rod is the nucleophilicity, two sets of sliding connection has preheats the structure between the movable rod, preheat the top that the structure is located the conveyer belt, first fixed block, second fixed block all pass through connecting rod and mount outside fixed connection, conveyer belt outside surface evenly distributed has the extrusion pole, the upper end of extrusion pole is equipped with the inclined plane.

By adopting the technical scheme, the adhesive film is paved on the upper surface of the glass, the glass is driven to move when the conveying belt rotates, after the conveying belt rotates to a certain position, the extrusion rod arranged on the conveying belt and the extrusion structure at one side of the preheating structure are driven to move, at the moment, the preheating structure is positioned above the glass, the adhesive film paved on the upper surface of the glass is preheated by virtue of the preheating structure, the subsequent infrared heater is convenient to heat the adhesive film, and the processing efficiency is improved;

when the extrusion rod drives the preheating structure to move, the preheating structure can slide between the first fixed block and the second fixed block conveniently by virtue of the moving rod; when the preheating structure is in extrusion contact with one side of the second fixed block through the moving rod, the preheating of the adhesive film is completed.

Specifically, the preheating structure comprises an air blowing plate, a cavity is formed in the air blowing plate, heating wires are arranged in the cavity, a plurality of groups of air outlet holes are formed in the lower surface of the air blowing plate, the air outlet holes face to the conveying belt, sliding grooves penetrating through the air blowing plate are formed in two ends of the air blowing plate, the moving rod penetrates through the sliding grooves and is in sliding connection with the sliding grooves, an air inlet connector is arranged on one side of the air blowing plate, and the air inlet connector is communicated with the inside of the cavity;

the sliding groove is internally provided with a reset moving structure, the reset moving structure is convenient for driving the air blowing plate to reset, the outer side of the air blowing plate is provided with a driving structure, and the driving structure is used for driving the air blowing plate to reset.

By adopting the technical scheme, the air inlet connector is connected with an air source; after the conveyor belt rotates to a certain position, the air blowing plate is positioned above a group of glass, the air blowing plate is in extrusion contact with one side of the air blowing plate by virtue of the extrusion rod and is driven to slide on the moving rod, and the moving stability and convenience of the air blowing plate can be improved by virtue of the action of the sliding groove;

when the air blowing plate moves, air enters the cavity through the air inlet connector, the air is heated in the cavity by virtue of the heating wire, and finally is discharged through the air outlet hole and blown to the upper surface of a group of glass, so that the adhesive film paved on the upper surface of the glass is preheated, the subsequent infrared heater is convenient to heat the adhesive film, and the processing efficiency is improved; in addition, the adhesive film is blown vertically by virtue of the air outlet, so that the stability of the adhesive film laid on the glass can be improved, the situation that the glass and the adhesive film are misplaced when synchronously moving is avoided, and the adhesive film fixing effect is further ensured;

after the air blowing plate moves to a certain position, one side of the air blowing plate is in extrusion contact with the second fixed block, the air blowing plate cannot continue to move by virtue of the second fixed block, meanwhile, the air blowing plate is extruded by virtue of the inclined surface arranged at the upper end of the extrusion rod, so that the air blowing plate moves upwards, after the air blowing plate moves upwards, the air blowing plate is driven to reset by virtue of the reset moving structure arranged in the sliding groove, the air blowing plate is driven to reset by virtue of the driving structure, and the next adhesive film is preheated, so that the use convenience and the production efficiency are improved.

Specifically, the reset moving structure comprises two groups of first grooves and second grooves which are arranged in the sliding groove, the two groups of first grooves are positioned above the inner wall of the sliding groove, a first magnetic roller is rotationally connected to the first grooves, the first magnetic roller is magnetically adsorbed on the upper surface of the moving rod, the moving rod is in rolling connection with the first magnetic roller, a pressing switch is arranged on the upper part of the inner wall of the sliding groove and used for controlling the heating wire and the air inlet connector to work, and the upper surface of the moving rod is in extrusion contact with the pressing switch to open the heating wire and the air inlet of the air inlet connector in an initial state;

the two sets of second fluting is located the inner wall below of sliding tray, the rotation is connected with the second magnetism gyro wheel in the second fluting, second magnetism gyro wheel adsorbs with the lower surface magnetism of movable rod, movable rod and second magnetism gyro wheel roll connection, the top of first fixed block all is equipped with the stripper plate that the slope set up.

By adopting the technical scheme, after the driving structure drives the air blowing plate to reset, the air blowing plate is extruded by virtue of the extrusion plate, the air blowing plate is driven to move downwards again, when the air blowing plate moves downwards, the lower surface of the moving rod is separated from the second magnetic roller, meanwhile, the upper surface of the moving rod is magnetically adsorbed with the first magnetic roller, when the moving rod is magnetically adsorbed with the first magnetic roller, the air blowing plate is restored to an initial state, the upper surface of the moving rod is in extrusion contact with the press switch, the heating wire and the air inlet of the air inlet connector are started, and then the air blowing plate is driven to move again by virtue of the extrusion rod on the conveying belt; when the air blowing plate moves, the first magnetic roller is in rolling contact with the upper surface of the moving rod, the moving stability of the air blowing plate is improved, and meanwhile, the adhesive film is preheated by means of synchronous movement of the air blowing plate and glass;

when the air blowing plate moves to a certain position, one side of the air blowing plate is in extrusion contact with the second fixed block, meanwhile, the air blowing plate is extruded by virtue of the extrusion rod, so that the air blowing plate moves upwards, after the air blowing plate moves upwards, the moving rod is separated from the first magnetic roller, and the pressing switch is not extruded any more, and at the moment, the heating wire and the air inlet connector are closed, so that the energy consumption can be effectively reduced;

when the air blowing plate moves upwards, the moving rod is magnetically adsorbed with the second magnetic roller in the second slot, the air blowing plate is driven to reset and move by virtue of the driving structure, after the air blowing plate resets and moves to a certain position, the air blowing plate is extruded by virtue of the extrusion plate, so that the air blowing plate moves downwards, after the air blowing plate moves downwards, the moving rod is separated from the second magnetic roller and magnetically adsorbed with the first magnetic roller in the first slot, meanwhile, the pressing switch is extruded, the heating wire and the air inlet of the air inlet connector are opened, and at the moment, the next adhesive film can be preheated again;

it should be noted that the air blast plate of the present invention is in press contact with one side of the first fixing block in the initial state.

Specifically, the driving structure comprises two groups of gas springs, the fixed ends of the two groups of gas springs are fixedly connected with the outer side of the fixing frame through fixing rods, the output ends of the two groups of gas springs are fixedly connected with sliding plates, two groups of supporting wheels corresponding to the sliding plates are arranged on one side, close to the second fixing block, of the blowing plate, and the supporting wheels are in extrusion contact with one side of the sliding plates.

Through adopting above-mentioned technical scheme, when the extrusion rod on the conveyer belt takes the board of blowing to remove, the supporting wheel that board one side of blowing was equipped with extrudees the contact with the slide, and the extrusion slide drives the air spring when the slide extrudees and carry out extrusion power, after the board of blowing removes the limit, rely on the extrusion rod to drive the board of blowing and upwards move, when the board of blowing upwards moves, rely on the one side extrusion contact of supporting wheel and slide, the stability of upwards moving of the board of blowing improves, after the board of blowing upwards moves and accomplishes, the extrusion rod no longer extrudees the board of blowing this moment, simultaneously rely on the reset effect of air spring to drive the slide and reset and remove, the supporting wheel of extrusion when the slide moves, thereby drive the board of blowing and reset and remove, when the board of blowing resets and remove to the back of certain position, rely on the extrusion board that is equipped with on the first fixed block to extrude the board of blowing, make the board of blowing move downwards, and be convenient for preheat next a set of glued membrane, with this effect of accomplishing the reciprocating movement of the board of blowing.

Specifically, a plurality of groups the apopore includes first apopore and second apopore, be equipped with adjustable structure of blowing in the board of blowing, adjustable structure of blowing is including setting up at the inside regulating plate of blowing, the regulating plate is located the below of heater strip, regulating plate and cavity inner wall lower surface sliding connection, be equipped with first through-hole, the second through-hole that runs through the setting on the regulating plate, first through-hole is corresponding with first apopore under the regulating plate initial state to the second through-hole is crisscross with the second apopore.

By adopting the technical scheme, when the air blowing plate and the glass synchronously move, the glue film laid on the upper surface of the glass is preheated, and the preheating position of the glue film can be adjusted by means of the adjusting plate; when the air blowing plate moves, the first through holes on the adjusting plate correspond to the first air outlet holes, so that the air is preheated through the first through holes and the first air outlet holes to the appointed area of the adhesive film, the preheating effect is further improved, and the air cannot be discharged through the second air outlet holes due to the fact that the second through holes are staggered with the second air outlet holes;

after the adjusting plate moves, the first through holes are staggered with the first air outlet holes so as to close the air outlet of the first air outlet holes, and the second through holes correspond to the second air outlet holes along with the movement of the adjusting plate, and gas is discharged through the second air outlet holes so as to preheat the appointed area on the other side of the adhesive film, so that the preheating effect is improved, and the appointed area of the adhesive film is conveniently preheated according to the actual use condition;

it should be pointed out that when the adjusting plate is used, two groups of infrared heaters are matched for use; when preheating a group of appointed areas, the adhesive film of the appointed areas is heated by matching with a group of infrared heaters, and meanwhile, the preheating operation is switched to the preheating operation of another group of appointed areas, and after preheating another group of appointed areas, the adhesive film of the appointed areas is heated by matching with another group of infrared heaters, so that the use convenience is improved.

Specifically, the inside intercommunication groove that is equipped with of blast plate, the one end and the cavity intercommunication of intercommunication groove, the other end and a set of sliding tray intercommunication of intercommunication groove, the one end of the last fixed surface of regulating plate connect the sliding lever, a set of one side that the gas spring was kept away from to the movable lever is equipped with the dovetail groove, the dovetail groove is located one side that the movable lever is close to first fixed block, the one end that the regulating plate was kept away from to the sliding lever pass the intercommunication groove and with dovetail groove sliding connection, the one end that the regulating plate was kept away from to the sliding lever is equipped with the ascending guide slope of slope, the one end of fixedly connected with reset spring in the intercommunication groove, the other end and the outside fixed connection of sliding lever of reset spring.

By adopting the technical scheme, when the blowing plate moves, one end of the sliding rod passes through the communication groove and is in sliding connection with the trapezoid groove of the moving rod, and at the moment, the first through hole corresponds to the first air outlet hole; when the air blowing plate moves to the middle part of the moving rod, one end of the sliding rod is in extrusion contact with one side of the trapezoid groove, the sliding rod is extruded, the sliding rod moves in the communication groove, the reset spring is extruded when the sliding rod moves, the adjusting plate is driven to move, after the adjusting plate moves, the first through holes are staggered with the first air outlet holes, and the second through holes correspond to the second air outlet holes, so that the heating area of the adhesive film is switched;

when the blowing plate moves to a certain position, the extruding rod on the conveying belt drives the blowing plate to move upwards, the sliding rod is restored to an initial state by means of the reset effect of the reset spring, and the sliding rod is positioned above the moving rod;

when the air blowing plate resets and moves, rely on the stripper plate extrusion air blowing board on the first fixed block to move down, when the air blowing plate moves down, rely on the upper surface of carriage release lever to extrude the inclined plane of carriage release lever, make the carriage release lever enter into the intercommunication inslot again, extrude simultaneously and hold the power to reset spring, after the air blowing plate moves down to initial state, rely on reset effect drive carriage release lever to reset, the carriage release lever resets and moves to the dovetail groove of carriage release lever this moment, thereby make the regulating plate resume to initial state, can carry out the preheating of next glued membrane, further improvement use convenience.

The invention has the beneficial effects that:

(1) Compared with the traditional soldering iron spot welding, the adhesive film fixing device for processing the photovoltaic module can damage the adhesive film at high temperature by the electronic spot welding, so that the adhesive film is damaged; secondly, compared with the traditional soldering iron spot welding and electronic spot welding, the soldering iron spot welding device does not generate smoke of spot welding; compared with the traditional soldering iron spot welding, the soldering iron does not burn or scald operators; the invention also does not affect the reliability of the assembly; the offset of the adhesive film when the adhesive film flows on the production line can be reduced, and the repair of the adhesive film can be reduced.

(2) According to the adhesive film fixing device for processing the photovoltaic module, provided by the invention, the adhesive film is blown vertically by virtue of the air outlet, so that the stability of the adhesive film laid on glass can be improved, the situation that the glass and the adhesive film are misplaced when synchronously moving is avoided, and the adhesive film fixing effect is further ensured.

(3) According to the adhesive film fixing device for processing the photovoltaic module, when the air blowing plate moves, air enters the cavity through the air inlet connector, the air is heated in the cavity by means of the heating wire, and finally is discharged through the air outlet hole and blown to the upper surface of a group of glass, so that the adhesive film laid on the upper surface of the glass is preheated, the subsequent infrared heater is convenient to heat the adhesive film, and the use convenience and the production efficiency are improved.

(4) According to the adhesive film fixing device for processing the photovoltaic module, disclosed by the invention, the designated area of the adhesive film can be preheated by moving the adjusting plate, so that the preheating effect is improved, and the designated area of the adhesive film can be conveniently preheated according to actual use conditions.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is an isometric view of an embodiment of the invention;

FIG. 2 is a schematic view showing a connecting structure of an extrusion rod according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a driving structure according to an embodiment of the present invention;

FIG. 4 is a schematic top view of an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the area A of FIG. 2 according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the area B of FIG. 3 according to an embodiment of the present invention;

FIG. 7 is a schematic view of a connection structure of a blower plate according to an embodiment of the present invention;

fig. 8 is a schematic sectional view showing a sliding groove in an initial state of a blower plate according to an embodiment of the present invention;

fig. 9 is a schematic cross-sectional view of a sliding groove in a reset process of a blower plate according to an embodiment of the present invention;

FIG. 10 is a schematic cross-sectional view of a cavity according to an embodiment of the present invention;

FIG. 11 is a schematic view of an adjusting plate connection structure according to an embodiment of the present invention;

FIG. 12 is an enlarged schematic view of the area C of FIG. 11 in accordance with one embodiment of the present invention;

FIG. 13 is a schematic diagram of a dovetail slot configuration according to one embodiment of the present invention;

in the figure: 1. a fixing frame; 2. a conveyor belt; 3. a support frame; 4. an electro-hydraulic telescopic rod; 5. a support plate; 6. an infrared heater; 7. a first fixed block; 8. a second fixed block; 9. a moving rod; 10. an extrusion rod; 11. a blowing plate; 12. a heating wire; 13. an air outlet hole; 14. a sliding groove; 15. an air inlet joint; 16. a first slot; 17. a second slot; 18. a first magnetic roller; 19. pressing the switch; 20. a second magnetic roller; 21. an extrusion plate; 22. a gas spring; 23. a slide plate; 24. a support wheel; 25. a first air outlet hole; 26. a second air outlet hole; 27. an adjusting plate; 28. a first through hole; 29. a second through hole; 30. a communication groove; 31. a slide bar; 32. a trapezoid groove; 33. and a return spring.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

In order to enable a paved adhesive film to be well adsorbed on a glass surface without causing offset or bulge, as an embodiment of the invention, as shown in fig. 1, the adhesive film fixing device for processing a photovoltaic module comprises a fixing frame 1, a conveying belt 2 for conveying glass and adhesive films is arranged above the fixing frame 1, the adhesive film is paved on the upper surface of the glass, the conveying belt 2 is driven by a conveying roller, a supporting frame 3 fixedly arranged on the fixing frame 1 is arranged below the conveying belt 2, a plurality of groups of electric hydraulic telescopic rods 4 are arranged above the supporting frame 3, the output ends of the groups of electric hydraulic telescopic rods 4 are fixedly connected with a supporting plate 5, an infrared heater 6 is arranged on the upper part of the supporting plate 5, and the infrared heater 6 is used for heating the adhesive film.

When the glass is used, the glass is conveyed by the conveyor belt 2, after the glass is conveyed to a certain position, the infrared heater 6 is started to be switched on and off, the infrared heater 6 is used for heating the adhesive film through the glass, the heating is stopped within a set temperature and time, the infrared heater 6 is automatically closed, the heated adhesive film is not melted at this time, and the adhesive film can be firmly adsorbed on the glass surface under the condition of natural cooling, so that the adhesive film is fixed and is not damaged;

the height of the infrared heater 6 can be adjusted by means of the electrohydraulic telescopic rod 4, so that the height of the infrared heater 6 can be adjusted according to actual use conditions;

compared with the traditional soldering iron spot welding, the electronic spot welding can damage the adhesive film at high temperature, so that the adhesive film is damaged; secondly, compared with the traditional soldering iron spot welding and electronic spot welding, the soldering iron spot welding device does not generate smoke of spot welding; compared with the traditional soldering iron spot welding, the soldering iron does not burn or scald operators; the invention also does not affect the reliability of the assembly; the offset of the adhesive film when the adhesive film flows on the production line can be reduced, and the repair of the adhesive film can be reduced.

In order to be convenient for preheat the glued membrane, exemplary, as shown in fig. 2, 3, 4, the invention still includes that both sides of mount 1 are connected with sliding support structure, sliding support structure has between two sets of sliding support structure to preheat the structure, sliding support structure all includes first fixed block 7 and second fixed block 8, all be equipped with the movable rod 9 that the level set up between first fixed block 7, the second fixed block 8, movable rod 9 is the magnetophilism, two sets of sliding connection has to preheat the structure between the movable rod 9, preheat the structure and be located the top of conveyer belt 2, first fixed block 7, second fixed block 8 all are through connecting rod and mount 1 outside fixed connection, conveyer belt 2 surface evenly distributed has extrusion rod 10, the upper end of extrusion rod 10 is equipped with the inclined plane.

When the device is used, an adhesive film is paved on the upper surface of glass, the glass is driven to move when the conveyer belt 2 rotates, after the conveyer belt 2 rotates to a certain position, an extrusion rod 10 arranged on the conveyer belt 2 and an extrusion structure at one side of a preheating structure drive the preheating structure to move, at the moment, the preheating structure is positioned above the glass, and the adhesive film paved on the upper surface of the glass is preheated in advance by virtue of the preheating structure, so that the subsequent infrared heater 6 is convenient to heat the adhesive film, and the processing efficiency is improved;

when the extrusion rod 10 drives the preheating structure to move, the preheating structure can slide between the first fixed block 7 and the second fixed block 8 conveniently by virtue of the moving rod 9; when the preheating structure is in pressing contact with one side of the second fixing block 8 through the moving rod 9, the preheating of the adhesive film is completed at this time.

In order to further ensure the fixing effect of the adhesive film, as shown in fig. 2, 3, 7 and 10, the preheating structure further comprises an air blowing plate 11, wherein a cavity is formed in the air blowing plate 11, heating wires 12 are arranged in the cavity, a plurality of groups of air outlet holes 13 are formed in the lower surface of the air blowing plate 11, the air outlet holes 13 face the conveying belt 2, sliding grooves 14 which are arranged in a penetrating manner are formed in two ends of the air blowing plate 11, the moving rod 9 penetrates through the sliding grooves 14 and is in sliding connection with the sliding grooves 14, an air inlet joint 15 is arranged on one side of the air blowing plate 11, and the air inlet joint 15 is communicated with the inside of the cavity;

the sliding groove 14 is internally provided with a reset moving structure, the reset moving structure is convenient for driving the air blowing plate 11 to reset, the outer side of the air blowing plate 11 is provided with a driving structure, and the driving structure is used for driving the air blowing plate 11 to reset.

When in use, the air inlet joint 15 is connected with an air source; after the conveyor belt 2 rotates to a certain position, the air blowing plate 11 is positioned above a group of glass, and is in extrusion contact with one side of the air blowing plate 11 by virtue of the extrusion rod 10, and drives the air blowing plate 11 to slide on the moving rod 9, so that the moving stability and convenience of the air blowing plate 11 can be improved by virtue of the action of the sliding groove 14;

when the air blowing plate 11 moves, air enters the cavity through the air inlet connector 15, and is heated in the cavity by virtue of the heating wire 12, and finally the air is discharged through the air outlet hole 13 and blown to the upper surface of a group of glass, so that the adhesive film paved on the upper surface of the glass is preheated, the subsequent infrared heater 6 is convenient to heat the adhesive film, and the processing efficiency is improved; in addition, the air outlet 13 is used for blowing air to the adhesive film vertically, so that the stability of the adhesive film laid on the glass can be improved, the situation that the glass and the adhesive film are misplaced when synchronously moving is avoided, and the adhesive film fixing effect is further ensured;

after the air blowing plate 11 moves to a certain position, one side of the air blowing plate 11 is in extrusion contact with the second fixed block 8, the air blowing plate 11 cannot continue to move by means of the second fixed block 8, meanwhile, the air blowing plate 11 is extruded by means of the inclined surface arranged at the upper end of the extrusion rod 10, the air blowing plate 11 is enabled to move upwards, after the air blowing plate 11 moves upwards, the air blowing plate 11 is driven to reset by means of the reset moving structure arranged in the sliding groove 14, and the air blowing plate 11 is driven to reset by the driving structure conveniently, and the next adhesive film is preheated, so that the use convenience and the production efficiency are improved.

In order to further improve the movement stability and the use convenience of the air blowing plate 11, as shown in fig. 3, 6, 7, 8, 9 and 10, the invention further comprises that the reset moving structure comprises two groups of first slots 16 and second slots 17 arranged in the sliding groove 14, the two groups of first slots 16 are positioned above the inner wall of the sliding groove 14, the first slots 16 are rotationally connected with a first magnetic roller 18, the first magnetic roller 18 is magnetically adsorbed to the upper surface of the moving rod 9, the moving rod 9 is in rolling connection with the first magnetic roller 18, a pressing switch 19 is arranged at the upper part of the inner wall of the sliding groove 14 and used for controlling the operation of the heating wire 12 and the air inlet joint 15, and the upper surface of the moving rod 9 is in pressing contact with the pressing switch 19 in an initial state so as to open the heating wire 12 and the air inlet of the air inlet joint 15;

the two groups of second grooves 17 are positioned below the inner wall of the sliding groove 14, second magnetic rollers 20 are rotationally connected to the second grooves 17, the second magnetic rollers 20 are magnetically attracted to the lower surface of the moving rod 9, the moving rod 9 is in rolling connection with the second magnetic rollers 20, and extrusion plates 21 which are obliquely arranged are arranged above the first fixed blocks 7.

When the air blowing plate 11 is reset, the air blowing plate 11 is extruded by the extrusion plate 21, the air blowing plate 11 is driven to move downwards again, when the air blowing plate 11 moves downwards, the lower surface of the moving rod 9 is separated from the second magnetic roller 20, meanwhile, the upper surface of the moving rod 9 is magnetically adsorbed with the first magnetic roller 18, when the moving rod 9 is magnetically adsorbed with the first magnetic roller 18, the air blowing plate 11 is restored to an initial state, the upper surface of the moving rod 9 is in extrusion contact with the press switch 19, the heating wire 12 and the air inlet of the air inlet connector 15 are started, and then the air blowing plate 11 is driven to move again by the extrusion rod 10 on the conveying belt 2; when the air blowing plate 11 moves, the first magnetic roller 18 is in rolling contact with the upper surface of the moving rod 9, the moving stability of the air blowing plate 11 is improved, and meanwhile, the adhesive film is preheated by means of synchronous movement of the air blowing plate 11 and glass;

when the air blowing plate 11 moves to a certain position, one side of the air blowing plate 11 is in extrusion contact with the second fixed block 8, meanwhile, the air blowing plate 11 is extruded by the extrusion rod 10, so that the air blowing plate 11 moves upwards, after the air blowing plate 11 moves upwards, the moving rod 9 is separated from the first magnetic roller 18, the pressing switch 19 is not extruded any more, and at the moment, the heating wire 12 and the air inlet joint 15 are closed, so that the energy consumption can be effectively reduced;

when the air blowing plate 11 moves upwards, the moving rod 9 is magnetically adsorbed to the second magnetic roller 20 in the second slot 17, the air blowing plate 11 is driven to reset by the driving structure, after the air blowing plate 11 resets to a certain position, the air blowing plate 11 is extruded by the extrusion plate 21, so that the air blowing plate 11 moves downwards, after the air blowing plate 11 moves downwards, the moving rod 9 is separated from the second magnetic roller 20 and magnetically adsorbed to the first magnetic roller 18 in the first slot 16, meanwhile, the pressing switch 19 is extruded, the heating wire 12 and air inlet of the air inlet connector 15 are opened, and at the moment, the next group of adhesive films can be preheated again;

it should be noted that the air blowing plate 11 of the present invention is in press contact with one side of the first fixing block 7 in the initial state.

In order to facilitate the return movement of the air blowing plate 11, as shown in fig. 2, 3 and 4, the invention further includes, for example, that the driving structure includes two groups of air springs 22, the fixed ends of the two groups of air springs 22 are fixedly connected with the outer side of the fixing frame 1 through fixing rods, the output ends of the two groups of air springs 22 are fixedly connected with a sliding plate 23, two groups of supporting wheels 24 corresponding to the sliding plate 23 are arranged on one side of the air blowing plate 11 close to the second fixing block 8, and the supporting wheels 24 are in extrusion contact with one side of the sliding plate 23.

When the air blowing plate 11 is moved, the extrusion rod 10 on the conveying belt 2 is provided with the air blowing plate 11, the supporting wheel 24 arranged on one side of the air blowing plate 11 is in extrusion contact with the sliding plate 23, the sliding plate 23 is extruded, the air spring 22 is driven to extrude and store force when the sliding plate 23 is extruded, after the air blowing plate 11 moves to the limit, the air blowing plate 11 is driven to move upwards by means of the extrusion rod 10, when the air blowing plate 11 moves upwards, the air blowing plate 11 is improved in upward movement stability by means of the extrusion contact of the supporting wheel 24 and one side of the sliding plate 23, after the air blowing plate 11 moves upwards, the air blowing plate 11 is not extruded, meanwhile, the sliding plate 23 is driven to reset by means of the reset effect of the air spring 22, the supporting wheel 24 is extruded when the sliding plate 23 moves, so that the air blowing plate 11 is driven to reset, after the air blowing plate 11 moves to a certain position, the air blowing plate 11 is extruded by means of the extrusion plate 21 arranged on the first fixing block 7, so that the air blowing plate 11 moves downwards, and a next set of adhesive film is preheated, and the reciprocating movement effect of the air blowing plate 11 is finished.

In order to be convenient for preheat the appointed area of glued membrane according to actual usage, the invention also includes, as shown in fig. 11, 12, 13, and a plurality of groups of air outlet holes 13 include first air outlet hole 25 and second air outlet hole 26, be equipped with adjustable structure of blowing in the board 11, adjustable structure of blowing includes setting up the regulating plate 27 in the board 11 inside, regulating plate 27 is located the below of heater strip 12, regulating plate 27 and cavity inner wall lower surface sliding connection, be equipped with first through-hole 28, the second through-hole 29 that runs through the setting on the regulating plate 27, first through-hole 28 corresponds with first air outlet hole 25 under the initial state of regulating plate 27, and second through-hole 29 is crisscross with second air outlet hole 26.

When the glass preheating device is used, when the blowing plate 11 and the glass synchronously move, the glue film paved on the upper surface of the glass is preheated, and the preheating position of the glue film can be adjusted by virtue of the adjusting plate 27; when the air blowing plate 11 moves, the first through holes 28 on the adjusting plate 27 correspond to the first air outlet holes 25, so that the air is preheated in the designated area of the adhesive film through the first through holes 28 and the first air outlet holes 25, the preheating effect is further improved, and the air cannot be discharged through the second air outlet holes 26 due to the fact that the second through holes 29 are staggered with the second air outlet holes 26;

after the adjusting plate 27 moves, the first through holes 28 are staggered with the first air outlet holes 25 so as to close the air outlet of the first air outlet holes 25, and along with the movement of the adjusting plate 27, the second through holes 29 correspond to the second air outlet holes 26, and at the moment, gas is discharged through the second air outlet holes 26 so as to preheat the appointed area on the other side of the adhesive film, so that the preheating effect is improved, and the appointed area of the adhesive film is conveniently preheated according to the actual use condition;

it should be noted that, when the adjusting plate 27 is used, two sets of infrared heaters 6 are matched for use; when preheating of one set of designated areas is completed, the adhesive film of the designated areas is heated by matching with one set of infrared heaters 6, and meanwhile, the preheating operation is switched to the preheating operation of the other set of designated areas, and after preheating of the other set of designated areas is completed, the adhesive film designated areas are heated by matching with the other set of infrared heaters 6, so that the use convenience is improved.

In order to further improve the use convenience of the adjusting plate 27, as shown in fig. 11, 12 and 13, exemplary embodiments of the present invention further include, a communicating groove 30 is provided in the blowing plate 11, one end of the communicating groove 30 is communicated with the cavity, the other end of the communicating groove 30 is communicated with a set of sliding grooves 14, one end of the sliding rod 31 is fixedly connected to the upper surface of the adjusting plate 27, one side of the moving rod 9 away from the air spring 22 is provided with a trapezoid groove 32, the trapezoid groove 32 is located on one side of the moving rod 9 near the first fixed block 7, one end of the sliding rod 31 away from the adjusting plate 27 passes through the communicating groove 30 and is slidably connected with the trapezoid groove 32, one end of the sliding rod 31 away from the adjusting plate 27 is provided with an upward inclined guiding slope, one end of the sliding rod 33 is fixedly connected in the communicating groove 30, and the other end of the sliding rod 33 is fixedly connected with the outer side of the sliding rod 31.

In use, when the air blowing plate 11 moves, one end of the sliding rod 31 passes through the communication groove 30 and is in sliding connection with the trapezoid groove 32 of the moving rod 9, and at the moment, the first through hole 28 corresponds to the first air outlet hole 25; when the air blowing plate 11 moves to the middle part of the moving rod 9, at the moment, one end of the sliding rod 31 is in extrusion contact with one side of the trapezoid groove 32, and extrudes the sliding rod 31, so that the sliding rod 31 moves in the communication groove 30, the sliding rod 31 extrudes the return spring 33 when moving, and simultaneously drives the adjusting plate 27 to move, after the adjusting plate 27 moves, the first through holes 28 are staggered with the first air outlet holes 25, and the second through holes 29 correspond to the second air outlet holes 26, so that the heating area of the adhesive film is switched;

when the air blowing plate 11 moves to a certain position, the extrusion rod 10 on the conveying belt 2 drives the air blowing plate 11 to move upwards, the sliding rod 31 returns to the initial state by means of the reset effect of the reset spring 33, and the sliding rod 31 is positioned above the moving rod 9;

when the air blowing plate 11 is reset and moves, the air blowing plate 11 is extruded by the extrusion plate 21 on the first fixed block 7 to move downwards, when the air blowing plate 11 moves downwards, the inclined surface of the sliding rod 31 is extruded by the upper surface of the moving rod 9, so that the sliding rod 31 enters the communicating groove 30 again, meanwhile, the restoring spring 33 is extruded to store force, after the air blowing plate 11 moves downwards to an initial state, the sliding rod 31 is driven to reset by virtue of the reset effect of the restoring spring 33, and at the moment, the sliding rod 31 is reset and moves into the trapezoid groove 32 of the moving rod 9, so that the adjusting plate 27 is restored to the initial state, and at the moment, the next group of adhesive films can be preheated, and the use convenience is further improved.

When the embodiment of the invention is used, an adhesive film is paved on the upper surface of glass, the glass is driven to move when the conveying belt 2 rotates, after the conveying belt 2 rotates to a certain position, the extruding rod 10 is in extrusion contact with one side of the air blowing plate 11, the air blowing plate 11 is driven to slide on the moving rod 9, and the moving stability and convenience of the air blowing plate 11 can be improved by virtue of the action of the sliding groove 14;

when the air blowing plate 11 moves, air enters the cavity through the air inlet joint 15, is heated in the cavity through the heating wire 12, is finally discharged through the air outlet hole 13 and blown to the upper surface of a group of glass, and the adhesive film paved on the upper surface of the glass is preheated, so that the subsequent infrared heater 6 can conveniently heat the adhesive film, and the processing efficiency is improved; in addition, the air outlet 13 is used for blowing air to the adhesive film vertically, so that the stability of the adhesive film laid on the glass can be improved, the situation that the glass and the adhesive film are misplaced when synchronously moving is avoided, and the adhesive film fixing effect is further ensured;

when the air blowing plate 11 moves to a certain position, one side of the air blowing plate 11 is in extrusion contact with the second fixed block 8, the air blowing plate 11 cannot move continuously by virtue of the second fixed block 8, meanwhile, the air blowing plate 11 is extruded by virtue of the inclined surface arranged at the upper end of the extrusion rod 10, so that the air blowing plate 11 moves upwards, and when the air blowing plate 11 moves upwards, the moving rod 9 is separated from the first magnetic idler wheel 18 and does not extrude the press switch 19 any more, and at the moment, the heating wire 12 and the air inlet joint 15 are closed, so that the energy consumption can be effectively reduced;

when the air blowing plate 11 moves upwards, the extrusion rod 10 does not extrude the air blowing plate 11, meanwhile, the sliding plate 23 is driven to reset by virtue of the reset effect of the air spring 22, the supporting wheel 24 is extruded when the sliding plate 23 moves, so that the air blowing plate 11 is driven to reset, after the air blowing plate 11 resets to a certain position, the air blowing plate 11 is extruded by virtue of the extrusion plate 21 arranged on the first fixed block 7, so that the air blowing plate 11 moves downwards, when the air blowing plate 11 moves downwards, the lower surface of the moving rod 9 is separated from the second magnetic roller 20, meanwhile, the upper surface of the moving rod 9 is magnetically adsorbed by the first magnetic roller 18, the air blowing plate 11 is restored to an initial state when the moving rod 9 is magnetically adsorbed by the first magnetic roller 18, the upper surface of the moving rod 9 is in extrusion contact with the pressing switch 19, and the heating wire 12 and the air inlet of the air inlet connector 15 are started, and at the moment, the next adhesive film can be preheated again;

when the appointed area of the adhesive film needs to be preheated, the preheating position of the adhesive film can be adjusted by means of the adjusting plate 27, when the blowing plate 11 and the glass synchronously move, the adhesive film paved on the upper surface of the glass is preheated, when the blowing plate 11 moves, one end of the sliding rod 31 passes through the communication groove 30 and is in sliding connection with the trapezoid groove 32 of the moving rod 9, at the moment, the first through hole 28 and the first air outlet 25 correspondingly enable gas to preheat the appointed area of the adhesive film through the first through hole 28 and the first air outlet 25, the preheating effect is further improved, and because the second through hole 29 and the second air outlet 26 are staggered, the gas cannot be discharged through the second air outlet 26;

when the air blowing plate 11 moves to the middle part of the moving rod 9, at the moment, one end of the sliding rod 31 is in extrusion contact with one side of the trapezoid groove 32, the sliding rod 31 is extruded, the sliding rod 31 moves in the communicating groove 30, the reset spring 33 is extruded when the sliding rod 31 moves, the adjusting plate 27 is driven to move, after the adjusting plate 27 moves, the first through holes 28 are staggered with the first air outlet holes 25, so that the air outlet of the first air outlet holes 25 is closed, and along with the movement of the adjusting plate 27, the second through holes 29 correspond to the second air outlet holes 26, at the moment, gas is discharged through the second air outlet holes 26, so that the other side appointed area of the adhesive film is preheated, the preheating effect is improved, the appointed area of the adhesive film is conveniently preheated according to the actual use condition, and the heating area of the adhesive film is switched;

when the air blowing plate 11 is reset and moves, the air blowing plate 11 is extruded by the extrusion plate 21 on the first fixed block 7 to move downwards, when the air blowing plate 11 moves downwards, the inclined surface of the sliding rod 31 is extruded by the upper surface of the moving rod 9, so that the sliding rod 31 enters the communicating groove 30 again, meanwhile, the restoring spring 33 is extruded to store force, after the air blowing plate 11 moves downwards to an initial state, the sliding rod 31 is driven to reset by virtue of the reset effect of the restoring spring 33, and at the moment, the sliding rod 31 is reset and moves into the trapezoid groove 32 of the moving rod 9, so that the adjusting plate 27 is restored to the initial state, and at the moment, the next group of adhesive films can be preheated, and the use convenience is further improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A glued membrane fixing device for photovoltaic module processing, its characterized in that, including mount (1), the top of mount (1) is equipped with conveyer belt (2) that are used for carrying glass and glued membrane, the glued membrane is laid at glass upper surface, conveyer belt (2) are driven through the conveying roller, the below of conveyer belt (2) is equipped with support frame (3) of fixed mounting on mount (1), support frame (3) top is equipped with a plurality of electronic hydraulic telescoping rod (4), a plurality of groups the output fixedly connected with backup pad (5) of electronic hydraulic telescoping rod (4), backup pad (5) upper portion is equipped with infrared heater (6), infrared heater (6) are used for carrying out the heating to the glued membrane.

2. The adhesive film fixing device for processing the photovoltaic module according to claim 1, wherein two sides of the fixing frame (1) are connected with sliding supporting structures, a preheating structure is connected between the two groups of sliding supporting structures in a sliding mode, the sliding supporting structures comprise a first fixing block (7) and a second fixing block (8), moving rods (9) which are horizontally arranged are arranged between the first fixing block (7) and the second fixing block (8), the moving rods (9) are nucleophilic, the two groups of moving rods (9) are connected with the preheating structure in a sliding mode, the preheating structure is located above the conveying belt (2), the first fixing block (7) and the second fixing block (8) are fixedly connected with the outer side of the fixing frame (1) through connecting rods, extrusion rods (10) are evenly distributed on the outer surface of the conveying belt (2), and inclined surfaces are arranged at the upper ends of the extrusion rods (10).

3. The glue film fixing device for processing the photovoltaic module according to claim 2, wherein the preheating structure comprises a blowing plate (11), a cavity is formed in the blowing plate (11), heating wires (12) are arranged in the cavity, a plurality of groups of air outlet holes (13) are formed in the lower surface of the blowing plate (11), the air outlet holes (13) face the conveying belt (2), sliding grooves (14) penetrating through the two ends of the blowing plate (11) are formed, the moving rod (9) penetrates through the sliding grooves (14) and is in sliding connection with the sliding grooves (14), an air inlet connector (15) is arranged on one side of the blowing plate (11), and the air inlet connector (15) is communicated with the inside of the cavity;

the sliding groove (14) is internally provided with a reset moving structure, the reset moving structure is convenient for driving the air blowing plate (11) to reset, the outer side of the air blowing plate (11) is provided with a driving structure, and the driving structure is used for driving the air blowing plate (11) to reset.

4. A film fixing device for processing a photovoltaic module according to claim 3, wherein the reset moving structure comprises two groups of first grooves (16) and second grooves (17) which are arranged in the sliding groove (14), the two groups of first grooves (16) are positioned above the inner wall of the sliding groove (14), the first grooves (16) are rotationally connected with first magnetic rollers (18), the first magnetic rollers (18) are magnetically adsorbed on the upper surface of the moving rod (9), the moving rod (9) is in rolling connection with the first magnetic rollers (18), a pressing switch (19) is arranged on the upper part of the inner wall of the sliding groove (14), the pressing switch (19) is used for controlling the operation of the heating wire (12) and the air inlet connector (15), and in an initial state, the upper surface of the moving rod (9) is in pressing contact with the pressing switch (19) so as to open the heating wire (12) and the air inlet of the air inlet connector (15);

two sets of second fluting (17) are located the inner wall below of sliding tray (14), second fluting (17) internal rotation is connected with second magnetism gyro wheel (20), second magnetism gyro wheel (20) are adsorbed with the lower surface magnetism of movable rod (9), movable rod (9) are connected with second magnetism gyro wheel (20) roll, the top of first fixed block (7) all is equipped with extrusion board (21) of slope setting.

5. The adhesive film fixing device for processing the photovoltaic module according to claim 3 or 4, wherein the driving structure comprises two groups of gas springs (22), the fixed ends of the two groups of gas springs (22) are fixedly connected with the outer side of the fixing frame (1) through fixing rods, the output ends of the two groups of gas springs (22) are fixedly connected with sliding plates (23), two groups of supporting wheels (24) corresponding to the sliding plates (23) are arranged on one side, close to the second fixing block (8), of the blowing plate (11), and the supporting wheels (24) are in extrusion contact with one side of the sliding plates (23).

6. The adhesive film fixing device for processing a photovoltaic module according to claim 5, wherein the air outlet holes (13) of the plurality of groups comprise first air outlet holes (25) and second air outlet holes (26), an adjustable air blowing structure is arranged in the air blowing plate (11), the adjustable air blowing structure comprises an adjusting plate (27) arranged inside the air blowing plate (11), the adjusting plate (27) is located below the heating wire (12), the adjusting plate (27) is slidably connected with the lower surface of the inner wall of the cavity, a first through hole (28) and a second through hole (29) which penetrate through the adjusting plate (27) are arranged, the first through hole (28) corresponds to the first air outlet holes (25) in an initial state of the adjusting plate (27), and the second through hole (29) is staggered with the second air outlet holes (26).

7. The adhesive film fixing device for processing a photovoltaic module according to claim 6, wherein the air blowing plate (11) is internally provided with a communication groove (30), one end of the communication groove (30) is communicated with the cavity, the other end of the communication groove (30) is communicated with a group of sliding grooves (14), one end of a sliding rod (31) is fixedly connected with the upper surface of the adjusting plate (27), one group of the moving rods (9) is provided with a trapezoid groove (32) on one side far away from the air spring (22), the trapezoid groove (32) is positioned on one side, close to the first fixed block (7), of the moving rods (9), one end, far away from the adjusting plate (27), of the sliding rod (31) penetrates through the communication groove (30) and is in sliding connection with the trapezoid groove (32), one end, far away from the adjusting plate (27), of the sliding rod (31) is provided with a downward inclined guide inclined surface, one end, fixedly connected with a reset spring (33), of the other end of the reset spring (33) is fixedly connected with the outer side of the sliding rod (31).