CN211828811U - Curing device for solar module - Google Patents

Abstract

The utility model discloses a solar energy component's solidification equipment relates to solar energy component technical field. The feeding block, the box body and the discharging block are arranged at the top of the base in sequence from left to right, the connecting ports penetrating through the box body are formed in the left end and the right end of the box body, and the feeding block and the discharging block extend to the inside of the box body through the connecting ports respectively. Through setting up axis of rotation winding steel cable, make the steel cable utilize first slider to drive transmission and carry out elevating movement, so make the degree of being heated about the solar energy component equal, reached the even effect of being convenient for to be heated, avoided solar energy component to appear the inhomogeneous condition of solar energy component surface heating when carrying out the solidification work, so indirectly avoided this solar energy component's self quality to be influenced, thereby avoided this solar energy component the not up to standard condition of quality to appear, so indirectly reached the effect that keeps the quality.

Description

Curing device for solar module

Technical Field

The utility model relates to a solar energy component technical field specifically is a solar energy component's solidification equipment.

Background

At present, with the rapid development of photovoltaic technology and micro semiconductor inverter technology, solar cells produced by solar modules can directly convert solar energy into light energy, and the beginning of the green energy revolution is realized, so that the solar modules are widely applied, and a series of processing treatments are needed when the solar modules are manufactured into the solar cells.

1. In the prior art, a curing device of a general solar module is not provided with a special lifting device, so that the surface of the solar module is heated unevenly when the solar module is cured, the quality of the solar module can be affected, and the solar module can be unqualified;

2. in the prior art, a curing device for a general solar module has no special moving device, so that the solar module may need to be manually taken out after being cured, and thus, the solar module may be indirectly deformed when not being completely cooled, and the solar module may be damaged.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solar energy component's solidification equipment possesses the advantage of being convenient for be heated evenly and being convenient for shift to solve the problem of being heated unevenly and inconvenient shifting.

For the realization be convenient for be heated evenly and be convenient for the purpose of shifting, the utility model provides a following technical scheme: a curing device for a solar module comprises a base, a box body, connectors, a feeding block and a discharging block, wherein the feeding block, the box body and the discharging block are arranged on the top of the base in sequence from left to right, the connectors penetrating through the box body are formed in the left end and the right end of the box body, and the feeding block and the discharging block respectively extend into the box body through the connectors;

the top and the front end of the box body are respectively provided with a first ventilation opening and a second ventilation opening, heating equipment is fixedly arranged at the top and the bottom in the box body and comprises a fixing box, a fan and a resistance heating wire, the fan is positioned in the fixing box, the resistance heating wire positioned at the opposite end of the fan is fixedly arranged in the fixing box, and the opposite end of the fixing box is in an open state;

the box body is characterized in that a first motor is fixedly installed at the back end of the box body, a lifting groove is formed in the surface of the inner wall of the back end of the box body, an output shaft of the first motor is fixedly connected with a rotating shaft extending into the lifting groove, a steel rope is arranged on the surface of the rotating shaft, a first sliding block which slides mutually with the inner wall of the lifting groove is fixedly connected to the bottom of the steel rope, and a transmission device is fixedly connected to the front end of the first sliding block;

the transmission device comprises a fixed block, a stop block, two connecting shafts, a transmission mesh belt and a second motor, wherein the front end and the back end of the fixed block are fixedly connected with the stop block, the surface of the stop block is rotatably connected with the connecting shafts through a fixed opening, the surfaces of the connecting shafts are fixedly connected with transmission shafts, and the transmission shafts are in transmission connection through the transmission mesh belt;

the left side the front end fixedly connected with second motor of connecting axle, the front end fixedly connected with second slider of second motor, the left side the back end and the right side of connecting axle the equal swing joint in both ends has the second slider around the connecting axle.

As a preferred technical scheme of the utility model, the top of feeding piece and the left end of play material piece are the slope and place, and inclination is thirty degrees places of slope right.

As an optimized technical scheme of the utility model, the equal fixed mounting in inside of first vent and second vent has the dust screen, and first vent and second vent are directly communicated with each other with the back of the body end of fan respectively.

As a preferred technical scheme of the utility model, the spacing groove has all been seted up at both ends around the box inner wall, the inside of spacing groove all with the second slider between mutual slip.

As an optimized technical scheme of the utility model, the top of dog is located the side top of transmission guipure, and dog and transmission guipure contactless each other.

As an optimized technical scheme of the utility model, the transmission guipure surface is the net and constitutes, and the distance between the net all is less than solar energy component's size.

Compared with the prior art, the utility model provides a solar energy component's solidification equipment possesses following beneficial effect:

1. this solar energy component's solidification equipment, through setting up axis of rotation winding steel cable, make the steel cable utilize first slider to drive transmission and carry out elevating movement, so make the degree of being heated about the solar energy component equal, reached and be convenient for be heated even effect, avoided solar energy component the inhomogeneous condition of solar energy component surface heating appearing carrying out the solidification during operation, so indirect self quality of having avoided this solar energy component is influenced, thereby avoided this solar energy component the quality condition up to standard to appear, so indirect effect that has reached the quality of keeping.

2. This solar energy component's solidification equipment, utilize the transmission shaft to drive the transmission guipure and rotate through setting up the connecting axle, make solar energy component can follow the transmission guipure on the surface of transmission guipure and move, and avoid solar energy component to break away from the transmission guipure through the dog, the effect of being convenient for shift has been reached, the condition that solar energy component need people to take out solar energy component appears after carrying out solidification work has been avoided, the condition of deformation appears indirectly when so having avoided this solar energy component not cooling down completely, thereby the effect that reduces this solar energy component spoilage has been reached indirectly.

Drawings

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

FIG. 2 is a front sectional view of the structure of the present invention;

FIG. 3 is a side sectional view of the structural box body of the present invention;

FIG. 4 is a sectional view of the structure box of the present invention;

fig. 5 is a schematic view of the structure fixing block of the present invention.

In the figure: 1. a base; 2. a box body; 3. a connecting port; 4. a material feeding block; 5. discharging a material block; 6. a first vent; 7. a second vent; 8. a dust screen; 9. a heating device; 10. a fixing box; 11. a fan; 12. resistance heating wires; 13. a first motor; 14. a lifting groove; 15. a limiting groove; 16. a rotating shaft; 17. a steel cord; 18. a first slider; 19. a transmission device; 20. a fixed block; 21. a stopper; 22. a connecting shaft; 23. a drive shaft; 24. a transmission mesh belt; 25. a second slider; 26. a fixed port; 27. a second motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model discloses a solidification device of solar energy component, including base 1, box 2, connector 3, feeding block 4 and discharging block 5, feeding block 4, box 2 and discharging block 5 are arranged on the top of base 1 according to the order from left to right, the connector 3 that runs through box 2 is seted up at the left and right both ends of box 2, feeding block 4 and discharging block 5 extend to the inside of box 2 through connector 3 respectively;

the top and the front end of the box body 2 are respectively provided with a first ventilation opening 6 and a second ventilation opening 7, heating equipment 9 is fixedly mounted at the top and the bottom inside the box body 2, the heating equipment 9 comprises a fixing box 10, a fan 11 and a resistance heating wire 12, the fan 11 is positioned inside the fixing box 10, the resistance heating wire 12 positioned at the opposite end of the fan 11 is fixedly mounted inside the fixing box 10, and the opposite end of the fixing box 10 is in an open state;

the back end of the box body 2 is fixedly provided with a first motor 13, the surface of the inner wall of the back end of the box body 2 is provided with a lifting groove 14, the output shaft of the first motor 13 is fixedly connected with a rotating shaft 16 extending to the inside of the lifting groove 14, the surface of the rotating shaft 16 is provided with a steel rope 17, the bottom of the steel rope 17 is fixedly connected with a first sliding block 18 sliding with the inner wall of the lifting groove 14, the front end of the first sliding block 18 is fixedly connected with a transmission device 19, the steel rope 17 is wound on the steel rope 17 through the rotating shaft 16, the first sliding block 18 is used for driving the transmission device 19 to move up and down, so that the upper and lower heating degrees of the solar module are equal, the effect of being convenient to heat uniformly is achieved, the condition that the surface of the solar module is heated non-uniformly when the solar module is cured is avoided, and the self quality of, therefore, the situation that the quality of the solar module does not reach the standard is avoided, and the effect of maintaining the quality is indirectly achieved;

the transmission device 19 comprises a fixed block 20, a stop block 21, two connecting shafts 22, a transmission mesh belt 24 and a second motor 27, the front end and the back end of the fixed block 20 are fixedly connected with the stop block 21, the surface of the stop block 21 is rotatably connected with the connecting shafts 22 through fixing ports 26, the surface of the connecting shafts 22 is fixedly connected with the transmission shafts 23, the transmission shafts 23 are in transmission connection through the transmission mesh belt 24, the transmission shafts 22 are arranged to drive the transmission mesh belt 24 to rotate through the transmission shafts 23, so that the solar module can move along with the transmission mesh belt 24 on the surface of the transmission mesh belt 24, and is prevented from being separated from the transmission mesh belt 24 through the stop block 21, the effect of convenient transfer is achieved, the situation that the solar module needs to be manually taken out after being cured is avoided, and the situation that the solar module indirectly deforms when not being completely cooled is avoided, thereby indirectly achieving the effect of reducing the damage rate of the solar component;

the left side the front end fixedly connected with second motor 27 of connecting axle 22, the front end fixedly connected with second slider 25 of second motor 27, the left side the back end and the right side of connecting axle 22 the equal swing joint in both ends has second slider 25 around the connecting axle 22.

Specifically, the top of the feeding block 4 and the left end of the discharging block 5 are both obliquely arranged, and the oblique angles are all arranged by inclining thirty degrees to the right.

In this embodiment, the top of the feeding block 4 and the left end of the discharging block 5 are both obliquely arranged, so that the solar module is convenient to move to the surface of the transmission mesh belt 24 or move from the surface of the transmission mesh belt 24 to the top of the discharging block 5, and the effect of convenient transfer is indirectly achieved.

Specifically, the dust screens 8 are fixedly mounted inside the first ventilation opening 6 and the second ventilation opening 7, and the first ventilation opening 6 and the second ventilation opening 7 are directly communicated with the opposite ends of the fan 11 respectively.

In this embodiment, the dust screen 8 is fixedly mounted inside the first ventilation opening 6 and the second ventilation opening 7, so that external dust is prevented from falling on the surface of the fan 11 through the first ventilation opening 6 and the second ventilation opening 7, the dust on the surface of the fan 11 is indirectly reduced, and the first ventilation opening 6 and the second ventilation opening 7 are utilized to be directly communicated with each other with the opposite ends of the fan 11 respectively, so that the fan 11 can emit heat through the first ventilation opening 6 and the second ventilation opening 7.

Specifically, the limiting grooves 15 are formed in the front end and the rear end of the inner wall of the box body 2, and the inner portions of the limiting grooves 15 slide relative to the second sliding block 25.

In this embodiment, utilize inside of spacing groove 15 all and the second slider 25 between slip for second slider 25 can keep the horizontality when transmission 19 carries out elevating movement, and second slider 25 indirectly provides certain holding power for transmission 19, so indirectly has reached the effect of being convenient for to support.

Specifically, the top of the stopper 21 is located above the side of the transmission mesh belt 24, and the stopper 21 and the transmission mesh belt 24 are not in contact with each other.

In the embodiment, the top of the stopper 21 is located above the side of the transmission mesh belt 24, so that the situation that the solar module is separated from the transmission mesh belt 24 when the surface of the transmission mesh belt 24 moves is avoided, and the limiting effect is indirectly achieved.

Specifically, the surface of the transmission mesh belt 24 is composed of grids, and the distances between the grids are smaller than the size of the solar module.

In the embodiment, the surface of the transmission mesh belt 24 is made of meshes, and the distance between the meshes is smaller than the size of the solar module, so that heat can directly penetrate through the transmission mesh belt 24 to act on the surface of the solar module, and the solar module is prevented from falling off from the gap of the transmission mesh belt 24.

The utility model discloses a theory of operation and use flow: when the solar heating device is used, a solar component is sent to the surface of the transmission mesh belt 24 through the material inlet block 4, the second motor 27 is started to drive the connecting shaft 22 to rotate, the connecting shaft 22 drives the transmission mesh belt 24 to rotate through the transmission shaft 23, the solar component can move along with the transmission mesh belt 24 on the surface of the transmission mesh belt 24, the solar component is prevented from being separated from the transmission mesh belt 24 through the stop block 21, after the solar component moves to a proper position, the fan 11 is started to drive heat of the resistance heating wire 12 to be directly blown to the solar component, meanwhile, the first motor 13 is started and drives the rotating shaft 16 to rotate, the rotating shaft 16 is wound on the steel rope 17, the steel rope 17 drives the transmission device 19 to move up and down through the first sliding block 18, the upper and lower heating degrees of the solar component are equal, and the effect of being convenient; when the transmission device 19 ascends and descends, the second sliding block 25 slides up and down in the limiting groove 15, so that the effect of keeping the transmission device 19 in a horizontal state is achieved; after the curing operation is completed, the second motor 27 is started to drive the connecting shaft 22 to rotate, so that the connecting shaft 22 drives the transmission mesh belt 24 to rotate by using the transmission shaft 23, the solar module can move out of the box body 2 through the discharging block 5, and the effect of convenient transfer is achieved.

In summary, the curing device of the solar module is provided with the rotating shaft 16 wound on the steel rope 17, so that the steel rope 17 drives the transmission device 19 to perform lifting motion by utilizing the first slider 18, the upper and lower heating degrees of the solar module are equal, the effect of facilitating uniform heating is achieved, the condition that the surface of the solar module is heated unevenly when the solar module is cured is avoided, the self quality of the solar module is indirectly prevented from being influenced, the condition that the quality of the solar module does not reach the standard is avoided, and the effect of maintaining the quality is indirectly achieved; utilize transmission shaft 23 to drive transmission guipure 24 to rotate through setting up connecting axle 22 for solar module can follow transmission guipure 24 on transmission guipure 24's surface and move, and avoid solar module to break away from transmission guipure 24 through dog 21, the effect of being convenient for shift has been reached, solar module has been avoided appearing needing the condition that people manually take out solar module after carrying out solidification work, the condition of deformation appears indirectly when so having avoided this solar module not cooling down completely, thereby the effect of reducing this solar module spoilage has been reached indirectly.

It should be noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a solar energy component's solidification equipment, includes base (1), box (2), connector (3), feeding piece (4) and ejection of compact piece (5), its characterized in that: the feeding block (4), the box body (2) and the discharging block (5) are arranged at the top of the base (1) in sequence from left to right, connecting ports (3) penetrating through the box body (2) are formed in the left end and the right end of the box body (2), and the feeding block (4) and the discharging block (5) extend into the box body (2) through the connecting ports (3) respectively;

the top and the front end of the box body (2) are respectively provided with a first ventilation opening (6) and a second ventilation opening (7), heating equipment (9) is fixedly mounted at the top and the bottom inside the box body (2), each heating equipment (9) comprises a fixing box (10), a fan (11) and a resistance heating wire (12), each fan (11) is located inside the fixing box (10), the resistance heating wires (12) located at the opposite ends of the fans (11) are fixedly mounted inside the fixing boxes (10), and the opposite ends of the fixing boxes (10) are in an open state;

a first motor (13) is fixedly installed at the back end of the box body (2), a lifting groove (14) is formed in the surface of the inner wall of the back end of the box body (2), an output shaft of the first motor (13) is fixedly connected with a rotating shaft (16) extending into the lifting groove (14), a steel rope (17) is arranged on the surface of the rotating shaft (16), a first sliding block (18) which slides mutually with the inner wall of the lifting groove (14) is fixedly connected to the bottom of the steel rope (17), and a transmission device (19) is fixedly connected to the front end of the first sliding block (18);

the transmission device (19) comprises a fixed block (20), a stop block (21), two connecting shafts (22), a transmission mesh belt (24) and a second motor (27), the front end and the back end of the fixed block (20) are both fixedly connected with the stop block (21), the surface of the stop block (21) is rotatably connected with the connecting shaft (22) through a fixed opening (26), the surfaces of the connecting shafts (22) are both fixedly connected with transmission shafts (23), and the transmission shafts (23) are in transmission connection through the transmission mesh belt (24);

the left side the front end fixedly connected with second motor (27) of connecting axle (22), the front end fixedly connected with second slider (25) of second motor (27), the left side the back end and the right side of connecting axle (22) the equal swing joint in both ends has second slider (25) around connecting axle (22).

2. The curing apparatus for solar module according to claim 1, wherein: the top of the feeding block (4) and the left end of the discharging block (5) are both obliquely placed, and the oblique angles are all placed by inclining thirty degrees to the right.

3. The curing apparatus for solar module according to claim 1, wherein: the dust screen (8) is fixedly mounted in the first ventilation opening (6) and the second ventilation opening (7), and the first ventilation opening (6) and the second ventilation opening (7) are directly communicated with the back end of the fan (11) respectively.

4. The curing apparatus for solar module according to claim 1, wherein: limiting grooves (15) are formed in the front end and the rear end of the inner wall of the box body (2), and the inner portions of the limiting grooves (15) slide relative to the second sliding block (25).

5. The curing apparatus for solar module according to claim 1, wherein: the top of the stop block (21) is positioned above the side of the transmission mesh belt (24), and the stop block (21) is not contacted with the transmission mesh belt (24).

6. The curing apparatus for solar module according to claim 1, wherein: the surface of the transmission mesh belt (24) is composed of grids, and the distances among the grids are smaller than the size of the solar module.

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