CN114285362A - High-protection reinforced alloy frame for solar cell module - Google Patents

Abstract

The invention relates to the technical field of solar cell modules and discloses a high-protection reinforced alloy frame for a solar cell module, wherein the protective alloy frame is cuboid, a supporting plate is fixed at the top end of a lifting rod, supporting blocks are fixed at four corners of the upper surface of the supporting plate, a rotor of a second motor coaxially penetrates through a supporting frame and is fixed with a cleaning rod, an installation cavity is fixed at the right end of the cleaning rod, the additional second motor can drive the cleaning rod to rotate, and the cleaning rod can continuously clean snow on the surface of the protective alloy frame when rotating, so that the protective alloy frame cannot be corroded by the snow, and the firmness of the device is improved; add the first motor of establishing and drive first lead screw and rotate and can drive the support frame decline and withdraw in the protective box, add the toughened glass who establishes simultaneously and can protect the protective alloy frame, improved the protectiveness of device to make the life of device promote greatly.

Description

High-protection reinforced alloy frame for solar cell module

Technical Field

The invention relates to the technical field of solar cell modules, in particular to an alloy frame for a high-protection reinforced solar cell module.

Background

The solar cell module consists of high-efficiency single crystals, polycrystalline solar cells, low-iron super-white suede toughened glass, packaging materials (EVA, POE and the like), a functional back plate, interconnection bars, bus bars, a junction box and an aluminum alloy frame.

When the common alloy frame is used in a cold region, the alloy frame is not easy to rust and has high stability and can bear a large amount of snow, so the common alloy frame is generally used for protecting the solar battery, but the alloy frame is frequently snowed in the cold region, the snow often appears on the surface of the alloy frame, and if the snow is not timely treated, the snow can be adhered to the alloy frame, so the alloy frame is corroded by the snow to be damaged, the firmness of installation is reduced, meanwhile, most families can go out and travel irregularly at present, the alloy frame can not be cleaned for a long time, a large amount of snow can be accumulated on the surface of the alloy frame, a large amount of dust can be accumulated, and the dust and the snow are contacted with the device for a long time, the snow can be formed into ice and adsorbed on the surface of the device, so that a user can easily damage the solar panel in the alloy frame when cleaning, the working requirements of the alloy frame cannot be met, and therefore, the alloy frame for the high-protection reinforced solar cell module is provided.

Disclosure of Invention

Technical problem to be solved

In view of the deficiencies of the prior art, the present invention provides an alloy frame for a high-protection strengthened solar cell module, so as to solve the problems mentioned in the background art.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: an alloy frame for a high-protection reinforced solar cell module comprises a protective alloy frame, wherein the protective alloy frame is rectangular, a fixed block is arranged on the upper surface of a bottom plate of the protective alloy frame, a first motor is fixed in an inner cavity of the fixed block, a first lead screw is coaxially fixed to a rotor of the first motor, a lifting rod is meshed with the periphery of the first lead screw, a supporting plate is fixed to the top end of the lifting rod, supporting blocks are fixed to four corners of the upper surface of the supporting plate, a supporting frame is fixed to the top end of each supporting block, a second motor is fixed to inner cavities of the two supporting blocks located at opposite corners, a cleaning rod is fixed to a rotor of the second motor and coaxially penetrates through the supporting frame, a mounting cavity is fixed to the right end of each cleaning rod, the front and the rear of the mounting cavity are in a transparent design, and a connecting rod is arranged in the inner cavity of the mounting cavity through a bearing, the torsional spring has all been installed with the junction of connecting rod to the installation cavity, the upper surface and the lower surface of connecting rod all are fixed with expanding spring, expanding spring's the other end all is fixed in on the inner wall of installation cavity, the right-hand member of connecting rod all is fixed with supplementary clean pole, the lower surface of clearance pole and supplementary clean pole is all pasted and is established and install the clearance brush.

Preferably, both sides of the lifting rod are fixed with limit blocks, the inner walls of both sides of the fixed block are longitudinally provided with limit grooves, and the limit blocks are matched with the limit grooves in position and size.

Preferably, the upper part of the front surface of the protective alloy frame is provided with an installation groove, the back surface of the installation groove is transversely provided with an opening, and the height of the opening at the back surface of the installation groove is slightly higher than the horizontal plane of the protective alloy frame.

Preferably, a third motor is fixed on the inner wall of the left side of the mounting groove, a second lead screw is coaxially fixed on a rotor of the third motor, the right end of the second lead screw is fixed on the inner wall of the right side of the mounting groove through a bearing, and a moving block is meshed with the periphery of the second lead screw.

Preferably, a sliding block is fixed at the bottom of the moving block, a moving groove is transversely formed in the upper surface of the bottom plate of the mounting groove, and the sliding block is matched with the moving groove in position and size.

Preferably, tempered glass is fixed to the back of the moving block, the tempered glass is located on the upper surface of the protective alloy frame, the tempered glass is matched with the protective alloy frame in position, and the area of the tempered glass is slightly larger than an opening in the upper surface of the protective alloy frame.

Preferably, the back of the protective alloy frame is transversely fixed with a baffle, the height of the baffle is higher than the horizontal plane of the protective alloy frame, the front of the baffle is transversely fixed with a slide rail, the two sides of the slide rail are both in transparent design, and the toughened glass is embedded into the inner cavity of the slide rail.

Preferably, the position and the size of the moving block are matched with those of the opening of the mounting groove, the rear side of the moving block penetrates through the opening of the mounting groove, and the bottom of the moving block is not in contact with the upper surface of the protective alloy frame.

Preferably, the upper surface of mounting groove has the access door through hinge joint, the surperficial both sides of access door all are fixed with the buckle, the card hole has all been seted up with the buckle corresponding position to the upper surface of mounting groove, and the equal joint of buckle in the inside in card hole.

(III) advantageous effects

Compared with the prior art, the invention provides the high-protection reinforced alloy frame for the solar cell module, which has the following beneficial effects:

1. according to the alloy frame for the high-protection strengthened solar cell module, the additionally arranged second motor can drive the cleaning rod to rotate, the cleaning rod can continuously clean accumulated snow on the surface of the protective alloy frame when rotating, the additionally arranged auxiliary cleaning rod can comprehensively clean the surface of the protective alloy frame, and meanwhile, the additionally arranged connecting rod, the torsional spring and the telescopic spring are additionally arranged, so that the two auxiliary cleaning rods can deviate when contacting and mutually pass through each other, the auxiliary cleaning rods can reset by matching with the torsional spring and the telescopic spring, the surface of the device can be alternately cleaned by the two auxiliary cleaning rods, the protective alloy frame cannot be corroded by the accumulated snow, and the firmness of the device is improved;

2. this high protectiveness reinforces type alloy frame for solar module, add the first motor of establishing and drive first lead screw and rotate and can drive the support frame decline and retrieve in the protective box, add the third motor of establishing simultaneously and can drive the second lead screw and rotate, the second lead screw drives the movable block and removes, the movable block drives toughened glass and covers the opening of protective box, make toughened glass can protect protective alloy frame, can block snow and dust and fall into the solar module surface, snow can not become ice absorption and can not use firm article to clear up the device and damage the cause, the protectiveness of device has been improved, thereby make the life of device promote greatly.

Drawings

FIG. 1 is a schematic front view of the internal structure of the present invention;

FIG. 2 is a schematic top view of the internal structure of the present invention;

FIG. 3 is a front view of the interior structure of the mounting groove of the present invention;

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

fig. 5 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

In the figure: 1. a protective alloy frame; 2. a fixed block; 3. a first motor; 4. a first lead screw; 5. a lifting rod; 51. a limiting block; 52. a limiting groove; 6. a support plate; 7. a support block; 8. a support frame; 9. a second motor; 10. cleaning the rod; 11. a mounting cavity; 12. a connecting rod; 13. a torsion spring; 14. a tension spring; 15. an auxiliary cleaning rod; 16. cleaning the brush; 17. mounting grooves; 18. a third motor; 19. a second lead screw; 20. a moving block; 21. a slider; 22. a moving groove; 23. tempering the glass; 24. a baffle plate; 25. a slide rail; 26. an access door; 27. buckling; 28. and (6) clamping the hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme, and provides a high-protection reinforced alloy frame for a solar cell module, which comprises a protective alloy frame 1, a fixed block 2, a first motor 3, a first screw rod 4, a lifting rod 5, a limiting block 51, a limiting groove 52, a supporting plate 6, a supporting block 7, a supporting frame 8, a second motor 9, a cleaning rod 10, an installation cavity 11, a connecting rod 12, a torsion spring 13, a telescopic spring 14, an auxiliary cleaning rod 15, a cleaning brush 16, an installation groove 17, a third motor 18, a second screw rod 19, a moving block 20, a sliding block 21, a moving groove 22, toughened glass 23, a baffle 24, a sliding rail 25, an access door 26, a buckle 27 and a clamp hole 28, wherein referring to figure 1, the protective alloy frame 1 is rectangular, the fixed block 2 is arranged on the upper surface of a bottom plate of the protective alloy frame 1, the first motor 3 is fixed in the inner cavity of the fixed block 2, and the first motor 3 is a common stepping motor on the market, a first lead screw 4 is coaxially fixed on a rotor of a first motor 3, a lifting rod 5 is meshed on the periphery of the first lead screw 4, the first motor 3 is started to rotate to drive the first lead screw 4 to rotate, the first lead screw 4 can drive the lifting rod 5 to move up and down, when the rotor of the first motor 3 coaxially rotates clockwise, the lifting rod 5 can be driven to ascend, when the rotor of the first motor 3 coaxially rotates anticlockwise, the lifting rod 5 can be driven to descend, limiting blocks 51 are fixed on two sides of the lifting rod 5, limiting grooves 52 are longitudinally formed in the inner walls of two sides of a fixing block 2, the positions and the sizes of the limiting blocks 51 and the limiting grooves 52 are matched, the limiting blocks 51 and the limiting grooves 52 can move along with the lifting rod 5, meanwhile, the lifting rod 5 is prevented from rotating due to the friction force of the first lead screw 4, the phenomenon of deviation occurs, a supporting plate 6 is fixed at the top end of the lifting rod 5, four corners of the upper surface of the supporting plate 6 are fixed with supporting blocks 7, the top ends of the supporting blocks 7 are fixed with supporting frames 8, please refer to fig. 2, inner cavities of two supporting blocks 7 located at opposite corners are fixed with second motors 9, rotors of the second motors 9 coaxially penetrate through the supporting frames 8 and are fixed with cleaning rods 10, please refer to fig. 1, right ends of the cleaning rods 10 are fixed with installation cavities 11, the front and the back of the installation cavities 11 are in a through design, please refer to fig. 5, the inner cavities of the installation cavities 11 are respectively provided with connecting rods 12 through bearings, joints of the installation cavities 11 and the connecting rods 12 are respectively provided with torsion springs 13, upper surfaces and lower surfaces of the connecting rods 12 are respectively fixed with telescopic springs 14, the other ends of the telescopic springs 14 are respectively fixed on the inner walls of the installation cavities 11, please refer to fig. 1, the right ends of the connecting rods 12 are respectively fixed with auxiliary cleaning rods 15, the cleaning brushes 16 are respectively attached to the lower surfaces of the cleaning rods 10 and the auxiliary cleaning rods 15, simultaneously starting the two second motors 9 to drive the two cleaning rods 10 to rotate, rotating the auxiliary cleaning rods 15, generating extrusion force when the two auxiliary cleaning rods 15 are contacted, so that the connecting rod 12 deflects to extrude the telescopic spring 14 positioned below, stretching the telescopic spring 14 positioned above, rotating the torsion spring 13, deflecting the auxiliary cleaning rods 15, increasing the pressure of the two auxiliary cleaning rods 15, increasing the deflection angle of the two auxiliary cleaning rods 15, when the deflection angle reaches a certain value, allowing the two auxiliary cleaning rods 15 to pass through each other, when the two auxiliary cleaning rods 15 are not contacted, allowing the auxiliary cleaning rods 15 to be subjected to the extrusion force of the telescopic spring 14 positioned below and the tension of the telescopic spring 14 positioned above to be matched with the torsion spring 13 to reset, so that the two auxiliary cleaning rods 15 can alternately clean the surface of the device, the cleaning efficiency of the device is improved, please refer to fig. 2, the upper part of the front surface of the protective alloy frame 1 is provided with a mounting groove 17, the back surface of the mounting groove 17 is transversely provided with an opening, please refer to fig. 4, the back opening of the mounting groove 17 is slightly higher than the horizontal plane of the protective alloy frame 1, the left inner wall of the mounting groove 17 is fixed with a third motor 18, the third motor 18 is also a common stepping motor on the market, the rotor of the third motor 18 is coaxially fixed with a second lead screw 19, the right end of the second lead screw 19 is fixed on the right inner wall of the mounting groove 17 through a bearing, the periphery of the second lead screw 19 is engaged with a moving block 20, please refer to fig. 3, the bottom of the moving block 20 is fixed with a slide block 21, the upper surface of the bottom plate of the mounting groove 17 is transversely provided with a moving groove 22, the slide block 21 is matched with the moving groove 22 in position and size, the slide block 21 and the moving groove 22 can move along with the moving block 20, meanwhile, the moving block 20 can be limited, the moving block 20 is prevented from rotating under the influence of friction force of the second lead screw 19, so that deviation occurs, please refer to fig. 4, the back surface of the moving block 20 is fixed with toughened glass 23, the toughened glass 23 is located on the upper surface of the protective alloy frame 1, the toughened glass 23 is matched with the position of the protective alloy frame 1, the area of the toughened glass 23 is slightly larger than the opening of the upper surface of the protective alloy frame 1, the back surface of the protective alloy frame 1 is transversely fixed with a baffle plate 24, the height of the baffle plate 24 is higher than the horizontal plane of the protective alloy frame 1, the front surface of the baffle plate 24 is transversely fixed with a slide rail 25, both sides of the slide rail 25 are in a transparent design, the toughened glass 23 is embedded into the inner cavity of the slide rail 25, the position and the size of the moving block 20 are matched with the position and the size of the opening of the installation groove 17, the third motor 18 is started to drive the second lead screw 19 to rotate, the second lead screw 19 drives the moving block 20 to rotate, when the moving block 20 moves, the tempered glass 23 also moves, when the rotor of the third motor 18 coaxially rotates clockwise, the tempered glass 23 is driven to move rightwards, the upper surface of the protective alloy frame 1 is covered, when the rotor of the third motor 18 coaxially rotates anticlockwise, the tempered glass 23 is driven to move leftwards, the opening of the protective alloy frame 1 is opened, the rear side of the moving block 20 penetrates through the opening of the installation groove 17, the bottom of the moving block 20 is not in contact with the upper surface of the protective alloy frame 1, so that the moving block 20 cannot be subjected to the resistance of friction force when moving, referring to fig. 2, the upper surface of the installation groove 17 is hinged with an access door 26 through a hinge, both sides of the surface of the access door 26 are fixed with buckles 27, the upper surface of the installation groove 17 and the positions corresponding to the buckles 27 are provided with clamping holes 28, and the buckles 27 are clamped inside the clamping holes 28, the access door 26 facilitates the user to access the mechanism inside the mounting groove 17.

The working principle of the device is as follows: the first motor 3 is started to rotate to drive the first lead screw 4 to rotate, the first lead screw 4 rotates to drive the lifting rod 5 to move up and down, the support frame 8 can move along with the movement, when the support frame 8 needs to be folded into the protective alloy frame 1, only the rotor of the first motor 3 needs to coaxially rotate anticlockwise to drive the lifting rod 5 to descend, so that the support frame 8 is folded into the inner cavity of the protective alloy frame 1, meanwhile, the third motor 18 is started to rotate clockwise to drive the second lead screw 19 to rotate, the second lead screw 19 drives the movable block 20 to rotate, when the movable block 20 moves, the toughened glass 23 also moves along with the movement, the toughened glass 23 moves rightwards to cover the upper surface of the protective alloy frame 1, so that the toughened glass 23 can protect the device, when the support frame 8 needs to be ejected, the rotor of the third motor 18 is started to coaxially rotate anticlockwise to drive the toughened glass 23 to move leftwards, the opening of the protective alloy frame 1 is opened, only the rotor of the first motor 3 needs to rotate coaxially and clockwise to drive the lifting rod 5 to ascend, the support frame 8 can ascend along with the lifting, when snow needs to be cleaned, the two second motors 9 are started to drive the two cleaning rods 10 to rotate, the auxiliary cleaning rods 15 can rotate along with the rotation, the two auxiliary cleaning rods 15 generate extrusion force when in contact, so that the connecting rod 12 deflects to extrude the expansion spring 14 positioned below, meanwhile, the expansion spring 14 positioned above can be stretched, the torsion spring 13 can rotate, the auxiliary cleaning rods 15 can deflect along with the deflection, the angle of the deflection amount of the two auxiliary cleaning rods 15 can be increased along with the increase of the pressure of the two auxiliary cleaning rods 15, when the deflection angle reaches a certain value, the two auxiliary cleaning rods 15 can pass through each other, when the two auxiliary cleaning rods 15 are not in contact, supplementary clean pole 15 will receive the extrusion force that is located below expanding spring 14, the pulling force that is located top expanding spring 14, and cooperation torsional spring 13 resets for two supplementary clean poles 15 can clear up the device surface in turn, have improved the clean efficiency of device, make protection alloy frame 1 can not receive the corruption of snow, thereby have improved the fastness of device.

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

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 (9)

1. The utility model provides a high protectiveness strengthens alloy frame for solar module, includes protection alloy frame (1), its characterized in that: the protective alloy frame is rectangular, a fixed block (2) is arranged on the upper surface of a bottom plate of the protective alloy frame (1), a first motor (3) is fixed in an inner cavity of the fixed block (2), a first lead screw (4) is coaxially fixed to a rotor of the first motor (3), a lifting rod (5) is meshed with the periphery of the first lead screw (4), a supporting plate (6) is fixed to the top end of the lifting rod (5), supporting blocks (7) are fixed to four corners of the upper surface of the supporting plate (6), supporting frames (8) are fixed to the top ends of the supporting blocks (7), second motors (9) are fixed to inner cavities of the two supporting blocks (7) located at opposite corners, cleaning rods (10) are fixed to the rotors of the second motors (9) in a coaxial penetrating mode through the supporting frames (8), and installation cavities (11) are fixed to the right ends of the cleaning rods (10), and be penetrating design around installation cavity (11), connecting rod (12) have all been installed through the bearing to the inner chamber of installation cavity (11), torsional spring (13) have all been installed with the junction of connecting rod (12) in installation cavity (11), the upper surface and the lower surface of connecting rod (12) all are fixed with expanding spring (14), on the other end of expanding spring (14) all was fixed in the inner wall of installation cavity (11), the right-hand member of connecting rod (12) all was fixed with supplementary cleaning rod (15), cleaning rod (10) all pasted with the lower surface of supplementary cleaning rod (15) and establish and install clearance brush (16).

2. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 1, wherein: both sides of lifter (5) all are fixed with stopper (51), spacing groove (52) have all vertically been seted up to the both sides inner wall of fixed block (2), and stopper (51) and spacing groove (52) position, size looks adaptation.

3. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 1, wherein: the protective alloy frame is characterized in that a mounting groove (17) is arranged on the upper portion of the front face of the protective alloy frame (1), an opening is transversely formed in the back face of the mounting groove (17), and the opening height of the back face of the mounting groove (17) is slightly higher than the horizontal plane of the protective alloy frame (1).

4. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 3, wherein: a third motor (18) is fixed on the inner wall of the left side of the mounting groove (17), a second lead screw (19) is coaxially fixed on a rotor of the third motor (18), the right end of the second lead screw (19) is fixed on the inner wall of the right side of the mounting groove (17) through a bearing, and a moving block (20) is meshed with the periphery of the second lead screw (19).

5. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 4, wherein: a sliding block (21) is fixed at the bottom of the moving block (20), a moving groove (22) is transversely formed in the upper surface of the bottom plate of the mounting groove (17), and the sliding block (21) is matched with the moving groove (22) in position and size.

6. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 5, wherein: tempered glass (23) is fixed on the back of the moving block (20), the tempered glass (23) is located on the upper surface of the protective alloy frame (1), the tempered glass (23) is matched with the protective alloy frame (1) in position, and the area of the tempered glass (23) is slightly larger than an opening in the upper surface of the protective alloy frame (1).

7. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 1, wherein: the back of protection alloy frame (1) transversely is fixed with baffle (24), and the horizontal plane that highly is higher than protection alloy frame (1) of baffle (24), the front of baffle (24) transversely is fixed with slide rail (25), the both sides of slide rail (25) are penetrating design, toughened glass (23) are embedded in the inner chamber of slide rail (25).

8. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 3, wherein: the position and the size of the moving block (20) are matched with those of the opening of the mounting groove (17), the rear side of the moving block (20) penetrates through the opening of the mounting groove (17), and the bottom of the moving block (20) is not in contact with the upper surface of the protective alloy frame (1).

9. The alloy frame for the high-protection strengthened solar cell module as claimed in claim 3, wherein: the upper surface of mounting groove (17) has access door (26) through the hinge, the surperficial both sides of access door (26) all are fixed with buckle (27), card hole (28) have all been seted up with buckle (27) corresponding position to the upper surface of mounting groove (17), and the equal joint of buckle (27) is in the inside of card hole (28).

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