CN218734078U - Wood structure roofing photovoltaic integration connector - Google Patents

Abstract

The utility model discloses a timber structure roofing photovoltaic integration connector, including base and apron, the upper end of base is provided with the support frame, the apron sets up the left end at the support frame, it includes spanner, cylinder stick and axle bed to screw up the subassembly. This timber structure roofing photovoltaic integration connector, compare with current ordinary connector, pull the spanner flat, break away from the draw-in groove on the apron with the cylinder stick, operating personnel lifts the apron, just can be to the timely maintenance of the motor in the inside casing, thereby avoid motor one to break down, influence the angular adjustment of photovoltaic board at the during operation, remove dust to the photovoltaic board surface through the brush, prevent to produce hot spot effect, the generating efficiency who keeps the photovoltaic board, increase of service life, when swing subassembly one and swing subassembly two move simultaneously, make the frame can follow the sunshine position direction of adjustment of sun through angular adjustment, can adjust the inclination of photovoltaic board, thereby the speed of photovoltaic board conversion light energy has been accelerated.

Description

Wood structure roofing photovoltaic integration connector

Technical Field

The utility model relates to a connector technical field specifically is a timber structure roofing photovoltaic integration connector.

Background

The photovoltaic is a short for solar photovoltaic power generation system, is a novel power generation system which directly converts solar radiation energy into electric energy by utilizing the photovoltaic effect of a solar cell semiconductor material and has two modes of independent operation and grid-connected operation; meanwhile, solar photovoltaic power generation systems are classified, and one is centralized, such as a large northwest ground photovoltaic power generation system; the utility model provides a distributed like industry and commerce factory building roof photovoltaic power generation system, a local-style dwelling houses roof photovoltaic power generation system, when installation photovoltaic module, all need connection structure to connect at present, generally all carry out a body coupling through the mounting bracket.

Patent document like publication number position CN209330036U discloses a photovoltaic installing support that can multi-angle automatically regulated, including first bearing support seat, solar photovoltaic board, dead eye, shaft coupling, first bearing support seat one side is provided with second bearing support seat, first bearing support seat with all be provided with above the second bearing support seat the dead eye, dead eye internally mounted has cylindrical bearing, be provided with the axis of rotation above the cylindrical bearing, be provided with first support pole setting above the axis of rotation, first support pole setting one side is provided with the second and supports the pole setting, first support pole setting with second supports the pole setting upper end and is provided with the mounting panel, the mounting panel upper end is provided with short support. The utility model discloses an adopt the motor to drive the axis of rotation and rotate and drive the corresponding angle of solar photovoltaic board rotation, it is accurate to have the turned angle, advantage that degree of automation is high to simple to operate product practicality is strong.

Among the above-mentioned equipment, the motor is broken down easily for long-time work, and the motor dustcoat does not set up the access hole, therefore operating personnel can't in time overhaul the motor through the access hole to influence equipment live time, to above-mentioned condition, carry out technical innovation on current connector basis.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a timber structure roofing photovoltaic integration connector to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a timber structure roofing photovoltaic integration connector, includes base and apron, the upper end of base is provided with the support frame, and the inside of support frame is provided with the inside casing, the apron sets up the left end at the support frame, and the left end of apron is provided with screws up the subassembly, it includes spanner, cylinder stick and axle bed to screw up the subassembly, the right-hand member of spanner is provided with the cylinder stick, and the right-hand member of cylinder stick is provided with the axle bed.

Furthermore, a first swing assembly is arranged inside the inner frame and comprises a first motor and a first rotating rod, the first rotating rod is arranged at the right end of the first motor, and a first support block is arranged at the right end of the first rotating rod.

Furthermore, the first swing assembly further comprises a first support block, a second rotating rod and a rotating ball, the first support block is arranged at the right end of the first rotating rod, the second rotating rod penetrates through the upper end of the first support block, and the rotating ball is arranged at the lower end of the second rotating rod.

Furthermore, the right end of the rotating ball is provided with a second swinging assembly, the upper end of the second rotating rod is provided with an outer frame, and the upper side and the lower side of the front end of the outer frame are both provided with electric sliding rails.

Furthermore, the swing assembly II comprises a third rotating rod and a second supporting block, and the right end of the third rotating rod is provided with the second supporting block.

Furthermore, the swing assembly II further comprises a rotating rod IV and a motor II, the rotating rod IV is arranged at the lower end of the supporting block II, and the motor II is arranged at the lower end of the rotating rod IV.

Furthermore, the front end of the electric sliding rail is provided with a cleaning assembly, and the middle part of the front end of the outer frame is provided with a photovoltaic panel.

Furthermore, clean subassembly includes slider, connective bar and brush, the slider is close to frame horizontal center line's one side and is provided with the connective bar, and the outside of connective bar is provided with the brush.

Compared with the prior art, the beneficial effects of the utility model are that: wrenching the spanner, break away from the draw-in groove on the apron with the cylinder stick, operating personnel lifts the apron, just can be to the timely maintenance of motor in the inside casing, thereby avoid motor trouble, influence the angular adjustment of photovoltaic board at the during operation, remove dust to the photovoltaic board surface through the brush, prevent to produce the hot spot effect, the generating efficiency who keeps the photovoltaic board, increase of service life, when swing subassembly one with swing subassembly two when the operation simultaneously, make the frame can follow sun position adjustment direction through angle modulation, can adjust the inclination of photovoltaic board, thereby the speed of photovoltaic board conversion light energy has been accelerated.

1. The utility model discloses a support frame, the inside casing, the apron, the spanner, the cylinder stick, motor one, electronic slide rail, the photovoltaic board, the slider, connective bar and brush setting, when motor one break down after operating personnel through pulling the spanner flat, make the apron no longer compress tightly one side of support frame, break away from the draw-in groove on the apron with the cylinder stick, make cylinder stick and spanner no longer prescribe a limit to the apron, operating personnel lifts the apron, just can overhaul motor one in the inside casing is timely, thereby avoid motor one to break down, influence the angular adjustment of photovoltaic board at the during operation, operating personnel opens the power, the removal is controlled to electronic slide rail, the slider removes and drives the connective bar and removes, the connective bar removes and drives the brush and removes dust to the photovoltaic board surface, thereby can detach photovoltaic board surface's dust automatically, prevent to produce the hot spot effect, keep the generating efficiency of photovoltaic board, increase of service life.

2. The utility model discloses a swing subassembly one, motor one, the rotor one, prop up piece one, rotor two, the roating sphere, swing subassembly two, rotor three, prop up piece two, rotor four, motor two, frame and photovoltaic board set up, swing subassembly one and swing subassembly two begin to move, motor one moves and drives rotor one and rotate, rotor one drives a piece one front and back rotation, a piece one is rotatory to make rotor two take the frame rotation, motor two moves and drives rotor four and rotate, rotor four rotates and drives a piece two left and right rotations, a piece two rotates and drives rotor three rotations, rotor three rotates and drives the roating sphere and rotate, thereby make rotor two take the frame rotation, when swing subassembly one and swing subassembly two move simultaneously, make the frame can follow the sun position adjustment direction through angle modulation, can adjust the inclination of photovoltaic board, thereby the speed of photovoltaic board conversion light energy has been accelerated.

Drawings

Fig. 1 is an elevational sectional structural schematic view of the integrated photovoltaic connector for a wooden roof of the present invention;

fig. 2 is an enlarged schematic structural view of a portion a in fig. 1 of the photovoltaic integrated connector for a wooden roof according to the present invention;

fig. 3 is the utility model relates to a cylindric stick spatial structure schematic diagram of timber structure roofing photovoltaic integration connector.

In the figure: 1. a base; 2. a support frame; 3. an inner frame; 4. a cover plate; 5. screwing the assembly; 501. a wrench; 502. a cylindrical rod; 503. a shaft seat; 6. a first swing component; 601. a first motor; 602. rotating the first rod; 603. supporting a first block; 604. rotating the second rod; 605. rotating the ball; 7. a second swing component; 701. rotating the rod III; 702. a second branch block; 703. rotating the rod four; 704. a second motor; 8. an outer frame; 9. a photovoltaic panel; 10. an electric slide rail; 11. a cleaning assembly; 1101. a slider; 1102. a connecting rod; 1103. and a brush.

Detailed Description

As shown in fig. 2, a timber structure roofing photovoltaic integration connector, including base 1 and apron 4, the upper end of base 1 is provided with support frame 2, and the inside of support frame 2 is provided with inside casing 3, apron 4 sets up the left end at support frame 2, and the left end of apron 4 is provided with screws up subassembly 5, screws up subassembly 5 including spanner 501, cylinder stick 502 and axle bed 503, the right-hand member of spanner 501 is provided with cylinder stick 502, and the right-hand member of cylinder stick 502 is provided with axle bed 503, operating personnel will pull spanner 501 flat after motor 601 breaks down, make apron 4 no longer compress tightly one side of support frame 2, break away from the draw-in groove on the apron 4 with cylinder stick 502, make cylinder stick 502 and spanner 501 no longer prescribe a limit to apron 4, operating personnel lifts apron 4, just can overhaul motor 601 in time in inside casing 3 at the during operation, thereby avoid motor 601 to break down, influence the angle adjustment of photovoltaic board 9.

As shown in fig. 1 and 3, a first swing assembly 6 is arranged inside the inner frame 3, the first swing assembly 6 comprises a first motor 601 and a first rotating rod 602, the first rotating rod 602 is arranged at the right end of the first motor 601, a first support block 603 is arranged at the right end of the first rotating rod 602, the first swing assembly 6 further comprises a first support block 603 and a second rotating rod 604, the first support block 603 is arranged at the right end of the first rotating rod 602, the second rotating rod 604 penetrates through the upper end of the first support block 603, the first swing assembly 6 further comprises a rotating ball 605, the rotating ball 605 is arranged at the lower end of the second rotating rod 604, a second swing assembly 7 is arranged at the right end of the rotating ball 605, an outer frame 8 is arranged at the upper end of the second rotating rod 604, the second swing assembly 7 comprises a third rotating rod 701 and a second support block 702, the second support block 702 is arranged at the right end of the third rotating rod 701, the second swing assembly 7 further comprises a fourth rotating rod 703 and a second motor 704, the fourth rotating rod 703 is arranged at the lower end of the second support block 702, and the lower end of the rotating rod four 703 is provided with a motor two 704, the swinging component one 6 and the swinging component two 7 start to operate, the motor one 601 operates to drive the rotating rod one 602 to rotate, the rotating rod one 602 drives the support block one 603 to rotate back and forth, the support block one 603 rotates to drive the rotating rod two 604 to drive the outer frame 8 to rotate back and forth, the motor two 704 operates to drive the rotating rod four 703 to rotate, the rotating rod four 703 rotates to drive the support block two 702 to rotate left and right, the support block two 702 rotates to drive the rotating rod three 701 to rotate, the rotating rod three 701 rotates to drive the rotating ball 605 to rotate, so that the rotating rod two 604 drives the outer frame 8 to rotate left and right, when the swinging component one 6 and the swinging component two 7 operate simultaneously, the angle adjustment enables the outer frame 8 to adjust the direction along with the sun direction, the inclination angle of the photovoltaic panel 9 can be adjusted, thereby accelerating the rate of the photovoltaic panel 9 converting light energy, the upper and the lower two sides of the front end of the outer frame 8 are provided with electric slide rails 10, and the front end of the electric sliding rail 10 is provided with a cleaning component 11, the middle part of the front end of the outer frame 8 is provided with the photovoltaic panel 9, the cleaning component 11 comprises a sliding block 1101, a connecting rod 1102 and a brush 1103, one side of the sliding block 1101, which is close to the horizontal center line of the outer frame 8, is provided with the connecting rod 1102, the outer side of the connecting rod 1102 is provided with the brush 1103, an operator turns on a power supply, the electric sliding rail 10 controls the sliding block 1101 to move left and right, the sliding block 1101 moves to drive the connecting rod 1102 to move, the connecting rod 1102 moves to drive the brush 1103 to remove dust on the surface of the photovoltaic panel 9, so that dust on the surface of the photovoltaic panel 9 can be automatically removed, a hot spot effect is prevented from being generated, the power generation efficiency of the photovoltaic panel 9 is maintained, and the service life is prolonged.

The working principle is as follows: when the wood structure roof photovoltaic integrated connector is used, firstly, an operator turns on a power supply, an electric slide rail 10 controls a slide block 1101 to move left and right, the slide block 1101 moves to drive a connecting rod 1102 to move, the connecting rod 1102 moves to drive a brush 1103 to remove dust on the surface of a photovoltaic panel 9, after dust removal, a first swing assembly 6 and a second swing assembly 7 start to operate, a first motor 601 operates to drive a first rotating rod 602 to rotate, the first rotating rod 602 drives a first support block 603 to rotate back and forth, the first support block 603 rotates to drive a second rotating rod 604 to drive a front frame 8 to rotate back and forth, the second motor 704 operates to drive a fourth rotating rod 703 to rotate left and right, the second support block 702 rotates to drive a third rotating rod 701 to rotate, the third rotating rod 701 rotates to drive a rotating ball to rotate, so that the second rotating rod 604 drives the second frame 8 to rotate left and right, when the first swing assembly 6 and the second swing assembly 7 operate simultaneously, the first rotating rod 703 and the second swing assembly can adjust the azimuth direction along with the sun sunshine by angle adjustment, when the first motor 601 fails, the first wrench 501 is pulled flat, so that the cover plate 4 is not pressed against one side of a support frame 605, and the cover plate 4 is not separated from the inner frame 3, and the second cylindrical clamp groove 601 can be maintained by an operator.

Claims (8)

1. The utility model provides a timber structure roofing photovoltaic integration connector, includes base (1) and apron (4), its characterized in that, the upper end of base (1) is provided with support frame (2), and the inside of support frame (2) is provided with inside casing (3), apron (4) set up the left end at support frame (2), and the left end of apron (4) is provided with screws up subassembly (5), it includes spanner (501), cylinder stick (502) and axle bed (503) to screw up subassembly (5), the right-hand member of spanner (501) is provided with cylinder stick (502), and the right-hand member of cylinder stick (502) is provided with axle bed (503).

2. The wood structure roof photovoltaic integrated connector is characterized in that a first swing assembly (6) is arranged inside the inner frame (3), the first swing assembly (6) comprises a first motor (601) and a first rotating rod (602), the right end of the first motor (601) is provided with the first rotating rod (602), and the right end of the first rotating rod (602) is provided with a first support block (603).

3. The wood structure roof photovoltaic integrated connector according to claim 2, wherein the first swing assembly (6) further comprises a first support block (603), a second rotating rod (604) and a rotating ball (605), the first support block (603) is arranged at the right end of the first rotating rod (602), the second rotating rod (604) penetrates through the upper end of the first support block (603), and the rotating ball (605) is arranged at the lower end of the second rotating rod (604).

4. The wood structure roof photovoltaic integrated connector according to claim 3, wherein a second swing assembly (7) is arranged at the right end of the rotating ball (605), an outer frame (8) is arranged at the upper end of the second rotating rod (604), and electric sliding rails (10) are arranged on the upper side and the lower side of the front end of the outer frame (8).

5. The wood structure roof photovoltaic integrated connector according to claim 4, wherein the second swing assembly (7) comprises a third rotating rod (701) and a second support block (702), and the second support block (702) is arranged at the right end of the third rotating rod (701).

6. The wood structure roof photovoltaic integrated connector according to claim 5, wherein the second swing assembly (7) further comprises a fourth rotating rod (703) and a second motor (704), the fourth rotating rod (703) is arranged at the lower end of the second support block (702), and the second motor (704) is arranged at the lower end of the fourth rotating rod (703).

7. The integrated photovoltaic connector for the wooden roof as claimed in claim 4, wherein the cleaning component (11) is arranged at the front end of the electric sliding rail (10), and the photovoltaic panel (9) is arranged in the middle of the front end of the outer frame (8).

8. The wood structure roof photovoltaic integrated connector according to claim 7, wherein the cleaning assembly (11) comprises a sliding block (1101), a connecting rod (1102) and a brush (1103), the connecting rod (1102) is arranged on one side of the sliding block (1101) close to the horizontal center line of the outer frame (8), and the brush (1103) is arranged on the outer side of the connecting rod (1102).

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