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Angle-adjustable color steel tile solar bracket manufacturing method

[Patent Abstract] 

The utility model discloses an adjustable angle color steel tile solar panel support, which comprises a guide beam, a beam and a diagonal beam. The two ends of the guide beam are respectively fixed with the beam, and one end of the inclined beam is guided. 


The beam is rotatably connected, and the inclined beam rotates along the vertical plane of the guiding beam, and a support rod supporting the inclined beam is arranged between the inclined beam and the guiding beam, and the upper end of the supporting rod is hinged with the inclined beam, and the supporting rod is The lower end is provided with a positioning seat that can rotate relative to the support rod, and the positioning seat and the guide beam are fixed by adjusting bolts. The utility model aims to provide a color steel tile solar panel support which can flexibly adjust the installation angle of the solar panel component and improve the power generation efficiency of the solar panel component.


[Patent Description] 

An adjustable angle color steel tile solar panel bracket

 

[Technical Field]

 [0001] The utility model relates to the field of solar panels, in particular to a color steel tile solar panel support with adjustable angle.

 

【Background technique】

 [0002] In recent years, solar panel solar power has achieved a leap-forward development in the past decade. Many countries in the world such as Germany and Japan have issued a series of policies to support the construction of solar panel power plants. China's solar panel industry products account for about 60% of the world's total. The ground solar panel power plants and distributed rooftop solar panel power plants have received strong support from the state, and solar panel power plants have been booming.

 [0003] A distributed rooftop solar panel power plant is a form of a power station in which a solar panel module is fixedly mounted on a roof surface, and its design operation time is usually 25 to 35 years. At present, Caigang tile roof solar panel power station is one of the most common distributed solar panel power plants. The color steel tile roof is laid in the form of tile along the roof. The component on the north side of the color steel tile roof is laid at a negative inclination. The component, the north side component will greatly affect the power generation efficiency of the component due to the installation angle problem. 


According to the principle of light transmission, when sunlight is incident perpendicularly on the solar panel module, the solar panel module absorbs most of the solar energy and produces maximum power generation efficiency. Therefore, the installation angle of the solar panel component directly affects the absorption of light by the solar panel component. For fixed-angle installed PV modules, the same area has a fixed optimal installation angle, and offsetting this angle will reduce the power generation efficiency of the power station. 


Since the solar panel modules on both sides of the roof have a certain deviation from the optimal inclination angle, especially the northern roof components have large deviations, so the laying of components will seriously affect the power generation efficiency of the solar panel power station. Taking the Shanghai area as an example, the best installation angle is 20.45°. At present, the installation angle of PV steel modules in the region is usually 7° (south side roof) and _7° (north roof). Due to the installation angle offset, the power generation efficiency of the south side solar panel power station affects about 10%, and the power generation efficiency of the north side solar panel power station affects about 25%.


 Utility model content

 [0004] The present invention is to overcome the above-mentioned deficiencies in the prior art, and provides a color steel tile solar panel bracket that can flexibly adjust the installation angle of the solar panel module and improve the power generation efficiency of the solar panel module.


 In order to achieve the above object, the present invention adopts the following technical solutions:

 [0006] An angle-adjustable color steel tile solar panel support comprises a guide beam, a beam and a diagonal beam, wherein two ends of the guide beam are respectively fixed with the beam, and one end of the inclined beam rotates with the guide beam Connecting, the inclined beam rotates along the vertical plane of the guiding beam, and the supporting rod supporting the inclined beam is arranged between the inclined beam and the guiding beam, the upper end of the supporting rod is hinged with the inclined beam, and the lower end of the supporting rod is provided There is a positioning seat that can rotate relative to the support rod, and the positioning seat and the guide beam are fixed by adjusting bolts.


 [0007] Preferably, the guide beam has a C-shaped cross section, and the bottom of the guide beam is provided with a plurality of mounting holes arranged along the longitudinal direction of the guiding beam, and the mounting holes are strip-shaped.

 [0008] Preferably, the bottom of the guiding beam is provided with a guiding groove that is slidably engaged with the positioning seat, and one side of the guiding groove is provided with a plurality of positioning grooves arranged at intervals, and the positioning seat is provided with a positioning pin and a positioning groove. Locked pretensioning mechanism.


 [0009] Preferably, the pre-tensioning mechanism further includes a slider and a return spring, wherein the positioning seat is provided with a sliding slot for moving the slider along the sliding direction of the positioning seat, and the positioning pin is disposed on the sliding slot. Side and through the positioning seat, the top of the positioning pin cooperates with the positioning groove, and one side of the slider is provided with a slope for pushing the positioning pin into the positioning groove, and the return spring is disposed between the positioning pin and the positioning seat.


 [0010] Preferably, the side of the slider opposite to the inclined surface is provided with a steel ball and a sliding hole for sliding the steel ball, and a locking spring is disposed between the steel ball and the sliding block, and the sliding sidewall is There are two locking grooves matched with the steel ball.

 [0011] Therefore, the utility model has the following beneficial effects: (1) the angle between the inclined beam and the guiding beam can be flexibly adjusted by adjusting the installation position of the supporting rod and the guiding beam, so that the solar panel module is installed at an optimal angle, Increased solar panel efficiency;

 (2) When the adjusting bolt is loosened during the adjustment process, the support rod and the guiding beam are still in the locked state, which improves the safety during the adjustment; (3) the locking state of the supporting rod and the guiding beam is switched by the sliding slider In the adjustment process, the angle between the inclined beam and the guiding beam can be measured without the need of hand, which reduces the labor intensity and improves the convenience of angle adjustment.

 

[Patent Drawing]


[Description of the Drawings]

 1 is a schematic structural view of Embodiment 1 of the present invention;

 2 is a partial structural view of a positioning seat according to Embodiment 1 of the present invention;

 3 is a cross-sectional view of the positioning seat of Embodiment 2 of the present invention;

 4 is a partial structural view of a positioning seat according to Embodiment 2 of the present invention.

 [0016] In the figure, the inclined beam 1, the support rod 2, the adjusting bolt 3, the positioning seat 4, the sliding groove 401, the locking groove 402, the beam 5, the guiding beam 6, the mounting hole 601, the positioning pin 7, the return spring 8, The guide groove 9, the positioning groove 901, the lock spring 10, the steel ball 11, the slider 12, the slide hole 12a, and the inclined surface 12b.

 

【Detailed ways】

 [0017] The present invention will be further described below in conjunction with the drawings and the specific embodiments.

 [0018] Embodiment 1

 [0019] In the embodiment shown in FIG. 1, an angle-adjustable color steel tile solar panel support comprises a guide beam 6, a beam 5 and a diagonal beam 1, and the lower surfaces of the two ends of the guide beam 6 are respectively fixed to the beam 5 One end of the inclined beam 1 is rotatably connected to the guiding beam 6, and the inclined beam 1 is rotatable along the vertical plane in which the guiding beam 6 is located. The cross section of the guide beam 6 is C-shaped with an upward opening. The bottom of the guide beam 6 is provided with a plurality of mounting holes 601 arranged along the longitudinal direction of the guide beam 6. As shown in Fig. 2, the mounting holes 601 are strip-shaped. A support rod 2 supporting the inclined beam 1 is disposed between the inclined beam 1 and the guiding beam 6. The upper end of the supporting rod 2 is hinged with the inclined beam 1. The lower end of the supporting rod 2 is provided with a positioning seat 4 which is rotatable relative to the supporting rod 2, and is positioned. The seat 4 and the guide beam 6 are fixed by an adjusting bolt 3.

 [0020] The solar panel module is fixed to the inclined beam 1 by adjusting the position of the positioning seat 4 on the guiding beam 6, thereby adjusting the angle between the inclined beam 1 and the guiding beam 6, and passing through the adjusting bolt 3 into a suitable installation In the hole 601, the relative position between the support rod 2 and the guide beam 6 is fixed.

 [0021] Embodiment 2

 [0022] The difference between Embodiment 2 and Embodiment 1 is that, as shown in FIG. 3 and FIG. 4, the bottom of the guiding beam 6 is provided with a guiding groove 9 which is slidably engaged with the positioning seat 4, and the guiding groove 9 is provided with a space on one side thereof. A plurality of positioning slots 901 are arranged, and a pretensioning mechanism is disposed in the positioning base 4. The pre-tensioning mechanism includes a slider 12, a positioning pin 7, and a return spring 8. The positioning seat 4 is provided with a sliding slot 401 for moving the slider 12 in the sliding direction of the positioning base 4.


 The limiting structure is also disposed in the sliding slot 401 to prevent The slider 12 is separated from the chute 401. The positioning pin 7 is disposed at one side of the sliding slot 401 and penetrates the positioning seat 4, and the top of the positioning pin 7 cooperates with the positioning slot 901. One side of the slider 12 is provided with a slope 12b for pushing the positioning pin 7 into the positioning groove 901, and both ends of the inclined surface 12b are respectively transitioned in a plane. A return spring 8 is disposed between the positioning pin 7 and the positioning seat 4 for urging the positioning pin 7 to slide inward. A side of the slider 12 opposite to the inclined surface 12b is provided with a steel ball 11 and a slide hole 12a for sliding the steel ball 11, and a lock spring 10 is disposed between the steel ball 11 and the slider 12.


 Two locking grooves 402 are engaged with the steel balls 11 on the side walls of the sliding slot 401. The two locking grooves 402 respectively correspond to the locking or unlocking state of the positioning pin 7 and the positioning groove 901, and the steel ball 11 can be slipped. The block 12 is locked to prevent accidental sliding of the slider 12, and a clear feedback feel can be given when in use. In addition, the upper end of the slider 12 is designed in a convex shape, so that the user can move back and forth.

 [0023] In actual use, when it is necessary to adjust the angle between the angle between the inclined beam 1 and the guiding beam 6, firstly, the slider 12 should be ensured to be locked to the locking state to ensure the screwing adjustment. When the bolt 3 is used, the positioning seat 4 at the lower end of the support rod 2 does not slip relative to the guide beam 6. After the adjusting bolt 3 is unscrewed, the slider 12 can be toggled to the unlocked state, and the relative position of the positioning seat 4 and the guiding beam 6 is adjusted, and then the slider 12 is again turned to the locking state, and the inclined beam 1 can be aligned. The angle between the angle with the guide beam 6 is measured and fine-tuned, and after the predetermined position is reached, the adjusting bolt 3 can be tightened to complete the adjustment.

【Rights request】

An angle-adjustable color steel tile solar panel support, comprising: a guiding beam (6), a beam (5) and a diagonal beam (I), the two ends of the guiding beam (6) and the beam respectively 5) fixed, one end of the inclined beam (I) is rotatably connected with the guiding beam (6), and the inclined beam (I) is rotated along the vertical plane of the guiding beam (6), the inclined beam (I) and A support rod (2) supporting the inclined beam (I) is disposed between the guide beams (6), the upper end of the support rod (2) is hinged with the inclined beam (I), and the lower end of the support rod (2) is provided to be opposite The positioning seat (4) for rotating the support rod (2) is fixed between the positioning seat (4) and the guide beam (6) by an adjusting bolt (3).

2 . The angle-adjustable color steel tile solar panel support according to claim 1 , wherein the guiding beam ( 6 ) has a C-shaped cross section, and the bottom of the guiding beam is provided along the bottom. The mounting holes (601) of the guide beams (6) are arranged in the longitudinal direction, and the mounting holes (601) are strip-shaped.

The angle-adjustable color steel tile solar panel support according to claim 1 or 2, wherein the bottom of the guiding beam (6) is provided with a guiding groove (9) which is slidably engaged with the positioning seat (4), One side of the guiding groove (9) is provided with a plurality of positioning grooves (901) arranged at intervals, and the positioning seat (4) is provided with a pre-tightening mechanism which can be locked by the positioning pin (7) and the positioning groove (901).

4. The angle-adjustable color steel tile solar panel support according to claim 3, wherein the pretensioning mechanism further comprises a slider (12) and a return spring (8), the positioning seat (4) a sliding slot (401) for moving the slider (12) in the sliding direction of the positioning seat (4) is provided, and the positioning pin (7) is disposed on one side of the sliding slot (401) and penetrates the positioning seat (4) The top of the positioning pin (7) is matched with the positioning groove (901), and one side of the slider (12) is provided with a slope (12b) for pushing the positioning pin (7) into the positioning groove (901). The return spring (8) is disposed between the positioning pin (7) and the positioning seat (4).

The angle-adjustable color steel tile solar panel support according to claim 4, wherein a steel ball (11) is disposed on a side of the slider (12) opposite to the inclined surface (12b) and a sliding hole (12a) for sliding the steel ball (11), a locking spring (10) between the steel ball (11) and the sliding block (12), and a side wall of the sliding groove (401) is provided with The steel ball (11) is fitted with two locking grooves (402).