CN214506948U - Variable-angle photovoltaic power generation device suitable for trapezoidal color steel tiles - Google Patents

Abstract

The utility model relates to a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile, including the roof of trapezoidal various steel tile, characterized by: install variable angle photovoltaic power generation device on the trapezoidal various steel tile on roof, variable angle photovoltaic power generation device includes photovoltaic board and variable angle mechanism, variable angle mechanism includes support anchor clamps, flexible post, controller and square support, flexible post one end is connected with the motor, its other end and square support rigid coupling, the motor welding is on support anchor clamps, support anchor clamps rear end rigid coupling has the rotation axis support, flexible post passes through the controller drive, constitute variable angle mechanism, support anchor clamps and trapezoidal various steel tile rigid coupling, the photovoltaic board passes through photovoltaic board anchor clamps and square leg joint. Has the advantages that: the device is applicable to trapezoidal various steel tile roof, and photovoltaic power generation device passes through the support anchor clamps and with its rigid coupling on various steel tile, and the support anchor clamps can control the photovoltaic board inclination through the flexible post of connecting and rotating shaft support, selects the angle of the biggest photovoltaic generated energy.

Description

Variable-angle photovoltaic power generation device suitable for trapezoidal color steel tiles

Technical Field

The utility model belongs to the technical field of solar energy power generation, especially, relate to a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile.

Background

The utilization of solar energy does not pollute the environment, is one of the cleanest energy sources, and photovoltaic and photothermal power stations are rapidly developed in recent years. Both the rooftop and the building surface may use photovoltaic panel assemblies, which are commonly referred to as photovoltaic systems attached to the building. Rooftop photovoltaics have found widespread use in recent years as an important means of photovoltaic power plants. Patent document with publication (publication) No. CN203383422U discloses a photovoltaic roof comprising interconnected solar panels, characterized in that: the solar cell panel comprises a first solar cell panel and a second solar cell panel alternately connected with the first solar cell panel; the first solar cell panel comprises a cell panel body and U-shaped connecting pieces arranged on four side surfaces of the cell panel body; the second solar cell panel comprises a cell panel body, n-type connecting pieces are arranged on four sides of the cell panel body, the n-type connecting pieces are clamped on the U-shaped connecting pieces, and a supporting beam is fixedly arranged below the joint of the first solar cell panel and the second solar cell panel. Patent document CN208685893U discloses a photovoltaic roof laid on an already-constructed house body. The photovoltaic roof comprises a roof, a photovoltaic panel bracket arranged above the roof and a photovoltaic panel arranged on the photovoltaic panel bracket, wherein the roof comprises a front wall, a rear wall and side walls on two sides, and the height of the front wall is lower than that of the rear wall; the photovoltaic panel bracket comprises a plurality of longitudinal brackets and transverse brackets which are arranged in parallel; the longitudinal support and the transverse support are vertically arranged; two ends of the longitudinal support are respectively connected with the front wall and the rear wall; the transverse bracket is respectively connected with the side walls on the two sides; the front wall is provided with an eave bracket on the outer side.

At present, a large number of industrial factory building roofs all adopt trapezoidal color steel tile structures, and when photovoltaic rice is arranged on the structure, a large number of holes need to be punched on the color steel tiles. When the weather of rain and snow appears, the house can have the rain leakage phenomenon, and the safe operation of the factory building is greatly influenced. At present, a common method is a cold welding or bonding method for installing the bracket, but the strength cannot meet the service life of the photovoltaic power generation system for 25 years. Simultaneously, roof photovoltaic arranges that the most is fixed along the roof and arranges, has the certain interval between the subassembly to be used for overhauing, unable make full use of roof area. Simultaneously, roof photovoltaic arranges that there is the certain interval between the subassembly to be used for overhauing along roof fixed the arranging greatly, so unable make full use of roof area.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome not enough among the prior art, provide a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile, solved roof photovoltaic rain leakage and make full use of roof area's problem.

The utility model discloses a realize above-mentioned purpose, realize through following technical scheme, a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile, including the roof of trapezoidal various steel tile, characterized by: install variable angle photovoltaic power generation device on the trapezoidal various steel tile on roof, variable angle photovoltaic power generation device includes photovoltaic board and variable angle mechanism, variable angle mechanism includes support anchor clamps 2, flexible post 3, controller and square support 4, and flexible post one end is connected with the motor, its other end and square support rigid coupling, and the motor welding is on support anchor clamps, and support anchor clamps rear end rigid coupling has the rotation axis support, and flexible post passes through the controller drive, constitutes variable angle mechanism, support anchor clamps and trapezoidal various steel tile rigid coupling, the photovoltaic board passes through photovoltaic board anchor clamps and square leg joint.

The controller is connected with the motor through a wire, and the motor drives the telescopic column to stretch.

The telescopic column is formed by splicing multiple stages of cylindrical sleeves, the innermost layer is a solid cylinder, and the total length is not less than the length of the photovoltaic panel.

The rotating shaft support comprises a shaft sleeve, a bearing and an inner shaft, the inner shaft is supported on the shaft sleeve through the bearing, the inner shaft is connected with the motor shaft, and the rotating shaft support is fixedly connected with the photovoltaic panel clamp.

Reinforcing brackets are arranged between the bracket clamps at intervals in parallel, the bottoms of the reinforcing brackets are connected with the trapezoidal color steel tiles, and the tops of the reinforcing brackets are fixedly connected with the square brackets and the inner shafts of the rotating shaft brackets.

The connecting distance between the bracket clamp and the trapezoidal color steel tile along the longitudinal direction of the eave is smaller than the length of the photovoltaic panel.

The transverse distance between the reinforcing brackets is less than 3 times of the width of the photovoltaic panel.

Has the advantages that: compared with the prior art, the utility model provides a the device is applicable to the big-arch shelter that needs illumination, and the photovoltaic power generation device that the device is applicable to trapezoidal various steel tile roof passes through the support anchor clamps and with its rigid coupling on various steel tile, and the support anchor clamps can control the photovoltaic board inclination through the flexible post of connecting and swivel axis support, when selecting the angle of the biggest photovoltaic generated energy, still do not influence the normal operating of factory building. The installation mode is simple, can not influence the structural strength of original factory building, effectively utilizes solar energy resource.

Drawings

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

FIG. 2 is a schematic view of a connecting structure of a bracket clamp and a trapezoid color steel tile;

fig. 3 is a side view of the present invention;

fig. 4 is a schematic view of the rack arrangement of the present invention;

fig. 5 is a schematic structural view of a rotating shaft support;

FIG. 6 is a schematic structural view of a telescopic column;

FIG. 7 is a schematic structural view of a variable angle mechanism;

fig. 8 is a schematic structural view of a photovoltaic panel clip.

In the figure: 1. roof, 2, support anchor clamps, 3, flexible post, 4, square support, 5, photovoltaic board anchor clamps, 6, trapezoidal various steel tile, 7, rotating shaft support, 8, photovoltaic board, 9, bolt, 10, nut, 11, reinforcement support 12, axle sleeve, 13, bearing, 14, interior axle, 15, controller, 16, motor.

Detailed Description

The following detailed description of the embodiments according to the present invention with reference to the preferred embodiments is as follows: see the figure in detail, this embodiment provides a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile, roof 1 including trapezoidal various steel tile, install variable angle photovoltaic power generation device on the trapezoidal various steel tile on roof, variable angle photovoltaic power generation device includes photovoltaic board and variable angle mechanism, variable angle mechanism includes support anchor clamps 2, flexible post 3, controller 15 and square support 4, and flexible post one end is connected with the motor, and its other end and square support rigid coupling, motor welding are on support anchor clamps, and support anchor clamps rear end rigid coupling has rotation axis support 7, and flexible post passes through the controller drive, constitutes variable angle mechanism, support anchor clamps and 6 rigid couplings of various steel tile, photovoltaic board 8 passes through photovoltaic board anchor clamps 5 and square leg joint. The controller is connected with a motor 16 (not shown) through a lead, and the motor drives the telescopic column to extend and retract. A motor is arranged below the telescopic column, and the controller 15 and the motor 16 are connected through a lead. The telescopic column is formed by splicing multiple stages of cylindrical sleeves, the innermost layer is a solid cylinder, and the total length is not less than the length of the photovoltaic panel. The rotating shaft bracket 7 comprises a shaft sleeve 12, a bearing 13 and an inner shaft 14, the inner shaft is supported on the shaft sleeve through the bearing, the inner shaft is connected with a motor shaft, and the rotating shaft bracket is fixedly connected with the photovoltaic plate clamp. Reinforcing brackets 11 are arranged between the bracket clamps at intervals in parallel, the bottoms of the reinforcing brackets are connected with the trapezoidal color steel tiles, and the tops of the reinforcing brackets are fixedly connected with the inner shafts of the square brackets 4 and the rotating shaft brackets 7. The connecting distance between the bracket clamp and the trapezoidal color steel tile along the longitudinal direction of the eave is smaller than the length of the photovoltaic plate 8. The transverse distance between the reinforcing brackets is less than 3 times of the width of the photovoltaic panel.

The structure and operation of the present embodiment will be further explained with reference to the accompanying drawings

Referring to fig. 1 and 2 in detail, the embodiment is a variable-angle photovoltaic power generation device suitable for a trapezoid color steel tile. The device comprises a house 1, a support clamp 2, a telescopic column 3, a square support 4, a photovoltaic panel clamp 5, a trapezoidal color steel tile 6, a rotating shaft support 7, a photovoltaic panel 8, a bolt 9 and a nut 10; the bracket clamp 6 is arranged on the trapezoidal color steel tile 6 through a bolt 9 and a nut 10; one end of the telescopic column 5 is connected with the bracket clamp 2, and the other end is connected with the square bracket 4; the rotating shaft bracket 7 is welded on the bracket clamp 2; photovoltaic panel anchor clamps 5 are installed and are used for fixed photovoltaic board 8 on square support 4 and rotation axis support 7. The controller 12 is connected with the motor 13 through a lead, and the motor 13 drives the telescopic column 3; the rotating shaft bracket 7 is welded on the bracket clamp 2; the photovoltaic panel clamp 5 is arranged on the square support 4 and the rotating shaft support 7 and used for fixing the photovoltaic panel 8; the reinforcing support 11 is parallel to the support clamp 2, the bottom of the reinforcing support 11 is adhered to the trapezoid color steel tile 6 through an industrial adhesive, and the top of the reinforcing support is welded with the square support 4 and the inner shaft 14 of the rotating shaft support 7.

Referring to the attached drawing 3 in detail, the inclination angle of the photovoltaic panel 8 can be adjusted through the length of the telescopic column 3, and the adjusting mode can be an electric mode and a manual mode. Simultaneously, when equipment need overhaul, can rise to the highest with flexible post 3, can provide the space and pass through for the maintainer, the space on make full use of roof.

Referring to the attached drawing 4 in detail, the bracket clamps 2 are installed on the trapezoid color steel tile 6, a plurality of reinforcing brackets 11 are installed between the two bracket clamps 2, and according to the strength measurement, the transverse distance between the reinforcing brackets is smaller than 3 times the width of the photovoltaic panel. At present most factory building worry leaks the rain problem, the utility model discloses can select the position that does not influence inside processing according to the inside condition of factory building, combine support intensity installing support anchor clamps. Meanwhile, waterproof materials can be coated inside the color steel tiles, and double insurance of waterproof work is achieved.

Referring to fig. 5 in detail, the rotating shaft bracket 7 includes a shaft sleeve 12, a bearing 13, and an inner shaft 14, and a gap exists between the two outer sleeves for reinforcing the welding between the bracket 11 and the inner shaft 14.

Referring to the attached drawing 6 in detail, the telescopic column is composed of a multi-stage cylindrical sleeve, the innermost layer is a solid cylinder, the total length is not less than the length of the photovoltaic panel, the motor 16 is located below the telescopic column 3 to drive the telescopic column, and the controller 15 is connected with the motor 16 through a lead.

Referring to the attached drawing 7 in detail, the bottom end of the telescopic column 3 is welded with the motor 2, and the top end of the telescopic column is welded with the square support 4.

Referring to the attached drawing 8 in detail, the photovoltaic panel clamp 5 comprises a clamp, a bolt and a nut, one side of the clamp is welded with the square support 4 or the rotating shaft support 7, and the other side of the clamp is connected with the photovoltaic panel 8.

At present most factory buildings worry that the support mounting punches the rain problem that leaks that causes, and this embodiment can select the position installing support anchor clamps that do not influence inside processing according to the inside condition of factory building, like passageway top, roof boundary department etc.. In order to ensure the integral structural strength of the support, a plurality of reinforcing supports 11 are additionally arranged between the two support clamps, the shape of each reinforcing support 11 is the same as that of the support clamp 2, mounting holes are not contained, industrial adhesives are adopted to be connected with the color steel tiles, and the roof structure is not influenced completely. Meanwhile, waterproof materials can be coated in the punching position of the color steel tile, and waterproof double insurance is realized. Compared with a common punching method, the method can effectively reduce the rain leakage risk, can effectively enhance the structural strength of the support, and can ensure the normal operation of the whole system only by regularly checking the bonding strength of the reinforced support and timely filling glue.

The above detailed description of the variable angle photovoltaic power generation device suitable for the trapezoid color steel tile with reference to the embodiments is illustrative and not restrictive, and several embodiments can be enumerated according to the limited scope, so that changes and modifications without departing from the general concept of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a variable angle photovoltaic power generation device suitable for trapezoidal various steel tile, includes the roof of trapezoidal various steel tile, characterized by: install variable angle photovoltaic power generation device on the trapezoidal various steel tile on roof, variable angle photovoltaic power generation device includes photovoltaic board and variable angle mechanism, variable angle mechanism includes support anchor clamps, flexible post, controller and square support, and flexible post one end is connected with the motor, its other end and square support rigid coupling, and the motor welding is on support anchor clamps, and support anchor clamps rear end rigid coupling has the rotation axis support, and flexible post passes through the controller drive, constitutes variable angle mechanism, support anchor clamps and trapezoidal various steel tile rigid coupling, the photovoltaic board passes through photovoltaic board anchor clamps and square leg joint.

2. The variable-angle photovoltaic power generation device suitable for the trapezoidal color steel tile as claimed in claim 1, wherein: the controller is connected with the motor through a wire, and the motor drives the telescopic column to stretch.

3. The variable-angle photovoltaic power generation device suitable for the trapezoid color steel tiles as claimed in claim 1 or 2, wherein: the telescopic column is formed by splicing multiple stages of cylindrical sleeves, the innermost layer is a solid cylinder, and the total length is not less than the length of the photovoltaic panel.

4. The variable-angle photovoltaic power generation device suitable for the trapezoidal color steel tile as claimed in claim 1, wherein: the rotating shaft support comprises a shaft sleeve, a bearing and an inner shaft, the inner shaft is supported on the shaft sleeve through the bearing, the inner shaft is connected with the motor shaft, and the rotating shaft support is fixedly connected with the photovoltaic panel clamp.

5. The variable-angle photovoltaic power generation device suitable for the trapezoidal color steel tile as claimed in claim 1, wherein: reinforcing brackets are arranged between the bracket clamps at intervals in parallel, the bottoms of the reinforcing brackets are connected with the trapezoidal color steel tiles, and the tops of the reinforcing brackets are fixedly connected with the square brackets and the inner shafts of the rotating shaft brackets.

6. The variable-angle photovoltaic power generation device suitable for the trapezoid color steel tiles as claimed in claim 1 or 5, wherein: the connecting distance between the bracket clamp and the trapezoidal color steel tile along the longitudinal direction of the eave is smaller than the length of the photovoltaic panel.

7. The variable-angle photovoltaic power generation device suitable for the trapezoid color steel tiles as claimed in claim 5, wherein: the transverse distance between the reinforcing brackets is less than 3 times of the width of the photovoltaic panel.

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