CN213461589U - Photovoltaic module mounting structure - Google Patents

Abstract

The utility model provides a photovoltaic module mounting structure. This technical scheme adopts the automobile body to bear multiunit photovoltaic panel to for the automobile body has designed adjustable bearing structure. Specifically see, the utility model discloses carry on the crane on the automobile body, the photovoltaic panel is fixed in the square frame that the crane formed naturally, based on this kind of structure, when the crane descends, each photovoltaic panel is laid down and is and piles up, accomodate the state, and when the crane rose, each photovoltaic panel was launched and is the tilt state. Benefit from the motion ability of automobile body and the lifting power of crane, can with the utility model discloses remove to the expansion of optional position and freedom or accomodate. When lifting up for guaranteeing the crane the utility model discloses still have better stability, articulated the tripod at car body side end, can rotate the tripod, abduct, subaerial with the terminal lower margin roof pressure of tripod again, thereby increase the utility model discloses the support span of bottom promotes stability.

Description

Photovoltaic module mounting structure

Technical Field

The utility model relates to a solar photovoltaic equipment technical field, concretely relates to photovoltaic module mounting structure.

Background

Solar photovoltaic power generation is a power generation mode for directly converting solar radiation energy into electric energy by utilizing the photovoltaic effect of a solar cell semiconductor material. The photovoltaic power generation system mainly comprises a solar panel assembly, a controller and an inverter, wherein the solar panel assembly is also called as a photovoltaic assembly in a habit and is the core of the photovoltaic power generation system.

In the prior art, a fixed support is adopted for bearing the photovoltaic module, and although the support generally has an angle adjusting function, the support cannot move integrally, under the condition, if a movable photovoltaic module mounting structure can be developed, solar power generation can be expected to be realized in a field environment, and a new energy supply way is provided for field engineering operations such as geological exploration, power inspection and the like.

Disclosure of Invention

The utility model discloses aim at providing a photovoltaic module mounting structure to prior art's technical defect to solve the unable technical problem who freely removes to different positions of conventional photovoltaic module mounting structure.

The utility model discloses another technical problem who solves is, when realizing the portable ability of photovoltaic module, how to ensure its overall structure's stability.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

a photovoltaic module mounting structure comprises a vehicle body, a control box, a slide way, a lifting frame, electric cylinders, square frames, a photovoltaic panel, wheels, a motor, a tripod, an internal thread sleeve, an external thread rod, a foot margin, a handle and a pedal, wherein the front side of the upper end of the vehicle body is fixedly connected with the control box; the tripod is hinged on the outer wall of the vehicle body through one vertical edge of the tripod, an internal thread sleeve is vertically and fixedly connected at the intersection point position of the other two edges of the tripod, an external thread rod is connected on the internal thread sleeve through a screw, the lower end of the external thread rod is fixedly connected with a ground foot, and the upper end of the external thread rod is fixedly connected with a handle; the edge of the lower end of the vehicle body is fixedly connected with a pedal.

Preferably, the photovoltaic panels are arranged longitudinally from top to bottom, and the photovoltaic panels are parallel to each other.

Preferably, a limit stop is fixedly connected to the slide way.

Preferably, the square frame is surrounded by four angle steels, and the inner edge of the square frame is provided with a groove, and the photovoltaic panel is embedded into the groove.

Preferably, there are 4 tripods, and two tripods are provided on both sides of the vehicle body.

In the technical scheme, the vehicle body is used for supporting and bearing; the control box is used for accommodating conventional electric elements such as a controller, an inverter and the like; one arm at the lower end of the lifting frame is hinged on the vehicle body, the slide way is used for embedding the other arm at the lower end of the lifting frame, when the lifting frame performs lifting movement, the arm translates in the slide way, and the slide way plays a role in guiding and limiting the lifting frame; the lifting frame is used for executing lifting movement, and the electric cylinder provides power for the lifting movement; the square frame is naturally surrounded by the self structure of the lifting frame and is used for bearing the photovoltaic panel; the photovoltaic panels are of a conventional structure, the photovoltaic panels are arranged in each square frame and are longitudinally arranged on the lifting frame from top to bottom, when the lifting frame descends, each photovoltaic panel is laid down and is in a stacked and contained state, and when the lifting frame ascends, each photovoltaic panel is unfolded and is in an inclined state; the wheels and the motor are used for realizing the movement capability of the vehicle body; the tripod is used for bearing the internal thread sleeve; the internal thread sleeve is used for connecting an external thread rod; the external thread rod is used for bearing the ground feet; when the lifting frame is lifted, the gravity center is obviously increased, so that the overall stability is reduced, in order to overcome the problem, the tripod can be rotated and unfolded, and then the external thread rod is rotated to press the ground feet on the ground, so that the supporting span at the bottom end of the utility model is increased, and the stability is improved; the handle is convenient for rotating the external thread rod; the foot peg is used for an operator to climb up from when performing maintenance work.

The utility model provides a photovoltaic module mounting structure. This technical scheme adopts the automobile body to bear multiunit photovoltaic panel to for the automobile body has designed adjustable bearing structure. Specifically see, the utility model discloses carry on the crane on the automobile body, the photovoltaic panel is fixed in the square frame that the crane formed naturally, based on this kind of structure, when the crane descends, each photovoltaic panel is laid down and is and piles up, accomodate the state, and when the crane rose, each photovoltaic panel was launched and is the tilt state. Benefit from the motion ability of automobile body and the lifting power of crane, can with the utility model discloses remove to the expansion of optional position and freedom or accomodate. When lifting up for guaranteeing the crane the utility model discloses still have better stability, articulated the tripod at car body side end, can rotate the tripod, abduct, subaerial with the terminal lower margin roof pressure of tripod again, thereby increase the utility model discloses the support span of bottom promotes stability.

Drawings

FIG. 1 is a perspective view of the whole body of the present invention;

FIG. 2 is a perspective view of the lower part of the present invention;

FIG. 3 is a perspective view of a square frame of the present invention;

fig. 4 is a perspective view of a tripod according to the present invention;

in the figure:

1. vehicle body 2, control box 3, slide 4 and lifting frame

5. Electric cylinder 6, square frame 7, photovoltaic panel 8 and wheels

9. Motor 10, tripod 11, internal thread sleeve 12 and external thread rod

13. Foot margin 14, handle 15, pedal.

Detailed Description

The following will describe in detail specific embodiments of the present invention. Well-known structures or functions may not be described in detail in the following embodiments in order to avoid unnecessarily obscuring the details. Approximating language, as used herein in the following examples, may be applied to identify quantitative representations that could permissibly vary in number without resulting in a change in the basic function. Unless defined otherwise, technical and scientific terms used in the following examples have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Example 1

A photovoltaic module mounting structure is shown in figures 1-4 and comprises a vehicle body 1, a control box 2, a slideway 3, a lifting frame 4, electric cylinders 5, square frames 6, photovoltaic panels 7, wheels 8, a motor 9, a tripod 10, an internal thread sleeve 11, an external thread rod 12, feet 13, a handle 14 and pedals 15, wherein the control box 2 is fixedly connected to the front side of the upper end of the vehicle body 1, the slideway 3 is fixedly connected to the vehicle body 1, one arm at the lower end of the lifting frame 4 is hinged to the vehicle body 1, the other arm at the lower end of the lifting frame 4 is embedded into the slideway 3, the electric cylinders 5 are arranged on the lifting frame 4, the square frames 6 are arranged on the lifting frame 4, the photovoltaic panels 7 are fixedly connected to the square frames 6 through bolts, the wheels 8 are arranged at the lower end of the vehicle body 1, the motor 9 is arranged in the vehicle body 1, and; the tripod 10 is hinged on the outer wall of the vehicle body 1 through one vertical edge of the tripod, an internal thread sleeve 11 is vertically and fixedly connected at the intersection point position of the other two edges of the tripod 10, an external thread rod 12 is connected on the internal thread sleeve 11 through a thread, a ground pin 13 is fixedly connected at the lower end of the external thread rod 12, and a handle 14 is fixedly connected at the upper end of the external thread rod 12; a foot support 15 is fixedly connected to the lower edge of the vehicle body 1.

The device has the following structural characteristics: the vehicle body 1 is used for supporting and bearing; the control box 2 is used for accommodating conventional electric elements such as a controller and an inverter; one arm at the lower end of the lifting frame 4 is hinged on the vehicle body 1, the slide way 3 is used for embedding the other arm at the lower end of the lifting frame 4, when the lifting frame 4 carries out lifting motion, the arm translates in the slide way 3, and the slide way 3 plays a role in guiding and limiting the lifting frame; the lifting frame 4 is used for executing lifting movement, and the electric cylinder 5 provides power for the lifting movement; the square frame 6 is naturally surrounded by the self structure of the lifting frame 4 and is used for bearing the photovoltaic panel 7; the photovoltaic panels 7 are of a conventional structure, the photovoltaic panels 7 arranged in the square frames 6 are longitudinally arranged on the lifting frame 4 from top to bottom, when the lifting frame 4 descends, the photovoltaic panels 7 are laid down and are in a stacked and contained state, and when the lifting frame 4 ascends, the photovoltaic panels 7 are unfolded and are in an inclined state; the wheels 8 and the motor 9 are used for realizing the movement capacity of the vehicle body 1; the tripod 10 is used for bearing the internal thread sleeve 11; the internal thread sleeve 11 is used for the external thread rod 12 to be threaded therein; the external threaded rod 12 is used for bearing a ground foot 13; when the lifting frame 4 is lifted, the gravity center is obviously increased, so that the overall stability is reduced, in order to overcome the problem, the tripod 10 can be rotated and unfolded, and then the external thread rod 12 is rotated to press the ground feet 13 on the ground, so that the supporting span of the bottom end of the utility model is increased, and the stability is improved; the grip 14 facilitates rotation of the externally threaded rod 12; foot peg 15 is used for an operator to climb up from when performing maintenance work.

Example 2

A photovoltaic module mounting structure is shown in figures 1-4 and comprises a vehicle body 1, a control box 2, a slideway 3, a lifting frame 4, electric cylinders 5, square frames 6, photovoltaic panels 7, wheels 8, a motor 9, a tripod 10, an internal thread sleeve 11, an external thread rod 12, feet 13, a handle 14 and pedals 15, wherein the control box 2 is fixedly connected to the front side of the upper end of the vehicle body 1, the slideway 3 is fixedly connected to the vehicle body 1, one arm at the lower end of the lifting frame 4 is hinged to the vehicle body 1, the other arm at the lower end of the lifting frame 4 is embedded into the slideway 3, the electric cylinders 5 are arranged on the lifting frame 4, the square frames 6 are arranged on the lifting frame 4, the photovoltaic panels 7 are fixedly connected to the square frames 6 through bolts, the wheels 8 are arranged at the lower end of the vehicle body 1, the motor 9 is arranged in the vehicle body 1, and; the tripod 10 is hinged on the outer wall of the vehicle body 1 through one vertical edge of the tripod, an internal thread sleeve 11 is vertically and fixedly connected at the intersection point position of the other two edges of the tripod 10, an external thread rod 12 is connected on the internal thread sleeve 11 through a thread, a ground pin 13 is fixedly connected at the lower end of the external thread rod 12, and a handle 14 is fixedly connected at the upper end of the external thread rod 12; a foot support 15 is fixedly connected to the lower edge of the vehicle body 1. Wherein, there are a plurality of photovoltaic panels 7, and a plurality of photovoltaic panels 7 are vertically arranged from top to bottom, and a plurality of photovoltaic panels 7 are parallel to each other. A limit stop is fixedly connected in the slideway 3. The frame 6 is surrounded by four angle steels, and the inner edge of the frame 6 is provided with a groove, and the photovoltaic panel 7 is embedded into the groove. There are 4 tripods 10, and two tripods 10 are provided on both sides of the vehicle body 1.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the scope of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A photovoltaic module mounting structure is characterized by comprising a vehicle body (1), a control box (2), a slide way (3), a lifting frame (4), electric cylinders (5), square frames (6), photovoltaic panels (7), wheels (8), a motor (9), a tripod (10), an internal thread sleeve (11), an external thread rod (12), a ground foot (13), a handle (14) and a pedal (15), wherein the control box (2) is fixedly connected to the front side of the upper end of the vehicle body (1), the slide way (3) is fixedly connected to the vehicle body (1), one arm at the lower end of the lifting frame (4) is hinged to the vehicle body (1), the other arm at the lower end of the lifting frame (4) is embedded into the slide way (3), the plurality of electric cylinders (5) are arranged on the lifting frame (4), the plurality of square frames (6) are arranged on the lifting frame (4), the photovoltaic panels (7) are fixedly connected to the square frames, the lower end of the vehicle body (1) is provided with wheels (8), a motor (9) is arranged in the vehicle body (1), and the motor (9) is in transmission connection with the wheels (8); the tripod (10) is hinged on the outer wall of the vehicle body (1) through one vertical edge of the tripod, an internal thread sleeve (11) is vertically and fixedly connected at the intersection point position of the other two edges of the tripod (10), an external thread rod (12) is connected on the internal thread sleeve (11), the lower end of the external thread rod (12) is fixedly connected with a ground foot (13), and the upper end of the external thread rod (12) is fixedly connected with a handle (14); the lower end edge of the vehicle body (1) is fixedly connected with a pedal (15).

2. A photovoltaic module mounting structure according to claim 1, wherein the photovoltaic panels (7) are provided in plural numbers, the plural photovoltaic panels (7) are arranged longitudinally from top to bottom, and the plural photovoltaic panels (7) are parallel to each other.

3. A photovoltaic module mounting arrangement according to claim 1, characterised in that a limit stop is fixedly connected in the slideway (3).

4. A photovoltaic module mounting structure according to claim 1, characterized in that the frame (6) is surrounded by four angles, and that the frame (6) has a recess in its inner edge, into which recess the photovoltaic panel (7) is embedded.

5. A photovoltaic module mounting structure according to claim 1, wherein there are 4 tripods (10), and there are two tripods (10) on both sides of the vehicle body (1).

Images