KR20100030033A - A solar-cell supporting apparatus - Google Patents

Abstract

PURPOSE: A photovoltaic module supporting apparatus is provided to firmly secure a photovoltaic module at the desired angle using fastening and coupling holes and angle set screws. CONSTITUTION: A photovoltaic module supporting apparatus comprises a support frame(20), a column frame(30), and a guide frame(40). The support frame supports the lower side of a photovoltaic module(10). The column frame is vertically fixed to the surface, with the top hinged on the bottom center of the support frame. The guide frame is vertically fixed to the lower part of the support frame and supports the exterior of the column frame when the support frame is rotated. A plurality of fastening holes are formed at regular intervals on the outer surface of a guide groove(41) of the guide frame. Coupling holes corresponding to the fastening holes are formed on the outer surface of the column frame. Angle set screws(43) are driven into the fastening holes and fixed in the coupling holes.

Description

Solar module support device {a solar-cell supporting apparatus}

The present invention relates to a device for supporting a solar module, and more particularly, to a device for supporting a solar module, which allows the solar module to be firmly supported and at the same time easily adjusted before and after the angle with a small force.

In general, the photovoltaic module is used to generate electric power by using the light of the sun, and integrates a solar cell that converts the solar energy directly into electrical energy into a plate shape to produce a large amount of electrical energy at the same time. As fossil energy is gradually being depleted, the demand for it is increasing.

Such solar modules are typically installed on roofs, rooftops or exterior walls of buildings where sunlight is smoothly irradiated, or outdoors open areas. As the solar modules are formed of a thin semiconductor material, they are stably supported while preventing damage. In order to ensure that a separate support is installed on the lower side, such a support is typically shown in Figure 3 of the solar module 100 on the upper side in order to be placed in front of the sunlight module 100 in the sunlight A support frame 200 formed in a shape corresponding to the bottom surface is formed, and a support leg 300 is coupled to the lower side of the support frame 200 so that the solar module 100 is disposed to be inclined while being spaced apart from the ground. Lose.

However, the conventional support as described above has a problem that it is difficult to adjust the angle of the solar module according to the height of the seasonal solar because it is very difficult to adjust the angle of the solar module coupled to the upper surface after the installation is completed, thereby Since the module is not disposed in front of the sun at all times of the year, there is a problem that the power generation efficiency is lowered by the irradiation amount of sunlight per unit area.

Accordingly, the present invention has been made in order to solve the conventional problems as described above, the object of the solar module is to support the photovoltaic module so that the front and rear angle adjustment can be made easily with a small force while being firmly supported. In providing a device.

It is also an object of the present invention to prevent the side frame from twisting when the support frame is rotated.

In addition, an object of the present invention is to enable a solar module is firmly fixed at a desired angle with a simple structure.

It is also an object of the present invention to prevent the solar module from being excessively rotated.

In order to achieve the above object, the present invention provides a support frame for supporting the bottom surface of the solar module; A pillar frame fixed to the ground in a vertical direction and having an upper end hinged to a center of a lower surface of the support frame; It is fixed to the lower side of the support frame vertically downward, is formed in the shape of an arc and guide frame for supporting the outer surface of the pillar frame when the support frame is rotated;

In addition, the guide frame; is spaced apart by a width corresponding to the thickness of the pillar frame is characterized in that the guide groove is inserted into the pillar frame is inserted.

In addition, a plurality of fastening holes are formed on the outer surface of the guide groove at a predetermined angular interval is formed, a coupling hole corresponding to the fastening hole is formed on the outer surface of the pillar frame, is inserted into the fastening hole fixed to the coupling hole Characterized in that the angle fixing screw is provided.

In addition, the guide groove is formed in the inner side, characterized in that the angle limiting jaw is formed that the pillar frame is fixed to limit the maximum rotation angle of the support frame is formed.

Accordingly, the present invention is composed of a support frame and a guide frame and a pillar frame to provide a support device for the solar module to be easily supported before and after the solar module is firmly supported at the same time with a small force, seasonal and The operation of adjusting the angle of the photovoltaic module according to the installation place is made more easily and quickly, but also has the effect of stably supporting the photovoltaic module to prevent breakage.

In addition, the present invention by forming a guide groove in the guide frame to prevent the side warping when the support frame is rotated, when the angle of the photovoltaic module is not only stable and accurate rotation operation, but also strong wind, Even when this occurs, the solar module has an effect of more stably supporting.

In addition, the present invention is provided with a fastening hole, a coupling hole and an angle fixing screw so that the photovoltaic module is firmly fixed at a desired angle by a simple structure. Will have an effect.

In addition, the present invention by forming an angle limiting jaw in the guide groove to prevent excessive rotation of the solar module, it has the effect of preventing damage to the solar module due to excessive rotation of the support frame.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing an embodiment of the present invention, Figure 2 is a side view showing a state of use of the present invention, as shown in the present invention is formed in a flat plate shape and absorbs sunlight to convert the light energy into electrical energy While stably supporting the photovoltaic module 10 to be switched, the angle of the photovoltaic module 10 can be easily adjusted according to time and season, thereby maintaining the solar module 10 facing the sun. As such, the support frame 20 for supporting the lower surface of the photovoltaic module 10, and the pillar frame 30 is hinged to the center of the lower surface of the support frame 20 and disposed perpendicular to the ground; It is composed of a guide frame 40 protruded in a vertical direction on the lower side of the support frame 20 and formed in an arc shape.

The support frame 20 is formed of a conventional metal rod having rigidity, and a plurality of metal rods are combined in the horizontal and vertical directions to form a rectangular shape corresponding to the shape of the photovoltaic module 10 as a whole. The lower surface of the module 10 is fixed to the support frame 20 to stably support the solar module 10.

The pillar frame 30 is to be fixed to be supported in a state in which the support frame 20 is spaced apart from the ground, two or more spaced in the vertical direction with the ground, the bottom is fixed to the ground, the top is the support Hinge coupled to the center of both sides of the frame 20 so that the support frame 20 is rotated forward and backward based on the pillar frame 30.

The guide frame 40 is to guide the rotation of the support frame 20 when the support frame 20 is rotated, so that the support frame 20 is fixed at a specific angle, the support frame 20 of the Protrudingly arranged on both sides of the lower side, the side is to be in contact with the outer surface of the above-described pillar frame 30.

At this time, the hinge coupling portion of the support frame 20 and the pillar frame 30 is positioned in the center of the guide frame 40 so that the guide frame 40 is the pillar frame 30 when the support frame 20 is rotated. It is desirable to be in contact with a constant position at all times.

Accordingly, when the support frame 20 is rotated, the guide frame 40 is in contact with the pillar frame 30 to prevent distortion of the support frame 20 when the angle is adjusted, and the support frame 20 is supported at an angle desired by the user. By fixing the guide frame 40 and the pillar frame 30 in a state in which the frame 20 is rotated using a conventional coupling means, the solar module 10 fixed to the upper surface of the support frame 20 at a constant angle It is fixedly placed so that smooth power generation is achieved.

In addition, the guide frame 40 may be in contact with one side of the pillar frame 30, but is formed spaced apart in the width corresponding to the thickness of the pillar frame 30 in the guide frame 40, By forming a guide groove 41 through which the pillar frame 30 is inserted therein, the guide frame 40 may be more firmly supported by the pillar frame 30.

In addition, the outer surface of the guide groove 41 formed in an arc form a plurality of fastening holes 42 formed at a predetermined angular interval, the outer surface of the pillar frame 30 and the fastening holes 42 and Correspondingly to form a coupling hole (not shown) formed through the spiral and formed on the inner side, the angle fixing screw 43 is inserted into the outer side of the fastening hole 42 and fastened to the coupling hole is further provided It is preferable.

Accordingly, in the state in which the angle adjustment of the support frame 20 is made with a simple structure, the position of the fastening hole 42 and the coupling hole of the corresponding position is matched, and then only the fastening of the angle fixing screw 43 is a pillar frame 30. In addition to the rigid coupling of the guide frame 40 and the support frame 20 and the photovoltaic module 10 at a certain angle is to be made stable.

In addition, the guide groove 41 has a guide groove 41 at a position corresponding to the maximum rotation angle of the support frame 20 in order to prevent damage of the solar module 10 due to excessive rotation of the support frame 20. Protrudingly disposed inwardly, the angle limiting jaw 44 is fixed to the outer surface of the pillar frame 30 may be formed.

1 is a perspective view showing an embodiment of the present invention.

Figure 2 is a side view showing a state of use of the present invention.

Figure 3 is a perspective view showing an example of a conventional solar module and its support.

※ Explanation of codes for main parts of drawing

10: solar module

20: support frame

30: pillar frame

40: guide frame

   41: guide groove 42: fastening hole

   43: angle fixing screw 44: angle limiting jaw

Claims (4)

Support frame 20 for supporting the lower surface of the solar module 10; A pillar frame 30 fixed to the ground in a vertical direction and having an upper end hinged to a central portion of a lower surface of the support frame 20; The guide frame 40 is fixed vertically downward to the lower side of the support frame 20, is formed in the shape of an arc and supports the outer surface of the pillar frame 30 when the support frame 20 is rotated Supporting device for a solar module comprising a. The method of claim 1, The guide frame 40; Supporting device for a solar module, characterized in that the guide groove 41 is formed to be spaced apart in a width corresponding to the thickness of the pillar frame 30 is inserted into the pillar frame (30). The method of claim 2, A plurality of fastening holes 42 are formed on the outer surface of the guide groove 41 at a predetermined angular interval, and coupling holes corresponding to the fastening holes 42 are formed on the outer surface of the pillar frame 30. And an angle fixing screw (43) inserted into the fastening hole (42) and fastened and fixed to the coupling hole. The method of claim 3, wherein Is formed to protrude inside the guide groove 41, the angle limiting jaw 44 is formed so that the pillar frame 30 is fixed to limit the maximum rotation angle of the support frame 20 is formed Support of module.

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