JPS6218058Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Technical Field> The present invention relates to a mount that integrally holds a plurality of solar cell modules, and particularly relates to a solar cell mount that can be easily moved.

<Prior Art> Solar cells using single crystal or amorphous are actively being developed. When installing such solar cells outdoors and using them for electricity,
In order to protect the solar cell element itself and to facilitate manufacturing and installation work, solar cell modules are made up of a certain number of solar cell elements. When used, a plurality of unitized solar cell modules are assembled to obtain the desired output power. A stand is required to assemble and hold solar cell modules, but the stands used conventionally have angles that regulate the outer frame of each module, angles that connect each module at an intermediate position, and angles that connect each module at an intermediate position. This requires an angle to hold the light-receiving surface of the module at an angle, resulting in an extremely heavy weight and the drawback that the installation location cannot be easily changed. Another problem was that the assembly work was time-consuming because the angles and the connection to the solar cell module were fixed with bolts.

<Purpose of the invention> The present invention eliminates the drawbacks of the conventionally used solar cell mounts mentioned above, and provides a simple solar cell mount that is easy to assemble, reduces the overall weight, and is easy to move. It is to be.

<Example> Figure 1 shows the construction of four points (A
~D) is an example of a structure that supports the entire solar cell module and mount, and Figure 2 is an example of a structure that supports it at three points (E~G) using a support and one wheel. .

In the figure, for example, five solar cell modules 1 are arranged in a plane. As shown in the partially cutaway perspective view of FIG. 3, each solar cell module 1 consists of a panel portion 10 and a metal frame 20 surrounding the outer frame of the panel 10. The panel section 10 has a plurality of solar cell elements 13, 13, . . The panel section 10
The sealing material 2 is placed in the groove 21 carved in the frame 20.
2 and is fitted and supported. The frame 20 is made of relatively lightweight aluminum, and has an extension 24 formed on the back side of the panel beyond the portion where the groove 21 for supporting the panel 10 is formed. The extension portion 24 is provided with a through hole 23 through which a pipe (to be described later) may pass. The through holes 23 are formed at corresponding positions on at least two opposing sides of the frame 20 provided around the panel 10 in order to allow the passage of the pipe 2.

A plurality of solar cell modules 1 having the above structure are arranged on a plane as shown in FIG. 1, and each module is connected by passing the pipe 2 through a through hole 23 formed in the frame 20.

That is, as mentioned above, since the through holes 23 are formed in advance at corresponding positions in the frame 20 of each solar cell module, the pipes 2 are sequentially passed through the through holes 22 of each frame 20 arranged in a planar manner. be combined. A cushioning material is placed between adjacent frames to protect against impact caused by metal contact.

When the solar cell module is installed at the light receiving position, the portion 2A of the pipe 2 located on the ground side is bent to create a horizontal portion, and one or two wheels 3 are inserted into the horizontal portion. be done. The wheels 3 support the entire solar cell module and facilitate the movement of the entire module.

In addition to being supported by the wheels 3, a support 4 is attached to the other end of the pipe 2, as shown in FIG. 4, in order to stably hold the solar cell modules arranged in a plane in an inclined state. The ground-side tip 4A of the pillar 4 is shaped into a sharp shape to facilitate embedding in the ground. The strut 4 is rotatably attached to the pipe 2 using a hinge or the like, and the strut 4
A position fixing device 5 is provided between the pipe 2 and the pipe 2 to fix the angle formed between the two. When holding the solar cell module 1 in a light-receiving state, the position fixture 5 is passed between the support 4 and the pipe 2 to hold the module surface in an inclined position. Further, when moving the module, the position fixing tool 5 is bent from the intermediate point 5P to store the support column 4 on the back side of the module.
At the frame position on the back side of the solar cell module,
A storage tool 6 for holding the stored column 4 is attached to prevent the column 4 from becoming unstable when the module is moved.

In order to facilitate the transportation of the solar cell module, a handle covered with a rubber cap is provided at the tip of the pipe 2.

<Effects> As described above, according to the present invention, since the pedestal is constructed using pipes, the number of parts is small and the shape processing is easy. In addition to providing wheels on the part that touches the solar cell module, it becomes very easy to move the solar cell module, making it easy to change the installation location.
The installation position of the solar cells can be selected according to the sunlight irradiation conditions to ensure efficient operation.

[Brief explanation of drawings]

1 and 2 are plan views showing an installed state of an embodiment of the present invention, FIG. 3 is a cutaway perspective view of essential parts of the embodiment, and FIG. 4 is a side view of the embodiment. 1: Solar cell module, 2: Pipe, 3: Wheel, 4: Strut, 5: Position fixture, 10: Panel,
22: Frame, 23: Through hole.

Claims (1)

[Scope of utility model registration request] In a mount for mounting and holding a solar cell module, the solar cell module is surrounded by a frame and has a through hole in the frame, and a plurality of solar cell modules are connected through the through hole in the frame. A pipe to be fixed, a transport wheel inserted through a portion of the pipe facing the ground, and a transport wheel provided so as to be freely stored at the other end of the pipe different from the insertion position of the transport wheel, and configured to receive light from a solar cell module. 1. A solar cell mount comprising: a support for holding the solar cell in a fixed state;