JP2003282918A - Mobile solar cell generating set - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile solar cell generating set which is movable, can movably be installed in a place detached far from a house, especially in a mountainous remote area and which can supply power. <P>SOLUTION: A solar cell panel plate 2 is fitted to a portable frame 1 so that an angle can be changed. A reflector 3 is fitted to the frame 1 close to the solar cell panel plate 2 so that the angle can be changed. The reflector 3 receives solar light and reflects it. The reflected light is reflected on the solar cell panel plate 2. The reflector 3 is turned and it covers the solar cell panel plate 2 and protects a reflection face of the reflector 3 and a face of a solar cell when it is not used or moved. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a movable solar cell power generator (hereinafter referred to as "device").

[0002]

2. Description of the Related Art Conventionally, a device is fixedly installed mainly on a roof of a house, and power is transmitted from the device to a desired place by wiring.

[0003]

Since the conventional device is fixedly installed mainly on the roof of a house, it can transmit power only to electric machines and appliances near the house indoors and outdoors, and a place far away from the house, Especially in remote areas such as mountains, electricity cannot be transmitted to electric appliances. It is an object of the present invention to provide a mobile device that is movable and can be installed and transmitted to a place far away from a house or a remote mountain area.

[0004]

SOLUTION TO THE PROBLEMS A solar cell panel plate is attached to a portable frame so that the angle can be changed, and a solar ray attached to the frame so as to be able to change the angle in the vicinity of the solar cell panel plate. A movable solar cell power generator is configured by providing a reflecting plate that receives and reflects the solar cell panel plate. It is preferable to rotate the reflector so that the reflection surface side overlaps with the solar cell panel plate so that the solar cell panel plate can be covered with the reflector.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of an apparatus according to the present invention will be described with reference to the drawings. The device A shown in FIG. 1 has a movable frame 1 and a solar cell panel plate 2 attached to the solar cell panel plate 2 so that its angle can be changed. It is composed of a reflector 3.

The method of attaching the solar cell panel plate 2 to the frame 1 is not limited, but the following method is preferable. That is, a vertical elongated hole 5 is provided in the rear vertical frame 4 of the frame 1, and a bolt is inserted into the elongated hole 5, so that the solar cell panel plate 2
A hole is provided at the upper end of each side edge frame 6 and the tip of the bolt is screwed in and the nut is tightened and fixed. A horizontally long hole 8 is provided in the lower horizontal frame 7 of the frame, and a side edge of the solar cell panel plate 2 is provided. The lower end of the side edge frame 6 of the solar cell panel plate 2 is fixed to the lower horizontal frame 7 by providing a hole in the lower end of the frame 6, inserting the tip of the bolt into the elongated hole and the hole, and tightening the nut. preferable. In the long holes 5 and 8, the nut is loosened to shift the position of the bolt within the long hole to adjust the angle of the solar cell panel plate 2.

Instead of the above fixing method, the following fixing may be performed. That is, the lower end portions of the side edge frames 6 of the solar cell panel plate 2 are axially fixed to the lower horizontal frame 7 or the front vertical frame 9, and long holes are provided at the upper end portions of the side edge frames 6 of the solar cell panel plate 2.
Long hole 5 of rear vertical frame 4 of frame 1 and solar cell panel plate 2
The bolts are inserted into the long holes of both side edge frames 6 and the nuts are tightened to fix the solar cell panel plate 2 to the frame 1.

Although the fixing of the reflector 3 to the frame 1 is not limited, it is preferably fixed as follows. That is, the lower end portions of the side edge frames 10 of the reflector 3 are located near the positions where the upper ends of the side edge frames 6 of the solar cell panel plate 2 are locked by the elongated holes 5 of the rear vertical frame 4 of the frame 1. Tighten with bolts and nuts to secure the shaft above, provide holes in the upper ends of both side edge frames 10 of the reflector plate 3, also provide long holes 12 in the upper horizontal frame 11 of the frame 1, and install bolts in both holes. Insert and tighten the nut to secure.

A shelf plate 13 is attached to the lower horizontal frame 7 or another horizontal frame on the frame 1, a battery 14 and a controller (controller) 15 are mounted, and these are mounted on the solar cell panel plate 2
Wire connection to.

When the device A is transported and moved, or when it is not used, as shown in FIG.
The reflection plate 3 is unlocked, the fixing of the side edge frame 10 of the reflection plate 3 to the vertical frame 4 of the frame 1 is loosened, and the reflection plate 3 is rotated around the bolt to rotate the reflection plate 3. The plate 3 is turned upside down, the reflecting surface side is overlapped with the solar cell panel 2 to cover the solar cell panel 2, and the locking member 16 is used to cover the reflector plate 3 and the solar cell panel 2.
And lock. Instead of locking the reflector 3 and the solar cell panel 2 with the locking member 16, the reflector 3 may be locked to the front vertical frame 8 or the lower horizontal frame 7 of the frame 1. Battery 1
4 and the controller 15 are preferably removed from the shelf 13.

As described above, by covering the solar cell panel 2 with the reflection plate 3, it is possible to prevent the solar cell and the reflecting surface from hitting other objects and being damaged when the apparatus is moved, or to protect the objects due to wind or the like when not in use. It is possible to prevent damage to the solar cell and the reflecting surface due to flying and mischief.

It is preferable that the front vertical frame 9 and the lower part of the rear vertical frame 4 of the frame 1 be expanded and contracted so that their lengths can be adjusted. Adjust the length of the lower part and install it across the roof ridge or in response to the slope and unevenness of the land.

FIG. 3 shows a device B of another embodiment of the device according to the present invention. In the device B, a vertically long slot 5a is provided at the upper end of the rear vertical frame 4a of the frame 1a, bolts are inserted into the slot 5a, and holes are provided at the upper ends of both side edge frames 6 of the solar cell panel plate 2. Screw the tip of the bolt in and fix it, provide a horizontally long hole 8a in the lower horizontal frame 7a of the frame, and provide a hole in the lower end of the side edge frame 6 of the solar cell panel plate 2 so that the bolt has the above-mentioned length. It is preferable that the lower end portion of the side edge frame 6 of the solar cell panel plate 2 is fixed to the lower horizontal frame 7a by inserting the hole into the hole and tightening the nut. In the long hole 5a and the long hole 8a,
Loosen the nut and shift the position of the bolt within the long hole to adjust the angle of the solar cell panel 2.

The reflector 3 has a hole at the lower end of both side edge frames 10, the hole and the long hole 8a of the lower horizontal frame 7a of the frame 1a are opposed to each other, a bolt is inserted, and the frame is tightened with a nut. A longitudinal elongated hole 17 is provided at the upper end of the front vertical frame 9a of 1a, a hole is provided at the upper end of both side edge frames 10 of the reflection plate 3, and the bolt is inserted with the hole and the elongated hole 17 facing each other.
In the long holes 8a and the long holes 17 so that the reflection plate 3 is tilted upward by tightening with a nut, the reflection surface receives and reflects the sun rays, and the reflected light irradiates the solar cells of the solar cell panel plate 3. The tilt angle of the reflector 3 is adjusted by adjusting the position of the bolt.

When the device B is not used, the bolts and nuts that fix the upper ends of the side edge frames 10 of the reflector to the front vertical frame 9a are removed, and the lower ends of the side edge frames 10 are connected to the horizontal frame 7a.
Loosen the nuts of the bolts that are fixed to the reflector plate 3 and rotate the reflector plate 3 around the bolts to cover the solar cell panel plate 2 with the reflection surface of the reflector plate 3, and the side edge frames 10 of the reflector plate 3 are the solar cells. Lock both side edge frames of the panel plate 2. By covering the solar cell panel plate 2 with the reflection plate 2, the reflection surface of the reflection plate 3 and the solar cell panel surface are protected.

[0016]

The device according to the present invention enhances the power generation effect of the solar cell by reflecting the solar rays on the solar cell by the reflector. In addition, this device is mobile, so that it can be generated not only on the roof but also in remote mountain areas for power generation, and it can be installed even on sloping land or uneven land. Furthermore, by rotating the reflector and covering the solar cell panel plate with the reflector,
The reflective surface of the reflector and the solar cell can be protected.

[Brief description of drawings]

FIG. 1 is a perspective view of a solar cell power generation device.

FIG. 2 is a perspective view of a solar cell power generator in which a solar cell panel plate is covered with a reflector.

FIG. 3 is a perspective view of a solar cell power generation device according to another embodiment.

[Explanation of symbols]

A, B solar cell power generator 1 frame 2 Solar panel board 3 reflector 4 rear vertical frame 5 long holes 6 side frame 7 lower horizontal frame 8 long holes 9 Front vertical frame 10 side frame 11 Upper horizontal frame 12 long holes 13 shelves 14 batteries 15 Controller 16 Locking member 17 long hole

Claims (2)

[Claims] 1. A solar cell panel plate mounted on a portable frame so as to be able to change the angle, and mounted on the frame so as to be able to change the angle in the vicinity of the solar cell panel plate. A movable solar cell power generator comprising a reflector for reflecting the battery panel plate. 2. The movable unit according to claim 1, wherein the reflector plate is rotated so that the reflection surface side is overlapped with the solar cell panel plate, and the solar cell panel plate can be covered with the reflector plate. Solar cell power generator.