JPH022037Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a solar battery power supply device, and in particular to the configuration of a solar battery power supply device that can be easily and fixedly installed at the intended device installation location without performing normal installation foundation work. be.

As shown in FIG. 1, the solar cell power supply device consists of a solar cell 1, a controller 5, and a storage battery 6. While the solar cell 1 is fixedly installed in a sunny place outdoors and the light receiving panel 2 of the solar cell 1 is irradiated with sunlight, the solar cell 1
The photoelectrically converted power is supplied to a supply destination P such as a wireless device, and a part of the power is charged to a storage battery 6 via a controller 5 that controls reverse flow, prevents overcharging, and adjusts voltage. When there is no sunlight such as at night or on rainy days, the charged power from the storage battery 6 is supplied to the supply destination P, and is used as an unmanned relay in places where normal power supply is difficult or in remote areas. It plays an important role as a power supply source for stations, unmanned observation systems, etc.

By the way, when installing the above-mentioned solar cell power supply device at the intended installation location, for example, the solar cell 1
In the case of the support frame 3 to which the light-receiving panel 2 is attached, each leg 3a of the support frame 3,
3b, 3c, and 3d were usually installed by fixing concrete blocks 4 by constructing a foundation of concrete or the like. However, this installation method requires materials and labor costs such as excavating the installation surface, making formwork, pouring concrete, and curing, and has the disadvantage that it takes a long time to complete the installation. There has been a demand for a solar cell power supply device that can be installed in a timely manner or in a simple manner.

In order to eliminate the above-mentioned conventional drawbacks, the present invention focuses on the fact that the storage battery built into a power supply device is quite heavy, and the present invention is designed to prevent the storage battery from being placed in a solar cell support frame. It is an object of the present invention to provide a solar cell power supply device of an easy-to-install type in which a solar cell support frame is stably and fixedly installed.

According to the present invention, the support frame, which has legs to be placed in an outdoor installation location and on which the light receiving panel of the solar cell is attached at a predetermined angle and tilted, has a support frame located below the light receiving panel mounting position. In the lower space surrounded by the legs, there is a mounting board close to the mounting surface of the pedestal, on which a part of the photoelectric conversion output is stored rather than the light receiving panel, and it is used to assist in power supply. This is achieved by a solar cell power supply device characterized in that a storage battery is provided with weatherproofing means and placed on a support pedestal for fixed holding at an installation location.

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a perspective view showing an embodiment of the solar cell power supply device according to the present invention. In the figure, 22 is a light receiving panel of the solar cell 21, and the light receiving panel 2
2 is mounted on a support pedestal 23 at a predetermined angle. The four legs 24a, 24b, 24c of the support frame 23 and the not-shown 24
As shown in the figure, a storage battery mounting board 25 is provided in the lower space surrounded by the legs corresponding to d, and on this mounting board 25, a plurality of storage batteries, which were conventionally arranged in a separate storage battery charging warehouse, can be placed. 26 can be placed thereon.

Solar cell support frame 23 configured as above
is placed at a predetermined installation location, a plurality of storage batteries 26 are placed on the mounting plate 25, and the solar cell support frame 23 is fixed by the weight of the storage batteries 26.
In this case, if the capacity of the solar cell of this device is 400W, the size of the light receiving panel of the solar cell is approximately
The area will be approximately 2.4m x 2m, and on the other hand, a storage battery with a capacity of 2400Ah will be used, assuming a 12V power supply and a storage capacity of 30 days, taking into account the period of no sunshine. i.e. lead acid battery CS1200 with a capacity of 1200Ah (voltage 2V)
Since 12 batteries are used, the total weight of the storage battery is approximately 1400 kg. Therefore, for example, if a wind speed of 45 m/sec is applied to a solar panel that is installed at an inclination angle of 35°,
Even if it receives a wind of Due to its weight, it can be installed securely and securely. Furthermore, the number of storage batteries placed in the support frame may be set in any number of units as required, and such storage batteries may be stored in a special weather-resistant case or the mounting board may be surrounded by a weather-resistant material. It is necessary to take weatherproof measures such as making a storage room with a wall.

As is clear from the above description, the solar cell power supply device of the present invention has a structure in which a heavy storage battery is disposed within a support frame on which a solar cell light-receiving panel is installed, so that the power supply device can be used as desired. When placed at the installation site, it does not require foundation work like conventional methods, and can be easily fixedly installed.In addition, the storage battery and charging controller can be placed inside the support frame on which the solar cell reception panel is installed. etc. can be arranged together, so it is very rational and has a large practical economic effect, and is extremely advantageous when applied to various solar cell power supply devices that are simply fixedly installed.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram illustrating a conventional solar battery power supply device and its installation configuration, and FIG. 2 is a perspective view showing an embodiment of the solar battery power supply device according to the present invention. In the figure, 21 is a solar cell, 22 is a light receiving panel, 23 is a support frame, 24a, 24b, and 24
c is the leg of the support frame, 25 is the storage battery mounting board, 26
indicates a storage battery.

Claims (1)

[Scope of utility model registration request] The support frame has legs that are placed in an outdoor installation location, and a solar cell light-receiving panel is mounted on the upper part at a predetermined angle. There is a mounting board near the mounting surface of the mount in the lower space, and on the mounting board, a storage battery that stores a part of the photoelectric conversion output rather than the light receiving panel and assists in power supply is equipped with weatherproof means. 1. A solar battery power supply device, wherein the solar battery power supply device is mounted on a support frame for fixation and holding at a location where the support frame is installed.