JPS6252851A - Power source container - Google Patents

Abstract

PURPOSE:To facilitate maintenance and inspection of storage battery by arranging the storage battery closely to the upper section of power converter while arranging open/close means on the upper face of power source box. CONSTITUTION:Supporting wall 10 formed with acid resistant resin is provided in the power source box 9 of power source container 2 where a power converter 11, controller 12 such as recharger and drain receiver 13 are arranged below said wall 10 while a storage battery 14 is arranged above the supporting wall 10. Electrolyte leaked when confirming the specific gravity of electrolyte stored in the storage battery 14 or injecting supply water is received by drain guide 16 then discharged through the discharge section 17 to be stored in drain receiver 13. When opening the door 18, inspection or maintenance of storage battery and confirmation of the specific gravity of electrolyte can be performed.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a simple power supply storage device that supplies necessary power to a load.

(Prior Art) As a simple power supply storage device, there is one in which a storage battery and a power converter are stored in a power supply box. This power supply storage device is used, for example, in a small solar power generation system, and stores electric power generated by a solar cell in a storage battery, and converts the electric power of the storage battery into electric power according to a load using a power converter and supplies the electric power.

When storing the storage battery and the power converter in the power supply box in this way, the storage battery is placed at the bottom of the power supply box, and the power converter is placed above it. By the way, in order to facilitate the maintenance and inspection of the storage battery, or to prevent corrosion if the power supply box is filled with gas from the electrolyte, there is a need to provide a gas release means between the storage battery and the power converter. It has a relatively large space.

(Problems to be Solved by the Invention) As described above, since a relatively wide space is secured between the storage battery and the power converter, the power supply storage device is large-sized. Furthermore, the structure is complicated because the power storage unit must have a shielding structure or a ventilation structure so that gas from the electrolyte does not have an adverse effect on the power converter located above.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power supply storage device that is small in size and has a simple structure.

(Means for Solving the Problems) The present invention provides a power supply storage device that stores a storage battery and a power converter in a power supply box and is capable of supplying power according to a load. The present invention is characterized in that the power supply box is arranged close to section E, and an opening/closing means is provided on the upper surface of the power supply box.

(Function) In this invention, a storage battery is placed in the power supply box close to the top of the power converter, and maintenance and inspection of the storage battery is performed by opening and closing the opening/closing means provided at the top.

Therefore, there is no need to secure a space in the power supply box for maintenance and inspection of the storage battery. Moreover, the gas generated from the electrolyte can be discharged outside the power supply box without any special means and without adversely affecting the power converter or control device.

(Example) Hereinafter, an example of the present invention will be described in detail based on the accompanying drawings.

FIG. 1 shows a schematic diagram of a small-sized solar power generation system to which the present invention is applied.

1 is a solar cell, 2 is a power supply storage device, and 3 is a load. The solar cell 1 converts sunlight energy into electrical energy and uses it as a power source.

The energy from the solar cell 1 is stored in the power supply storage device 2 and supplied to the load 3 as needed. Load 3 has fluorescent lights 4. There are electric lights 5, television 6, radio 7, pump motor 8, etc.

The power supply storage device 2 is constructed as shown in FIGS. 2 and 3.

A support wall 1O made of acid-resistant resin or the like is provided inside the power supply box 9 of the power supply storage device 2.
0, a power converter 11, a control device 12 such as a charger, etc.
, a drain receiver 13 is arranged, and a storage battery 14 is arranged on the upper part of the support wall 10.

The power converter 11 and the storage battery 14 are arranged close to each other vertically with the support wall 10 in between. The height of 9 is lower.

The storage battery 14 is surrounded by an acid-resistant protective wall 15, and a drain guide 16 is arranged below the storage battery 14. This drain guide 16 is inclined at a predetermined angle, and a discharge portion 17 is provided at the center of the bottom thereof. When checking the specific gravity of the electrolyte stored in the storage battery 14 or injecting make-up water, if the electrolyte leaks, it is caught by the drain guide 16 and stored in the drain receiver 13 from the discharge part 17. This drain receiver 13 is removable from the front of the power supply box 9.

An opening/closing means ff118 is provided on the top surface of the power supply box 9, and by opening this door 18 upward,
The storage battery 14 is maintained and inspected, and the specific gravity of the electrolyte is checked.

Further, a door 19 is provided on the front side of the power supply box 9, so that the storage battery 14, the power converter 11, and the control device 12 can be taken in and out.

Furthermore, an opening 20.21 is formed in the side surface of the power supply box 9 to vent corrosive gas.

Next, the operation of this embodiment will be explained.

518 provided on the front side of the power supply storage device 2 is opened, and the power converter 11, control device 12, drain receiver 13, etc. are stored in the lower part of the support wall 10, and two storage batteries 14 are stored in the upper part of the support wall 10. do.

Since the corrosive gas and mist generated from the storage battery 14 are discharged to the outside through the side openings 20.21, there is no need to provide ventilation means such as a fan inside, which is advantageous in terms of manufacturing.

Furthermore, since the power converter 11 and the control device 12 are arranged below the storage battery 14, the adverse effects of electrolyte and corrosive gas are reduced, and the power converter 11,
There is no need for special coating or corrosion prevention treatment on the control device 12, and manufacturing costs are reduced.

Maintenance and inspection work on the storage battery 14 is performed from above by opening the door 18 provided on the top surface, so the work is easy. In addition, even if a leak occurs when checking the specificity of the electrolyte in the storage battery 14 or replenishing water, since the area around the storage battery 14 is covered with an acid-resistant protective wall 15, the side of the power supply box 9 can be protected against electrolysis. No liquid will stick to it.

Moreover, the electrolytic solution that overflows when replenishing the water is collected by the drain guide 16 and guided from the discharge part 17 to the drain receiver 13. Since this drain receiver 13 can be pulled out from the front, waste liquid can be easily discharged to the outside of the power supply box 9.

In the embodiment described above, the rs18 through which the storage battery 14 can be taken in and taken out is provided on the front surface, but it may be provided on the rear surface or side surface. Furthermore, the opening/closing means provided on the top surface of the power supply box 9 may be a sliding door.

(Effects of the Invention) As described above, this invention has the storage battery placed close to the top of the power converter and the opening/closing means provided on the top surface of the power supply box. Work is done from above, making it easy. Further, unlike in the past, there is no need to secure a work space inside the power supply box, and the device becomes smaller. Further, the gas generated from the electrolyte can be prevented from having an adverse effect on the power converter and the control device, and can be removed to the outside of the power supply box with a simple structure that does not require any special means.

[Brief explanation of the drawing]

Figure 1 shows a small solar power generation system to which this invention is applied.
FIG. 2 is a cross-sectional front view of the power supply storage device, and FIG. 3 is a cross-sectional side view of the power supply storage device. 1 - Solar cell 2 - Power supply storage device 3 - Load 9 - Power supply hops 11 - Power converter 12 - Control device 13 - Drain receiver 14 - Storage battery

Claims (1)

[Claims] In a power supply storage device that stores a storage battery and a power converter in a power supply box and is capable of supplying power according to the load, the storage battery is arranged close to the top of the power converter, and the top surface of the power supply box is A power supply storage device equipped with an opening/closing means.