JPH11343957A - Power generating device using air pressure and water pressure together - Google Patents

Abstract

PROBLEM TO BE SOLVED: To generate electric power by rotating a turbine with a water pressure produced through a pressure application to the water by a pneumatic pressure and establish the reuse of the water and compressed air by not disposing of to the outside but storing in a storage tank or leaving in the water chambers. SOLUTION: Water chamber tanks A, B, C are provided. The tank A is filled with water, and a compressed air is fed so that the water is vigorously pushed out to cause a turbine to rotate for power generation. The water having turned the turbine comes into the tank B, and when the tank A becomes empty, the tank B is used. The compressed air of the tank A is sent to the tank B so that the turbine is rotated for power generation. Then switching to the tank C is made, and thereto the compressed air of the tank B is sent, and thereby the turbine is rotated for power generation. The compressed air of the tank A is transferred to a storage tank so as to exhaust the air from the tank. The compressed air of the tank B is sent to the tank C and power generation is made. This operating cycle is repeated in the sequence of A, B, C.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

Conventionally, there are many uses of compressed air and water pressure, but most of the used compressed air and pressurized water are discharged to the outside on the spot to generate power. Therefore, there is a problem in that extra power and power must be used to supply the battery.

[0002]

According to the present invention, three identical water tanks are formed and water is supplied to the water tank A near the upper portion. Compressed air is fed into the tank A from the upper air inlet. The water in the water tank A is pressurized, strongly extruded, and rotates the turbine through a pipe to generate power. The water that has caused the turbine to rotate enters the water tank B.
When the water in the tank A reaches the bottom, the tank is switched to the tank B. Next, the water in the water tank B and the compressed air in the water tank A are sent to the water tank B. If the pressure is not enough, replenish the compressed air in the air compression tank. The water in the water tank is pressurized and becomes a strong force to rotate the turbine through the pipe to generate electricity.
The water that has caused the turbine to rotate enters the water tank C. When the water in the tank B reaches the bottom, the tank is switched to the tank C. At this point, the compressed air in the water tank A is sucked and stored in the air storage tank. If the pressure drops and it becomes impossible to inhale, take it out and empty the air in the water tank A. This time, the compressed air in the tank A
Send to If there is no pressure, supply compressed air from the air compression tank. The compressed air sent to the water tank C applies pressure to the water in the water tank. The pressurized water rotates the turbine through the pipe with strong force to generate electricity. The water that has caused the turbine to rotate enters the water tank A. At this time, the compressed air in the water tank B is sucked and stored in the air storage tank. If the pressure drops and it becomes impossible to inhale, take it out and empty the air in the water tank B. or,
The water tank C is the same as the water tanks A and B. As described above, by repeating the steps of the water tanks A, B, and C,
Water is hardly supplied, and compressed air is reused, so that all of the compressed air is not discarded to the outside as in the conventional case. In addition, in the event of an emergency in which a fire has occurred, water and compressed air are provided, so that there is an advantage in that digestion can be performed immediately by simply attaching a hose.

[0003]

According to the present invention, after using water and compressed air,
Since it is not thrown away to the outside, replenishment is less than conventional ones, which is economical. In the event of a fire,
Since it stores water and compressed air, there is also the advantage that digestion can be performed immediately just by attaching a hose.

[Brief description of the drawings]

FIG. 1 is an overall view using a combination of air pressure and water pressure.

[Explanation of symbols]

 A, B, C Water tank D Turbine and generator E Compressed air storage tank 1 Air compressor 2 Compressed air intake 3 Pipe for sending water to turbine 4 Pipe for sending water from turbine to water tank 5 Water intake valve 6 Air release valve 7 Valve to send compressed air to each tank 8 Fire hydrant mounting valve

Claims (2)

[Claims] 1. Pressure is applied to water by the pressure of air, and the turbine is rotated by the water pressure to generate electricity. Also, the used water and compressed air are stored in an air storage tank without being discharged to the outside, or are left in the water tank for reuse. 2. In the event of an emergency in which a fire has occurred, water and compressed air are provided, so that fire fighting can be performed immediately by simply attaching a hose.