JP2007100682A - Static water pressure float power generating device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a static water flow power generating device capable of generating power with a little water, land and cost. <P>SOLUTION: A float (gas) of large arbitrary volume floats and is pushed upward by water pressure in a water tank 1. Pressurized float gas touch an upper part sensor, and is pressed in an endless circulating rubber hose 2 in a thin outer tube, passes through an opening special valve 3 and become a thin belt hose, gives a pulley 4 rotary motion and becomes float again by action of the special valve in the water tank with preceding the moving hose. The endless circulating rubber hose plays as float (gas) in the water tank and generate great moving force by water pressure, and plays as a belt out of the water tank to generate power. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to power generation by utilizing the buoyancy of a float of pressurized gas that floats in water.

Conventional power generation devices involve large-scale hydropower generation, nuclear power generation, thermal power generation, and the like, which are accompanied by environmental destruction, large costs, enormous land use, and resource use.

The object of the present invention is to solve all these problems, and to create a power plant that is environmentally friendly, low cost, and resource-saving in the future.

A device consisting of a water tank of arbitrary diameter and depth and a special rubber hose with a special valve set on the inner surface and a rotating plate pulley for smooth rotation of the hose.

The rubber hose is in the form of a series of rings inside and outside the water tank, and rotates around the upper and lower pulleys.

A sleeve tube through which a rubber hose passes is provided at the bottom of the water tank, considering water tightness, and is also a pressure supply unit, and a constant pressure supply device is set on the outside.

By injecting a certain amount of air or gas into the rubber hose in the water tank, it floats into a sphere of any shape and rises in the water by hydraulic buoyancy.

Gas is also injected into the rubber tube outside the water tank, but it passes through the fixed outer tube and does not become a sphere, but acts as a belt for the entire rotational movement. The inner surface of the outer tube is processed with fluorine resin in order to reduce the frictional resistance with the rubber hose.

When the spherical float moves from the water tank to the outer tube, the gas in the float is pumped to the rubber tube on the outer tube side. The rubber hose that enters the water tank from the sleeve at the lower end of the water tank floats and rises again by the gas pumped from above in the water tank, and repeats in the following order to rotate as a whole.

Power is obtained from the rotating shaft of the pulley rotated by the belt-shaped rubber hose, and power is generated in conjunction with the generator.

As mentioned above, resources are a small amount of water that can be put into a tank.

Still water

It is sufficient if there are few land or buildings to be attached, and it is clearly effective in all aspects as compared with the conventional one.

Overall view showing hydrostatic float generator Diagram showing the special valve installed in the rubber float Diagram of valve chamber body ▲ 1 ▼ Figure when valve and switchgear are closed Diagram of valve stay connecting valve ▲ 2 ▼ Diagram of valve stay mounting member under valve chamber ▲ 3 ▼ Diagram of upper valve (check valve) ▲ 4 ▼ Bottom valve diagram ▲ 5 ▼ Valve stay mounting member on the upper side of valve chamber ▲ 9 ▼ Device responsible for opening and closing the lower valve ▲ 6 ▼ Cap seal to fix rubber tube and valve chamber ▲ 7 ▼ Spring to ease the movement of the upper and lower valves ▲ 8 ▼ Constant pressure adjustment device at low pressure in rubber tube ▲ 10 ▼

Claims (2)

Special valve part A series of endless rubber hoses are connected with check valves, open / close valves, valve open / close sensor stays, etc., which form special valves, with urethane cores or flex cores that maintain a certain distance. Form. The rubber hose between the special valves spreads sideways greatly depending on the length of the core rod, and determines the size of an arbitrary float. In addition, there is a cap seal for fixing the special valve and the rubber hose, and it moves smoothly inside the fixed outer pipe that is the guide pipe of the rubber hose by applying fluorine resin. Special water tank, pulley and outer pipe, sleeve pipe Sleeve pipe at the bottom of the water tank, sensor taper pipe at the top, and a pulley that receives the rotation of a rubber hose that performs circular motion is installed above and below, and the rotation axis of this pulley is Generates power and generates power in conjunction with the generator. The sleeve tube is coated with fluorine resin to make the rubber hose move smoothly. Furthermore, an arbitrary pressure is supplied from the outside to prevent leakage of water from the water tank, and a constant pressure supply device is set on the outside.

Images