JPH07317645A - Hydrodynamic power generator - Google Patents

Abstract

PURPOSE: To attain power generation without losing energy by providing a continuously operational hydrodynamic system using a density difference between water and air, and driving a generator by fluid energy extracted from the system. CONSTITUTION: The first horizontal water tank 1 and the second vertical water tank 8 are consecutively-installed, and the endless continuum of a plurality of containers 6 acting as a float through a chain 5 is moved in the water tanks 1, 8 upwardly through in the water. The vertical water tank 8 includes a guide means 9 having a sealing gasket in order to prevent fluid from being connected between both water tanks 1, 8. The container continuum guides turning motion through a lower hexagon pulley 4 and an upper hexagon pulley 10. A chute 11 is mounted next to the upper pulley 10 and feeds out the collected water therein from the container 6 to a driving wheel 2 to turn the driving wheel 2 for driving a generator 3 by the power thereof.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydrodynamic power generator which can provide means for generating power from a fluid dynamic system for continuous operation without energy loss. In other words, the power system of the device basically operates by the density difference between water and air.

[0002]

DESCRIPTION OF THE INVENTION Basically, the hydrodynamic power plant of the present invention comprises a plurality of containers and a float incorporated therein. The container passes through two independent water tanks. The float is capable of continuously pumping the container upwards in the tank, pouring water from the container into a chute and rotating a drive wheel coupled to the generator.

It is worth noting that the water used as motive energy is not wasted because it is recovered again in the water tank and reused in the hydrodynamic power generator.

Also, the present invention is not limited to any particular power generation system or device, and can be of any type, from small generators to giant turbines utilized in hydropower plants. It is also worth noting that it is also applicable.

The advantage provided by the present invention is that the hydrostatic level differences required by conventional hydrodynamic systems (eg, hydroelectric power plants) to drive turbines are reduced to the hydrodynamics of the present invention. The point is that it is not necessary in the power generator. The above-mentioned water tank in which water circulates is sufficiently satisfactory, in particular, considering that water is simply circulated in the apparatus without loss in the middle to generate hydrodynamic energy. .

The present invention relates exclusively to hydrodynamic systems known in the art for driving drive wheels and generators.

In the preferred embodiment of the present invention, the first horizontal water tank 1, the second vertical water tank 8 and the float 6 can act as a float to move the container 6 upward in water. A plurality of containers 6 having a closed chamber 13 containing air at the inner bottom,
Provided in the vertical water tank of the first horizontal water tank 1
And a guide means 9 including a sealing gasket that covers and seals the containers 6 to prevent fluid communication between the second vertical water tank 2 and the plurality of containers 6 via a hinge shaft 7. A chain 5 formed by connecting, a lower hexagonal pulley 4 and an upper hexagonal pulley 10 for supporting and rotating the chain 5.
A first chute 11 provided adjacent to the upper pulley 10 for collecting water from the container 6 and carrying it to the drive wheel 2, and collecting the water from the drive wheel 2 with the first chute 11. Second chute 12 for returning to the horizontal water tank 1.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The hydrodynamic power generator according to the present invention will be described below in detail based on the presently preferred embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

As can be clearly seen from the accompanying drawings, the hydrodynamic power generator of the present invention includes a first horizontal water tank 1. The first horizontal water tank 1 is positioned below the level of a drive wheel 2 for driving the generator 3. .

The first series of three hexagonal pulleys 4
Is mounted in the first water tank 1 so as to cross the water tank 1 and includes a chain 5 including a plurality of containers 6.
To guide you. The plurality of containers 6 are connected via a hinge shaft 7 to form a chain 5.

The second vertical water tank 8 is attached to the top of the first water tank 1. The second vertical water tank 8 is provided with guide means 9 including an insulating sealing gasket. The gasket covers and seals the plurality of containers 6 to prevent water from passing from the second water tank to the first water tank.

A second series of hexagonal pulleys 10 are mounted across the upper end of the second water tank 8 to further guide the chain of connected containers 6.

The first chute 11 has an upper pulley 1
It is provided at the upper end of the second water tank 8 adjacent to 0 and collects the water from the container 6 and carries it to the drive wheel 2. Furthermore, the second chute 12 is positioned adjacent to the drive wheel 2 and collects water from the drive wheel 2 and returns it to the first water tank 1.

At the bottom inside each container 6,
A closed chamber 13 containing air is provided. The chamber 13 acts as a float and the container 6
Is moved upward in the water in the second vertical water tank 8.

According to this arrangement, the container 6 is filled with the water in the first water tank 1, the second water tank 8 is moved upward, and the water filled in the container 6 is moved. By injecting into the tut 11, the drive wheel 2 can be rotated to drive the generator.

It should be noted that the above arrangement, as well as the number of containers 6, can be varied depending on the amount of energy required. It is likewise possible to provide a series of parallel chains 5 in order to increase the hydrodynamic potential of the device.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a hydrodynamic power generation device of the present invention.

FIG. 2 is an enlarged view of a container used in the hydrodynamic power generator of the present invention.

[Explanation of symbols]

1: first horizontal water tank, 2: drive wheel,
3: generator, 4: first series hexagonal pulley,
5: Chain, 6: Container, 7: Shaft,
8: second vertical water tank, 9: guide means, 10:
Second series hexagonal pulley 10 11: first chute 11, 12: second chute 12, 13: chamber

Claims (1)

[Claims] 1. A plurality of units connected via a hinge shaft (7) to form a chain (5) surrounding a first horizontal water tank (1), a lower hexagonal pulley (4) and an upper hexagonal pulley (10) to rotate. Container 6
A second vertical water tank 8 provided with a guide means 9 including a sealing gasket for sealing the container, and is provided adjacent to the upper pulley 10 and collects water from the container 6 and conveys it to the drive wheel 2. A first chute 11 for collecting water from the drive wheel 2 and the first water tank 1 for collecting water from the drive wheel 2.
A second chute 12 for transporting to the container, and a bottom chamber inside each container 6 is provided with a closed chamber 13 containing air for acting as a float to move the container 6 upwards in water. A hydrodynamic power generation device characterized by being provided.