KR20070013554A - System for electric generating using accumulation pressure - Google Patents

Abstract

An electric generating system using an accumulation pressure is provided to smoothly operate the electric generating system by supplying a part of electricity to electricity consumptive elements of the electric generating system. An electric generating system comprises a fluid spraying device(10) having a pressure accumulation tank(11); a generator(20) having a turbine; and pressurizing units(30) connected to the fluid spraying device. The fluid spraying device includes a fluid spraying pipe(12) connected to the pressure accumulation tank. The generator operates when the turbine rotates. The pressurizing units press the fluid, and injects the fluid into the pressure accumulation tank so that the fluid is discharged from the fluid spraying pipe and gives impact onto the turbine at a high velocity. The turbine operates after being impacted by the fluid, and drives the generator to produce electricity.

Description

System for electric generating using accumulation pressure

1 is a perspective view showing the appearance of a pressure-accumulating electricity generating device according to the present invention.

2 is a perspective view showing the allocation of a turbine of the pressure-accumulating electricity generating device according to the present invention.

3 is a plan view showing the structure of a pressure-accumulating electricity generating device according to the present invention.

4 is a cross-sectional view of a pressure-accumulating electricity generating device according to the present invention.

5 is a cross-sectional view of a fluid collecting tank of the pressure-accumulating electricity generating device according to the present invention.

* Explanation of symbols for the main parts of the drawings

10 fluid spray mechanism 11 pressure storage tank

12: fluid spray pipe

20: generator 21: turbine

30: pressurization unit 31: water pump

32: air pump 33: water extraction pipe

40: high pressure air bottle

50: electric motor 51: battery

60: base 61: component

62: through area 63: fluid collection tank

111: import port 112: air inlet

The present invention utilizes the accumulated pressure to exploit the advantages of high velocity fluid formed by the mixing of high pressure air and water to impact the turbine provided to the electrical generator, thereby allowing the electrical generator to be driven to generate electricity. Generating electricity and supplying a portion of the power generated power to electrical power consumptive elements on a pressure-accumulation electric generating system, thereby providing more pressure- accumulating electricity generating device. The present invention relates to a pressure-accumulating electricity generating device capable of running smoothly.

Most of the major suppliers in the global energy source market are powered by thermal and nuclear energy. Although they can provide electricity for life and economic development, there are many problems that energy consumption, environmental pollution and descendants cannot solve. As environmental pollution is becoming increasingly serious and the crisis of energy sources becomes increasingly clear, it is important to acquire regenerative energy sources as future energy sources. The renewable energy source is energy that emits what existed in nature, and these renewable energy can be used by technologies that do not cause pollution in public, for example, renewable energy includes solar energy, wind power, hydropower, geothermal energy. Energy, biomass energy, and the like. Of the various forms of power generation, however, hydropower is one of the most efficient forms, for which solar energy for power generation is limited in time and appropriate climate, and wind power for power generation is also limited in season and location. For example, geothermal energy has regional limitations, and the description of biomass energy is not yet complete. Water is an easily obtainable material, because when the flow of water and air flow with the same velocity impinge on a turbine provided to an electric generator respectively, the quantity of water is much higher than the amount of air, The dynamic energy efficiency converted from water to water is relatively much higher.

However, the acquisition and conversion of these renewable energy sources can usually only be achieved by much larger areas and spaces, and common small generators, ie diesel generators and gasoline generators, mainly use petrochemical fuels for power generation. These types of generators can actually cause more serious environmental pollution, except that they can quickly consume energy sources.

In view of the foregoing, it is an object of the present invention to provide a compact electricity generating device using renewable energy in order to achieve the purpose of saving energy sources and producing electricity.

The pressure-accumulating electricity generating device according to the present invention includes a fluid spraying device largely provided in a pressure accumulation tank, and the fluid spray device includes a fluid spray pipe connected to the pressure accumulation tank ( fluid spraying pipe), a turbine provided in the generator, a generator for generating electricity when the turbine is driven, and pressurizing units connected to the fluid spraying mechanism are installed. By injecting the fluid into the pressure storage tank and pressurizing the fluid by the pressurizing unit, the fluid is discharged from the fluid spray pipe to impact the turbine at high speed, and the turbine is caused by the fluid. It is driven after the impact to drive the generator to generate power. Since the air is characterized by having a higher expansion ratio after pressurized release to eject water having a higher unit specific weight to form a high pressure fluid of mixed air and water, the fluid is actually air and water It includes; The fluid achieves an optimal energy transfer effect when it is bombarded with the turbine. In addition, after driving the electricity generating device, it is possible to provide a portion of the generated electricity to the use of the pressurizing unit, and to allow the electricity generating device to perform a pressurizing operation of mixing water and air.

Before the pressure-accumulating electricity generating device according to the present invention normally generates electricity, the pressure accumulating tank in the fluid spraying mechanism is directly operated by an electric cell or a high-pressure air bottle at an early stage. Pressing can create a spraying-flow pressure, whereby the generator is driven to generate electricity. In addition, when the pressure-accumulating electricity generating device generates electric power, part of the generated electricity is provided for use of the pressurizing unit. Since the amount of power generated by the pressure-generating electricity generating device is greater than the amount of electricity consumed by the pressurizing unit, the power helps to maintain and increase the pressure with respect to the pressure-accumulating electricity generating device. It can be supplied to the pressurizing unit. The electricity generated in the pressure-accumulating electricity generating device may be gentler. After the water in the spray stream impinging on the turbine is collected, it can be injected back into the fluid spray mechanism so that the water can be reused, thereby avoiding public hazards and contamination.

The present invention will become more apparent by its preferred embodiment with reference to the accompanying drawings.

1 and 2 showing the pressure-accumulating electricity generating device according to the present invention, the electricity generating device includes a fluid spray mechanism 10, a generator 20 and a pressurizing unit 30, which are mentioned above. Base 60 is provided to support the components of one units. The fluid spray mechanism 10 is composed of a pressure accumulator (11), the pressure accumulator (11) and the fluid spray pipe 12 is connected to the inlet 111 and the air inlet (112). The pressurizing unit 30 includes a water pump 31 and an air pump 32, and water is replenished into the pressure storage tank 11 from the inlet 111 by the rotation of the water pump 31. The air is injected into the pressure storage tank 11 from the air inlet 112 by the rotation of the air pump 32 to increase the pressure.

The generator 20 is provided with a turbine 21 together with the fluid spray pipe 12, when the turbine 21 is rotated by an external impact force, the generator 20 is driven to kinetic energy Can be converted into electrical energy.

3 and 4 at the same time, the fluid spray pipe 12 is provided above the pressure storage tank 11, one side end of the fluid spray pipe 12 in the pressure storage tank (11) Extending to a point below the water level, high pressure air is used to pressurize and repel the water, and the fluid obtained by the mixing of air and water is continuously discharged at high speed from the fluid spray pipe 12 to A spray stream is formed to operate the generator 20 to generate power.

As shown in FIGS. 2 and 5, the base 60 is provided with components 61 which are not explicitly shown as for limiting fluid protruding from the turbine 21, and also the turbine 21. The through area 62 is formed at a position opposite to the. The component 61 which is not clearly shown is disposed close to the through area 62. In addition, a fluid collection tank 63 is provided below the through area 62 of the base 60 so that the water after being hit by the turbine 21 is drawn back by the water pump 31 for reuse. Can be collected to be raised. For example, a water extraction tube 33 is provided to extend into the fluid collection tank 63, and the water pump 31 injects the collected water into the pressure accumulation tank 11 again to supply the water. It can be cycled continuously to obtain the effect that can be used.

In a specific embodiment of the present invention, the water pump 31 and the air pump 32 included in the pressurizing unit 30 may be driven by the electric motor (50); In addition, the base 60 may be provided with a battery 51. The battery 51 pre-stores the electric power required to drive the electric motor 50, so that after the pressure-accumulating electricity generating device generates power, a part of the generated electricity is stored in the electric motor 50. Can be used to drive the water pump 31 and the air pump 32 thereby helping to maintain the drive of the electricity generation operation. Alternatively, the fluid spraying mechanism 10 is provided on the high pressure air bottle 40 connected to the pressure storage tank 11 so that the pressure in the pressure storage tank 11 is released by the pressure release of the high pressure air bottle 40. Increase and start the electricity generating device to operate.

Therefore, according to the present invention, the accumulated pressure is used to take advantage of the high speed fluid formed by the mixing of high pressure air and water to impact the turbine provided to the electric generator, thereby driving the electric generator to generate electricity. To generate electricity, and supplying a portion of the power generated power to electrical power consumptive elements on a pressure-accumulation electric generating system. There is an effect of providing a pressure-accumulating electricity generating device that enables the operation of the pump to be smoother.

Claims (6)

A fluid spray mechanism (10) having a pressure accumulator (11), said fluid spray mechanism (10) comprising a fluid spray tube (12) connected with said pressure accumulator (11); A generator (20) provided with a turbine (21), the generator (20) being driven to generate power when the turbine (21) rotates; And It comprises a pressurizing unit 30 connected to the fluid spray mechanism 10; The pressurizing unit 30 pressurizes the fluid and continuously injects the fluid into the pressure accumulation tank 11 so that the fluid is discharged from the fluid spray pipe 12 to impact the turbine 21 at high speed. And the turbine (21) is driven after being shocked by the fluid to drive the generator to produce power. The method of claim 1, Pressure-generating electricity generating device, characterized in that the fluid injected into the pressure storage tank by the pressure unit (30) comprises air and water. The method of claim 2, The pressurizing unit 30 is provided with a water pump 31 and an air pump 32, water is replenished to the pressure storage tank 11 by rotation of the water pump 31, and air is supplied to the air pump. Pressure-accumulating electricity generating device, characterized in that it is compressed by the rotation of the tip (32) and injected into the pressure storage tank (11) to increase the pressure. The method of claim 3, wherein A water pump (31) and an air pump (32) driven by the electric motor (50) are provided in the pressurizing unit (30), and the electric motor (50) is driven by a battery (51); Pressure-generating electricity generating device, characterized in that power generated by the electricity-generating device is provided for continuous driving of the electric motor (50) after power generation of the pressure-accumulating electricity generating device. The method of claim 3, wherein The fluid spray mechanism 10 is provided with a high pressure air bottle 40 connected with the pressure storage tank 11, and releases the pressure of the high pressure air bottle 40 to increase the pressure in the pressure storage tank 11. Pressure-generating electricity generating device, characterized in that for starting the operation of the electricity generating device. The method of claim 3, wherein A fluid collection tank 63 is provided below the turbine 21 so that the water after being impacted by the turbine 21 is collected to be pulled back by the water pump 31 for reuse. Accumulated electricity generating device.

Images