KR100844403B1 - Generate equipment by compressed air - Google Patents

Abstract

A generator using compressed air is provided to efficiently generate a desired amount of electricity using small power which is required to produce compressed air first. A generator using compressed air includes a compressed-air producing unit(10), a cylindrical body(21), a power generating unit(20), a low pressure vacuum pump(30), an electricity generating unit(50), and a battery(80). The compressed-air producing unit includes a compressor(11) for compressing air, and a storage tank(12) for storing the air compressed by the compressor. The cylindrical body has at an upper position on one side thereof an inlet port(22) into which the compressed air stored in the storage tank is introduced, and has at a lower position on the other side an outlet port(23) through which the compressed air is discharged. The power generating unit is accommodated in the cylindrical body, and is provided with a rotating shaft(24) installed in the center of the cylindrical body, and radial blades(25) rotated by the compressed air which flows in to and out from the power generating unit. The low pressure vacuum pump is coupled to the outlet port, and draws in and discharges the compressed air, thus rotating the blades. The power generating unit is coupled to the rotating shaft, and generates electricity by the rotation of the rotating shaft. The battery is charged with electricity which is produced from the electricity generating unit.

Description

Generator using compressed air {Generate equipment by Compressed Air}

The present invention relates to a power generation apparatus using compressed air to generate power using compressed air, and more particularly, to generate power by rotating the blade using compressed air and a vacuum pump to generate electricity by the generated power. The present invention relates to a generator using compressed air.

In general, an engine, a power generating unit, or other power generating device that generates various powers by using fossil fuel or other natural energy is to generate power by burning fossil fuels and various atmospheres caused by incomplete combustion. There is a problem that pollutants are generated.

1 is a block diagram of a power generating device (publication No. 10-2004-0080308) using a compressor body according to the prior art.

A power generator using a conventional compressor body includes a compression tank 110 filled with a compressor body, a first vane motor 120 driven by the compressor body of the compression tank 100, and the first vane motor 120. A transmission shaft 130 coupled to the rotation shaft 122 of the) and the transmission 130 and the output shaft 132 are axially coupled and driven to compress the gas to supply the compression tank 110 to the vane pump 140. And a second vane motor 150 driven by the compressor body of the compression tank 110 to generate power required from the outside.

In addition, a transmission 160 is further provided on the rotation shaft 152 of the second vane motor 150.

In addition, a small amount of vegetable oil is injected into the compression tank 110, the mixing is installed in the supply line 113 connected to the input port of the first vane motor 120, the vane pump 140, the second vane motor 150. When the compressor body is supplied through the valve 115 to be airtightly and lubricated, the first vane motor 120, the vane pump 140, and the second vane motor 150 may be discharged from the exhaust port. Compression tank 110 is configured to return to the compression tank 110 through the precious line 116.

However, such a power generator using a conventional compressor body requires a large amount of air to circulate several vane motors and vane pumps, and has a disadvantage in that air flow is not smooth.

In addition, since a large amount of air must be added to generate power even after the initial driving, there is a problem that the efficiency is lowered.

In addition, the moisture generated while compressing the gas and the vegetable oil injected into the compression tank are mixed to generate a change in the vegetable oil, and the broken oil may cause a failure as it passes through the motor and pump. There is a disadvantage to be replaced.

The present invention has been made in order to solve the above-mentioned conventional problems, the present invention is accompanied by the problem of resource depletion due to the use of limited resources in the existing power generator is very low energy efficiency, but the present invention is the initial It is to provide a power generation apparatus using compressed air that can be efficiently generated as necessary by using a small amount of power required when generating compressed air.

In addition, to provide a power generator using compressed air to control the rotational speed of the eccentric portion and the rotating shaft to be rotated by its own weight to the rotating shaft to adjust the air input amount according to the rotating speed of the rotating shaft.

The present invention is a compressed air generating unit, a power generating unit having a blade rotated by the compressed air, and connected to the rotating shaft of the power generating unit and connected to the self-weight rotating unit and the rotating shaft to increase the rotational force kinetic energy as electrical energy It is provided with a power generation unit for converting and a battery for storing the electric energy, and to supply the electric energy required to rotate the blade of the power generating unit using the electricity stored in the battery.

The present invention relates to a power generation apparatus using compressed air, comprising a compressor (11) for compressing air, and a compressed air generator (10) comprising a storage tank (12) for storing the air compressed by the compressor (11). And a cylindrical body 21 having an inlet 22 through which compressed air stored in the storage tank 12 is discharged and introduced into one side, and an outlet 23 through which compressed air introduced into the other side is discharged. The radial blade 25 is accommodated in the cylindrical body 21, rotated by a rotary shaft 24 is installed in the center of the cylindrical body 21, and compressed air that is built in the rotary shaft 24 inlet and discharge The low pressure vacuum pump 30 and the rotating shaft 24, which are coupled to the power generating unit 20 and the discharge port 23, and rotate the blade 25 to suck and discharge the introduced compressed air. And rotation of the rotating shaft 24 It characterized by consisting of a power generation unit 50 for generating electricity and a battery 80 for storing electricity generated from the power generation unit 50 by.

In addition, the generator is characterized in that the eccentric plate 42 is further provided to be eccentrically coupled to the rotary shaft 24 so that the rotary shaft 24 is rotated by the eccentric centrifugal force.

In addition, the generator is a high-pressure vacuum pump 60 for maintaining the vacuum state by sucking the internal air of the housing 42 and accommodating the eccentric plate 41 and the power generation unit 50 ) Is further provided.

In addition, the power generation device is provided in the receiving cylinder 42, the speed sensor 43 for detecting the rotational speed of the eccentric plate 41 to adjust the inflow of compressed air according to the rotational speed of the eccentric plate 41 ) Is further provided.

In addition, the power generation device is characterized in that the inlet 22 and the outlet 23 is formed in the long hole 28 is gradually widened in the direction of rotation of the rotary shaft 24 with respect to the air inlet and outlet direction.

The present invention generates electric power by rotating the blade and the eccentric plate which is generated by the external energy during the initial driving and stored in the storage tank using the compressed air stored in the storage tank, and is driven, after driving Some of the power generated by this energy is used as part of the energy needed to generate compressed air, and the rest is charged to the battery. As described above, the present invention inputs energy for generating a small amount of compressed air by the input of external energy during initial driving, and energy for generating compressed air after driving is electric power generated by the power generation unit in addition to energy provided from the outside. By using some of the additional power generation can be smooth.

In addition, the generator using the compressed air of the present invention not only generates no pollution, but also uses the compressed air stored in the storage tank by external energy during initial driving without fossil fuel that has been used to generate power. Afterwards, it is possible to generate useful power when necessary as needed by the compressed air generated by using the external energy and a part of the power generated by the power generation unit separately, which is sufficient to use as an alternative alternative energy later. .

Hereinafter, with reference to the accompanying drawings a power generator using the compressed air of the present invention having the features as described above in detail.

Figure 2 is a device configuration of the present invention, Figure 3 is a cross-sectional view of the power generating unit according to the present invention, Figure 4 is a cross-sectional view of another embodiment of the power generating unit according to the present invention, Figure 5 is a power generating unit according to the present invention Another perspective view of the use state, Figure 6 is a perspective view of the blade of the power generating unit according to the present invention, Figure 7 is a cross-sectional view of the receiving cylinder according to the present invention.

As shown in FIG. 2, the power generation apparatus using the compressed air of the present invention includes a compressor 11 for compressing air and a storage tank 12 for storing the compressed air in the compressor 11. The air valve 10 and the compressor 11 and the storage tank 12 to be separated from the ball valve 14 and the connector 15 provided in the pipe 13 is provided to be separated. .

Compressed air stored in the storage tank 12 is discharged to the inlet port 22 provided on one side of the cylindrical body 21 of the power generator 20 through the discharge pipe of the storage tank 12, the power generator ( Compressed air discharged inside the 20 is provided on the other side of the inlet 22 after rotating the blade 25 provided therein, and is discharged through the outlet 23 connected to the low pressure vacuum pump 30 do.

The low pressure vacuum pump 30 serves to suck and discharge the compressed air rotating the blade 25 to enable the rotation of the blade 25.

The blade 25 is accommodated in the cylindrical body 21 of the power generating unit 20, the compression is formed in two or more radially installed on the rotating shaft 24 installed in the center of the cylindrical body 21 inlet and outlet It is rotated by air.

One side of the power generator 20 is eccentrically coupled to the rotary shaft 24 protruding out of the power generator 20, the rotary shaft 24 is rotated by the eccentric centrifugal force to rotate the shaft 24 Judgment 41 is provided, the speed sensor 43 for detecting the rotational speed of the eccentric plate 41 is provided on the outer wall of the receiving cylinder 42 for receiving the eccentric plate 41 of the eccentric plate 41 By controlling the amount of compressed air flowing into the power generating unit 20 according to the rotational speed can control the rotational speed of the blade 25 provides a uniform rotational speed.

In addition, the high pressure vacuum pump 60 is provided on one side of the housing 42 to maintain the inside of the housing 41 in a vacuum state, so that the rotation of the eccentric plate 41 rotates in a vacuum state. It is done smoothly.

In addition, it is connected to the rotary shaft 24 of the power generating unit 20, is provided in the receiving cylinder 42, the power generation unit 50 using a commutator and a brush is generally installed, the power generation unit 50 As it is accommodated in the receiving cylinder 42, it is possible to increase the power generation efficiency of the power generation unit 50 by increasing the rotational efficiency of the commutator in a zero gravity state.

 In addition, a regulator 70 is provided at one side of the housing 42 to convert the electrical energy generated by the power generation unit 50 to a predetermined voltage, and a part of the current passing through the regulator 70 is It is used as part of the power to generate compressed air, and after it is used the rest of the current is used to generate power and electrical energy as it accumulates in the battery 80.

3 and 4, the power generating unit 20 is provided with an inlet 22 and an outlet 23 formed to be inclined at a predetermined angle with the side wall of the cylindrical body 21, and the power generation. As the compressed air discharged and discharged into the part 20 is injected and discharged while forming a predetermined angle with the blade 25 arranged on the rotary shaft 24 of the power generator 20, the rotational force of the rotary shaft is further improved. .

In addition, a packing 26 is provided to prevent movement of air between the air receiving portions 29 partitioned by the respective blades 25 and to contact the inside of the cylindrical body 21.

In addition, as shown in FIG. 5, a plurality of protrusions 27 in the longitudinal direction of the blade 25 are provided on the extension surface 25a of the blade 25 provided on the inner rotation shaft 24 of the power generator 20. ) Is formed to increase the contact area between the compressed air discharged from the inlet 22 and the blade 25 to increase the rotational force.

In addition, as shown in FIG. 6, the inlet 22 and the outlet 23 of the power generator 20 gradually increase in area in the rotational direction of the rotation shaft 24 with respect to the inflow and outflow direction of the compressed air. It is formed of a long hole 28 of the shape by varying the amount of air injected and discharged to the respective air receiving portion 29 can be more smoothly the rotation of the rotary shaft 24.

In addition, FIG. 7 is a cross-sectional view of the accommodating cylinder 42, which is provided inside the accommodating cylinder 42, is eccentrically coupled to the rotary shaft 24 of the power generating unit 20, and the rotary shaft ( The rotary shaft 24 is rotated by the eccentric centrifugal force 24 is provided, the high pressure vacuum pump 60 is provided on the outer side of the receiving cylinder 42, the receiving cylinder 42 in the high pressure vacuum pump 60 As the inside is maintained in the zero gravity state, the rotational efficiency of the eccentric plate 41 and the power generation unit 50 is increased.

In addition, a speed sensor 43 for detecting the rotational speed of the eccentric plate 41 is provided on one side of the receiving cylinder 42 to the inlet 22 of the cylindrical body 21 of the power generating unit 20. By adjusting the incoming compressed air to equalize the rotational speed of the blade 25 of the power generating unit 20 with the rotational speed of the eccentric plate 41, it is possible to generate power more effectively with less compressed air.

The present invention is not limited to the above-described embodiment, and the scope of application is of course various modifications can be made without departing from the gist of the present invention claimed in the claims.

1 is a device configuration showing a prior art according to the present invention.

2 is a device configuration diagram of the present invention

3 is a cross-sectional view of the power generation unit according to the present invention

Figure 4 is a cross-sectional view of another embodiment of the power generating unit according to the present invention

5 is a perspective view of another use state of the power generating unit according to the present invention

6 is a perspective view of the blade of the power generating unit according to the present invention

7 is a cross-sectional view of the receiving cylinder according to the present invention.

** Description of the symbols for the main parts of the drawings **

10: compressed air generating unit 11: compressor

12: storage tank 13: piping

14 Ball Valve 15 Connector

16: check valve 20: power generating unit

21: cylindrical body 22: inlet

23: outlet 24: axis of rotation

25: blade 25a: extended surface

26: Packing 27: protrusion

28: long hole 29: air receiving portion

30 low pressure vacuum pump 41 eccentric plate

42: housing 43: speed sensor

50: power generation unit 60: high pressure vacuum pump

70: regulator 80: battery

Claims (5)

Compressed air generating unit 10 composed of a compressor (11) for compressing air, and a storage tank (12) for storing the air compressed by the compressor (11); A cylindrical body 21 having an inlet 22 through which compressed air stored in the storage tank 12 is discharged and introduced into one upper portion, and an outlet 23 through which compressed air introduced into the other lower portion is discharged; The radial blade 25 is accommodated in the cylindrical body 21, rotated by a rotary shaft 24 is installed in the center of the cylindrical body 21, and compressed air that is built in the rotary shaft 24 inlet and discharge Power generation unit 20 consisting of; A low pressure vacuum pump (30) coupled to the outlet (23) and rotating the blades (25) by sucking and introducing the compressed air introduced therein; A power generation unit 50 coupled to the rotation shaft 24 and generating electricity by the rotation of the rotation shaft 24; And A battery 80 in which electricity generated from the power generation unit 50 is charged; Generator using compressed air, characterized in that it comprises a. The method of claim 1, The generator includes an eccentric plate 41 eccentrically coupled to the rotary shaft 24 so that the rotary shaft 24 is rotated by an eccentric centrifugal force; The generator using the compressed air, characterized in that further provided. The method of claim 2, The generator includes a housing 42 for receiving the eccentric plate 41 and the power generation unit 50; A high pressure vacuum pump 60 which sucks the air in the accommodation barrel 42 to maintain a vacuum state; Generator using compressed air characterized in that it is further provided. The method of claim 3, wherein The generator is provided in the receiving cylinder 42, and detects the rotational speed of the eccentric plate 41 to determine the inflow of compressed air flowing into the cylindrical body 21 according to the rotational speed of the eccentric plate 41 Speed sensor 43 to adjust; Generator using compressed air characterized in that it is further provided. The method of claim 4, wherein The generator uses compressed air, characterized in that the inlet port 22 and the outlet port 23 is formed as a long hole 28 is gradually widened in the rotation direction of the rotary shaft 24 with respect to the air inlet and outlet direction Power generation device.

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