KR101375595B1 - Low-pressure turbine generator - Google Patents

Abstract

The present invention relates to a low pressure turbine generator which includes a case receiving gas therein and discharging the gas to the outside; a rotary pump generating rotary power by the pressure of the gas flowing into the case; a gear module transmitting the rotary power of the rotary pump; a generator generating electricity by receiving the rotary power of the rotary pump from the gear module. The case includes a hollow pump case wherein the rotary pump and the gear module are installed; a hollow generator case which is coupled to the hollow pump case and allows the generator to be fixed thereto; a cover case joined to the end of the pump case to seal the pump case and having a gas inlet hole; and a low-pressure outlet case joined to the end of the generator case to seal the generator case and having a gas outlet hole. According to the present invention, contamination caused by gas leakage is prevented by blocking gas leakage, a decline in the operation rate caused by gas leakage is prevented, and operational reliability is improved by enhancing the impact resistance of the turbine generator.

Description

Low-pressure turbine generator

The present invention relates to a low pressure turbine generator, and more particularly to a low pressure turbine generator to operate by using the pressure of the gas to be vaporized to produce electricity.

In general, a turbine is a rotary machine that converts thermal energy into mechanical work by expanding a working fluid, and a turbine generator is directly connected to a rotary generator. These turbine generators are largely divided into a steam turbine generator and a gas turbine generator.

Conventional turbine generators have been disclosed in Korean Patent Laid-Open Publication No. 10-2009-0060121, "Turbine generator, self-powered air conditioner using a turbine generator, and self-powered method in a self-powered air conditioner". A gas bearing of a rotating shaft having a medium; A nozzle into which hot air generated during heat exchange in the condenser and discharged at high speed is input; A turbine that is rotated by high speed hot air passing through the nozzle; And a generator that is integrally connected to the nozzle and the turbine through a rotating shaft that rotates using the gas bearing.

However, in addition to the conventional turbine generators, general turbine generators have a problem in that gas is leaked to the outside during long time use, causing contamination to the installation space, and easily damaged by external shocks, thereby significantly lowering the reliability of operation.

In order to solve the problems of the prior art as described above, the present invention is able to block the external leakage of the gas, to prevent contamination due to the gas leakage, and to prevent the operation rate decrease due to the gas leakage, It is aimed to improve the reliability of operation by making it robust against impact.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

In order to achieve the above object, according to an aspect of the present invention, a low-pressure turbine generator, the case for the gas flowing inward and outflow; A rotary pump generating a rotational force by the pressure of the gas flowing into the case; Gear module for transmitting the rotational force of the rotary pump; A generator for generating electricity by receiving the rotational force of the rotary pump from the gear module, wherein the case includes a pump case of a hollow member in which the rotary pump and the gear module are installed inside; A generator case of the hollow member coupled to the pump case and having the generator fixed inside; A cover case coupled to an end of the pump case to seal the pump case, wherein a gas inlet hole is formed; And coupled to the end of the generator case to seal the generator case, there is provided a low-pressure turbine generator including a low pressure outlet case in which the gas outlet hole is formed.

The pump case has flanges formed at both ends thereof, respectively, and is coupled to the end of the generator case and the edge of the cover case by bolts, respectively, and the low pressure discharge case is flanged to be bolted to the other end of the generator case. Is formed, it is made of a hemisphere shape, the outlet hole may be formed in the center of the hemisphere.

The gear module has a flange for fastening the bolts to the rotary pump and the generator is provided at both ends, the gear case in which the turbo shaft end of the rotary pump and the rotor shaft end of the generator is inserted inside; And a plurality of gears installed inside the gear case to transmit rotational force of the turbo shaft to the rotor shaft, wherein the generator includes a rotor having the rotor shaft; A coil module in which the rotor is installed inside and the coil is wound; The coil module may be fixed to the inside, may be divided into both sides so as to open the inside, and may include a first and second generator cover formed with a plurality of bolt coupling portion on the outer peripheral surface to be coupled to each other by a plurality of bolts.

According to the low-pressure turbine generator according to the present invention, it is possible to block the external leakage of the gas, to prevent contamination due to the gas leakage, to prevent the operation rate decrease due to the gas leakage, and to operate to ensure a strong external impact Can improve the reliability.

1 is a perspective view showing a low pressure turbine generator according to an embodiment of the present invention.
2 is a cross-sectional view showing a low pressure turbine generator according to an embodiment of the present invention.
3 is an exploded perspective view showing a low pressure turbine generator according to an embodiment of the present invention.
4 and 5 are front views for explaining the operation of the low-pressure turbine generator according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. However, this is not intended to limit the present invention to the specific embodiments, but should be understood in a way that includes all changes, equivalents, and substitutes included in the spirit and scope of the present invention, and may be modified in various other forms. It is to be understood that the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

1 is a perspective view showing a low pressure turbine generator according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a low pressure turbine generator according to an embodiment of the present invention.

1 and 2, a low pressure turbine generator 100 according to an embodiment of the present invention includes a case 110, a rotary pump 120, a gear module 130, and a generator. (generator; 140).

Referring to FIG. 3, the case 110 allows gas to flow inward and outflow, and for example, the rotary pump 120 and the gear module 130 may be provided with a pump case 111 of a hollow member installed therein. Is coupled to the pump case 111, the generator 140 is coupled to the generator case 112 and the pump case 111 of the hollow member is fixed to the inside to seal the pump case 111, but the gas The cover case 113 and the inlet hole 115 is formed, coupled to the end of the generator case 112 to seal the generator case 112, the low pressure outlet case 114 is formed with the gas outlet hole 116 It may include. In addition, the pump case 111, the generator case 112, the cover case 113, and the low pressure outlet case 114 may be provided with a sealing member for maintaining the airtight portion and the like.

The pump case 111 has flanges 111a formed at both ends thereof, and the flanges 111a are coupled to the ends of the generator case 112 and the edges of the cover case 113 by bolts 111a. Here, the flange 111a may have a plurality of fastening holes (not shown) for fastening with bolts. In addition, a plurality of fastening grooves (not shown) and a plurality of fastening holes (not shown) for fastening with bolts may be formed at the end of the generator case 112 and the edge of the cover case 113, respectively.

Low pressure discharge case 114 has a flange (114a) is formed to be bolted to the other end of the generator case 112, is made of a hemisphere, the outlet hole 116 may be formed in the center of the hemisphere. Here, the flange 114a may have a plurality of fastening holes (not shown) for fastening with bolts. In addition, the other end of the generator case 112 may be formed with a plurality of fastening holes (not shown) to be fastened by bolts.

The rotary pump 120 generates a rotational force by the pressure of the gas flowing into the case 110. For example, the turbo box 121 and the turbo box 121 of which the working space 121a is formed inside the rotary pump 120 are formed. A turbo cover 122 fixed to one side by a bolt or the like to block one side of the working space 121a, a turbo rotating member 123 rotatably installed in the working space 121a, and a turbo rotating member 123 of the turbo cover 122; It may include a plurality of valves 124 installed on the outer peripheral surface.

A plurality of slits 123a are formed along the outer circumferential surface of the turbo rotating member 123 and are introduced through the inlet hole 115 of the case 110 to discharge the gas supplied inwardly through the injection hole (not shown). A gas discharge hole 123b is formed inside the slit 123a, and one end of the turbo shaft 123c installed to penetrate the center thereof is installed to penetrate the turbo cover 122. The other end is inserted into the gear module 130 to be connected to the rotor shaft 141a of the generator 140. Therefore, as shown in FIG. 4, in the state where the valve 124 is inserted into the turbo rotating member 123 installed in the turbo box 121, as illustrated in FIG. 5, the discharge hole of the turbo rotating member 123 ( 3, the plurality of valves 124 are sequentially slid from the slit 123a of the turbo rotating member 123 by the gas discharged from the 123b; By rotating while drawing the trajectory of the turbo rotating member 123 to rotate. Here, each of the valves 124 opens and closes the discharge of the gas from the discharge hole 123b (shown in FIG. 3) in the installed slit 123a, and changes the discharge pressure of the gas and the turbo due to the discharge of the gas from the discharge hole 123b. The rotation of the rotary member 123 causes the rotation of the turbo rotating member 123 due to a change in force applied to the valve 124.

The gear module 130 transmits the rotational force of the rotary pump 120. For example, the flange 131a for fastening with the bolts to the rotary pump 120 and the generator 140 is provided at both ends, and the rotary pump 120 The end of the turbo shaft 123c and the end of the rotor shaft 141a of the generator 141 is installed inside the gear case 131, and the inner side of the gear case 131 is installed to improve the rotational force of the turbo shaft 123c. It may include a plurality of gears (132, 133) for transmitting to the rotor shaft (141a). Here, the gears 132 and 133 may include an external gear 132 considering the rotational trajectory of the turbo shaft 123c and an internal gear 133 to fix the rotor shaft 141a to the rotation center.

The generator 140 receives the rotational force of the rotary pump 120 from the gear module 130 to produce electricity. The rotor 141 having the rotor shaft 141a and the rotor 141 are inward as in the present embodiment. Coil module 142 and the coil is wound on the coil module, the coil module 142 is fixed to the inside, divided into both sides so that the inside is opened, a plurality of bolted joints on the outer peripheral surface to be coupled to each other by a plurality of bolts 143a and 144a include first and second generator covers 143 and 144, respectively. In this case, the first and second generator covers 143 and 144 may have passage holes 143b and 144b, respectively, for the passage of gas.

The generator 140 is fixed inside the case 110 to allow the rotary pump 120 to be fixed in the case 110 through the gear module 130.

According to the low-pressure turbine generator according to the present invention, for example, the pressure of the gas formed by the vaporization of the liquefied gas to drive the rotary pump 120, the driving force of the rotary pump 120 through the gear module 130 And delivered to 140 to generate electricity, such as electricity of DC, by driving generator 140. In addition, the pressure of the gas due to the vaporization of the liquefied gas is transmitted to the rotary pump 120 to operate the rotary pump 120 while lubricating and generating heat of the generator 140 to open the outlet hole 116 of the case 110. Discharge through.

In addition, the stable coupling structure of the case 110 facilitates the maintenance and management of the internal components, while preventing the leakage of gas by preventing external leakage of gas, and also reduces the operation rate due to gas leakage. It is possible to improve the reliability of operation by preventing it and making it robust against external shocks.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

110 case 111 pump case
111a: flange 112: generator case
113: cover case 114: low pressure discharge case
114a: flange 115: inlet hole
116: outflow hole 120: rotary pump
121: turbo box 122: turbo cover
123: turbo rotating member 123a: slit
123b: discharge hole 123c: turbo shaft
124: valve 130: gear module
131: gear case 131a: flange
132,133 Gear 140: Generator
141: rotor 141a: rotor shaft
142: coil module 143: first generator cover
143a: bolt connection part 143b: through hole
144: second generator cover 144a: bolted connection
144b: through hole

Claims (3)

In low pressure turbine generator,
A case for allowing gas to flow inward and outflow;
A rotary pump generating a rotational force by the pressure of the gas flowing into the case;
Gear module for transmitting the rotational force of the rotary pump;
It receives a rotary force of the rotary pump from the gear module includes a generator for producing electricity,
In this case,
A pump case of a hollow member in which the rotary pump and the gear module are installed inside;
A generator case of the hollow member coupled to the pump case and having the generator fixed inside;
A cover case coupled to an end of the pump case to seal the pump case, wherein a gas inlet hole is formed; And
Is coupled to the end of the generator case to seal the generator case, and includes a low pressure outlet case in which a gas outlet hole is formed,
The gear module,
A flange for fastening the bolts to the rotary pump and the generator is provided at both ends, and a gear case into which the turbo shaft end of the rotary pump and the rotor shaft end of the generator are inserted; And
It is installed inside the gear case includes a plurality of gears for transmitting the rotational force of the turbo shaft to the rotor shaft,
The generator,
A rotor having the rotor shaft;
A coil module in which the rotor is installed inside and the coil is wound;
The coil module is fixed to the inside, divided into both sides to open the inside, the low-pressure turbine generator including a first and second generator cover is formed on the outer circumferential surface a plurality of bolt coupling portion is coupled to each other by a plurality of bolts. The method of claim 1, wherein the pump case,
Flange is formed at both ends, respectively, and is coupled to the end of the generator case and the edge of the cover case by bolts respectively.
The low pressure outlet case,
A flange is formed to be coupled to the other end of the generator case with a bolt, made of a hemispherical shape, the low pressure turbine generator is formed with an outlet hole in the center of the hemisphere. delete

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