KR100926011B1 - The leakage preventing device of the hydrogen gas for the generator cooling - Google Patents

Abstract

The present invention relates to an apparatus for preventing leakage of hydrogen gas for generator cooling by forming an oil film between a housing and a shaft of a generator to prevent the leakage of hydrogen gas. In the generator to cool by injecting hydrogen gas, the leakage to prevent the leakage of hydrogen gas in the housing by injecting oil of a pressure higher than the pressure in the housing to the coupling portion of the housing and the shaft Prevention means are provided.

Accordingly, the risk of fire and explosion due to the leakage of hydrogen gas can be prevented, the cooling efficiency of the hydrogen gas is maximized, and the recharging cycle of the hydrogen gas is long.

Generator, shaft, hydrogen, cooling, leak, oil film

Description

The leakage preventing device of the hydrogen gas for the generator cooling}

The present invention relates to a generator, and more particularly, to an apparatus for preventing leakage of hydrogen gas for generator cooling to prevent leakage of hydrogen gas used for cooling of the generator.

In general, hydrogen gas is injected into the generator to cool the heat generated from the rotor and the stator of the generator. The hydrogen gas is combustible and mixed with air at a constant ratio (4 to 75%). In addition to the risk, when the hydrogen gas leaks and the hydrogen pressure inside the generator becomes less than the rated data, there is a problem that the 100% rated output of the generator is impossible.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a leakage preventing device of the hydrogen gas for cooling the generator to prevent the leakage of hydrogen gas by forming an oil film between the housing and the shaft of the generator. Is in.

In addition, an object of the present invention is to ensure that the oil film is smoothly fixed while the leakage preventing means is firmly fixed to the housing.

In addition, an object of the present invention is to ensure that the oil is smoothly introduced through the gap between the seal ring while the seal ring is tightly adhered to the shaft.

It is also an object of the present invention to block oil from entering the inside of the housing.

It is also an object of the present invention to allow oil to circulate smoothly inside the cap.

In order to achieve the above object, the present invention is provided with a shaft that is rotated inside the housing, injecting hydrogen gas into the interior of the cooling to be made, the housing and the coupling portion of the housing and the housing In the leakage preventing device of the generator cooling hydrogen gas provided with a leakage preventing means for preventing the leakage of hydrogen gas inside the housing by spraying oil of higher pressure than the internal pressure, the leakage preventing means: A through hole which is fixed to an outer end and passes through the shaft at a central portion thereof, and has a ring insertion groove formed in the inner surface of the through hole; and a cap inserted into the ring insertion groove to protrude toward the inside of the through hole. When the sealing ring is disposed and the oil introduced from the outside of the cap passes through the inside of the cap into the ring insertion groove An oil transfer tube configured to form an oil film between the seal ring and the shaft; and a ring-shaped oil having one end fixed to the inner side of the cap and the other end proximate to the outer side of the shaft to the rear of the seal ring. Deflector; characterized in that provided.

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In addition, the oil return pipe is formed between the sealing and the oil deflector while communicating with the inside of the cap to discharge oil to the outside of the cap.

Accordingly, the present invention provides an apparatus for preventing the leakage of hydrogen gas for cooling the generator by forming an oil film between the housing and the shaft of the generator by the leakage preventing means to prevent the leakage of hydrogen gas, the fire and In addition to preventing the risk of explosion, the cooling efficiency of the hydrogen gas is maximized, and the recharging cycle of the hydrogen gas is long.

In addition, the present invention is to be composed of the cap and the seal and the oil moving tube to prevent the leakage means are securely fixed to the housing so that the oil film is smoothly formed, it is possible to form an oil film smoothly in a simple configuration hydrogen The gas leakage blocking effect is further increased.

In addition, the present invention is to ensure that the sealing ring is composed of the first and second sealing ring and the tangji spring so that the oil tightly adheres to the shaft and at the same time the oil flows smoothly through the gap between the sealing ring, the flow of oil more It is improved to have an effect of forming an optimum oil film.

In addition, the present invention is provided with an oil deflector to prevent the oil from entering the inside of the housing, thereby having the effect of minimizing the loss of oil.

In addition, the present invention is to form an oil return pipe to smoothly circulate the oil in the interior of the cap, it has the effect that the oil is easier to recycle.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1 is a longitudinal cross-sectional view showing an embodiment of the present invention, Figure 2 is a front view of Figure 1, Figure 3 is an enlarged view of the portion A of Figure 1, as shown in the present invention in the operation of the generator The present invention relates to a generator in which hydrogen gas is injected into the housing 10 to cool the heat generated from the electrons and stators. The oil is injected into the coupling portion of the housing 10 and the shaft 20 of the generator to produce hydrogen gas. By providing a leakage preventing means 30 to prevent leakage, it is to ensure a smooth cooling of the generator while preventing various safety accidents caused by the leakage of hydrogen gas.

The housing 10 forms an outer wall of the generator, and includes a shaft 20 which is rotated by being coupled to a conventional turbine or the like inside the housing 10, and couples the rotor to the shaft 20, and the housing 10. The stator is provided on the inner side of the rotor to generate power by electromagnetic induction in the rotor and the stator.

The shaft 20 is connected to a conventional power means such as a turbine, and the rotor is integrally coupled to rotate the rotor by the rotation of the shaft 20, is formed in a common shaft shape, one side is the housing Protruding to the outside of the (10) to be connected to a power means such as a turbine.

The leakage preventing means 30 is coupled to a portion where the shaft 20 protrudes to the outside of the housing 10 so that the hydrogen gas filled inside the housing 10 is coupled to the housing 10 and the shaft 20. In order to prevent leakage through the site, the leakage preventing means 30 forms an oil film while injecting oil at a pressure higher than the pressure of the hydrogen gas inside the housing 10 to the outside of the shaft 20 to leak the hydrogen gas. This should be prevented.

At this time, the leakage preventing means 30 is coupled to the inner surface of the cap 31 and the through hole is formed in the center portion is formed in the through hole through which the above-mentioned shaft 20 passes through the housing 10 A seal ring 32 having an inner end adjacent to the shaft 20 and a seal introduced from the outside of the cap 31 pass through the inside of the cap 31 to seal the seal 32. And an oil moving tube 33 to form an oil film between the shaft 20 and the shaft 20.

The cap 31 has a through hole through which the above-described shaft 20 passes, and a ring insertion groove 311 recessed to insert the seal ring 32 described later along the inner circumference of the through hole. In this way, the cap 31 is firmly fixed to the housing 10 while preventing the detachment of the seal ring 32 and at the same time firmly supporting the shaft 20.

The seal ring 32 is inserted into the ring insertion groove 311 described above to reduce the gap between the through hole and the shaft 20, so that the oil film by oil is formed smoothly, formed of a ring formed of a conventional metal material Preferably, the inner diameter is formed to have a diameter slightly larger than the outer diameter of the shaft 20 so that the shaft 20 rotates smoothly, and an oil film is smoothly formed between the seal ring 32 and the shaft 20. Be sure to

The oil movement pipe 33 is formed through the inside of the cap 31, one end is opened to the outside of the cap 31, the other end is in communication with the ring insertion groove 311 cap 31 By connecting a conventional pump or the like for supplying a high-pressure oil to the end of the oil pipe (33) formed on the outside of the oil movement pipe at a pressure higher than the pressure of the hydrogen gas in the housing 10 on the outside of the cap 31 When the oil is injected, the oil is filled in the ring insertion groove 311 and flows down along the seal ring 32 to form an oil film in the space between the seal ring 32 and the shaft 20. The sealing ring 32 is to prevent the leakage of hydrogen gas while minimizing the generation of frictional resistance to the rotation of the shaft (20).

In addition, the sealing ring 32 is formed to be formed of the first sealing ring 321 and the second sealing ring 322 which are respectively separated and coupled to the ring insertion groove 311, the first and second sealing ring ( 321 and 322 are provided with a tangier spring 323 for pressing the shaft 20 side so that the seal ring 32 is in close contact with the shaft 20.

At this time, the first sealing ring 321 is arranged inside the housing 10 from the inside of the ring insertion groove 311 described above, and the second sealing ring 322 of the ring insertion groove 311 By arranging the outer side of the housing 10 from the inner side, and the outer side of the contact surface of the first sealing ring 321 and the second sealing ring 322, the coil spring wound in the ring shape tanggi spring 323 The elastic spring 323 elastically presses the first sealing ring 321 and the second sealing ring 322 and moves to the space between the first sealing ring 321 and the second sealing ring 322. As the oil flows down, the oil film is formed more smoothly.

In addition, a ring-shaped oil deflector 34 having one end fixed to an inner side surface of the cap 31 and the other end proximate to an outer side surface of the shaft 20 toward the inner side of the seal ring 32. By providing, it is also preferable to prevent oil from flowing into the inside of the housing 10 while flowing along the outer surface of the shaft 20, a cap between the sealing ring 32 and the oil deflector 34 It is also possible to form the oil return pipe 35 to be circulated to the outside of the cap 31 in the oil blocked by the oil deflector 34 while being formed through the inside of the (31).

In addition, the oil return pipe 35 may be connected to the outside of the cap 31 so that oil may be collected separately, but may be in communication with the ring insertion groove 311 or the oil moving tube 33 to be an oil deflector. The oil blocked in the 34 may be supplied back to the ring insertion groove 311 through the oil return pipe 35.

Accordingly, a high pressure oil film may be formed in the gap between the housing 10 and the shaft 20 by the leak preventing means 30 to prevent the hydrogen gas from leaking through the gap, thereby preventing the leakage of the hydrogen gas. Prevents fire and explosion accidents, and maximizes the cooling efficiency of the hydrogen gas to facilitate the operation of the generator.

1 is a longitudinal sectional view showing an embodiment of the present invention.

2 is a side view of FIG. 1;

3 is an enlarged view of a portion A of FIG. 1.

※ Explanation of codes for main parts of drawing

10: housing

20: shaft

30: leak prevention means

   31: Cap 311: Ring Insertion Groove

   32: sealing ring 321: first sealing ring

   322: second sealing ring 323: tangji spring

   33: oil transfer pipe 34: oil deflector

   35: oil return pipe

Claims (5)

delete delete delete A shaft 20 which is rotated inside the housing 10 is provided, and cooling is performed by injecting hydrogen gas into the inside of the housing 10, and a coupling portion between the housing 10 and the shaft 20 is provided. Into the leakage preventing device of the generator cooling hydrogen gas provided with a leakage preventing means 30 to prevent the leakage of the hydrogen gas in the housing 10 by spraying oil of higher pressure than the pressure inside the housing 10. In The leakage preventing means 30: silver A cap 31 fixed to an outer end of the housing 10 and having a through hole through which the shaft 20 passes through a central portion thereof, and a ring insertion groove 311 recessed in an inner surface of the through hole; A seal ring 32 inserted into the ring insertion groove 311 and protruding to the inner side of the through hole; and The oil introduced from the outside of the cap 31 passes through the inside of the cap 31 and flows into the ring insertion groove 311 to form an oil film between the seal ring 32 and the shaft 20. Oil moving pipe 33; And It is provided with a ring-shaped oil deflector 34, one end of which is fixed to the inner side of the cap 31 to the rear of the seal ring 32, the other end is disposed close to the outer side of the shaft 20 A device for preventing leakage of hydrogen gas for cooling a generator. The method of claim 4, wherein Generator cooling, characterized in that the oil return pipe 35 is formed between the sealing ring 32 and the oil deflector 34 to discharge the oil to the outside of the cap 31 while communicating with the inside of the cap 31. Device for preventing leakage of hydrogen gas.

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