KR101853225B1 - Turbine bearing apparatus - Google Patents

Abstract

The present invention relates to a turbine bearing device of a water turbine generator for providing a turbine bearing device in which the installation of cooling facilities is unnecessary. The turbine bearing device of a water turbine generator comprises: a bearing housing disposed to surround one region of a water wheel shaft in the longitudinal direction of the water wheel shaft; a bearing supported in the bearing housing to come in contact with the water wheel shaft; and a cooling portion mounted inside the bearing housing to expand the internal cross-sectional area of the bearing housing.

Description

TURBINE BEARING APPARATUS [0001]

The present invention relates to a turbine bearing device, and more particularly, to a turbine bearing device provided in a turbine generator.

Generally, an aberration generator is a generator using water head difference of water, and performs power generation by using an aberration. Such a water turbine generator includes a turbine including a water turbine rotated by the flow of water, and a generator that generates electricity based on the rotational motion of the turbine.

The prior art for such a water turbine generator has already been disclosed in Korean Patent Registration No. 10-1238867 (a water turbine generator, Feb. 25, 2013). The patent is characterized in that the energy of the water is converted into electric energy.

On the other hand, in the case of a water turbine generator, the turbine bearing supporting the aberration axis must be continuously cooled. Therefore, conventional turbine bearings are additionally equipped with cooling facilities. However, in the case of the turbine bearing, there is a problem that the space for mounting the cooling facility is narrow and the power consumption in the power plant is increased to operate the cooling facility, which causes excessive cost.

Korean Patent Publication No. 10-1238867 (a water turbine generator, Feb. 25, 2013)

SUMMARY OF THE INVENTION An object of the present invention is to provide a turbine bearing apparatus which requires no installation of a cooling facility.

A turbine bearing device according to the present invention is a turbine bearing device for an aerator generator, comprising: a bearing housing disposed to surround one region of the aberration axis in a longitudinal direction of an aberration axis; a bearing supported in the bearing housing so as to be adjacent to the aberration axis; And a cooling unit mounted inside the bearing housing to expand the internal cross-sectional area of the bearing housing.

The bearing housing may have a storage space for storing cooling water therein.

Outside the bearing housing, there may be water flowing to rotate the aberration axis.

The cooling unit may include a plurality of cooling fins mounted inside the sidewall of the bearing housing to which the oil water contacts.

The plurality of cooling fins may be arranged at an angle to the inside of the side wall of the bearing housing.

The plurality of cooling fins may discharge heat generated from the bearings to the effluent through the bearing housing.

The bearings may be a plurality of split bearings surrounding the aberration axis.

The plurality of divided bearings may be disposed so as to surround the aberration axis at the same height.

A liquid for reducing the friction between the aberration axis and the bearing may be received between the aberration axis and the bearing.

The turbine bearing device according to the present invention not only reduces the power consumption in the power plant, but also requires no maintenance time for operation and maintenance of the cooling system, and can prevent the generation of the power generation stoppage due to the occurrence of the cooling system failure.

The technical effects of the present invention are not limited to the effects mentioned above, and other technical effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram schematically showing an aberration generator according to the present embodiment,
FIG. 2 is a schematic view showing a turbine bearing apparatus of an aberration generator according to the present embodiment,
3 is a conceptual view briefly showing a cooling fin of the aberration generator according to the present embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it should be understood that the present invention is not limited to the disclosed embodiments, but may be implemented in various forms, and the present embodiments are not intended to be exhaustive or to limit the scope of the invention to those skilled in the art. It is provided to let you know completely. The shape and the like of the elements in the drawings may be exaggerated for clarity, and the same reference numerals denote the same elements in the drawings.

1 is a conceptual diagram briefly showing an aberration generator according to the present embodiment.

As shown in FIG. 1, the aberration generator 1000 according to the present embodiment is installed in the region where the effluent exists, and performs power generation based on the effluent.

The aberration generator 1000 may include a turbine 10, a turbine housing 20, a generator 30, and a turbine bearing device 100.

First, the aberration 10 is disposed in a region where water flows. Here, the aberration 10 rotates based on the water flow. And the aberration housing 20 is disposed in the area above the aberration 10. Here, the aberration housing 20 forms a space in which the aberration shaft 40 and the turbine bearing device 100 are accommodated.

The power generation section 30 is disposed above the aberration housing 20. Here, the power generation unit 30 is connected to the aberration shaft 10 via the aberration shaft 40. [ The power generation unit 30 performs power generation based on the rotational motion of the aberration 10.

Since the aberration 10, the aberration housing 20, and the power generation unit 30 can be understood by a known technique, the turbine bearing apparatus 100 will be described in detail below.

FIG. 2 is a conceptual view briefly showing a turbine bearing device of an aberration generator according to the present embodiment, and FIG. 3 is a conceptual view briefly showing a cooling fin of an aberration generator according to the present embodiment.

2 and 3, the turbine bearing apparatus 100 according to the present embodiment may include a bearing housing 110, a bearing 120, and a cooling unit 130. [

First, the bearing housing 110 is disposed so as to surround one region of the aberration 10 in the longitudinal direction of the aberration shaft 40. The bearing housing 110 forms a space for supporting the bearing 120, and a storage space for storing cooling water is formed therein. Here, the side wall of the bearing housing 110 may be in direct contact with the flow water through the aberration housing 20. At this time, the bearing housing 110 may allow the heat generated from the bearing 120 to be discharged as effluent.

In this case, the aberration housing 20 may be disposed between the bearing housing 110 and the water flow. In this case, the side wall of the bearing housing 110 may be formed on the inner wall of the aberration housing 20, So that the heat generated from the bearing 120 can be discharged to the effluent through the aberration housing 20.

The bearing housing 110 is formed with a cooling water inflow hole (not shown) forming a path through which cooling water flows into the bearing housing 110 and a cooling water discharge hole (not shown) forming a path through which the cooling water is discharged from the bearing housing 110 . However, the cooling water inflow hole and the cooling water discharge hole may be omitted or formed as a single path in one embodiment for explaining the present embodiment.

Meanwhile, the bearing 120 is supported inside the bearing housing 110.

The bearing 120 is disposed so as to surround the aberration axis 40. Here, the bearing 120 can suppress the friction between the aberration axis 40 and the bearing 120 by the liquid, e.g., water, present between the inner surface of the bearing 120 and the aberration axis 40. The space between the bearing 120 and the aberration shaft 40 communicates with the interior of the bearing housing 110 so that liquid existing between the bearing 120 and the aberration shaft 40 flows into the bearing housing 110 .

The bearings 120 may be provided as a plurality of split bearings 120 surrounding the aberration axis 40. Here, the plurality of bearings 120 may be disposed so as to surround the aberration axis 40 at the same height. Such a split bearing 120 can be easier to maintain than a single circular bearing.

For example, in the case of a single circular bearing, if an abnormality occurs in the bearing, it is necessary to replace the entire bearing, so that the replacement time may be delayed, resulting in generation of power loss. However, in the case of the split bearing 120, it is possible to replace only the bearing in which the abnormality has occurred, so that the replacement time is shortened.

On the other hand, the cooling unit 130 is disposed inside the bearing housing 110. The cooling unit 130 expands the internal cross-sectional area of the bearing housing 110 in which the cooling water is stored, thereby improving the heat radiation efficiency of the bearing housing 110. The cooling unit 130 may include a plurality of cooling fins 131 and may be mounted on the inner wall of the bearing housing 110 by a brazing process.

However, this is an embodiment for explaining this embodiment, and the cooling fin 131 may be detachably provided on the inner wall of the bearing housing 110. [

The plurality of cooling fins 131 may be mounted inside the side wall of the bearing housing 110 in contact with the water. Here, the plurality of cooling fins 131 may protrude in the direction of the aberration shaft 40. The plurality of cooling fins 131 may be disposed at an angle to each other with respect to the aberration axis 40. The plurality of cooling fins 131 expands the cross-sectional area of the bearing housing 110 so that the heat discharged from the bearing 120 can be discharged more quickly and smoothly.

That is, the turbine bearing device 100 is provided with the cooling fin 131 to self-cool without installing a separate cooling device, and can smoothly discharge the heat discharged from the bearing 120 .

Accordingly, the turbine bearing device 100 not only reduces the power consumption in the power plant due to the installation of the cooling device for cooling the bearing 120, but also requires no maintenance time for operation and maintenance of the cooling device, There is an effect that a factor can be prevented in advance.

Hereinafter, an experimental example of a turbine bearing apparatus having a cooling fin and a turbine bearing apparatus not having a cooling fin will be described in detail with reference to Table 1 below.

[Table 1]

As shown in Table 1, the turbine bearing apparatus (With Fin) equipped with the cooling fin and the turbine bearing apparatus (Without Fin) without the cooling fin were compared in the summer and winter environment.

Experimental results show that the turbine bearing system with cooling fins in both the summer and winter environment has a higher heat radiation effect than the turbine bearing system without cooling fins.

As a result, the turbine bearing apparatus according to the present embodiment can reduce the power consumption of the power plant environment by self-cooling without requiring a separate cooling device, and can provide a superior heat radiation Efficiency can be obtained.

One embodiment of the invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

1000: water turbine generator
10: aberration
20: aberration housing
30:
100: Turbine bearing device
110: Bearing housing
120: Bearings
130:

Claims (9)

A turbine bearing device for an airstream generator,
A bearing housing disposed to surround one region of the aberration axis in the longitudinal direction of the aberration axis;
A bearing supported in the bearing housing so as to be adjacent to the aberration axis; And
And a cooling unit mounted inside the bearing housing to expand the internal cross-sectional area of the bearing housing,
The bearing housing has a storage space in which cooling water is stored,
And a water outlet for rotating the aberration axis is provided outside the bearing housing,
Wherein the cooling portion includes a plurality of cooling fins mounted inside the side wall of the bearing housing to which the oil water contacts.
delete delete delete The method according to claim 1,
The plurality of cooling fins
And is arranged at an angle to the inside of the side wall of the bearing housing.
The method according to claim 1,
The plurality of cooling fins
And the heat generated from the bearing is discharged to the oil water through the bearing housing.
The method according to claim 1,
The bearing
And a plurality of split bearings provided around the aberration axis.
8. The method of claim 7,
The plurality of split bearings
Are arranged so as to surround the aberration axis at the same height.
The method according to claim 1,
Between the aberration axis and the bearing
And a liquid for reducing friction between the aberration axis and the bearing is received.

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