KR102095957B1 - Complex Bearing, and Power Generator and Power Generation System Having the Same - Google Patents

Abstract

The composite bearing according to the present invention is formed to surround a part of the rotating shaft, and a gas bearing including an inner ring rotated with the rotation of the rotating shaft and an outer ring formed to surround the inner ring, to surround the gas bearing It is formed, and is provided between the cover module and the inner ring and the outer ring selectively spaced or contacted with the gas bearing, and the cover module is rotated between the inner ring and the outer ring before contacting the rotating shaft to reduce friction. Includes bearings.

Description

Complex Bearing, and Power Generator and Power Generation System Having the Same

The present invention relates to a composite bearing, and a generator and a power generation system including the same, and more particularly, to a composite bearing to effectively reduce the frictional force generated on the rotating shaft during the power generation process, and a generator and a power generation system including the same will be.

In a power generation system including a Rankine cycle and a generator connected to a turbine constituting the Rankine cycle, the working medium in a high temperature and high pressure state is passed through a turbine to convert thermal energy into mechanical energy, and the generator has its axis connected to the turbine. Various technologies have been introduced to convert mechanical energy into electrical energy.

In particular, it is very important for such a generator to reduce the frictional force of a rotating shaft interlocked with the rotation of a turbine to minimize wear of parts and increase power generation efficiency.

In the conventional case, various types of bearings such as ball bearings have been used to reduce the frictional force of the rotating shaft, but this causes fatigue and abrasion easily due to the continuous use of the bearings. There is a problem that causes damage to other parts of the generator.

Therefore, a method for solving these problems is required.

The present invention has been made to solve the problems of the prior art described above, and has an object to efficiently configure a structure for reducing friction of a rotating shaft of a generator by a bearing, and to reduce effort required for maintenance / repair.

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

The composite bearing of the present invention for achieving the above object, the composite bearing according to the present invention, different bearings, that is, heterogeneous bearings to form one unit to complement each other to perform a bearing role.

The composite bearing of the present invention is formed to surround a part of the rotating shaft, and a gas bearing including an inner ring that rotates with rotation of the rotating shaft and an outer ring that is formed to surround the inner ring, and wraps the gas bearing. Is formed between the cover and the inner ring and the outer ring, which are selectively spaced or contacted with the gas bearing, and rotated between the inner ring and the outer ring before the cover module contacts the rotating shaft to reduce friction. Includes rolling bearings.

In addition, the cover module is formed so as to be spaced apart from the gas bearing as the gas is supplied at a predetermined pressure or more to maintain an independent state from the rotation of the gas bearing.

In addition, the rolling bearing may be formed to rotate between the inner ring and the outer ring to reduce friction when the cover module contacts the gas bearing as the gas is supplied below a predetermined pressure.

In addition, the generator of the present invention for achieving the above object is a turbine rotated by the working fluid, a rotating shaft rotated by the rotation of the turbine connected to the turbine, converting mechanical energy into electrical energy according to the rotation of the rotating shaft The power generation unit and a part of the rotating shaft, and a gas bearing that reduces frictional force of the rotating shaft by supply of gas, is formed to surround the gas bearing, and a cover module that is selectively spaced or contacted with the gas bearing And a rolling bearing which is rotated between the inner ring and the outer ring before the cover module contacts the rotating shaft to reduce friction.

In addition, the housing may further include a housing space in which the turbine, the rotating shaft, the power generation unit, and the composite bearing are accommodated.

In addition, a partition plate formed to partition the accommodation space at an arbitrary ratio may be formed inside the housing.

In addition, the partition plate may divide the accommodation space into a first division space in which the turbine is accommodated, and a second division space in which the power generation unit and the composite bearing are accommodated.

In addition, the housing may further include a three-way valve that selectively supplies gas to the first partition space.

In addition, a plurality of the composite bearings may be provided to support a plurality of points on the rotating shaft.

In addition, the rotating shaft has a long extension to protrude to both sides of the power generation unit, the composite bearing may be formed to support both sides of the rotating shaft around the power generation unit.

And the power generation system of the present invention for achieving the above object is a pump that provides energy for the circulation of the working fluid, a turbine rotated by the working fluid, a rotating shaft connected to the turbine and rotated by the rotation of the turbine, A power generation unit that converts mechanical energy into electrical energy according to the rotation of the rotating shaft, is formed to surround a part of the rotating shaft, and is formed to surround a gas bearing and a gas bearing that reduces frictional force of the rotating shaft by supply of gas. , A composite bearing comprising a cover module that is selectively spaced apart from or in contact with the gas bearing and a rolling bearing that is rotated between the inner ring and the outer ring to reduce frictional force before the cover module contacts the rotating shaft, operating toward the power generation unit side A gas supply flow path forming a path through which the fluid flows, a path for recovering the working fluid supplied to the power generation unit is formed, and a recovery flow path connected to the gas supply flow path to form a circulation path of the working fluid, and the recovery flow path It includes a condenser condensing the working fluid recovered through and an evaporator performing heat exchange with the working fluid supplied through the gas supply passage.

In addition, it may further include a branch passage that is branched from the gas supply passage to supply gas to the composite bearing.

And the turbine, the rotating shaft, the power generation unit and the housing further includes a housing formed with a housing for receiving the composite bearing, the housing inside the housing, the first partition space for receiving the turbine, and the power generation A partition plate dividing the unit and the second partition space in which the composite bearing is accommodated may be formed.

In addition, the gas supply flow path may be connected to the first partition space side, and the branch flow path may be connected to the second partition space side.

In addition, the housing may further include a three-way valve that selectively supplies gas to the first partition space.

In addition, the recovery passage may include a main recovery passage for recovering the gas supplied to the first partition space and an auxiliary recovery passage for recovering the gas supplied to the second partition space and joining the main recovery passage.

The composite bearing of the present invention for solving the above problems, and a generator and a power generation system including the same have the following effects.

First, due to the complex structure of the gas bearing and rolling bearing, there is an advantage that can effectively reduce the friction of the rotating shaft of the generator.

Second, when there is a problem in the operation of the gas bearing, the rolling bearing replaces it, thereby reducing the effort required for maintenance and repair, and also has the advantage of safely protecting the parts of the generator.

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

1 is a view showing a state of a composite bearing according to an embodiment of the present invention;
2 and 3 are views showing the operation of the composite bearing according to an embodiment of the present invention;
4 is a view showing a state of a generator and a power generation system including a composite bearing according to an embodiment of the present invention; And
5 and 6 are views showing a circulating structure of a gas in a power generation system including a composite bearing according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention, in which the object of the present invention can be specifically realized, will be described with reference to the accompanying drawings. In describing this embodiment, the same name and the same code are used for the same configuration, and additional description will be omitted.

The composite bearing according to the present invention, different bearings, that is, heterogeneous bearings form one unit to complement each other to perform a bearing role, and the type of bearing used can be applied without limitation. In the case of the present embodiment described below, it is assumed that gas bearings and rolling bearings are applied as bearings used in the composite bearings, but the present invention is not limited thereto.

1 is a view showing the appearance of a composite bearing according to an embodiment of the present invention.

As shown in FIG. 1, the composite bearing according to an embodiment of the present invention is formed to support the rotating shaft 110 of the generator that converts thermal energy of the working fluid into electrical energy by the turbine 120.

In addition, the composite bearing has a form in which a gas bearing 150, a cover module 130, and a rolling bearing 180 are provided.

Specifically, the gas bearing 150 is formed to surround a part of the rotating shaft 110, and is formed to surround the inner ring 160 that is rotated with the rotation of the rotating shaft 110 and the circumference of the inner ring 160. It includes the outer ring 170.

In addition, the cover module 130 is formed to surround the gas bearing 150, and is formed to be selectively spaced or contacted with the gas bearing 150.

In particular, in the present embodiment, the cover module 130 is formed to be spaced apart from the gas bearing 150 by a pressure of the gas as shown in FIG. 2 when the gas is supplied at a predetermined pressure or more, and the gas bearing 150 ) To maintain an independent state from the rotation, thereby reducing the rotational friction force of the rotation shaft 110.

And the rolling bearing 180 is provided between the inner ring 160 and the outer ring 170, before the cover module 130 is in contact with the rotating shaft 110, the inner ring 160 and the outer ring 170 ) To reduce frictional forces.

For example, in case of an unexpected situation such as when the gas supply is supplied below a predetermined pressure or is not normally performed, the cover module 130 descends by its own weight and contacts the gas bearing 150 as shown in FIG. 3. In this situation, the rolling bearing 180 is rotated between the inner ring 160 and the outer ring 170 and may serve to reduce friction.

That is, when a problem occurs in the driving of the gas bearing 150, the rolling bearing 180 replaces the gas bearing 150 to reduce the rotational friction force of the rotating shaft 110.

In addition, the rolling bearing 180 may be applied to any bearing type that is rotated between the outer ring 170 and the inner ring 160 to reduce friction, and there is no limitation on the form. For example, a ball bearing or the like may be applied to the rolling bearing 180, but various bearings may be applied.

And Figure 4 is a view showing the state of the generator and the power generation system including a composite bearing according to an embodiment of the present invention.

As shown in FIG. 4, a generator including a composite bearing according to an embodiment of the present invention includes a turbine 120 rotated by a working fluid and connected to the turbine 120 to rotate the turbine 120 It is formed to surround a portion of the rotating shaft 110 and the rotating shaft 110, the power generation unit 115 for converting mechanical energy into electrical energy according to the rotation of the rotating shaft 110, and the rotating shaft 110, the supply of gas By the gas bearing 150 to reduce the frictional force of the rotating shaft 110, formed to surround the gas bearing 150, the cover module 130 and the spaced or selectively spaced and contact with the gas bearing 150 And a composite bearing including a rolling bearing 180 that is rotated between the inner ring 160 and the outer ring 170 to reduce frictional force before the cover module 130 contacts the rotating shaft 110.

And the power generation system including the composite bearing according to an embodiment of the present invention, the gas tank 210 in which the gas is stored, the pump 200 that provides energy for the circulation of the gas, and gas flows into the generator side A gas supply flow path (20) forming a path to be formed, and a recovery path (40, 50) forming a path for recovering the gas supplied to the generator, connected to the gas supply flow path (20) to form a circulation path of gas ), A condenser 400 condensing the gas recovered through the recovery passages 40 and 50, and an evaporator 300 performing heat exchange with the gas supplied through the gas supply passage 20.

Accordingly, the present invention is a gas supplied from the gas tank 210 circulates a circulation path by the pump 200, as a working fluid for rotating the turbine 120 of the generator, and the gas bearing 150 ).

And the generator of the present embodiment may include a housing 10 in which the receiving spaces 12 and 14 are accommodated in the turbine 120, the rotating shaft 110, the power generation unit 115 and the composite bearing, A partition plate 15 formed to partition the accommodation spaces 12 and 14 at an arbitrary ratio may be formed inside the housing 10.

Specifically, the partition plate 15 includes the accommodation spaces 12 and 14, the first partition space 14 in which the turbine 120 is accommodated, and the power generation unit 115 and the composite bearing. It has a form divided into two divided spaces (12).

At this time, the rotating shaft 110 is formed to penetrate the partition plate 150 over the first partition space 14 and the second partition space 12, the partition plate 150 is the rotary shaft 110 It is formed to maintain the airtightness between the first partition space 14 and the second partition space 12 without interfering with the rotation of the.

And the plurality of composite bearings may be provided to be formed to support a plurality of points on the rotating shaft 110, and in the case of the present embodiment, the rotating shaft 110 is extended to protrude to both sides of the power generation unit 115. With, the composite bearing is formed to support both sides of the rotating shaft 110 around the power generation unit 115.

5 and 6 are views showing a circulating structure of a gas in a power generation system including a composite bearing according to an embodiment of the present invention.

As described above, the power generation system according to this embodiment forms a gas tank 210 in which gas is stored, a pump 200 providing energy for circulation of gas, and a path through which gas is introduced into the generator. A gas supply passage 20 and a recovery passage 40 and 50 forming a path for recovering the gas supplied to the generator, and connected to the gas supply passage 20 to form a circulation path of the gas, and the recovery It includes a condenser 400 for condensing the gas recovered through the flow path (40, 50), and an evaporator (300) for performing heat exchange with the gas supplied through the gas supply flow path (20).

In addition, the power generation system of the present embodiment is branched from the gas supply flow path 20 to supply gas to the composite bearing side 30, and branched again from the branch flow path 30 to supply gas to each composite bearing. It may include a re-branching flow path 32 to supply. At this time, a control valve (V ₁ , V ₂ ) for selective supply control of gas may be provided in the branch flow path 30 and the re-branch flow path 32.

That is, the gas supply channel 20 is connected to the first partition space 14 side to supply gas to the turbine 120, and the branch channel 30 is connected to the second partition space 12 side to the It has the form of supplying gas to composite bearings.

In addition, the housing 10 may further include a three-way valve (V ₃ ) for controlling to selectively supply gas to the first partition space (14).

And in this embodiment, the recovery passages 40 and 50 are the main recovery passage 40 for recovering the gas supplied to the first partition space 14, and the gas supplied to the second partition space 12. And an auxiliary recovery passage 50 for joining the main recovery passage 40.

The driving process of the power generation system of this embodiment is as follows.

First, as shown in FIG. 5, gas flows through the gas supply flow path 20, and the three-way valve V ₃ is maintained in a locked state, so that the gas flows toward the branch flow path 30 to provide gas bearing ( 150).

In this state, since the gas bearing 150 can be operated, it is possible to reduce the rotational friction force of the rotating shaft 110 when the turbine 120 is rotated by the working fluid.

In addition, the working fluid accommodated in the first partition space 14 may be recovered through the main recovery passage 40.

Next, as shown in FIG. 6, the three-way valve V ₃ is opened in a state where the system is stable, and gas flowing through the gas supply passage 20 flows into the first partition space 14 side. It will function as an auxiliary working fluid of the turbine 120.

At this time, the gas introduced into the second dividing space 12 may be recovered through the auxiliary recovery channel 50, and the recovered gas will converge toward the main recovery channel 40.

Thereafter, the recovered gas is heat exchanged through the condenser 400 and the evaporator 300, and continuously converts thermal energy into electrical energy through the generator.

As described above, the preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the embodiments described above has ordinary knowledge in the art. It is obvious to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

10: housing
20: gas supply channel
30: Basin Euro
32: redistribution euro
40: 1st passage
50: 2nd retrieval
110: rotating shaft
115: power generation module
120: turbine
130: cover module
150: gas bearing
160: inner ring
170: paddle
180: rolling bearing
200: pump
210: gas tank
300: evaporator
400: condenser

Claims (16)

delete delete delete A turbine rotated by a working fluid;
A rotating shaft connected to the turbine and rotated by rotation of the turbine;
A power generation unit that converts mechanical energy into electrical energy according to the rotation of the rotating shaft;
It is formed to surround a part of the rotating shaft, a gas bearing that reduces the frictional force of the rotating shaft by supply of gas, and is formed to surround the gas bearing, and a cover module and the cover module selectively spaced apart from or in contact with the gas bearing A composite bearing including a rolling bearing that rotates between the inner and outer rings before contacting the rotating shaft to reduce frictional force;
A housing in which an accommodation space in which the turbine, the rotation shaft, the power generation unit and the composite bearing are accommodated is formed; And
A partition plate provided inside the housing and formed to partition the accommodation space at an arbitrary ratio;
It includes,
The partition plate is a generator for dividing the accommodation space into a first divided space in which the turbine is accommodated, and a second divided space in which the power generation unit and the composite bearing are accommodated. delete delete delete The method of claim 4,
The housing
A generator further comprising a three-way valve that selectively supplies gas to the first partition space. The method of claim 4,
The composite bearing is provided with a plurality of generators formed to support a plurality of points on the rotating shaft. The method of claim 9,
The rotating shaft has a shape extended to protrude to both sides of the power generation unit,
The composite bearing is a generator that is formed to support both sides of the rotating shaft around the power generation unit. A pump that provides energy for the circulation of the working fluid;
A turbine rotated by a working fluid;
A rotating shaft connected to the turbine and rotated by rotation of the turbine;
A power generation unit that converts mechanical energy into electrical energy according to the rotation of the rotating shaft;
It is formed to surround a part of the rotating shaft, a gas bearing that reduces the frictional force of the rotating shaft by supply of gas, and is formed to surround the gas bearing, and a cover module and the cover module selectively spaced apart from or in contact with the gas bearing A composite bearing including a rolling bearing that rotates between the inner and outer rings before contacting the rotating shaft to reduce frictional force;
A gas supply flow path forming a path through which the working fluid flows to the power generation unit side;
A recovery flow path forming a path for recovering the working fluid supplied to the power generation unit, and connected to the gas supply flow path to form a circulation path of the working fluid;
A condenser for condensing the working fluid recovered through the recovery passage;
An evaporator performing heat exchange with a working fluid supplied through the gas supply passage;
A branch flow path branched from the gas supply flow path to supply gas to the composite bearing;
A housing in which an accommodation space in which the turbine, the rotation shaft, the power generation unit and the composite bearing are accommodated is formed; And
A partition plate provided inside the housing and formed to partition the accommodation space at an arbitrary ratio;
It includes,
The partition plate is a power generation system that divides the accommodation space into a first divided space in which the turbine is accommodated, and a second divided space in which the power generation unit and the composite bearing are accommodated. delete delete The method of claim 11,
The gas supply flow path is connected to the first partition space side,
The branch passage is a power generation system connected to the second partition space. The method of claim 14,
The housing further includes a three-way valve that selectively supplies gas to the first partition space. The method of claim 11,
The recovery passage,
A main recovery passage for recovering the gas supplied to the first partition space; And
An auxiliary recovery channel for recovering the gas supplied to the second division space and joining the main recovery channel;
Power generation system comprising a.

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