KR102275099B1 - Apparatus for start-up of gas turbine - Google Patents

Abstract

The present invention relates to a starting apparatus for a gas turbine. The starting apparatus for the gas turbine of the present invention is a starting apparatus for the gas turbine including a rotor inside the gas turbine, comprising: at least equal to or more than one commutators coupled in close contact with the circumferential surface of the rotor; a plurality of timing pulleys installed at a predetermined distance from a circumferential center of the commutator; a plurality of carbon brushes coupled to the timing pulley and attached to the commutator to supply a field current to the rotor; a plurality of lever coupling members coupled between the timing pulley and the carbon brush to assist in separation and attachment of the carbon brush; a timing belt meshed with and coupled to the plurality of timing pulleys; and a motor which meshes with the timing belt and rotates the timing belt by meshing.

Description

Gas turbine starter { Apparatus for start-up of gas turbine }

The present invention relates to a gas turbine starting device for rotating a rotor of the gas turbine.

Gas turbines have high efficiency and are therefore used in various industrial fields. Before starting the gas turbine in earnest, there are various methods for starting the rotor installed in the gas turbine. Among them, the electric power is used to rotate the rotor, and when the rotor reaches a certain number of revolutions, fuel is injected in earnest to maintain the rotational force.

When starting the gas turbine, the carbon brush is attached to the commutator (commutator) to supply field current to the rotor to increase the speed of the bearing. Then, when the rotor reaches a predetermined rotational speed, the gas turbine rotor is started while lifting the carbon brush attached thereto to end the speed increase.

Conventionally, a carbon brush was controlled using a tension spring. That is, the plurality of carbon brushes connected to the spring are pulled apart from the commutator. However, there is a problem in that abrasion due to the eccentricity of the bearing and sticking due to contamination of the lubricant occur during the rotor rotation process. There is a problem in that the carbon brush is not properly seated or the carbon brush is not properly separated from the commutator when the gas turbine is started due to the adhesion of the bearing.

In recent years, the industry is researching a new structure that allows the commutator to separate and attach the carbon brush more accurately and with greater force to properly perform the operation of the gas turbine.

The present invention has been devised to solve the above conventional problems, and an object of the present invention is to provide a starting device for a gas turbine.

A starting device for a gas turbine of the present invention is a starting device for a gas turbine including a rotor inside the gas turbine, comprising: at least one commutator coupled in close contact with a circumferential surface of the rotor; a plurality of timing pulleys installed at a predetermined distance from the circumferential center of the commutator; a plurality of carbon brushes coupled to the timing pulley and attached to the commutator to supply a field current to the rotor; a plurality of lever coupling members coupled between the timing pulley and the carbon brush to assist in separation and attachment of the carbon brush; and a timing belt meshingly coupled to the plurality of timing pulleys, and a motor meshingly coupled to the timing belt and rotating the timing belt by meshing.

Therefore, according to the present invention,

First, since the gas turbine starting device of the present invention operates in a meshing structure using a timing belt and a timing pulley, there is an advantage in that the carbon brush is separated and closely adhered more accurately with a greater force from the commutator.

Second, by operating the carbon brush using the discontinuous tooth structure of the timing pulley and the timing belt, there is an advantage in that the distance between the carbon brush and the commutator can be precisely adjusted with greater force. Also, this has the effect of ensuring that the carbon brush is reliably separated from the commutator even if there is a sticking due to contamination in the gas turbine.

1 is a configuration diagram showing the configuration of a gas turbine starting device according to an embodiment of the present invention.
2 is a view showing a part of a gas turbine starting device, and is a state diagram before and after operation showing a state before and after operation.

Hereinafter, a preferred embodiment will be described with reference to the accompanying drawings with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

In addition, the following examples do not limit the scope of the present invention, but are presented only as examples, and there may be various embodiments implemented through the present technical idea.

The construction and principle of operation of the gas turbine starter

Referring to FIG. 1 , a gas turbine starting device according to an exemplary embodiment of the present invention is a starting device for a gas turbine including a rotor 10 inside the gas turbine, and at least one or more in close contact with the circumferential surface of the rotor 10 . The commutator 20, a plurality of timing pulleys 30 installed at a predetermined distance from the circumferential center of the commutator 20, coupled to the timing pulley 30, and attached to the commutator 20 to the rotor 10 ), a plurality of carbon brushes 40 supplying a field current, a plurality of lever coupling members 50 coupled between the timing pulley 30 and the carbon brush 40 to assist the separation and attachment of the carbon brushes 40 , a timing belt 60 that meshes with the plurality of timing pulleys 30 and a motor 70 that meshes with the timing belt 60 and rotates the timing belt 60 by meshing.

When the motor 70 rotates in one direction, the plurality of timing pulleys 30 meshed with the timing belt rotate in one direction at the same time. The plurality of carbon brushes 40 are separated from the commutator 20 by a plurality of lever coupling members 50 coupled to the plurality of timing pulleys 30 .

When the motor 70 rotates in the other direction, the plurality of timing pulleys 30 meshed with the timing belt rotate in the other direction at the same time. A plurality of carbon brushes 40 are attached to the commutator 20 by a plurality of lever coupling members 50 coupled to a plurality of timing pulleys 30 .

The timing pulley 30 includes a first friction portion 51 rotating by forming a circumferential surface at the centrifugal surface of the timing pulley 30 and a circumferential surface forming a circumferential surface at a predetermined distance from the centrifugal surface of the timing pulley 30 to rotate. and a second friction region 52 .

The lever engaging member 50 includes a slide member operating as a slide by friction between the first friction portion 51 and the second friction portion 52 .

As the timing pulley 30 rotates, the slide member slides and moves. Separation and attachment of the carbon brush 40 is performed by sliding movement.

When the rotor 10 acquires a predetermined rotational force by the field current, the carbon brush 40 is separated from the commutator 20 .

Since the gas turbine starting device of the present invention operates in a meshing structure using the timing belt 60 and the timing pulley 30, the carbon brush 40 is separated from the commutator 20 with greater force and more accurately separated and adhered to each other. have.

Operation process of gas turbine starter

Referring to FIG. 2 , the slide member includes a first end member 53 positioned between the first friction part 51 and the second friction part 52 , and a second end member 54 coupled to the carbon brush 40 . ) and a third end member 55 coupling one end of the first end member 53 and one end of the second end member 54 .

FIG. 2(a) is an initial start-up view illustrating a state in which the carbon brush 40 is in close contact with the commutator 20 at the initial stage of the start-up of the gas turbine. When the gas turbine is started, a plurality of carbon brushes 40 are in close contact to supply a field current to the commutator 20 . The plurality of carbon brushes are preset to (+) and (-) poles, respectively. When current is supplied to the commutator 20 through the plurality of carbon brushes 40 , the rotor 10 rotates by electric force.

The gas turbine starting device according to an embodiment of the present invention further includes a spring coupling member 80 coupled to the timing pulley 30 .

The spring coupling member 80 is connected to the lever coupling member 50 by a spring to assist in separation and attachment of the carbon brush 40 . The spring coupling member 80 is plural. A plurality of spring coupling members 80 are coupled to each other.

The maximum spacing between the carbon brush 40 and the commutator 20 is adjusted by the length of the first end member 53 . That is, the distance between the separation and attachment of the carbon brush 40 coupled to the second end member 54 is adjustable according to the length of the first end member 53 .

The rotation range of the motor 70 is adjusted by the length of the first stage member 53 . That is, the rotation range of the motor 70 connected to the first end member 53 may be determined according to the length of the first end member 53 .

The spring coupling member 80 includes a first spring 81 coupled to the timing pulley 30 , a spring support 82 coupled to one end of the first spring 81 , and a carbon brush 40 to the spring support 82 . and a second spring 83 coupled to rotate. The spring coupling member 80 is coupled to the timing pulley 30 .

When the timing pulley 30 rotates, the first spring 81 rotates, and when the first spring 81 rotates, the second spring 83 rotates to separate and attach the carbon brush 40 . assist

FIG. 2B is a carbon brush separation state diagram illustrating a state in which a plurality of carbon brushes 40 that have been closely attached to the commutator 20 are separated when the rotor of the gas turbine acquires a preset rotation speed. Referring to FIG. 2B , when the rotor 10 acquires a preset number of rotations, when the timing belt 60 rotates clockwise by the motor 70 , the first friction of the timing pulley 50 A first end material 53 positioned between the portion 51 and the second friction portion 52 is introduced between the first friction portion 51 and the second friction portion 52 .

When the first friction part 51 is operated, the second end member 54 coupled to the third end member 55 supports the spring coupling member 80 to separate the carbon brush 4 from the commutator 20 . do. The spring coupling member 80 serves to prevent the timing belt 60 from being separated from the timing pulley 50 and to support the carbon brush 40 when it is separated.

In more detail, the plurality of first springs 81 of the spring coupling member 80 are coupled to each other. A second spring 83 connecting the carbon brush 40 and the spring coupling member 80 is coupled to the spring support 82 coupled to the first spring 81 .

The carbon brush 40 is separated from the commutator 20 while rotating counterclockwise by the rotation of the timing pulley 50 and the support of the spring coupling member 80 .

The gas turbine device of the present invention uses a discontinuous tooth structure of the timing pulley 30 and the timing belt 60 to separate and attach the carbon brush 40, unlike the conventional separation and attachment of the carbon brush 40 using a tension spring connected in one line. By operating (40), there is an advantage in that the distance between the carbon brush (40) and the commutator (20) is precisely adjusted with a greater force. In addition, there is an effect of preventing sticking due to contamination in the gas turbine.

One embodiment of the present invention described above is merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and equivalent other embodiments are possible therefrom. . Therefore, it will be well understood that the present invention is not limited to the form mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and substitutions falling within the spirit and scope of the invention as defined by the appended claims.

1: Gas turbine case
10: rotor
20: commutator
30: timing pulley
40: carbon brush
50: lever coupling member
60: timing belt
70: motor
80: spring coupling member

Claims (12)

A starting device for a gas turbine including a rotor inside the gas turbine,
at least one commutator coupled in close contact with the circumferential surface of the rotor;
a plurality of timing pulleys installed at a predetermined distance from the center of the circumference of the commutator;
a plurality of carbon brushes coupled to the timing pulley and attached to the commutator to supply a field current to the rotor;
a plurality of lever coupling members coupled between the timing pulley and the carbon brush to assist in separation and attachment of the carbon brush;
a timing belt meshed with and coupled to the plurality of timing pulleys; and
and a motor which meshes with the timing belt and rotates the timing belt by the meshing.
The method of claim 1,
When the motor rotates in one direction,
The plurality of timing pulleys meshed with the timing belt rotate in one direction at the same time,
A gas turbine starting device in which the plurality of carbon brushes are separated from the commutator by the plurality of lever engagement members coupled to the plurality of timing pulleys.
3. The method of claim 2,
When the motor rotates in the other direction,
The plurality of timing pulleys meshed with the timing belt rotate in other directions at the same time,
A gas turbine starting device in which the plurality of carbon brushes are attached to the commutator by the plurality of lever engagement members coupled to the plurality of timing pulleys.
The method of claim 1,
the timing pulley,
A first friction portion rotating by forming a circumferential surface at the center of the timing pulley; and
and a second friction part rotating by forming a circumferential surface at a predetermined distance from the centrifugal surface of the timing pulley,
The lever coupling member,
and a slide member operating as a slide by friction between the first friction portion and the second friction portion.
5. The method of claim 4,
As the timing pulley rotates, the slide member slides and moves,
A gas turbine starting device for separating and attaching the carbon brush by the sliding movement.
5. The method of claim 4,
The slide member,
a first end member positioned between the first friction portion and the second friction portion;
a second end member combined with the carbon brush; and
and a third end member for coupling one end of the first end member and one end of the second end member.
7. The method of claim 6,
A gas turbine starting device, characterized in that the maximum spacing between the carbon brush and the commutator is adjusted by the length of the first end member.
7. The method of claim 6,
Gas turbine starting device, characterized in that for adjusting the rotation range of the motor by the length of the first end member.
The method of claim 1,
When the rotor acquires a predetermined rotational force by the field current,
A gas turbine starting device wherein the carbon brush is separated from the commutator.
The method of claim 1,
Further comprising a spring coupling member coupled to the timing pulley,
The spring coupling member is connected to the lever coupling member by a spring to assist in separation and attachment of the carbon brush,
The plurality of spring engagement members is a gas turbine starting device to which the plurality of spring engagement members are coupled to each other.
11. The method of claim 10,
The spring coupling member,
a first spring engaged with the timing pulley;
a spring support coupled to one end of the first spring; and
and a second spring rotatably coupled to the carbon brush to the spring support.
12. The method of claim 11,
When the timing pulley rotates, the first spring rotates,
When the first spring rotates, the second spring rotates to assist in detaching and attaching the carbon brush.

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