KR200480777Y1 - Gas Turbine Blade Washing Apparatus Using Fluid - Google Patents

Abstract

The present invention relates to a cleaning apparatus for a blade apparatus having a cooling hole therein and an insertion portion through which a cooling hole penetrates in a lower portion thereof. The gas turbine blade cleaning apparatus of the present invention has an insertion opening, Blade fixing; A chamber portion capable of engaging with the blade fixing portion and accommodating the blade therein; And a fluid injection device connected to the chamber part and including a fluid supply device and a fluid injection hose for injecting a high-pressure fluid into the chamber part so as to discharge the foreign matter inside the blade cooling hole through a cooling hole penetrating the insertion part, And the like.

Description

Technical Field [0001] The present invention relates to a gas turbine blade cleaning apparatus using a fluid,

The present invention relates to a gas turbine blade cleaner and can be applied to remove foreign matter inserted into a cooling hole inside a gas turbine blade.

The gas turbine blades are high temperature components installed up to one to four stages above the gas turbine motor. Particularly, the first to third blades are susceptible to high-temperature heat because they are parts that operate in the region where heat is generated by the gas turbine. Accordingly, the cooling holes are formed in the first to third stages of the blades, and the cooling air is injected through the cooling holes, thereby controlling the temperature of the blades to prevent deformation of the blades.

However, when the cooling gas is injected into the cooling hole, if the dust and foreign matter are mixed with the inside of the cooling gas, the cooling gas can not circulate in the cooling hole, and thus the blade often is damaged.

In order to prevent the above problem, conventionally, the blade is mounted on a fixing table, and high pressure air is manually injected into the cooling hole by using an air gun to remove foreign matter in the cooling hole. However, this method has a problem that it takes a long time to remove foreign substances by injecting air into each of the cooling holes, and the maintenance reliability such as a problem occurs when the cooling holes are omitted. In addition, since the airtightness of the blade is insufficient, there is a problem in that foreign substances are not reliably removed even if air is injected into one cooling hole.

SUMMARY OF THE INVENTION A problem to be solved by the present invention is to provide a gas turbine blade cleaning apparatus for effectively removing foreign matter that blocks a cooling hole formed in a gas turbine blade.

According to an aspect of the present invention, there is provided a gas turbine blade cleaning apparatus comprising: a blade fixing unit; A chamber portion; And a fluid injection unit. The gas turbine blade cleaner may be applied to a gas turbine device, and includes a blade portion having a first cooling hole formed therein, and a second cooling hole coupled to a lower portion of the blade portion and communicating with the first cooling hole, And a blade unit having the blade portion. The blade fixing portion may include an insertion opening into which the insertion portion is inserted, and the insertion portion may be inserted into the insertion opening to fix the blade. The chamber portion is coupled with the blade fixing portion and is capable of receiving the blade therein. The fluid injection portion may include a fluid supply device and a fluid injection hose, and may be coupled to the chamber portion to inject a high-pressure fluid into the chamber portion.

In one embodiment, the gas turbine blade cleaner according to the present invention is characterized in that the fluid injected into the chamber portion through the fluid injecting portion is discharged to the outside of the chamber portion through the first and second cooling holes of the blade device .

In one embodiment, the blade fixing part includes: a first fixing part; And a second fixing part. The insertion hole may be formed in the first fixing part. The second fixing portion may be coupled to the lower portion of the first fixing portion to expose the insertion portion inserted into the insertion opening.

In one embodiment, the first fixing part and the inserting part may be coupled to each other in a dove tail manner.

In one embodiment, the first fixing part may be made of a silicon material. More preferably, the silicon material may be RTV (Room Temperature Vulcanizing) silicon.

In one embodiment, the chamber portion includes a receiving portion; And a coupling portion. The receiving portion may form a space for receiving the blade unit, and the fluid injecting unit is coupled and opened downward. The coupling portion may be formed at a lower portion of the receiving portion to couple the receiving portion to the blade fixing portion.

The gas turbine blade cleaner of the present invention as described above can effectively remove foreign substances in the cooling holes of the blades used in the gas turbine.

In addition, since it is not necessary to remove the foreign substances one by one by hand, the operation is simplified, which contributes to saving time and cost.

Further, by flowing the fluid, it is possible to confirm whether or not foreign matter is contained in the cooling hole inside the blade, that is, whether or not the foreign matter is effectively removed in the cooling hole.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a blade apparatus of a gas turbine apparatus that can be cleaned by a gas turbine blade cleaner according to the present invention. FIG.
2 is a view showing a gas turbine blade cleaning apparatus according to the present invention.
3 is a plan view of the blade fixing part 200 according to an embodiment of the present invention.
4 is a view for explaining a coupling method of the blade fixing unit and the blade unit according to an embodiment of the present invention.
5 is a cross-sectional view of the chamber part 300 according to one embodiment of the present invention.
6 is a plan view of the chamber part 300 shown in Fig.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the following description. It is to be understood, however, that the intention is not to limit the invention to the particular embodiment, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Wherein like reference numerals refer to like elements throughout.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing a blade apparatus of a gas turbine apparatus that can be cleaned by a gas turbine blade cleaner according to the present invention. FIG.

Referring to FIG. 1, the blade device 100 may include a blade portion 104 and an insertion portion 102.

The blade portion 104 may have a plurality of first cooling holes 101 formed therein. The first cooling hole 101 may cool the blade device 100 so that the blade device 100 can operate normally at a high temperature at which the gas turbine operates. In an embodiment, cooling air is injected into the first cooling hole 101 to maintain the temperature of the blade device 100 operated at a high temperature constant.

The inserting portion 102 is coupled to a lower portion of the blade 104 and a second cooling hole 103 communicating with the first cooling hole 101 may be formed therein. The cooling gas supplied from the external cooling gas supply device may be supplied to the first cooling hole 101 through the second cooling hole 103. [

2 is a view showing a gas turbine blade cleaning apparatus according to the present invention.

Referring to FIG. 2, the gas turbine blade cleaning apparatus according to the present invention includes a blade fixing unit 200; A chamber part 300; And a fluid injection unit 400.

The blade fixing portion 200 may include an insertion opening 203 into which the insertion portion 102 of the blade device 100 can be inserted and the insertion portion 102 is inserted into the insertion opening 203 So that the blade unit 100 can be fixed to the blade fixing unit 200. When the blade apparatus 100 is fixed, the blade apparatus 100 can be prevented from flowing even if a high-pressure fluid for cleaning the blade apparatus 100 is injected into the chamber section.

In one embodiment, the blade fixing portion 200 includes a first fixing portion 201; And a second fixing part 202 as shown in FIG.

The insertion part 203 is formed in the first fixing part 201 so that the insertion part 102 can be inserted. In one embodiment, the first fixing part 201 may be formed of a silicon material. For example, the first fixing part 201 may be formed of RTV (Room Temperature Vulcanizing) silicon.

The second fixing part 202 is coupled to the lower part of the first fixing part 201 and can support the first fixing part 201. The insertion part 102, (Not shown). That is, the discharge opening 204 may be connected to the second cooling hole 103 of the insertion portion 102. In one embodiment, the second fixing part 202 may be formed of a material having a higher mechanical strength than the first fixing part 201 in order to stably fix the blade device 100.

The chamber part 300 may be coupled with the blade fixing part 200 and may provide a space for accommodating the blade device 100 therein.

In one embodiment, the chamber portion 300 may include a receiving portion 302, a fluid injection connection portion 303, and a coupling portion 301.

The receiving portion 302 may be opened downward to form a space for accommodating the blade device 100 coupled to the blade fixing portion 200 together with the blade fixing portion 200 therein. In one embodiment, the receiving portion 302 may form a space for accommodating the remaining portion of the blade 100 except for the insertion portion 102.

The fluid injection connection part 303 may be formed in the receiving part and connected to the fluid injection part 400 so that the fluid injection part injects the high pressure fluid into the chamber part. In one embodiment, the fluid injection connection may be coupled to the upper portion of the receiving portion 302.

The coupling portion 301 may be formed at a lower portion of the receiving portion 302 to couple the receiving portion 302 to the blade fixing portion 200. In one embodiment, the coupling portion 301 may couple the receiving portion 302 to the upper portion of the first fixing portion 201 of the blade fixing portion 200.

The fluid injection unit 400 may be connected to the chamber unit 300 to inject a high-pressure fluid into the chamber unit 300. For example, the fluid injection unit 400 may be connected to the fluid injection connection unit 400 of the chamber unit 300 and may be a high-pressure fluid Can be injected. The high pressure fluid is injected into the chamber part 300 so that the high pressure fluid is injected into the chamber part 300 and the high pressure fluid is injected into the chamber part 300. [ The foreign substances existing in the first cooling hole 101 and the second cooling hole 103 can be discharged to the outside through the second cooling hole 103 under the insertion portion 203 by the pumping of the fluid . In one embodiment, the fluid injected into the chamber part 300 through the fluid injecting part 400 may be any one or more of water, air, and gas. In one embodiment, when the fluid is air, the high-pressure air is introduced into the first cooling hole 101 and the second cooling hole 103 through the second cooling hole 103 It can be used for discharging. In another embodiment, when the fluid is water, the water may be used to check whether or not foreign matter exists in the first cooling hole 101 and the second cooling hole 103.
The fluid injection unit 400 may include a fluid supply device 401 and a fluid injection hose 402. The fluid supply device 401 is provided independently of the blade fixing part 200 and the chamber part 300 so as not to be connected to the discharge opening 204 of the second fixing part 202, (300), and supplies the fluid from the outside of the accommodating portion (302) to an enclosed inner space. The fluid injection hose 402 is connected to the fluid injection connection part 303 from the fluid supply device 401 so that the fluid supplied from the fluid supply device 402 is injected into the internal space of the accommodation part 302. In one example, the fluid supply device 401 may be any one of a pneumatic device and a pump that pumps the liquid.

FIG. 3 is a plan view of the blade fixing unit 200 according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of the blade fixing unit 200 according to an embodiment of the present invention, Fig.

3 and 4, the shape of the blade fixing unit 200 is not limited as long as the blade unit 100 can be fixed. For example, the blade fixing part 200 may have a cylindrical shape as shown in FIGS. 3 and 4.

The first fixing part 201 of the blade fixing part 200 is formed at the center with an insertion opening 203 into which the insertion part 102 of the blade device 100 can be inserted And the shape of the insertion opening 203 is not particularly limited as long as the insertion portion 102 can be inserted and fixed. In one embodiment, the insertion opening 203 may have a rectangular cross section and its width may decrease as it goes down. On the wall surface of the insertion opening 203, one or more A first groove 205 may be formed.

The insertion portion 102 of the blade device 100 may have a shape corresponding to the insertion opening 203 and may be formed to have a shape corresponding to the insertion opening 203 and to be coupled with the blade fixing portion 200 in a dove- At least one first protrusion 205 inserted into the first groove 106 and extending in the same direction as the first groove 106 may be formed on the outer surface of the insert 102. The first fixing part 201 may be made of a silicone material which is easily deformed elastically to join the blade device by the dove tail method. In this case, the insertion portion 201 formed with the first projection 205 can be easily inserted into and fixed to the insertion opening 203 in which the first groove 205 is formed, as well as a wall surface of the insertion opening 203 It is possible to prevent the high pressure fluid supplied to the chamber part 300 from leaking through the space between the wall surface of the insertion opening 203 and the outer surface of the insertion part 102 have. In one embodiment, the first fixing part 201 may be formed of RTV silicone having high elasticity at room temperature compared with other silicon. When the first fixing part 201 is formed of RTV silicone, the wall surface forming the insertion opening 203 and the outer surface of the insertion part 102 are formed by the high elasticity of the RTV silicone at room temperature, So that the fluid can be more effectively prevented from leaking through the space therebetween.

FIG. 5 is a sectional view of the chamber part 300 according to an embodiment of the present invention, and FIG. 6 is a plan view of the chamber part 300 shown in FIG.

5 and 6, the shape of the accommodating portion 302 of the chamber portion is not particularly limited as long as the accommodating portion 302 can accommodate the blade device 100 therein. For example, the receiving portion may have a structure for forming an internal space having a shape of a square pillar, a circular column, or the like. The fluid injection connection part 303 may be formed on the upper part of the receiving part 302 to connect the fluid injection part 400. If the fluid can be injected into the receiving part 302, The coupling position of the coupling member 400 is not limited. The inner space of the chamber part 300 may be connected to the outside only through the first and second cooling holes 103 and the fluid injection connection part 303 of the blade device 100. [ In this case, the fluid injected into the chamber part by the fluid injecting part 400 may be discharged to the outside only through the first and second cooling holes 103 of the blade device 100.

The coupling portion 301 of the chamber portion 300 may be formed at a lower portion of the receiving portion 302 and may have a lower surface parallel to the upper surface of the blade fixing portion 200. For example, the engaging portion 301 may have a circular plate structure having an opening corresponding to the inner space of the accommodating portion 302. The receiving portion 302 and the coupling portion 301 may be integrally formed.

In an embodiment, the coupling portion 301 may be coupled to the blade fixing portion 200 through the coupling means 500. [ The coupling means 500 is not limited as long as it can engage the blade fixing portion 200 and the coupling portion 301. For example, screws and bolts may be used as the coupling means 500 . In this case, the coupling portion and the blade fixing portion 200 may be formed with an opening into which the screw can be inserted.

Claims (6)

A blade unit that is applied to a gas turbine apparatus and has an insertion portion formed with a blade portion having a first cooling hole formed therein and a second cooling hole coupled to a lower portion of the blade portion and communicating with the first cooling hole, In the cleaning device,
A circular or polygonal columnar structure having a circular or polygonal plate structure and having a height corresponding to a height of the insertion portion and a second fixing portion including a discharge opening formed at the center of the plate, A blade fixing unit including a first fixing unit including an insertion opening corresponding to the first fixing unit and stacked on the second fixing unit and coupled to the second fixing unit;
A plate portion having a shape corresponding to the shape of the first fixing portion and being stacked on the plate of the first fixing portion to be coupled to the first fixing portion; And a fluid injection connection part formed on an upper surface of the receiving part and communicating with the inner space of the receiving part, the fluid injection connection part having a shape of a rectangular column or a circular column opened in the direction of the coupling part, A chamber portion containing the chamber; And
A fluid supply device which is provided independently of the blade fixing part and the chamber part so as not to be connected to the discharge opening and which is disposed at one side of the blade fixing part and the chamber part and supplies the fluid from the outside of the accommodation part to the closed internal space; And a fluid injection portion connected to the fluid injection connection portion from the fluid supply device and including a fluid injection hose for injecting fluid supplied from the fluid supply device into the internal space of the accommodation portion,
The whole of the first fixing part is formed of RTV (Room Temperature Vulcanizing)
The insertion opening has a dovetail structure of the same material as that of the first fixing part and is coupled to the insertion part in a dovetail structure,
Wherein the blade unit is inserted into the insertion opening and is fixed to the first fixing portion, wherein the blade portion is accommodated in the receiving portion, and the second cooling hole formed in the insertion portion and the insertion portion is inserted into the discharge opening Lt; RTI ID = 0.0 >
Wherein the fluid injecting portion injects a high-pressure fluid of either high pressure gas or liquid into the internal space of the accommodating portion,
Pressure fluid injected into the inner space of the accommodating portion flows from the inner space of the accommodating portion into the first cooling hole of the blade portion accommodated in the accommodating portion and then discharged from the inner space of the blade portion to the atmosphere through the second cooling hole Features,
Gas turbine blade cleaner. delete delete delete delete delete

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