KR101540935B1 - Sealing device for turbine generator casing - Google Patents

Abstract

A cable entry seal apparatus for a generator casing is disclosed. A sealing apparatus according to the present invention is a casing of a generator in which hydrogen gas is used as a cooling medium. The casing includes a flange portion in which a cable electrically connected to the temperature measurement equipment in the casing forms a through hole into the casing, And a sealing means for sealing the through hole formed in the flange portion for preventing external leakage, wherein the sealing means is configured to extend into the casing through the cable.

Description

Technical Field [0001] The present invention relates to a sealing device for a turbine generator casing,

The present invention relates to a sealing apparatus, and more particularly, to a cable inlet sealing apparatus for a generator casing that prevents hydrogen gas from leaking through a cable inlet of a generator casing in a generator using hydrogen as a cooling medium.

Hydrogen gas is used to effectively cool high-temperature heat generated in rotor coils and stator core during generator operation. Since the hydrogen gas has a high thermal conductivity (about 14 times that of air) and a low viscosity, the cooling efficiency can be higher than that of the air-cooling type using general air.

The higher the pressure of the hydrogen gas, the better the heat transfer efficiency. Therefore, the generator uses hydrogen gas at high pressure as the cooling medium. In addition, hydrogen gas of high purity is used for reducing the windage loss of the generator and extending the life of the generator.

However, when high-purity hydrogen gas is mixed with air as a combustible gas at a certain ratio (4 to 75%), there is a danger of explosion. When the hydrogen gas leaks and the hydrogen pressure inside the generator becomes lower than the rated data, The rated output of the motor is also influenced.

Accordingly, in order to prevent the hydrogen gas injected into the casing from leaking out, a sealing device is provided in various forms such as a part passing through the shaft, a connection part between casing parts, and a part where a cable for pressure and temperature measurement related equipment is drawn into the casing .

Among them, a part where the temperature measurement related equipment cable is inserted is formed by inserting a sealing member into a hole at the center of a flange portion provided at a predetermined size in a proper position of the casing, covering and fixing the cover member with an annular cover, And the inner airtightness of the casing is maintained in such a manner that the cable is drawn in through the hole.

However, due to the different shrinkage rates of the inside and outside sealing members, a gap is formed between the sealing member and the inner circumferential surface of the flange portion, thereby damaging the airtightness. As a result, there is a problem that hydrogen gas for cooling is leaked to the outside.

Korean Published Patent Application No. 2003-0025512 (published on Mar. 21, 2006)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a cable inlet portion sealing device for a generator casing which can improve the sealing structure of a cable inlet portion of a generator casing and more reliably prevent leakage of cooling hydrogen gas through a cable inlet portion .

As a means for solving the problems,

A casing of a generator in which hydrogen gas is used as a cooling medium,

A flange portion having a through hole through which a cable electrically connected to the temperature measurement device in the casing is introduced into the casing;

And a sealing means for sealing a through hole formed in the flange portion to prevent external leakage of the hydrogen gas,

And the sealing means is extended into the casing through the cable. The present invention also provides an apparatus for sealing a cable inlet of a generator casing.

The sealing means applied to the embodiment of the present invention includes an annular lock plate which is coupled to the end face of the flange portion from the outside of the casing and a pressing plate which is press-fitted and fixed to the entrance side of the through hole facing the lock plate by the lock plate And a sealing member covering the through hole.

A step for seating the sealing member may be formed on the inner circumferential surface of the flange portion where the through hole is formed.

At this time, the sealing ring may further include a seal ring interposed between the step and the sealing member, and the thickness D2 of the sealing member is preferably larger than the distance D1 from the inlet to the step.

The sealing member applied to the embodiment of the present invention may include a pair of inner and outer compression plates disposed in close contact with each other along the longitudinal direction of the through hole and an elastic plate interposed between the inner and outer compression plates Lt; / RTI >

In this case, it is preferable that the pressing plate is made of an epoxy glass material, and the elastic plate is made of a silicone rubber material.

The pressing plate and the elastic plate may be formed with a number of cable inlet holes corresponding to the number of cables to be drawn into the casing.

At this time, the protrusions and recesses may be further formed in a manner to surround the cable inlet holes formed in the compression plate and the elastic plate, and to allow mutual engagement between the corresponding plates.

As a preferred embodiment, a ring-shaped convex portion (or a recessed groove portion) continuous in the circumferential direction is further provided on both surfaces of the elastic plate which is in contact with the compression plate, and on one surface of the compression plate which is in contact with the elastic plate, And a ring-like recessed portion (or convex portion) having a shape capable of engaging with the ring-shaped convex portion (or recessed groove portion) may be further formed.

According to another preferred embodiment of the present invention, there is provided an elastic plate, wherein the elastic plate is formed with a concave-convex engagement surface along both edges of the elastic plate to be in contact with the compression plate, Another concave-convex engagement surface of the shape may be further formed.

Further, the diameter of the plate may gradually decrease from the outer compression plate to the inner compression plate.

In an embodiment of the present invention, the flange portion may be provided integrally with the generator casing or may be provided in a prefabricated manner capable of separating / engaging with the generator casing.

When the flange portion is configured as a prefabricated structure, the flange portion may be coupled to the front end of the fixed frame in such a manner as to cover the hole formed in the fixed frame of the generator casing.

The inner flange and the outer flange are formed so that the inner flange and the outer flange are symmetrical with respect to the center flange joined to the front end of the fixed frame. The inner flange and the through hole of the outer flange communicate with each other. A sealing means of the same structure can be applied.

According to the embodiment of the present invention, by sealing the through-hole with a plurality of overlapping sealing members of an elastic material plate having a low shrinkage rate and sealing the through-hole with the lock plate from the outside, even if shrinkage expansion occurs, So that the risk of fire and explosion due to hydrogen gas leakage can be more reliably prevented.

Further, in the related art, there has been a problem that the sealing member is damaged in the process of making the hole through the sealing member after assembling the sealing device to a size that allows the cable to pass through. However, the sealing member applied to the present invention corresponds to the number of cables to be drawn into the casing There is no fear of damaging the sealing member in the process of making a hole for penetrating the cable.

1 is a schematic view of a generator casing to which a sealing device according to a first embodiment of the present invention is applied.
FIG. 2 is an enlarged perspective view of a cable inlet portion of a generator casing to which a sealing device according to a first embodiment of the present invention is applied. FIG.
3 is an exploded perspective view of the sealing device according to the first embodiment of the present invention applied to the cable entry portion of FIG.
4 is a cross-sectional view of the cable entry portion shown in FIG.
5 is an assembled cross-sectional view of a sealing device for showing a modification according to the first embodiment of the present invention.
6 is an engaging cross-sectional view of a sealing device according to another modification.
7 is an exploded perspective view of a sealing device according to still another modification.
8 is an assembled cross-sectional view of a sealing device according to yet another variant.
9 is an exploded perspective view of a sealing device according to a second embodiment of the present invention.
10 is an assembled cross-sectional view of a sealing device according to a second embodiment of the present invention.

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

FIG. 1 is a schematic view of a generator casing to which a sealing device according to a first embodiment of the present invention is applied, FIGS. 2 and 3 are enlarged views of a cable inlet portion of a generator casing to which a sealing device according to a first embodiment of the present invention is applied A perspective view and an exploded perspective view. 4 is a cross-sectional view taken along the line A-A of the cable entry portion shown in Fig.

Referring to FIGS. 1 to 4, among the elements constituting the turbine power generation system, a power generation unit that substantially generates electricity includes a generator unit including a rotor winding and a stator core not shown, And the power generating device is covered with the casing 1 to completely block the power generating device from the outside.

During the power generation, cooling hydrogen gas for preventing overheating due to the interaction between the rotor windings and the stator iron core is injected in the sealed space inside the casing 1 shielded from the outside, and hydrogen gas leaks out of the casing 1 In order to prevent them from escaping, a sealing device is adopted for the shaft penetration part, the connection part between the casing parts, and the temperature measuring device cable entry part (2).

2 to 3, the sealing device according to the embodiment of the present invention applied to the cable inlet portion 2 is provided with a through hole 20 so that the cable 3 can be drawn into the casing 1 A flange portion 22 integrally provided in the formed casing and a sealing means 24 for sealing the through hole 20 formed in the flange portion 22. [

The cable 3 is electrically connected to a temperature measuring device (not shown) located in the casing 1 to provide power, and at the same time, the temperature information in the casing 1 sensed by the temperature measuring device is placed outside the casing 1 And extends into the casing 1 through the sealing means 24 sealing the through-hole 20 for this purpose.

The cable 3 may be a heat-resistant cable in which the conductive wire is coated with an insulator having heat resistance and flame retardant characteristics, and is not limited to one strand as shown in the drawing. In other words, in addition to the temperature measuring device, a plurality of cables connected to various electric components may be simultaneously inserted into the casing 1 through the sealing member 26.

The sealing means 24 includes an annular locking plate 25 which is connected to the end face of the flange portion 22 from the outside of the casing 1 and a through hole 20 formed in the flange portion 22 And a sealing member 26 which is pressed and fixed by a pressing force by the lock plate 25 so as to prevent the hydrogen from leaking substantially out of the casing.

The lock plate 25 is detachably / assemblably coupled to the end surface of the flange portion 22 by a plurality of bolt members 26 and is provided between the bolt member 26 and the lock plate 25, , Preferably a conical washer 28, may be interposed.

A step 200 is formed on the inner circumferential surface of the flange portion 22 where the through hole 20 is formed for seating the sealing member 26 and the step 200 and the sealing member 26 A sealing member 29 such as an O-ring or a gasket is interposed between the edges of the sealing member 26 so that hydrogen gas is prevented from leaking through a gap between the step 200 and the sealing member 26. [ do.

4, the thickness D2 of the sealing member 26 is provided to a thickness larger than the distance D1 from the entrance of the through-hole 20 to the step 200, The sealing member 26 is pressed in the direction of the step 200 by a length close to the difference D2-D1 between the thickness and the distance and is located in the through hole 20 in a compressed state do.

The sealing member 26 applied to the sealing device according to the embodiment of the present invention is preferably provided with a pair of inner pressing plates 26a disposed in the form of being in close contact with each other in the longitudinal direction of the through hole 20, And a plate-like elastic plate 26b interposed between the inner compression plate 26a and the outer compression plate 26c.

The inner and outer pressing plates 26a and 26c may be made of a heat-resistant synthetic resin having a small change in elongation even under a temperature change, preferably an epoxy glass. The elastic plate 26b may have elasticity Heat resistant rubber that does not lose heat resistance Silicone rubber is preferably used.

The inner and outer pressing plates 26a and 26c and the elastic plate 26b interposed therebetween are inserted into the through holes 20 in a sandwich arrangement in close contact with each other in the longitudinal direction of the through holes 20, And the number of cable inlet holes 260 corresponding to the number of cables to be drawn into the casing 1 is formed in each of the compression plates 26a and 26c and the elastic plate 26b.

The plates 26a to 26c can be manufactured through injection molding, which is a processing method of forming a molded product by solidifying or hardening (curing) a synthetic resin material melted by heating into a mold, 260 may be formed together with the mold by forming the pins corresponding to the diameter and the number of the cables in the mold by injection molding.

FIGS. 5 to 8 are views showing various other preferable modifications of the present invention for increasing the reality.

As shown in FIG. 5, the protrusions 262 and 263 are formed in a shape that allows the compression plates 26a and 26c and the cable inlet holes 260 formed in the elastic plate 26b to be interlocked with each other, By further forming the grooves 264, the airtightness of the portion where the cable 3 passes, that is, the periphery of the cable inlet hole, can be reinforced.

6, a ring-shaped convex portion 265 continuous in the circumferential direction is further provided on both sides of the elastic plate 26b to be contacted with the pressing plates 26a, 26c, and the elastic plate 26b, Like concave groove portion 266 which is continuous in the circumferential direction and can be engaged with the ring-shaped convex portion 265 is further formed on one surface of the pressing plates 26a and 26b to reinforce the reality You may.

7, a concave-convex engagement surface 267 is further formed along the both-side edges of the elastic plate 26b that is in contact with the compression plates 26a and 26c, and the elastic plate 26b and the elastic plate 26b It is also possible to form another engaging surface 268 which is engageable with the irregular engaging surface 267 on one side edge of the pressing plates 26a and 26c to be reinforced.

As shown in Fig. 8, the flange portion 22 is formed so that the diameter of the through-hole 20 gradually decreases from the outer side of the casing toward the inner side, and correspondingly, When the diameter of the plate is gradually reduced toward the plate 26a, a sealing device having an easy assembling property at the same time as the real reinforcement is realized.

9 and 10 relate to a sealing device according to a second embodiment of the present invention in which a flange portion 22 to which a sealing means is coupled is provided in a prefabricated manner capable of being detached / And is arranged so as to be symmetrically disposed in the inside and outside of the casing so that hydrogen leakage can be prevented from being doubly different from the first embodiment described above.

The flange portion 22 applied to the second embodiment specifically includes a plate-like central flange 22a bolted to the tip end of the stationary frame 21 to cover the hole 210 formed in the stationary frame 21 of the generator casing, And an inner flange 22b and an outer flange 22c that are integrally provided in the central flange 22a and are symmetrical to each other with respect to the center flange.

The through holes 20-1 and 20-2 are formed in the inner and outer flanges 22b and 22c in the same manner as in the first embodiment. Through the communication hole 220 formed in the center of the first communication hole 22a. The inner flange 22b and the outer flange 22c having the through holes are provided with the same sealing means 24-1 and 24-2 as those of the sealing means of the first embodiment, It prevents double leakage of hydrogen.

The sealing device according to the second embodiment of the present invention can be applied to the generator casing in the form of an assembly in which sealing means is combined with the inner flange and the outer flange so as to improve the ease of mounting And leakage of the hydrogen gas from the outside of the casing is prevented. Therefore, the reality of the cable inlet portion can be further improved.

9 and 10, reference numeral 26 denotes a sealing member constituting a sealing means, which is the same as the sealing member of the first embodiment described above, and 25 denotes a locking plate constituting a sealing means, Plate. Therefore, redundant description thereof will be omitted.

According to the embodiments of the present invention as described above, the through holes are sealed with a plurality of overlapping sealing members of an elastic material plate having a low shrinkage rate, and the through holes are sealed from the outside by a lock plate, The airtightness can be assured more reliably, and thus the risk of fire and explosion due to hydrogen gas leakage can be reliably prevented.

Further, in the related art, there has been a problem that the sealing member is damaged in the process of making the hole through the sealing member after assembling the sealing device to a size that allows the cable to pass through. However, the sealing member applied to the present invention corresponds to the number of cables to be drawn into the casing There is no possibility that the sealing member is damaged.

In the foregoing detailed description of the present invention, only specific embodiments thereof have been described. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

1: Casing 2: Cable entry part
3: cable 20: through hole
22: flange portion 24: sealing means
25: locking plate 26: sealing member
26a: inner pressing plate 26b: elastic plate
26c: outer pressing plate 27: bolt member
28: Washer 200:
260: Cable entry hole

Claims (16)

A casing of a generator in which hydrogen gas is used as a cooling medium,
A flange portion formed with a through hole through which a cable electrically connected to the temperature measurement device in the casing enters into the casing;
And a sealing means for sealing a through hole formed in the flange portion to prevent external leakage of the hydrogen gas,
The sealing means extending into the casing through the cable,
The sealing means comprises an annular lock plate which is coupled to the end face of the flange portion from the outside of the casing and a sealing member which is press-fitted and fixed by the lock plate to the entrance side of the through hole facing the lock plate, ,
Wherein the sealing member is composed of a pair of inner / outer pressing plates and an elastic plate interposed between the inner / outer pressing plates,
Wherein a cable inlet hole corresponding to the number of cables to be drawn into the casing is formed in the compression plate and the elastic plate and protrusions and recesses which can be engaged with the facing surfaces of the plates are formed along the periphery of the cable inlet hole Cable entrant sealing device in generator casing.
delete The method according to claim 1,
Wherein a step for seating the sealing member is formed on the inner circumferential surface of the flange portion having the through hole formed therein.
The method of claim 3,
And a seal ring interposed between the step and the sealing member to seal the cable inlet portion of the generator casing.
The method of claim 3,
Wherein a thickness D2 of the sealing member is larger than a distance D1 from the through hole entrance to the step.
delete The method according to claim 1,
Wherein the pressing plate is made of an epoxy glass material,
Wherein the elastic plate is made of a silicone rubber material.
delete delete The method according to claim 1,
Wherein a ring-shaped convex portion continuing in the circumferential direction is further provided on both surfaces of the elastic plate which is in contact with the compression plate,
And a ring-shaped recessed portion continuous to the circumferential direction and engageable with the ring-shaped convex portion is further formed on one surface of the compression plate that is in contact with the elastic plate.
The method according to claim 1,
A concave-convex engagement surface is further formed along the both-side edges of the elastic plate which is in contact with the compression plate,
Further comprising another concave-convex engaging surface engageable with the concave-convex engaging surface along one side edge of the pressing plate to be in contact with the elastic plate.
The method according to claim 1,
Wherein the diameter of the plate gradually decreases from the outer compression plate to the inner compression plate.
The method according to claim 1,
Wherein the flange portion is integrally formed with the generator casing.
The method according to claim 1,
Wherein the flange portion is provided in a prefabricated manner that is detachable / attachable to the generator casing.
15. The method of claim 14,
Wherein the flange portion is coupled to a front end of the fixing frame in such a manner as to cover a hole formed in a fixing frame of the generator casing.
16. The method of claim 15,
The flange portion
Wherein an inner flange and an outer flange are formed symmetrically with respect to a center flange joined to a front end of the fixed frame,
The through holes of the inner flange and the outer flange communicate with each other,
Wherein a sealing means of the same structure is applied to the inner flange and the outer flange.

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