KR101538629B1 - Retaining Ring Thermal Inserting Device and Thermal Inserting Method Using the Same - Google Patents

Abstract

A retaining ring heat shrinking apparatus and a heat shrinking method using the same are disclosed. The retaining ring finishing apparatus according to the embodiment of the present invention is a finishing apparatus 600 for finishing a retaining ring 10 to a turbine rotor 700, A rail part (100) mounted on the upper part and providing a transport path through which the transport part (200) can be transported from one side to the other side; A transfer part 200 mounted on the upper part of the rail guide part 300 and mounted on the rail part 100 to transfer the ring guide part 300 in one direction or the other direction; And a through hole 330 having a diameter D1 larger than an outer diameter D2 of the turbine rotor 700 is formed on the upper surface of the feeder 200. [ Teeth 300; And a position adjusting unit 400 mounted on the transferring unit 200 and adjusting the position of the ringing gear unit 300 in the vertical and horizontal directions.

Description

TECHNICAL FIELD [0001] The present invention relates to a retaining ring heat retention device and a heat retention method using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a retaining ring heat shrinking apparatus and a heat shrinking method using the same, and more particularly to a heat shrinking apparatus for shrinking a retaining ring to a turbine rotor, ≪ / RTI >

Turbine Rotor is a device that can be rotated at high speed using steam or gas. Such a turbine rotor can be used in power generation equipment for generating electric power, and in this case, it is manufactured to have a large size and high accuracy as compared with a rotor device for an aircraft. In addition, since the turbine rotor is made large and needs to rotate at a high speed, the turbine rotor is made of a metal member which is light and relatively small in thermal deformation.

Generally, turbine rotors include components that are assembled by a heat shrink method. Specifically, the heat shrinking method is a method in which heat is applied to parts to be assembled to expand the volume, and then the turbine rotor is mounted on the turbine rotor. A representative example of a component to be assembled by a heat shrinking method in a turbine rotor is a retaining ring.

FIG. 1 and FIG. 2 are side schematic views showing a conventional heat shrinking device and a retaining ring assembled to a turbine rotor using the turbine rotor.

Referring to these figures, the conventional finishing equipment includes a crane 20 for moving the retaining ring 10 in a lifted or raised state, a support 800 for supporting and fixing the turbine rotor 700, And hydraulic devices 30 and 40 for pressing the retaining ring 10 to shrink the turbine rotor 700.

Specifically, the retaining ring 10 heated to a predetermined temperature is moved by the crane 20, and after the retaining ring 10 is inserted into the turbine rotor 700, the hydraulic devices 30, . The hydraulic devices 30 and 40 press the retaining ring 10 to move the retaining ring 10 and are installed at equal intervals along the outer circumferential surface of the turbine rotor 700. By the pressing of the hydraulic devices 30 and 40 thus installed, the retaining ring 10 is moved to the correct position to complete the heat shrinking operation.

However, in the conventional method of joining the shrink fittings, a plurality of hydraulic devices 30 and 40 must be installed and not be eccentric when assembling the retaining ring 10 to the turbine rotor 700, 30, and 40, a high degree of skill is required. Further, since the crane 20 must also move at the same moving speed in accordance with the movement of the retaining ring 10 moved by the hydraulic devices 30 and 40, a high degree of skill is required also in the operation of the crane 20 . Moreover, the above-mentioned series of processes is required to be completed before the heated retaining ring 10 falls below a predetermined temperature, which further causes difficulty of the heat sinking operation to further improve.

Therefore, the conventional method of joining the heat sink has a problem that the probability of occurrence of the defect is high due to the difficulty of the operation. In addition, the equipment used in the method of heat sinking according to the related art has a problem that the manufacturing cost is high because a large number of working people are required.

Korean Patent Publication No. 10-2013-0084483 (published on July 25, 2013)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a turbine rotor which can stably and accurately perform a heat shrinking operation in shrinking a retaining ring to a turbine rotor, And a heat shrinking method using the same.

In order to achieve the above object, according to one aspect of the present invention,

A heat shrinking device for shrinking a retaining ring on a turbine rotor,

A rail part for mounting the conveying part on the upper part and providing a conveying path through which the conveying part can be conveyed in the horizontal direction;

A transferring part mounted on the upper part of the ringer tooth part, for transferring the ringer tooth part in one direction or the other direction;

A ringer tooth portion on which a retaining ring is seated and fixed, a ringer tooth portion mounted on the upper portion of the transfer portion and formed with a through hole having a diameter larger than an outer diameter of the turbine rotor; And

A position adjusting unit mounted on the conveying unit and adjusting positions of the ringer teeth in the up, down, left, and right directions;

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In one embodiment, the ringer teeth portion may include a side support for supporting the side of the retaining ring and a back support for supporting the back side of the retaining ring.

In this case, the rear support portion may be mounted with a support pad made of a metal material having a hardness lower than that of the material of the retaining ring, which is in contact with the rear surface of the retaining ring.

At this time, a support pad position changing unit capable of changing the position of the support pad may be mounted on the rear support unit.

In one embodiment, the heat shrinking apparatus comprises:

And a reinforcement supporting portion mounted on the conveying portion and supporting the side portion of the ringer tooth portion.

Further, in the above-described heat shrinking apparatus,

And an angle adjusting unit mounted on the transferring unit and the ringer tooth unit and the hinge structure and capable of adjusting the angle formed by the upper surface of the transfer unit and the lower surface of the ringer tooth unit.

The present invention can also provide a method for shrinking a retaining ring to a turbine rotor using the above-described heat shrinking apparatus,

According to one aspect of the present invention,

b) heating the retaining ring;

c) seating the retaining ring on the ringer tooth;

d) adjusting the position of the ringer tooth using the position adjusting unit;

e) transferring the retaining ring toward the turbine rotor using a transfer part;

f) precisely aligning the center of the retaining ring and the center of the turbine rotor using a position adjustment unit; And

g) shrinking the retaining ring to the turbine rotor using a transferring part;

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In one embodiment, the heat sinking method further comprises:

The method may further comprise the steps of: a) positioning the rail portion on one side of the turbine rotor and aligning the axial direction of the turbine rotor with the longitudinal direction of the rail portion.

In addition, in the step c), after the position of the support pad is adjusted to correspond to the diameter of the retaining ring by using the support pad position changing unit, the retaining ring is positioned in the correct position by using a crane, And holding and fixing the side surface of the retaining ring.

The step g) may further include a step of repositioning the retaining ring using the position adjusting unit.

As described above, according to the heat shrinking apparatus of the present invention, there can be provided a ringer tooth portion for stably holding and fixing the retaining ring, a position adjusting portion for precisely adjusting the position of the retaining ring, And the transferring part for transferring the heat to the rotor for heat shrinking, it is possible to stably and accurately perform the operation of shrinking the retaining ring to the turbine rotor.

In addition, according to the heat shrinking method using the heat shrinking apparatus according to the present invention, it is possible to stably and accurately perform shrinking of the retaining ring to the turbine rotor, thereby preventing defects from occurring, And as a result, the production unit cost can be lowered.

FIG. 1 and FIG. 2 are schematic side views showing a conventional shrink fitting apparatus and a shrink fitting method.
3 is a side view of a heat shrinking apparatus according to the present invention.
4 is a front view of the shrinking apparatus shown in Fig.
FIG. 5 is a side view showing a state in which a rail portion is disposed on one side of the turbine rotor of FIG. 3, the axial direction of the turbine rotor is aligned with the longitudinal direction of the rail portion, and then the retaining ring is seated on the ringer tooth portion.
6 is a flow chart illustrating a method of shrinkage according to the present invention.
FIGS. 7 to 13 are schematic side views showing a method of shrinkage according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited thereto. In the description of the present invention, a detailed description of known configurations will be omitted, and a detailed description of configurations that may unnecessarily obscure the gist of the present invention will be omitted.

FIG. 3 is a side view of a heat shrinking apparatus according to the present invention, and FIG. 4 is a front view of the shrinking apparatus shown in FIG. 5 is a side view showing a state in which the rail portion is positioned on one side of the turbine rotor of FIG. 3 and the retaining ring is seated on the ringer tooth portion after the axial direction of the turbine rotor is aligned with the longitudinal direction of the rail portion. Are shown.

Referring to these drawings, the heat shrinking apparatus 600 according to the present embodiment may be configured with a rail portion 100, a conveying portion 200, a ringer tooth portion 300, and a position adjusting portion 400.

Specifically, the rail part 100 may be a structure that mounts the conveying part 200 on the upper part and provides a conveying path through which the conveying part 200 can be conveyed in the horizontal direction.

The transfer unit 200 can mount the ringer tooth unit 300 on the upper part and mount the ringer unit 300 on the upper part of the rail part 100 to transfer the ringer tooth unit 300 in the horizontal direction.

The ringer tooth portion 300 is fixed and fixed on the retaining ring 10 and is mounted on the transfer portion 200 to be displaced so as to penetrate through a diameter D1 larger than the outer diameter D2 of the turbine rotor 700, And a sphere 330 may be formed. More specifically, the ringer tooth portion 300 may include a side support portion 320 for supporting the side surface of the retaining ring 10 and a rear surface support portion 310 for supporting the back surface of the retaining ring 10. [ have. At this time, the rear supporting part 310 contacts the rear surface of the retaining ring 10, and a supporting pad 340 made of a metal material having a hardness lower than that of the retaining ring 10 can be mounted. 4, the rear support part 310 may further include a support pad position changing part 350 capable of changing the position of the support pad 340. [

On the other hand, the position adjusting unit 400 can be mounted on the conveying unit 200 and adjust the position of the ringer tooth unit 300 in the vertical and horizontal directions.

1, the heat shrinking apparatus 600 according to the present embodiment is mounted with the conveying unit 200 and the ringer jaw unit 300 in a hinge structure, and the upper surface of the conveying unit 200, And an angle adjusting unit 500 that adjusts the angle formed by the lower surface of the base 300.

Therefore, the heat shrinking apparatus 600 including such a structure can accurately and quickly stably fix the retaining ring 10 to the turbine rotor 700 after stably seizing and fixing the retaining ring 10 to the ringer tooth portion 300 Can be performed.

1, the heat shrinking apparatus 600 according to the present embodiment is mounted on the upper portion of the conveying portion 200 and supports the side of the ringer tooth portion 300 And may further include a reinforcing support portion 360. [

FIG. 6 is a flow chart illustrating a method of heat shrinking according to the present invention. 7 to 13 are schematic side views showing a method of shrinking the heat sink according to the present invention.

Referring to these drawings, a method of shrinking the retaining ring 10 to the turbine rotor 700 using the heat shrinking apparatus 600 according to the present invention will be described.

6 and 7, the heat shrinking method according to the present embodiment is characterized in that the rail portion 100 is positioned at one side of the turbine rotor 700 so that the axial direction of the turbine rotor 700 and the rake portion (S110) aligning the longitudinal direction of the substrate 100 to be aligned.

8, heating the retaining ring 10 (S120) and heating the retaining ring 10 using a crane 20 (see FIG. 8) (Step S130) to place it on the ringer tooth part 300. More specifically, the step (S 130) of placing the heated retaining ring 10 on the ringer tooth portion 300 is performed by using the support pad position changing portion 350 so as to correspond to the diameter of the retaining ring 10 The position of the pad 340 is adjusted and then the retaining ring 10 is positioned in the correct position using the crane 20 and then the side surface of the retaining ring 10 is gripped using the side support 320 And a fixing process.

The shrinking method according to the present embodiment may include a step (S140) of adjusting the position of the ring gear tooth portion 300 using the position adjusting portion 400 as shown in FIG. At this time, the center of the retaining ring 10 is adjusted to coincide with the center of the turbine rotor 700.

The shrinking method according to the present embodiment may include a step S150 of transferring the retaining ring 10 toward the turbine rotor 700 using the transferring unit 200 as shown in FIG.

11, precisely adjusting the position of the center of the retaining ring 10 and the center of the turbine rotor 700 by using the position adjusting unit 400, as shown in FIG. 11, (S160).

The shrinking method according to the present embodiment may include a step S170 of shrinking the retaining ring 10 to the turbine rotor 700 using the transferring portion 200 as shown in Fig. 12 . At this time, step S170 of performing the heat shrinking so that the center of the retaining ring 10 can always be aligned with the center of the turbine rotor 700 is performed by using the position adjusting unit 400 to adjust the position of the retaining ring 10 It may further include a process of re-calibration.

The side support 320 of the heat shrinking apparatus 600 releases the retaining ring 10 and the movement of the feeder 200 is stopped by the movement of the conveyor 200, The turbine rotor 300 is disengaged from the turbine rotor 700.

Therefore, according to the heat shrinking apparatus according to the present embodiment, it is possible to stably maintain the position of the retainer ring in a state where the retainer ring is stably transferred to the turbine rotor And a heat transferring part for heat-shrinking the heat-resistant ring, so that the operation of shrinking the retaining ring to the turbine rotor can be performed stably, accurately, and quickly. In addition, according to the heat shrinking method using the heat shrinking apparatus according to the present invention, it is possible to stably and accurately perform shrinking of the retaining ring to the turbine rotor, thereby preventing defects from occurring, And as a result, it has a technical advantage of lowering the production cost.

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. .

10: retaining ring 20: crane
100: rail part 200: conveying part
300: ringer tooth portion 310: rear support portion
320: side support part 330:
340: Support pad 350: Support pad position changing part
400: position adjusting part 500: angle adjusting part
600: Thinning device 700: Turbine rotor
710: Retaining ring heat sink position 800: Turbine rotor support

Claims (10)

A heat shrinking apparatus (600) for shrinking a retaining ring (10) on a turbine rotor (700)
A rail part (100) which mounts the conveying part (200) on the upper part and provides a conveying path through which the conveying part (200) can be horizontally conveyed;
A transfer part 200 mounted on the upper part of the rail guide part 300 and mounted on the rail part 100 to transfer the ring guide part 300 in one direction or the other direction;
And a through hole 330 having a diameter D1 larger than an outer diameter D2 of the turbine rotor 700 is formed on the upper surface of the feeder 200. [ Teeth 300; And
A position adjusting unit 400 mounted on the transferring unit 200 and adjusting the position of the ringer tooth unit 300 in the vertical and horizontal directions;
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The ringer tooth portion 300 includes a side support portion 320 for supporting a side surface of the retaining ring 10 and a rear surface support portion 310 for supporting a rear surface of the retaining ring 10,
The rear support portion 310 is in contact with the rear surface of the retaining ring 10 and is mounted with a support pad 340 made of a metal material having a hardness lower than that of the retaining ring 10,
Wherein the rear support part (310) is provided with a support pad position changing part (350) capable of changing the position of the support pad (340).
delete delete delete The apparatus according to claim 1, wherein the heat shrinking apparatus (600)
Further comprising a reinforcing support portion (360) mounted on the conveying portion (200) and supporting a side portion of the ringer tooth portion (300).
The apparatus according to claim 1,
And an angle adjusting unit 500 mounted to the transfer unit 200 and the ringer tooth unit 300 in a hinge structure and capable of adjusting the angle formed by the upper surface of the transfer unit 200 and the lower surface of the ringer tooth unit 300 Characterized by heat shrinking device.
A method of shrinking a retaining ring to a turbine rotor using the shrinking apparatus (600) according to claim 1,
b) heating the retaining ring (10);
c) seating the retaining ring (10) on the ringer tooth portion (300);
d) adjusting the position of the ringer tooth part (300) using the position adjusting part (400);
e) transferring the retaining ring (10) to the turbine rotor (700) using the transfer part (200);
f) precisely aligning the center of the retaining ring (10) and the center of the turbine rotor (700) using the position adjustment unit (400); And
g) shrinking the retaining ring 10 to the turbine rotor 700 using the transfer unit 200;
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In the step c), the position of the support pad 340 is adjusted to correspond to the diameter of the retaining ring 10 by using the support pad position changing unit 350, and then the retaining ring 10. The method of claim 1, further comprising: positioning the retaining ring (10) by holding the side surface of the retaining ring (10) using a side support portion (320) after fixing the retaining ring (10).
The method according to claim 7,
Prior to step b), a step of positioning the rail part (100) on one side of the turbine rotor (700) and aligning the axial direction of the turbine rotor (700) and the longitudinal direction of the rail part Further comprising the steps of:
delete 8. The method of claim 7,
Wherein the step (g) further comprises a step of repositioning the retaining ring (10) using the position adjusting unit (400).

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