KR20160005446A - Combination structure of suction pipe and capillary tube and evaporator for refrigerating cycle and combination method thereof - Google Patents

Abstract

The present invention relates to a structure for coupling a refrigerator evaporator, a capillary tube, and a suction pipe and a method therefor. The inner circumference of a lock ring (R) comprises a tapered section (b) and a minimum straight section (a), wherein the tapered section (b) forms a fine angle with the minimum straight section (a). A chemical liquid sealing material (C) is applied between the inner circumference of the lock ring (R) fastened to an inlet of a contracted pipe around an inlet of a refrigerant, and the outer circumference of a capillary tube (4) fastened to the inner circumference of the lock ring (R). Moreover, the present invention can reduce manufacturing costs by simplifying the manufacturing process.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator evaporator, a capillary tube and a suction pipe,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coupling structure of an evaporator for a refrigerator, a capillary tube and a suction pipe, and a coupling method thereof, and more particularly to a coupling structure of a compressor, a condenser, a dryer, The evaporator and the suction pipe are directly connected to each other in the evaporator, the evaporator, and the suction pipe in a refrigerating device configured to circulate the evaporator, the suction pipe, and the compressor, thereby simplifying and simplifying the coupling, simplifying the manufacturing process, To a coupling structure of a capillary tube and a suction pipe, and a coupling method thereof.

Generally, the refrigeration cycle of a refrigerator includes a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5, a suction pipe 5, A suction pipe 6 and a compressor 1. The evaporator 5 is connected to a capillary tube 4 for introducing a refrigerant and is connected to a refrigerant passing through an evaporator 5, And a suction pipe (6) for discharging the water.

The capillary tube 4 and the suction pipe 6 connected to the evaporator 5 have a small diameter capillary tube 4 as shown in FIG. And the first copper (Cu) connecting pipe 7 is welded to the aluminum pipe 5a at one side of the evaporator 5 by high frequency welding And a refrigerant is drawn into the evaporator 5 through the conduit.

In addition, the discharge of the refrigerant through the evaporator 5 is also performed by connecting the second copper (Cu) connection pipe 8 coupled with the aluminum pipe 5b on the other side of the evaporator 5 by high frequency welding, The refrigerant circulates through the suction pipe (6).

Conventionally, the evaporator, the capillary tube, and the suction pipe are conventionally combined by forming separate first and second copper (Cu) connecting tubes 7 and 8, And furthermore, the silver welding process and the high-frequency welding process must be separately performed. Therefore, the manufacturing process is complicated and numerous, the workability is poor, and the manufacturing cost is increased.

Korean Patent Publication No. 1997-0009815 (published on June 18, 1997).

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide a refrigeration apparatus and a refrigeration system in which a refrigerant is compressed by a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe, The evaporator, the capillary tube, and the evaporator and the suction pipe are directly connected to each other in the refrigerating device configured to circulate the refrigerant, thereby simplifying and simplifying the coupling, The present invention provides a combined structure of a evaporator for a refrigerator, a capillary tube, and a suction pipe, and a method of combining the evaporator, the capillary tube, and the suction pipe.

In order to accomplish the object of the present invention, there is provided a refrigeration apparatus in which refrigerant is circulated by a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe and a compressor, And a capillary tube inserted into the pipe inlet of the refrigerant inlet side of the evaporator through a lock ring.

In order to achieve the object of the present invention, there is provided a second embodiment of the present invention, in which a refrigerant is circulated through a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe, The pipe inlet of the refrigerant inflow side of the evaporator and the capillary tube are combined by silver welding.

In order to accomplish the object of the present invention, there is provided a third embodiment of the present invention, in which a refrigerant is circulated through a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe, A coolant discharge side pipe of the evaporator and a suction pipe are inserted and coupled by a lock ring.

As a fourth embodiment of the present invention for achieving the object of the present invention, there is provided a refrigeration system in which refrigerant is circulated by a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe, The suction pipe of the evaporator and the suction pipe of the evaporator are combined by silver solder welding.

As a fifth embodiment for achieving the object of the present invention, there is provided a refrigeration apparatus in which refrigerant is circulated by a compressor, a condenser, a dryer, a capillary tube, an evaporator, a suction pipe and a compressor The pipe inlet of the refrigerant inflow side of the evaporator is coupled with a capillary tube by a lock ring or silver solder to form a duct to draw refrigerant. The refrigerant discharged through the evaporator flows through the evaporator And the suction pipe is coupled with the expanded joint of the discharge side pipe by a lock ring or a silver solder to form a pipe to discharge the refrigerant to circulate the refrigerant.

In order to accomplish the object of the present invention, a sixth aspect of the present invention is to provide an evaporator,

A lock ring is inserted into a capillary tube coupled with a pipe through which the refrigerant at one side of the evaporator flows,

A liquid chemical sealing material is applied to a joint portion between an inner diameter of an inlet side coupling portion of the shaft pipe and a capillary tube coupled thereto,

A coupling portion of a capillary tube is inserted into an inlet-side coupling portion of the shaft pipe,

After the jig is fixed to the lock ring, the lock ring is moved by using a hydraulic device to force-press the lock ring.

According to a seventh aspect of the present invention to achieve the above object, there is provided a refrigerating machine comprising: an outlet-side coupling portion of a pipe through which a refrigerant is discharged from a side of an evaporator;

A lock ring is inserted into a suction pipe coupled to a pipe through which the refrigerant at one side of the evaporator is discharged,

Applying a liquid chemical hermetic material to an inside diameter of an outlet-side joint portion of the expanded pipe and a joint portion of the suction pipe coupled thereto,

After inserting the joint portion of the suction pipe into the outlet side engagement portion of the expanded pipe,

After the jig is fixed to the lock ring, the lock ring is moved by using a hydraulic device to force-press the lock ring.

According to the present invention as described above, by the taper section and the minimum linear section of the lock ring, the pipe inlet of the refrigerant inlet side of the evaporator, the capillary tube of the evaporator, and the refrigerant discharge side of the evaporator By tightly fitting the expanded pipe outlet and suction pipe, it maximizes the binding force and sealing force.

In addition, the direct connection between the evaporator, the capillary tube, and the suction pipe can simplify and simplify the coupling, improve the workability, simplify the manufacturing process, and reduce the manufacturing cost.

1 is an overall schematic view of a refrigeration apparatus of a general refrigeration cycle.
2 is an exploded perspective view showing a coupling structure of a conventional evaporator, a capillary tube and a suction pipe.
3 is an exploded perspective view showing a coupling structure of an evaporator, a capillary tube and a suction pipe according to the present invention.
4 is an enlarged exploded perspective view illustrating an embodiment in which the evaporator, the capillary tube, and the suction pipe according to the present invention are coupled by a lock ring.
5 is an exploded sectional view showing a state where the evaporator, the capillary tube, and the suction pipe according to the present invention are coupled by a lock ring.
6 is an exploded sectional view showing a state where the evaporator, the capillary tube, and the suction pipe according to the present invention are coupled by a lock ring.
7 is an enlarged cross-sectional view of a lock ring coupling the evaporator, the capillary tube and the suction pipe according to the present invention.

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

The terms defined in describing the present invention are defined in consideration of functions and forms in the present invention, and should not be construed as limiting the technical elements of the present invention.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the relevant art and are not to be construed as ideal or overly formal in meaning unless expressly defined in the present application .

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

As a first embodiment for achieving the object of the present invention, a refrigerant is introduced into a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5, A refrigerant inlet pipe 100 and a capillary tube 4 of the evaporator 5 in a refrigerating apparatus configured to be circulated to a pipe (Suction Pipe) 6 and a compressor (1) Is inserted and coupled by a lock ring (R).

As shown in FIG. 7, the lock ring R is composed of a tapered section (b) whose inner diameter has a slight inclination angle with the minimum straight section (a).

The minimum straight line section a of the lock ring R is formed to be smaller than the outer diameter of the pipe inlet 100 of the evaporator 5 which is connected to the refrigerant inlet side, have.

A liquid chemical gas tightening material C is disposed between the inner diameter of the pipe inlet 100 of the evaporator 5 and the outer diameter of the capillary tube 4, Is preferably applied.

The liquid chemical gas tightening material (C) is preferably a brand and model name LOKPREP 61AL, LOKPREP 61 / S, LOKPREP 61S, LOKPREP 61 of Vulcan Corporation.

In the first embodiment of the present invention constructed as described above, the pipe inlet 100 of the refrigerant inlet side of the evaporator 5 and the capillary tube (capillary tube) of the evaporator 5 are connected by the lock ring R 4) can be strengthened and the sealing force can be maximized.

In addition, by directly connecting the evaporator and the capillary tube, the coupling can be simplified and simplified, the workability can be improved, and the manufacturing process can be simplified to reduce the manufacturing cost.

As a second embodiment for achieving the object of the present invention, a refrigerant is introduced into a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5, A pipe inlet port 100 and a capillary tube port of the evaporator 5 on the refrigerant inflow side in a refrigerating apparatus configured to be circulated to a suction pipe 6 and a compressor 1, 4) is combined with silver-alloy brazing.

That is, a capillary tube 4 is inserted into the inner diameter of the pipe inlet 100 of the evaporator 5 for the refrigerant inlet side to a length required for the coupling, Thereby sealingly engaging.

In the second embodiment of the present invention constructed as described above, the evaporator (Evaporator) and the capillary tube are directly connected to each other, thereby enhancing the sealing force, simplifying and simplifying the connection, The manufacturing process can be simplified, and the manufacturing cost can be reduced.

Next, a third embodiment of the present invention for achieving the object of the present invention will be described in detail with reference to the drawings. In the third embodiment, a refrigerant is introduced into a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5 A sucking pipe 6 and a compressor 1 in a refrigerating apparatus of a refrigerant discharge side pipe 5b of the evaporator 5, And a pipe (Suction Pipe) 6 is inserted and coupled by a lock ring (R).

A sucking pipe 6 is inserted into an inner diameter of the expanded coupling part 200 by forming an expanded coupling part 200 of the refrigerant discharge side pipe 5b of the evaporator 5, Next, insert into the lock ring (R).

The lock ring R is constituted by a tapered section b having an inner diameter smaller than the minimum straight section a and a tapered section b as described with reference to Fig. 7 in the first embodiment, The minimum linear section a of the lock ring R is configured to be smaller than the outer diameter of the expanded coupling portion 200 of the refrigerant discharge side pipe 5b of the evaporator 5, have.

In addition, between the inner diameter of the expanded coupling part 200 of the refrigerant discharge side pipe 5b of the evaporator 5 and the outer diameter of the suction pipe 6, It is preferable that the airtight material (C) is applied, and the specific liquid chemical hermetic material (C) is described in the first embodiment.

In the third embodiment of the present invention constructed as described above, the lock ring R is used to connect the refrigerant discharge side pipe 5b and the suction pipe 6 of the evaporator 5, The sealing force can be maximized.

Further, the evaporator 5 and the suction pipe 6 are directly connected to each other to simplify and simplify the connection, to improve the workability, and to simplify the manufacturing process, thereby reducing the manufacturing cost.

As a fourth embodiment of the present invention for achieving the object of the present invention, a refrigerant is introduced into a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5, A refrigerant discharge side pipe 5b and a suction pipe 6 of the evaporator 5 are connected to a suction pipe 6a and a compressor 1, Welded together.

That is, a Suction Pipe 6 is inserted into the inner diameter of the expanded coupling portion 200 of the refrigerant discharge side pipe 5b of the evaporator 6 for a length required for coupling, Welded by silver solder and sealed.

According to the fourth embodiment of the present invention configured as described above, the evaporator (Evaporator) and the suction pipe are directly connected to each other without requiring a separate connection pipe, thereby increasing the sealing force, simplifying and simplifying the connection, And manufacturing cost can be reduced by simplifying the manufacturing process.

In order to achieve the object of the present invention, as a fifth embodiment, a refrigerant is introduced into a compressor 1, a condenser 2, a dryer 3, a capillary tube 4, an evaporator 5, A refrigerant inlet pipe 100 and a capillary tube 4 of the evaporator 5 in a refrigerating apparatus configured to be circulated to a pipe (Suction Pipe) 6 and a compressor (1) Is connected with a lock ring (R) or silver soldering to form a channel to draw refrigerant and the refrigerant discharge through the evaporator (5) (200) and a suction pipe (6) are connected by a lock ring (R) or silver soldering to form a duct to discharge the refrigerant, thereby circulating the refrigerant.

The lock ring R is composed of a taper section b having an inner diameter smaller than the minimum linear section a and a taper section b having a small inclination angle. The minimum straight line section a of the lock ring R, Is configured to be smaller than the outer diameter of the expanded joint portion 200 of the refrigerant outlet side pipe 100 of the evaporator 5 and the expanded connection portion 200 of the refrigerant discharge side pipe 5b of the evaporator 5 .

A liquid chemical gas tightening material C is disposed between the inner diameter of the pipe inlet 100 of the evaporator 5 and the outer diameter of the capillary tube 4, And between the inner diameter of the expanded coupling portion 200 of the refrigerant discharge side pipe 5b of the evaporator 5 and the outer diameter of the suction pipe 6 held by the expanded coupling portion 200, C) is applied to maximize the sealing force.

In the fifth embodiment of the present invention constructed as described above, the taper section (b) and the minimum linear section (a) of the lock ring (R) And the expanded joint portion 200 and the suction pipe 6 of the refrigerant discharge side pipe 5b of the inlet 100, the capillary tube 4 and the evaporator 5 By tightly fitting, the bonding force and the sealing force are maximized.

In addition, the direct connection between the evaporator, the capillary tube, and the suction pipe can simplify and simplify the coupling, improve the workability, simplify the manufacturing process, and reduce the manufacturing cost.

Next, as a sixth embodiment for accomplishing the object of the present invention, a method for assembling an evaporator for a refrigerator and a capillary tube will be described.

First, a fixing jig 300 is mounted on one side of the inlet-side connecting portion of the pipe 5a into which the refrigerant flows at one side of the evaporator 5 and at one side of the connecting portion.

Second Step-A capillary tube 4 coupled with a pipe 5a into which the refrigerant flows at one side of the evaporator 5 is provided with a lock ring R .

The lock ring R is composed of a tapered section b having an inner diameter smaller than the minimum straight section a and a tapered section b as in the first embodiment, The minimum linear section a of the evaporator 5 is formed to be smaller than the outer diameter of the pipe inlet 100 of the evaporator 5 on the refrigerant inflow side and the material thereof is aluminum.

Step 3 - The liquid chemical sealant (C) is applied to the inner diameter of the joint portion of the shaft-pipe inlet (100) and the outer diameter of the joint portion of the capillary tube (4)

It is preferable to use the brand and model names of LOKPREP 61AL, LOKPREP 61 / S, LOKPREP 61S and LOKPREP 61 of the German Vulcan Company as shown in the first embodiment.

Step 4-Insert the capillary tube 4 into the inner diameter of the shaft-pipe inlet 100 by a length sufficient to engage the capillary tube 4,

After the jig 400 is coupled to the lock ring R, the lock ring R is moved toward the coupling portion using a hydraulic device (not shown), and the lock ring R is forcibly press- 6).

In this case, since the lock ring R is composed of the tapered section b having an inner diameter of a minimum linear section a and a tapered section b having a minute tilt angle, the lock ring R is firmly fixed, Since the fitting is performed, the sealing force and the binding force are maximized.

According to the method of the present invention, the manufacturing process is very simple, and an evaporator (evaporator) and a capillary tube are directly connected to each other without requiring a separate connecting pipe, thereby reducing the number of components and enhancing sealing force and adhesion force It is possible to simplify the joining and to improve the workability and reduce the manufacturing cost.

Next, as a seventh embodiment for achieving the object of the present invention, a method for assembling a refrigerator evaporator and a suction pipe will be described.

Step 1 - The outlet side coupling portion of the pipe 5b through which the refrigerant at one side of the evaporator 5 is discharged is expanded and the fixing jig 300a is mounted to one side of the coupling portion.

Step 2 - A lock ring R having an improved external shape is inserted into the suction pipe 6 coupled with the pipe 5b through which the refrigerant at one side of the evaporator 5 is discharged.

The lock ring R is composed of a tapered section b having an inner diameter smaller than the minimum straight section a and a taper section b as in the third embodiment. The minimum linear section a of the evaporator 5 is configured to be smaller than the outer diameter of the expanded coupling portion 200 of the refrigerant discharge side pipe 5b of the evaporator 5 and the material thereof is aluminum.

Step 3 - The liquid chemical sealant (C) is applied to the inner diameter of the expanded coupling part (200) of the refrigerant discharge side pipe (5b) and the outer diameter of the joint part of the suction pipe (6)

It is preferable to use the brand and model names of LOKPREP 61AL, LOKPREP 61 / S, LOKPREP 61S and LOKPREP 61 of the German Vulcan Company as shown in the first embodiment.

Step 4-Insertion of the suction pipe 6 into the inner diameter of the expanded coupling part 200 of the refrigerant discharge side pipe 5b,

After the jig 400a is fastened to the lock ring R, the lock ring R is moved toward the coupling portion by using a hydraulic device (not shown), and the lock ring R is forcibly press-fitted.

In this case, since the lock ring R is composed of the tapered section b having an inner diameter of a minimum linear section a and a tapered section b having a minute tilt angle, the lock ring R is firmly fixed, Since the fitting is performed, the sealing force and the binding force are maximized.

The joining method of the present invention as described above is very simple and requires no separate connection pipe, thereby connecting the evaporator and the suction pipe directly, thereby reducing the number of parts, increasing the sealing force and the coupling force, The workability can be improved and the manufacturing cost can be reduced.

1: compressor 2: condenser
3: dryer 4: capillary tube
5: Evaporator 6: Suction pipe
5a: pipe through which refrigerant flows 5b: pipe through which refrigerant is discharged
100: inlet pipe inlet of coolant inlet pipe
200:
300, 300a: Fixing jig 400, 400a:
R: Lock ring
a: minimum straight line section b: taper section

Claims (6)

The pipe inlet 100 and the capillary tube 4 of the evaporator 5 on the refrigerant inflow side are inserted and coupled by a lock ring R,
The lock ring R is composed of a tapered section b whose inner diameter has a small slope angle with the minimum straight section a,
A liquid chemical gas tightening material C is disposed between the inner diameter of the pipe inlet 100 of the evaporator 5 and the outer diameter of the capillary tube 4, Wherein the evaporator for the refrigerator and the capillary tube are combined. The refrigerant discharge side pipe 5b and the suction pipe 6 of the evaporator 5 are inserted and coupled by a lock ring R,
The lock ring R is composed of a tapered section b whose inner diameter has a small slope angle with the minimum straight section a,
The liquid chemical sealing material C is applied between the inner diameter of the expanded coupling part 200 of the refrigerant discharge side pipe 5b of the evaporator 5 and the outer diameter of the suction pipe 6 The structure of the evaporator for the refrigerator and the suction pipe. The refrigerant is introduced into the compressor 1 through the condenser 2, the drier 3, the capillary tube 4, the evaporator 5, the suction pipe 6 and the compressor 1, And a refrigerating device,
A pipeline inlet 100 and a capillary tube 4 of the evaporator 5 are connected by a lock ring R to form a pipeline to draw refrigerant ,
The refrigerant discharge through the evaporator 5 is performed by coupling the expanded coupling portion 200 of the discharge side pipe 5b of the evaporator 5 and the suction pipe 6 with the lock ring R A channel is formed to discharge the refrigerant,
The lock ring R is composed of a taper section b having an inner diameter smaller than the minimum linear section a and a taper section b having a small inclination angle. The minimum straight line section a of the lock ring R, Is configured to be smaller than the outer diameter of the expanded joint portion (200) of the pipe inlet (100) of the refrigerant inlet side of the evaporator (5) and the refrigerant discharge side pipe (5b) of the evaporator (5)
A liquid chemical gas tightening material C is disposed between the inner diameter of the pipe inlet 100 of the evaporator 5 and the outer diameter of the capillary tube 4, Lt; / RTI >
The liquid chemical sealing material C is applied between the inner diameter of the expanded coupling part 200 of the refrigerant discharge side pipe 5b of the evaporator 5 and the outer diameter of the suction pipe 6 bound thereto, Wherein the evaporator for refrigerator, the capillary tube, and the suction pipe are combined. The refrigerant is introduced into the compressor 1 through the condenser 2, the drier 3, the capillary tube 4, the evaporator 5, the suction pipe 6 and the compressor 1, And a refrigerating device,
The pipe inlet 100 and the capillary tube 4 of the evaporator 5 are connected by silver wire welding to form a pipeline to draw the refrigerant into the evaporator 5, The refrigerant discharged from the evaporator 5 is connected to the suction pipe 6 through a connection part 200 of the pipe 5b on the discharge side of the evaporator 5 to form a duct to discharge the refrigerant A combination of a capillary tube and a suction pipe. A first step of housing the inlet side connection portion of the pipe 5a into which the refrigerant flows at one side of the evaporator 5 and mounting the fixing jig 300 to one side of the connection portion,
A lock ring R having an improved external shape is inserted into a capillary tube 4 coupled to a pipe 5a through which the refrigerant at one side of the evaporator 5 flows, The lock ring R is constituted by a taper section b having an inner diameter smaller than the minimum linear section a and a taper section b having a small inclination angle. The minimum straight section a of the lock ring R The second step being configured to be smaller than the bound outer diameter of the pipe inlet 100 of the refrigerant inlet side of the evaporator 5,
A third step of applying a liquid chemical sealant (C) to an inner diameter of a joint portion of an inlet (100) of the shaft pipe and an outer diameter of a joint portion of a capillary tube (4)
Step 4-Insert the capillary tube 4 into the inner diameter coupling portion of the shaft-pipe inlet 100 by a coupling length of the capillary tube 4,
After the jig 400 is coupled to the lock ring R, the lock ring R is moved toward the coupling portion by using a hydraulic device (not shown) Wherein the coupling portion is tightly coupled at the minimum straight section (a) of the lock ring (R). A first step of expanding the outlet side coupling portion of the pipe 5b through which the refrigerant at one side of the evaporator 1 is discharged and mounting the fixing jig 300a at one side of the coupling portion,
A lock ring R having an improved external shape is inserted into a suction pipe 6 coupled to a pipe 5b through which the refrigerant at one side of the evaporator 5 is discharged,
The lock ring R is composed of a taper section b having an inner diameter smaller than the minimum linear section a and a taper section b having a small inclination angle. The minimum straight line section a of the lock ring R, Is configured to be smaller than the outer diameter of the expanded coupling portion (200) of the refrigerant discharge side pipe (5b) of the evaporator (5)
A third step of applying a liquid chemical sealant (C) to an inside diameter of the expanded joint part (200) of the refrigerant discharge side pipe (5b) and an outer diameter of a joint part of the suction pipe (6)
The coupling portion of the suction pipe 6 is inserted into the inner diameter of the expanded coupling portion 200 of the refrigerant discharge side pipe 5b,
After the jig 400a is coupled to the lock ring R, the lock ring R is moved toward the coupling portion using a hydraulic device (not shown) Wherein the joining portion is coupled in a minimum linear region (a) of the lock ring (R) by interference fit.

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