KR200480461Y1 - Expansion joint having rotation and slip function - Google Patents

Abstract

The present invention relates to a pressure-resistant joint pipe capable of rotating and slipping, and more particularly, to a joint pipe for piping that performs expansion, contraction, and pivoting motion. The ball housing, To a pressure-resistant joint pipe capable of improving the assemblability and the workability by reducing the volume and weight, reducing the manufacturing cost, and improving the durability and the merchantability by improving the airtightness.
A pressure-resistant joint pipe capable of rotating and slipping according to the present invention is a pressure-resistant joint pipe capable of rotating and slipping, comprising: a pipe-shaped outer pipe disposed at one side; A ball housing coupled to one end of the outer tube; A ball body having an outer surface closely attached to an inner surface of the ball housing and having a sliding hole formed therein; And an inner tube slidably inserted into the sliding hole of the ball body, wherein the ball housing is coupled to an end of the outer tube and has a first ball seating surface formed on an inner surface thereof, And a first airtight member insertion groove into which the first airtight member is inserted is inserted into the first ball receiving surface, and a plurality of vertical engagement grooves are formed in the center direction along the circumference of the first horizontal engagement groove And a second ball receiving surface is formed on the other side of the inner surface of the ball housing and a second ball receiving surface is formed on the other side of the inner surface of the ball housing, And a housing fixing member which is divided into a second ball housing through which the vertical fastening holes are inserted so as to correspond to the grooves, and which is inserted and coupled to the vertical fastening holes and the vertical fastening holes in the center direction.

Description

EXPANSION JOINT HAVING ROTATION AND SLIP FUNCTION "

The present invention relates to a pressure-resistant joint pipe capable of rotating and slipping, and more particularly, to a joint pipe for piping that performs expansion, contraction, and pivoting motion. The ball housing, To a pressure-resistant joint pipe capable of improving the assemblability and the workability by reducing the volume and weight, reducing the manufacturing cost, and improving the durability and the merchantability by improving the airtightness.

Generally, a piping for transporting liquid and gas has internal factors such as the temperature and pressure of the fluid flowing into the inside of the transporting fluid itself, and the temperature, pressure, and load in the atmosphere, underground and underwater, Such as thermal linear expansion and contraction movement, turning movement, etc., are performed.

For example, an insulating double tube for transferring hot water or steam produced from a facility such as a cogeneration power plant or an energy integrated management facility is buried in the ground. Even if it receives a deforming force due to expansion due to high temperature heat and settlement of ground, In order to alleviate this problem, a flexible joint device for a buried insulated double pipe as disclosed in Korean Patent Registration No. 10-0816716 is installed at a certain distance.

In the pipe, a ball joint device is installed and used as a device for absorbing the turning motion. As such a ball joint device, a magnetic injection ball joint device (see FIG. 1) as disclosed in Korean Registered Utility Model Registration No. 20-0129750 (Registered Date: Aug. 22, 1998) has been developed and used.

On the other hand, Korean Registered Utility Model Registration No. 20-0165085 discloses a slip / ball composite joint device capable of simultaneously performing the functions of the above-mentioned registered patent registration No. 10-0816716 and Registration Model Registration No. 20-0129750 .

As shown in FIG. 2, the slip / ball complex joint apparatus according to the present invention includes a spherical tube 20 inserted and rotated in an outer tube 10, And a slip pipe 30 slidably inserted and fixed.

One end of the outer tube 10 is provided with a retainer 11 in which a ball 21 of a spherical tube 20 is swiveled at a predetermined angle and is rotatably mounted. A packing space X is formed between the outer circumferential surface of the ball portion 21 and the inner circumferential surface of the retainer 11 and the front and rear portions of the ball portion 21 are provided with inner and outer airtight airtightness members 40, The first regulating rings 50 and 51 are interposed. A packing material 60 is filled in the packing space X and a packing cylinder 12 for packing the packing material 60 from the outside is attached to the retainer 11 part.

Although the slip / ball composite joint apparatus according to the above-mentioned registration model designation No. 20-0165085 has an advantage that the slip movement and the pivotal motion of the pipe can be performed, the packing material 60 filled in the packing cylinder 12 is maintained at a constant time It will disappear when it elapses, so there is a disadvantage that repetitive replenishment is necessary.

As a technique capable of solving the disadvantage of the registered utility model registration No. 20-0165085, Korean Registered Patent Publication No. 10-1049055 discloses a pressure-resistant ball / slip composite coupling pipe.

3, the stopper 141, the spherical tube 2, the first and second watertight packing members 23 and 24, The third watertight packing member 25, the large-diameter pipe 3, the ball packing 33, the packing socket 4, and the slip packing 42.

The sliding tubular body 1 has a tubular shape and is formed with a sliding outer circumferential surface 11 on one side and a flange 12 for connecting a tube on the other side and a protruding prong 13 at a substantially middle portion on the sliding outer circumferential surface A stopper mounting hole 14 is formed at an end of the sliding outer circumferential surface 11 and a stopper 141 is mounted on the end surface of the sliding outer circumferential surface 11. A fastening hole 121 may be formed in the flange portion 12.

The spherical tube 2 is provided with a sliding inner circumferential surface 22 slidably coupled to the sliding outer circumferential surface 11 of the sliding tube body 1 and a ring-shaped first packing groove A second packing groove 223 in the form of a ring is formed between the first watertight packing grooves 221 and 222 and the sliding inner circumferential surface 22 is formed in a cylindrical shape And the outer circumferential surface of a part of the circumferential main surface of the cylindrical main surface forms the spherical body 21. The first and second watertight packing members 23 and 24 are mounted on the first packing grooves 221 and 222 and the third watertight packing member 25 is mounted on the second packing groove 223 . The first packing grooves 221 and 222 are respectively formed on the inner circumferential surface for sliding before and after the first low-pressure inserts 23 and 24 in the form of a ring. The first packing grooves 221 and 222 222 are fitted with a third watertight packing member 25 in the ring-shaped second packing groove 223.

The large-diameter tube 3 has a diameter equal to that of the sliding tube body and forms a connecting flange, and is connected to a reducer 314 formed at a small diameter portion (not shown) forming the flange The large diameter portion 31 and the other side of the large diameter portion 31 constitute a welding end portion 313 and form the vertical surface portion 321 to form a plurality of fastening holes 322. The inner bottom portion has a contact surface 323 And a slip housing 32 which forms a packing groove 324 at a predetermined position and covers a part of the outer circumferential surface of the spherical tube 2 so as to be in close contact with, A ball packing 33 is inserted into the packing groove 324.

The packing socket 4 is formed with a fastening hole 41 corresponding to the fastening hole 322 of the vertical surface 321 of the slip housing 32 and the inner bottom portion is formed so as to cover a part of the remaining outer circumferential surface of the spherical tube 2 And a packing groove 411 may be formed on the inner circumferential surface. A slip packing 42 is inserted into the packing groove 411 and a fastening bolt 43 is inserted into the fastening hole 41.

Although the pressure-resistant ball / slip composite joint pipe according to the above-mentioned Japanese Patent No. 10-1049055 does not need to fill the packing material, it is advantageous to solve the disadvantages of the registered utility model No. 20-0165085, .

First, the above-mentioned Japanese Patent Application No. 10-1049055 discloses a structure in which a packing socket 4 is fastened to a vertical face portion 321 of a slip housing 32 surrounding a sphere 21 by a plurality of fastening bolts 43, The outer diameter of the slip housing 32 must be larger than the outer diameter of the large diameter portion 31 due to the diameter of the fastening bolt fastened in the horizontal direction and securing of the fastening space. If the outer diameter of the slip housing 32 is increased as described above, it is necessary to use a round bar having a large outer diameter, which increases the manufacturing cost due to an increase in the required amount of the metal material. When the outer diameter of the slip housing 32 is increased, the weight of the slip housing 32 is increased and the load is applied to the ball 21 in a state of being built. Therefore, a rotational force is applied at no load, resulting in durability deterioration in the long term. Further, if the outer diameter of the slip housing 32 is increased and protruded to the outside, the slip housing 32 may cause interference with the adjacent pipe at the time of construction, resulting in deterioration in workability and inconvenience in manufacturing, loading, .

Second, the above-mentioned Japanese Patent Application No. 10-1049055 discloses that a plurality of fastening bolts 43 are provided in the horizontal direction, which is the longitudinal direction of the joint pipe, for fastening the packing socket 4 to the vertical face portion 321 of the slip housing 32 It is difficult to perform the fastening operation due to interference and requires a lot of assembly time, so that the productivity is lowered. Further, the fastening tool is in contact with the extending projection of the spherical tube 2 on which the sliding inner circumferential surface 22 is formed, which causes interference.

Third, since the ball packing 33 for watertight sealing is installed only in the slip housing 32 in a single structure, the above-described Japanese Patent Application No. 10-1049055 has a limitation in that leakage of water to the surface of the spherical body 21 can not be completely blocked.

Fourth, the spherical tube 2 of the above-mentioned Japanese Patent No. 10-1049055 is composed of a spherical body 21 and an extending protruding portion having a sliding inner circumferential surface 22 formed on one side of the spherical body 21, 22 are formed are brought into contact with the protruded shoulder portions 13 at the time of slipping back (sliding), the backward moving distance is short and the length of the sliding tube body 1 is unnecessarily long in order to satisfy a sufficient slip distance There is a disadvantage that the merchantability is lowered due to the increase of the size and weight of the product and the manufacturing cost is increased due to the increase of the amount of the required material.

Fifth, the above-mentioned Japanese Patent No. 10-1049055 discloses that when the two metal surfaces are in surface contact with each other, the vertical surface portion 321 of the slip housing 32 and the vertical surface portion of the packing socket 4 are in surface contact with each other, There is a limit point which causes leakage of the internal fluid because it can not be completely secured.

In addition, the above-mentioned Japanese Patent No. 10-1049055 discloses that the first and second watertight packing members 23 and 24, which are the packing for slip, are provided on both sides of the inner circumferential surface of the spherical tube 2, Tightness of the spherical tube 2 and the sliding tube body 1 can not be completely ensured because the third watertight packing member 25 is provided at the center of the inner peripheral surface with a single structure.

The present invention has been proposed in view of the above-mentioned contents. The ball housing surrounding the inner ball body for performing the swing motion does not protrude to the outside, so that the structure is simple, simple, and volume and weight are reduced, And it is an object of the present invention to provide a pressure-resistant joint pipe capable of rotating and slipping to reduce manufacturing costs.

Another object of the present invention is to provide a pressure-resistant joint pipe capable of rotating and slipping to improve durability and merchantability by simplifying the structure and improving the airtightness.

To achieve the above object, a pressure-resistant joint pipe capable of rotating and slipping according to the present invention is a pressure-resistant joint pipe capable of rotating and slipping, comprising: a pipe-shaped outer pipe disposed at one side; A ball housing coupled to one end of the outer tube; A ball body having an outer surface closely attached to an inner surface of the ball housing and having a sliding hole formed therein; And an inner tube slidably inserted into the sliding hole of the ball body, wherein the ball housing is coupled to an end of the outer tube and has a first ball seating surface formed on an inner surface thereof, And a first airtight member insertion groove into which the first airtight member is inserted is inserted into the first ball receiving surface, and a plurality of vertical engagement grooves are formed in the center direction along the circumference of the first horizontal engagement groove And a second ball receiving surface is formed on the other side of the inner surface of the ball housing and a second ball receiving surface is formed on the other side of the inner surface of the ball housing, And a housing fixing member which is divided into a second ball housing through which the vertical fastening holes are inserted so as to correspond to the grooves, and which is inserted and coupled to the vertical fastening holes and the vertical fastening holes in the center direction.

Wherein the first ball housing and the second ball housing are formed of a ring-shaped member having the same outer diameter as the outer tube, and a second air tightness is provided to maintain airtightness at a junction between the first ball housing and the second ball housing Member may be further provided.

In addition, a fifth airtight member insertion groove into which the third airtight member is inserted is inserted into the second ball receiving surface of the second ball housing, and the second airtight member is formed at the contact portion of the first and second ball housings And a third airtight member insertion groove which is recessed in the vertical contact surface of the first horizontal engagement groove or the vertical contact surface of the second horizontal engagement groove for the installation of the second airtight member.

A second airtight member insertion groove may be provided in the inner surface of the first ball housing so that the second airtight member is installed.

The first slip packing groove and the second slip packing groove are formed on one side and the other side of the inner circumferential surface of the sliding hole, and the first slip packing groove and the second slip packing groove are formed on the outer surface of the body through which the slip- A sixth gas tight member insertion groove recessed inwardly in contact with the first slip packing groove and a seventh gas tight member insertion groove recessed inwardly in contact with the second slip packing groove are formed, A first slip packing and a second slip packing inserted in the second slip packing groove for guiding smooth sliding movement and a fourth gasket inserted in the sixth hermetic member insertion groove and the seventh hermetic member insertion groove to maintain the airtightness, Member and a fifth gas tight member may be provided.

Preferably, a release preventing member is provided at one end of the inner tube inserted into the outer tube, a connecting flange is connected to the outer tube and the other end of the inner tube, and the first hermetic member, The second airtight member and the third airtight member are formed of an O-ring to maintain airtightness, and the fourth and fifth airtight members are formed of a packing having a sectional shape of '⊃' The housing fixing member may be composed of a set screw having a length that is not exposed to the outer surface of the second ball housing in the engaged state.

According to the present invention, the ball housing can be separated into the first and second ball housings so that the ball body can be inserted, and the outer diameter of the first and second ball housings is larger than that of the outer tube So that it has various advantages and effects.

First, since the ball housing can be machined using a round bar having a small outer diameter at the time of machining the ball housing, the manufacturing cost can be reduced because the material cost can be reduced, the processing can be simplified, and the processing cost can be reduced. Second, since the weight of the ball housing is reduced due to the decrease of the outer diameter of the ball housing, no load is applied to the central portion of the joint pipe. Thus, unnecessary swinging motion is prevented in advance. Third, since the outer diameter of the ball housing is reduced, it is possible to prevent interference with other adjacent pipes at the time of construction, thereby improving the workability. Fourth, since the ball housing has the same outer diameter as the outer tube, there is an advantage that convenience in manufacturing, loading, moving, handling and installation is improved. Fifth, since the first and second ball housings are fastened in the vertical direction, which is a direction orthogonal to the longitudinal direction, compared with the conventional fastening method in the horizontal direction, the assemblability is improved and the productivity is improved. There is an advantage to be able to perform.

According to the inventive pressure-resistant joint pipe capable of rotating and slipping according to the present invention, the slip distance of the inner tube can be increased because it is formed as a ring-shaped member having no separate extension protrusion in the ball body, The manufacturing cost can be reduced, and the size and weight of the product can be reduced, thereby improving the merchantability.

In addition, according to the inventive pressure-resistant joint pipe capable of rotating and slipping according to the present invention, a separate second airtight member is provided at a contact portion of the first and second ball housings to improve airtightness between the second ball housing and the outside, The airtightness of the contact portion between the first and second ball housings is improved, thereby improving airtightness. In addition, since the airtightness is weakened due to frequent translational motion, a plurality of airtight members are mounted on the contact portion between the ball and the inner tube, thereby improving airtightness.

1 to 3 are views for explaining a conventional joint pipe,
4 is a perspective view showing a pressure-resistant joint pipe capable of rotating and slipping according to one embodiment of the present invention;
5 is an exploded perspective view showing a pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention;
6 is a sectional view showing a pressure-resistant joint pipe capable of rotating and slipping according to one embodiment of the present invention;
7 is a sectional view showing a first modified example of a pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention;
8A and 8B are views for explaining a second modification of the pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention, wherein FIG. 8A is an exploded perspective view and FIG. 8B is a cross-sectional view.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIGS. 4 to 8B, and the same reference numerals are given to the same constituent elements in FIGS. 4 to 8B. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. In the drawings, reference numerals 312 and 322 denote the first horizontal coupling groove 312 and the second horizontal coupling groove 322 in consideration of the fact that they are recessed in the horizontal direction in parallel with the longitudinal direction of the pressure- .

FIG. 4 is a perspective view showing a pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention, FIG. 5 is an exploded perspective view showing a pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention, and FIG. 6 is a sectional view showing a pressure-resistant joint pipe capable of rotating and slipping according to one embodiment of the present invention.

Referring to FIGS. 4 to 6, the pressure-resistant joint pipe capable of rotating and slipping according to one embodiment of the present invention has a function of changing the temperature, pressure, etc. of fluid flowing into a pipe (not shown) An inner tube 2, a ball housing 3, and a ball body 4 as conduction joints for piping capable of simultaneously performing expansion, contraction, and pivotal motion, which are caused by changes in pressure, The ball housing 3 is divided into a first ball housing 31 and a second ball housing 32 and is fixed to a housing fixing the first and second ball housings 31 and 32 to each other. A member 5 is constituted.

The outer tube 1 is a cylindrical member having a substantially pipe shape, and a ball housing 3, which will be described later, is coupled by a welding method, and a reducer 12 having a reduced diameter is coupled to the other end, And a connection flange 13 for connection with a pipe adjacent to the end of the ducer 12 is coupled.

The inner tube 2 is a cylindrical member having a diameter smaller than that of the outer tube 1 so that the inner tube 2 can be moved to the inside of the outer tube 1 and is provided with a release preventing member 22 at one end, And a connection flange 23 for connection with the piping.

The inner tube 2 has a slip surface 24 on which an outer peripheral surface of the inner tube 2 slidably slides and a coupling hole 25 in which the separation preventing member 22 is provided at one end is inserted in the circumferential direction As shown in FIG.

The release preventing member 22 provided in the inner tube 2 performs a stopping operation so that the ball body 4 is not released when the outer tube 1 or the inner tube 2 expands and contracts. (A hexagon socket head bolt) in the present embodiment. However, a bushing having a threaded portion formed on an inner circumferential surface of the bushing (not shown in the drawing) may be used as a stopper pin for separating the outer tube 1 and the inner tube 2 from each other. And a time-out period.

On the other hand, the ball housing 3 is a component that is coupled to one end of the outer tube 1 and supports the ball body 4 positioned therein so as to enable the ball body 4 to pivot. When the ball body 4 is assembled The first ball housing 31 and the second ball housing 32 are separately formed so as to be inserted into the first ball housing 31 and the second ball housing 32, respectively.

Particularly, in order to solve the conventional problem caused by protrusion of the ball housing 3 in the outer direction (outer diameter direction), the first ball housing 31 and the second ball housing 32 are formed to have an outer diameter Shaped member having the same outer diameter, and the detailed structure thereof is characterized in that it can be fastened and fixed to each other in the vertical direction in consideration of the assembling property and the productivity by the housing fixing member 5.

More specifically, the first ball housing 31 has a body formed of a ring-shaped member, which is welded to an end of the outer tube 1, and a first ball receiving surface 311 having an arc shape is formed on the inner surface thereof And a first airtight member insertion groove 313 into which the first airtightness member 81 described later is inserted is inserted into the first ball seating surface 311, A plurality of vertical coupling grooves 314 are formed in the center direction along the periphery of the first horizontal coupling groove 312.

The second ball housing 32 includes a second ball receiving surface 321 formed on the other side of the inner surface of the body formed by the ring-shaped member, and a second horizontal receiving groove 322 formed on one side of the inner surface of the second ball housing 32, And the vertical coupling hole 323 is penetrated through the second horizontal coupling groove 322 so as to correspond to the vertical coupling groove 314.

The housing fixing member 5 is a component that is fastened to the vertical coupling groove 314 and the vertical coupling hole 323 to fix the first and second ball housings 31 and 32 to each other. 2 ball housing 32 as shown in FIG. To this end, the housing fixing member 5 is composed of a set screw having a length smaller than or equal to the distance between the depth of the vertical fastening groove 314 and the depth of the vertical fastening hole 323. The set screw is generally referred to as a setscrew or a macro bolt. The set screw is a bolt without a head formed thereon. The set screw means a fastening member into which a wrench for insertion of a fastening tool is inserted.

The ball body 4 is a ring-shaped member having an outer surface closely attached to the inner surface of the ball housing 3 and a sliding hole 41 penetrating the inner surface of the ball housing 3 in the forward and rearward directions. The outer surface of the ring- The first slip packing grooves 43 and the second slip packing grooves 44 are formed at one side and the other side of the inner circumferential surface of the sliding hole 41. The first slip packing grooves 43, And a seventh hermetic member insertion groove 46 is formed on the inner side in contact with the second slip packing groove 44. [

The first slip packing 86 and the second slip packing 87 are formed in the first slip packing groove 43 and the second slip packing groove 44 so as to smoothly slide the inner tube 2. [ The fourth airtight member insertion groove 45 and the seventh airtight member insertion groove 46 are provided with the fourth airtight member 84 and the fourth airtight member insertion groove 46 in order to maintain the airtightness in the sliding process of the inner tube 1, 5 airtight member 85 is inserted.

In addition, the first hermetic member 81 is formed of an O-ring so as to maintain airtightness, and the fourth and fifth hermetic members 84 and 85 are formed of a ring-shaped packing, Shaped structure having sufficient durability even when it is moved.

Hereinafter, the operation of the pressure-resistant joint pipe capable of rotating and slipping according to one embodiment of the present invention will be briefly described.

4 and 6, a pipe (not shown) is connected to the connection flange 13 of the outer pipe 1, and a pipe (not shown) is connected to the connection pipe 13 of the inner pipe 2, When the temperature of the fluid flowing into the pipe increases in the state where the pipe (not shown) is connected to the connection flange 23 of the inner pipe 2 and the outer pipe 1 ).

When the displacement force acts on the inner tube 2 and the outer tube 1, the inner tube 2 is moved to the inside of the outer tube 1 in a form similar to the piston movement. At this time, The first slip packing 86 and the second slip packing 87 inserted into the first slip packing groove 43 and the second slip packing groove 44 and the slip face 24 of the inner pipe 2, And the fourth hermetic member 84 and the fifth hermetic member 85 are successively disposed between the first slip packing 46 and the second slip packing 47 So that the airtight action of the contact portion between the ball body 4 and the inner tube 2 is performed through the first and second orders. Since the first hermetic member 81 is provided on the curved surface 42 formed on the ball body 4, the air tightness between the ball body 4 and the ball housing 3 is performed.

On the other hand, when the temperature of the fluid flowing into the pipe is lowered and the pipe is contracted, the shrinking displacement force is transmitted to the inner pipe 2 and the outer pipe 1 and is slid in the reverse direction with respect to the moving direction described above. The first slip packing 46 and the second slip packing 47 are guided by the sliding movement and the first hermetic member 81, the fourth hermetic member 84 and the fifth hermetic member 85 are hermetically sealed .

When the swirling force acts on the inner pipe 2 or the outer pipe 1 due to a change in the temperature and pressure of the fluid flowing into the pipe and changes in temperature, pressure, load, etc. outside the pipe, The fourth airtightness member 84 and the fifth airtightness member 85 are in contact with the inner surface of the first ball housing 31 while the curved surface 42 of the first airtightness member 84 is in close contact with the inner surface of the first ball housing 31. [ ) Performs the airtight action in the same manner as described above, so that the swirling motion can be stably performed without leakage.

Hereinafter, a modified example of the pressure-resistant joint pipe capable of slipping according to the present invention will be described, and a description of components similar to those shown in the first embodiment will be omitted, do.

7 is a cross-sectional view showing a first modified example of a pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention.

Referring to FIG. 7, a pressure-resistant joint pipe capable of rotating and slipping according to the first modification includes an outer pipe 1, an inner pipe 2, a first ball housing 31 and a second ball housing 32 And a housing fixing member 5 for fixing the first and second ball housings to each other. The first ball housing 31 and the second ball housing 32, The second hermetic member 82 is provided to maintain the airtightness at the joint portion of the second airtight member 82.

The first ball housing 31 is formed with a structure in which the second airtight member insertion groove 316 is recessed at the inner surface end portion adjacent to the inner surface of the second ball housing 32 so that the second airtightness member 82 is installed have. At this time, the second hermetic member 82 is formed as an O-ring so as to maintain airtightness.

In the pressure-resistant joint pipe capable of rotating and slipping according to the first modification, the second airtight member insertion groove 316 is formed in the first ball housing 31 for the installation of the second airtightness member 82 however, a separate second airtight member inserted without forming a separate groove, such as groove, and the second to form the airtight member 82 in a ring having a cross-section of 'ㅗ "shaped first and second ball housing ( 31 and 32, respectively.

In the pressure-resistant joint pipe capable of rotating and slipping according to the first modification as described above, since the second hermetic member 82 is embedded in the inner surface of the first ball housing 31, And leakage between the leakage of the second ball housing 32 to the inner surface and the engagement of the first and second ball housings 31 and 32 (the gap between the vertical contact surfaces 312a and 322a) It is possible to maintain the airtightness more completely.

8A and 8B are views for explaining a second modification of the pressure-resistant joint pipe capable of rotating and slipping according to an embodiment of the present invention, wherein FIG. 8A is an exploded perspective view and FIG. 8B is a cross-sectional view.

8A and 8B, a pressure-resistant joint pipe capable of rotating and slipping according to the second modification includes an outer pipe 1, an inner pipe 2, a first ball housing 31 and a second ball housing A housing fixing member 5 for fixing the ball housing 4 and the first and second ball housings to each other formed at the joining portion of the first ball housing and the second ball housing; And a second airtight member 82 'that is installed to hold the third airtight member 83 in the second ball receiving surface 321 of the second ball housing 32, An insertion groove 325 is further formed.

The pressure-tight joint pipe capable of rotating and slipping according to the second modification can prevent the leakage from the second ball housing 32 to the outside by the third hermetic member 83, Leakage from the gap between the first and second ball housings to the outside can be prevented by the second airtight member 82 'provided at the contact portion of the ball housings 31 and 32. [

More specifically, the second ball housing 32 is provided with a third airtight member insertion groove (not shown) on the vertical contact surface 322a of the second horizontal engagement groove 322 for the installation of the second airtightness member 82 ' 322b.

The second hermetic member 82 'and the third hermetic member 83 are formed as O-rings because they are packing members installed for airtightness.

The airtight member insertion groove for mounting the second airtight member 82 'may also be formed on the vertical contact surface 312a of the first ball housing 31 facing the third airtight member insertion groove 322b. have.

In the pressure-resistant joint pipe capable of rotating and slipping according to the second modification as described above, the second hermetic member 82 'is provided at the joint portion between the first ball housing 31 and the second ball housing 32 Since the third hermetic member 83 is provided on the second ball seating surface 321 of the second ball housing 32, leakage can be prevented when the ball body 4 is swiveled or translated. So that it can be kept more completely confidential.

The above description is only one embodiment for implementing a pressure-resistant joint pipe capable of rotating and slipping according to the present invention. The present invention is not limited to the above-described embodiments, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

1: outer tube 12:
13,23: Connection flange 2: Internal tube
22: release preventing member 24: slip surface
25: coupling ball 3: ball housing
31: first ball housing 311: first ball seating surface
312: first horizontal coupling groove 313: first hermetic member insertion groove
316: second gas tight member insertion groove 314: vertical fastening groove
32: second ball housing 321: second ball seating surface
322: second horizontal coupling groove 322b: third hermetic member insertion groove
323: vertical fastening hole 325: fifth hermetic member insertion groove
4: ball body 41: sliding hole
42: curved face 43: first slip packing groove
44: second slip packing groove 45: sixth airtight member insertion groove
46: seventh sealing member insertion groove 5: housing fixing member
81: first gas tight member 82, 82 ': second gas tight member
83: third gas tight member 84: fourth gas tight member
85: fifth sealing member 86: first slip packing
87: 2nd slip packing

Claims (6)

In a pressure-resistant joint pipe capable of rotating and slipping,
A pipe-shaped outer tube disposed at one side; A ball housing coupled to one end of the outer tube; A ball body having an outer surface closely attached to an inner surface of the ball housing and having a sliding hole formed therein; And an inner tube inserted into the sliding hole of the ball body to be slid,
The ball housing is coupled to an end of the outer tube and has a first ball seating surface on an inner surface, a first horizontal coupling groove on the outer surface, and a first air tight member on the first ball seating surface A first ball housing into which the first airtight member insertion groove is inserted and in which a plurality of vertical coupling grooves are recessed in a central direction along the periphery of the first horizontal coupling groove; A second ball housing having an arc-shaped second ball receiving surface formed on the other side of the inner surface thereof, and a second ball housing penetrating through the second horizontal coupling groove so as to correspond to the vertical coupling groove, Wherein the first ball housing and the second ball housing are formed of a ring-shaped member having the same outer diameter as the outer tube,
A housing fixing member inserted and coupled to the vertical coupling groove and the vertical coupling hole in the center direction and a second air tight member provided to maintain airtightness at a junction between the first ball housing and the second ball housing and,
A first slip packing groove and a second slip packing groove formed on one side and the other side of an inner circumferential surface of the sliding hole, and a second slip packing groove formed on the other side of the sliding hole, A sixth airtight member insertion groove recessed inwardly in contact with the first slip sealing groove, and a seventh airtight member insertion groove recessed inwardly in contact with the second slip sealing groove,
A first slip packing and a second slip packing inserted in the first slip packing grooves and the second slip packing grooves to guide smooth sliding movement, and a first slip packing and a second slip packing for inserting the sixth hermetic member insertion groove and the seventh hermetic member insertion And a fourth airtight member and a fifth airtight member inserted into the groove. delete The method according to claim 1,
And a fifth airtight member insertion groove into which the third airtight member is inserted is inserted into the second ball receiving surface of the second ball housing
Wherein the second hermetic member is formed at a contact portion of the first and second ball housings and is provided on the vertical contact surface of the first horizontal engagement groove or the vertical contact surface of the second horizontal engagement groove for the installation of the second hermetic member And a third airtight member insertion groove to be inserted therethrough. The method according to claim 1,
And a second airtight member insertion groove formed in the inner surface of the first ball housing so that the second airtight member is installed. delete The method of claim 3,
A release preventing member is provided at one end of the inner tube inserted into the outer tube,
A connection flange is connected to the outer pipe and the other end of the inner pipe,
The first hermetic member, the second hermetic member, and the third hermetic member are formed as O-rings to maintain airtightness,
Wherein the fourth and fifth hermetic members are formed of a packing having a cross-sectional shape of '⊃'
Wherein the housing fixing member is composed of a set screw having a length that is not exposed to an outer surface of the second ball housing in a coupled state.

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