KR200477221Y1 - Expansion joint with improved expansion function - Google Patents

Abstract

More particularly, the present invention relates to a stretch joint having improved elasticity, safety, and quality by securing smooth movement of an expansion and contraction pipe by blocking the inflow of foreign matter into the surface of the expansion and contraction pipe. The present invention relates to an improved expansion joint.
The expansion joint according to the present invention is characterized in that the expansion joint includes an inner tube, a packing housing provided at one end or both ends of the inner tube and having a packing groove for insertion of the packing, a packing housing A cylinder, an extension pipe slidably inserted into one end or both ends of the inner pipe, and an outer pipe disposed outside the inner pipe, wherein one end of the pipe is positioned outside the sliding portion of the expansion pipe, And the other end is positioned at the sliding end of the expansion pipe; A first sleeve fixing member connected to the other end of the extension pipe protective sleeve; And a first heat insulating member interposed between the other end of the extension pipe protective sleeve and the first sleeve fixing member.
According to this aspect, since the expansion sleeve is provided with the expansion sleeve protective sleeve which covers the sliding section of the expansion and contraction tube in the packing housing, adhesion of impurities and foreign matter to the surface of the sliding section is prevented. As a result, the expansion and contraction of the expansion and contraction tube can be performed smoothly, so that the expansion and contraction of the double tube can be effectively performed, thereby improving the safety and durability of the double tube.
Since the heat conduction is blocked by the heat insulating member interposed between the first and second sleeve fixing members and fixed to each other by the auxiliary heat insulating members interposed between the first and second heat insulating fixing members, It is possible to reduce the heat loss at the extensible joint portion and to improve the thermal efficiency and to prevent corrosion due to no condensed water generated in the inside of the heat insulating layer or on the surface of the outer tube.

Description

EXPANSION JOINT WITH IMPROVED EXPANSION FUNCTION [0002]

More particularly, the present invention relates to a stretch joint having improved elasticity, safety, and quality by securing smooth movement of an expansion and contraction pipe by blocking the inflow of foreign matter into the surface of the expansion and contraction pipe. The present invention relates to an improved expansion joint.

Generally, hot water or steam produced from facilities such as cogeneration power plants and energy integrated management facilities are supplied to the use place through piping.

The pipe to which the high temperature fluid is to be fed is supplied through the double heat insulating pipe in order to minimize the energy loss during the transfer, and the double heat insulating pipe is composed of an inner pipe through which the fluid flows and an outer pipe spaced from the outer pipe .

In addition, when the insulation double tube is installed along the underground or pier, it receives the deforming force due to the expansion due to the hot heat and the settlement of the ground. Therefore, in order to absorb and relieve it, the expansion joint has a certain distance Is installed.

For example, as shown in Fig. 1, the extension joint registered in Korean Registered Patent No. 10-0834849 is used.

The above-mentioned Japanese Patent Application No. 10-0834849, as shown in FIG. 1, is welded and fixed to one end of a pipe 100, vertically installed outside the pipe 100, and injected with a packing material 120 as a plunger 112 A stuffing box 110 which forms a predetermined packing space 113 and a packing space 113 of the stuffing box 110 which forms a joint between the pipe 100 and the pipe 100, A slip pipe 130 slidably engaged with the pipe 100 at a smaller diameter than the pipe 100 and a slip pipe 130 connected to the packing space 113 to block a gap between the slip pipe and the pipe in the packing space 112. [ A packing material 122 consisting of a first packing material 122 positioned between the first packing material 122 and a second packing material 124 stacked as a plunger 112 of the packing cylinder 111 on the first packing material 122, 120).

In the expansion joint disclosed in the above-mentioned Japanese Patent No. 10-0834849, the slip pipe 130 coupled with the inner pipe of the heat insulating double pipe performs expansion and contraction while being moved to the inside of the stuffing box 110, So that foreign substances such as gravels are piled up or adhered to the surface of the sliding portion. Accordingly, when the slip pipe 130 is moved, it is impossible to move smoothly due to interference or frictional force due to foreign matter. When the foreign matter flows into the stuffing box 110, the airtight seal is destroyed and the expansion joint performs its function It is possible to cause leakage of the fluid and damage of the packing material 120, which is a cause of lowering the durability of the expansion joint.

Korean Patent Registration No. 10-0841563 discloses a buried heat insulating double tube expansion / contraction joint apparatus that can solve the problem of the expansion joint according to the above-mentioned Japanese Patent No. 10-0834849 to some extent.

Patent No. 10-0841563 includes an outer tube 100 as shown in Fig. 2; A fixing pipe 120 fixed to the inside of the outer tube 100; An inner tube 110 slidably guided inward of the fixed tube 120; A partition wall 130 vertically connecting the outer tube 100 and the fixing tube 120; A stretchable member 150 which is stretched and connected between the outer tube 100 and the inner tube 110 at a predetermined interval so as to form a second space b between the inner tube 110 and the partition wall 130; And a second space b formed between the partition wall 130 and the elastic member 150 including a leakage fluid outlet 160 installed in the outer space 100 of the second space b. So that the leakage fluid generated during the movement of the movable member 110 can be discharged.

Since the elastic member 150 surrounding the extended portion 112 of the inner tube 110 is provided in the above-described Patent No. 10-0841563, the problem that the foreign matter adheres to the extended portion 112 is reduced to some extent But it has various problems as follows.

In the conventional expansion joint device described above, one end of the elastic member 150 is connected to the upper connecting member 151 formed inside the outer tube 100, and the other end is welded to the lower connecting member 152 formed outside the inner tube 110 The heat of the inner tube 110 is transmitted to the outer tube 100 as it is, and thus the heat loss is generated and the quality of the steam is deteriorated. Particularly, since the double-walled heat pipe for supplying steam is buried in a long length of several kilometers or more and is connected by a large number of expansion joints, the heat loss of such expansion joints is wasting energy and seriously hurting thermal efficiency.

In the conventional expansion joint device, the heat of the inner pipe 110 is transferred to the outer pipe 100, and condensed water is generated in the inner part of the heat insulating material filled in the first space a due to the temperature difference, Thereby causing corrosion, thereby deteriorating durability. Particularly, the condensed water generated by the temperature difference flows into the connection portion and various packing portions, causing slippage of the packing, abnormal wear and corrosion, resulting in a poor airtightness, thereby causing serious safety accidents such as leakage of steam.

In addition, in the above-described conventional expansion joint device, as the heat is transferred to the elastic member 150, the elastic member itself is repeatedly expanded or contracted by heat, so that cracks are generated during long- The elastic member 150 is abraded due to friction with the heat insulating material filled in the first space a during the expansion and contraction of the first space a, and the overall durability is deteriorated by damaging the heat insulating material.

In addition, since the elastic member 150 of the conventional expansion joint device has a bellows structure which is difficult to manufacture and has a high manufacturing cost, it has a disadvantage in that the manufacturing cost is increased.

Particularly, since the elastic member 150 of the conventional expansion joint device encapsulates and protects the extension 112 of the inner tube 110, it is possible to prevent foreign matter from entering the extension member 112. However, It is impossible to stably secure the smooth movement of the extended portion 112, and there is a limit in that the foreign matter introduced into the packing portion 140 can not be completely blocked.

The present invention has been proposed in view of the above contents, and provides a stretch joint having improved expansion and contraction characteristics for improving durability, safety, and quality by securing smooth mobility of an expansion and contraction pipe by blocking foreign substances from entering the surface of the expansion and contraction pipe It has its purpose.

Another object of the present invention is to provide an expansion joint capable of improving heat efficiency by preventing the heat of a fluid flowing into an inner tube from being transmitted to an outer pipe, thereby improving heat efficiency and improving durability and safety. .

In order to achieve the above object, a telescopic joint according to an embodiment of the present invention has an inner tube, a packing housing provided at one end or both ends of the inner tube and having a packing groove for insertion of the packing, A packing cylinder formed in the packing housing, an extension pipe inserted into one end or both ends of the inner pipe so as to be slidable inward, and an outer pipe disposed outside the inner pipe, An extension pipe protection sleeve having one end coupled to the packing housing and the other end positioned at the sliding end of the expansion pipe; A first sleeve fixing member connected to the other end of the extension pipe protective sleeve; And a first heat insulating member interposed between the other end of the extension pipe protective sleeve and the first sleeve fixing member.

Preferably, the expansion joint according to the present invention has improved expansion and contraction characteristics, the second expansion joint includes: a second sleeve fixing member formed in the packing housing to be connected to one end of the extension pipe protective sleeve; And a second heat insulating member interposed between one end of the sleeve and the second sleeve fixing member, wherein the first sleeve fixing member is provided on the inner surface of the outer tube.

The extension sleeve protective sleeve is formed in a structure in which flange-shaped connection portions are formed at both ends of a cylindrical sleeve body, and the first and second sleeve fixing members are formed in a shape corresponding to the connection portion, They can be fastened to each other.

An auxiliary packing groove formed on an inner peripheral surface of the free end of the packing housing; An auxiliary packing part inserted into the auxiliary packing groove and formed between the auxiliary packing part and the outer peripheral surface of the expansion pipe; A packing support member installed at an end of the free end of the packing housing and pressing and supporting the auxiliary packing part; And a fixing member coupled to the packing housing to apply a pressing force to the packing support member.

Meanwhile, a first adiabatic fixing member provided on an outer surface of the inner tube; A second adiabatic fixing member provided on an inner surface of the outer tube corresponding to the first adiabatic fixing member; And an auxiliary heat insulating member interposed between and fixed to the connection portion between the first adiabatic fixing member and the second adiabatic fixing member.

Particularly, the extension sleeve protective sleeve is further provided with a surface treatment portion protruding toward the sliding portion to wipe the surface of the sliding portion.

Here, the surface treatment unit may include a brush support portion protruding as a ring-shaped plate on the inner surface of the extension pipe protective sleeve, and a brush provided on the brush support portion.

According to the expansion joint according to the present invention, since the packing housing is provided with the extension pipe protective sleeve which protects the sliding portion of the expansion pipe by protecting it, adhesion of impurities or foreign matter to the surface of the sliding portion is prevented. As a result, the expansion and contraction of the expansion and contraction tube can be performed smoothly, so that the expansion and contraction of the double tube can be effectively performed, thereby improving the safety and durability of the double tube.

In addition, according to the expansion joint according to the present invention, thermal expansion is prevented by the heat insulating member interposed between the first and second sleeve fixing members, and the auxiliary member interposed between the first and second heat insulating fixing members Since heat conduction to the outer pipe is prevented by blocking the heat conduction by mutual fixing by the heat insulating member, heat loss can be reduced at the extensible joint part, and the heat efficiency can be improved. Condensate water is generated in the inside of the heat insulating layer, There is an advantage that no corrosion occurs.

According to the expansion joint according to the present invention, the leakage of the fluid flowing into the inner tube is primarily blocked by the packing portion provided in the packing housing portion of the free end portion of the expansion and contraction tube, And the secondary packing portion inserted and disposed in the auxiliary packing groove provided in the end portion is secondarily blocked by the auxiliary packing portion so that the airtightness is maintained in a multi-stage, so that airtightness characteristics are remarkably improved.

1 and 2 are views for explaining a conventional expansion joint,
FIG. 3 is a perspective view showing a telescopic joint having an improved expansion and contraction characteristic according to a first embodiment of the present invention; FIG.
FIG. 4 is an enlarged cross-sectional view showing a substantial part of a stretch joint according to a first embodiment of the present invention,
5 is a sectional view showing a first modified example of the expansion joint according to the first embodiment of the present invention,
FIG. 6 is a partially cutaway perspective view of a recessed portion for explaining a first modified example of the expansion joint according to the first embodiment of the present invention,
FIG. 7 is a cross-sectional view showing the overall structure of a stretch joint according to a second embodiment of the present invention in which the expansion and contraction characteristics are improved. FIG.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIGS. 3 to 7, and the same reference numerals are given to the same constituent elements in FIG. 3 to FIG. 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.

FIG. 3 is a perspective view showing a telescopic joint according to a first embodiment of the present invention, and FIG. 4 is an enlarged cross-sectional view of a telescopic joint according to a first embodiment of the present invention.

3, the expansion joint according to the first embodiment of the present invention having improved expansion and contraction characteristics comprises an inner tube 1, an outer tube 2, a packing housing 3, a packing cylinder 4, 5, and is further provided with an extension pipe protection sleeve 71, a first sleeve fixing member 72, a second sleeve fixing member 73, a heat insulating member 74 and a fixing bolt 75, And the expansion and contraction tube is smoothly moved by blocking foreign matter from entering the surface.

The extension pipe protection sleeve 71 is formed so that one end is coupled to the packing housing 3 and the other end is positioned at the end of the sliding portion of the extension pipe 5 so as to be located outside the sliding portion 51 of the expansion pipe 5, Shaped connecting portions 711 are formed at both ends of a cylindrical sleeve body 712 formed in a cylindrical shape. A first bolt fastening hole 711a for fastening the fixing bolt 75 is passed through the connection part 711. [

The first sleeve fixing member 72 is a member provided on the inner surface of the outer tube 2 so as to be connected to the other end of the extension pipe protective sleeve 71 and has an outer peripheral surface of a disk-shaped body 721, Is welded to the inner surface of the outer tube (2) and the inner circumferential surface thereof is arranged close to the extension pipe (5). The disk-shaped body 721 is formed with a second bolt fastening hole 722 corresponding to the first bolt fastening hole 711a so as to be fastened to the connecting portion 711 of the extension pipe protective sleeve 71.

The second sleeve fixing member 73 is a member formed in the packing housing 3 so as to be connected to one end of the extension pipe protective sleeve 71. The inner circumferential surface of the circular plate- As shown in Fig. A third bolt fastening hole 732 is formed in the disk-shaped body 731 to correspond to the first bolt fastening hole 711a so as to be fastened to the connection portion 711 of the extension pipe protective sleeve 71.

The heat insulating member 74 is a member interposed between one end and the other end of the extension pipe protection sleeve 71 and the connection portion between the first and second sleeve fixing members 72 and 73. The heat of the inner pipe 1 is passed through the extension / Is formed into a shape similar to the connection portion 711 of the extension pipe protection sleeve 71 by a material having an adiabatic characteristic so as not to be transmitted to the outer pipe 2 via the protection sleeve 71. [ The heat insulating member 74 includes a first heat insulating member 741 interposed between the other end of the extension pipe protective sleeve 71 and the first sleeve fixing member 72 and one end of the extension pipe protective sleeve 71, And a second heat insulating member 742 interposed in the connecting portion of the second sleeve fixing member 73.

The heat insulating member 74 is a member that can block the transmission of heat between the first and second sleeve fastening members 72 and 73 by the fixing bolt 75, But in the present embodiment, it is interposed between the first and second sleeve fixing members 72 and 73 and the connection portion 711. That is, the first and second heat insulating members 741 and 742 have a circular ring-shaped body 721 having a hollow portion to be interposed between the first and second sleeve fixing members 72 and 73 having a substantially frange shape and the connecting portion 711, And a communicating hole for inserting the fixing bolts. Here, the heat insulating member may be a sheet formed of a material having low thermal conductivity such as an airgel, an asbestos, a Teflon, or the like.

On the other hand, the inner tube 1 is an element through which the fluid flows, the outer end of which is coupled to the inner tube a1 of the heat insulating double tube a, and the inner end thereof is coupled to the packing housing 3. 3, in the case where the expansion joint pipe 5 has a single structure as shown in FIG. 3, the inner pipe 1 is reduced in diameter by a diameter of a portion connected to the inner pipe a1 of the heat insulating double pipe a, As shown in FIG.

The outer pipe 2 is a hollow pipe-shaped component separated from the outer surface of the inner pipe 1. The outer pipe 2 includes a sleeve fastening hole 21 to which a sleeve 8 for protecting the cylinder described later is fastened, And a discharge pipe mounting hole 22 into which the discharge pipe 91 is inserted. In addition, a heat insulating layer 92 is formed in the spacing space formed between the outer tube 2 and the inner tube 1 so as to be filled with a heat insulating material.

3 and 4, the packing housing 3 is a component provided to keep the airtightness between the inner tube 1 and the expansion and contraction tube 5, And a packing groove 32 for retaining airtightness is formed on the inner circumferential surface of the pipe-shaped housing body 31,

The packing groove 32 is a groove provided with a packing portion 33 for sealing a gap formed between the inner surface of the housing body 31 and the outer surface of the expansion and contraction pipe 5, And the left and right packing grooves 322 and 323 into which a ring-shaped ring packing 332 is inserted at both sides of the central packing groove 321. The ring packing 332 is inserted into the center packing groove 321, Here, the ring-shaped packing 332 may be made of graphite-doped aramid fiber packing, graphite fiber packing, or the like, which is known to have excellent heat resistance and airtightness.

The packing cylinder 4 is a component formed in the packing housing 3 for injecting the packing powder into the central packing groove. The packing cylinder 4 has a cylinder body 41 formed in the packing housing 3 and having an injection path, And a cylinder cap 43 which is fastened to the upper portion of the injection path of the cylinder connecting member 42. The cylinder connecting member 42 has an injection port 42a formed at the center thereof with an injection port 42a.

A plurality of packing cylinders 4 are arranged in a ring structure at a predetermined angle along the periphery of the packing housing 3. At this time, the number of the packing cylinders 4 formed increases with an increase in the diameter of the inner tube a1 of the heat insulating double tube. In the case of a normal tube diameter of 20 to 65 A, 2, 5, 6 to 300 to 350 A, 8 to 400 to 450 A, and 10 to 500 to 1000 A are installed at equal angles along the circumferential direction.

When the packing cylinder 33 is filled or replenished with the central packing groove 321, the packing cylinder 4 is disassembled and the packing powder is injected using an injection tool (not shown) The injection operation can be performed simply by re-fastening. In addition to the structure shown in FIG. 4, various structures can be formed.

The expansion and contraction tube 5 is a component slidably inserted into the inner tube 1 and is formed of a member having a substantially pipe shape and is inserted into the inner tube 1 through the packing housing 3 And an escape preventing pin 94 protruding from the packing housing to prevent the slide housing from completely separating from the packing housing when sliding.

The expansion and contraction pipe 5 is provided with a sliding portion 51 which moves along the packing housing 3 when the inner pipe a1 of the double heat insulating pipe a connected to one end thereof is expanded and contracted. The first sleeve fixing member 72, the second sleeve fixing member 73, the heat insulating member 74, and the fixing member 74 so as to smoothly slide while blocking the inflow of impurities or foreign substances from the outside A means for protecting the sliding portion constituted by the bolt 75 is provided.

In order to improve the airtightness of the fluid such as steam flowing into the inner tube 1, the expansion joint according to the present invention has improved expansion and contraction characteristics. The auxiliary packing groove 61, the auxiliary packing portion 62, 63, and a fixing member 64 are further provided.

The auxiliary packing groove 61 is a groove-shaped component formed on the inner circumferential surface of the free end of the packing housing 3. The packing powder 621 is injected into the central portion as described later, and the packing powder 621 A plurality of ring-shaped packings 622 are inserted into the inside and outside of the center portion to be filled.

The auxiliary packing portion 62 is inserted into the auxiliary packing groove 61 and disposed in close contact with the outer circumferential surface of the expansion and contraction tube 5 to provide a function of secondarily blocking the leakage of the fluid flowing into the internal pipe .

The auxiliary packing portion 62 includes a plurality of ring-shaped packing 622 inserted into the inside and outside of the auxiliary packing groove 61 and a packing powder 621 inserted into the center of the auxiliary packing groove 61 .

The packing support member 63 is provided at an end portion of the free end of the packing housing 3 to press and support the auxiliary packing portion 62. If the auxiliary packing portion 62 can be effectively pressed and supported, There is no limitation on the shape but in the present embodiment, a cylindrical pressing portion 631 which is inserted into the auxiliary packing groove 61 and urges the auxiliary packing portion 62, and a pressing portion 631 which protrudes upward integrally with the pressing portion 631, And a plurality of insertion holes 632a which are engaged with the ends of the housing and to which the bolts to be described later are inserted are formed in an annular shape.

The fixing member 64 is a member for applying a pressing force so that the packing supporting member 63 presses and supports the auxiliary packing portion 62 and is configured to be connected to the packing housing 3 by bolts. In the packing housing 3, a fastening hole 35 for fastening the bolt is formed so as to correspond to the insertion hole 632a.

As a means for discharging the leakage from the auxiliary packing portion 62 when the leakage occurs from the auxiliary packing portion 62 between the packing groove 32 and the auxiliary packing groove 61, 36 and a leakage fluid discharge pipe 91 connected to the leakage fluid exhaust hole 36 are formed. The leakage fluid discharge pipe 91 is composed of a pipe-shaped member which is connected to a pipe connection part 37 provided at the formation part of the leakage fluid exhaust hole 36. The upper end part of the leakage fluid discharge pipe 91 is exposed to the outside of the ground during construction.

As shown in the enlarged portion of FIG. 3, the expansion joint according to the first embodiment of the present invention has improved expansion and contraction characteristics, while the inner tube 1 is stably supported and the heat of the inner tube is transmitted to the outer tube 2 A first adiabatic fixing member 77 provided on the outer surface of the inner tube 1 so as not to allow the first adiabatic fixing member 77 to adhere to the inner surface of the outer tube 2, An auxiliary insulating member 78 interposed between the first insulating adhered member 77 and the second insulating adhered member 78 to prevent the heat of the inner tube 1 from being transmitted to the outside, (Not shown). At this time, the first and second adiabatic insulating fixing members and the auxiliary heat insulating members 79 interposed therebetween are fixed by fixing bolts 75.

The expansion joint according to the first embodiment of the present invention has an improved expansion joint having a cylinder protection sleeve 8 disposed to surround the packing cylinder 4, Is not integrally joined to the packing housing 3 so as not to be transmitted to the outer tube 2. [

More specifically, as shown in Fig. 4, the cylinder protecting sleeve 8 is formed as a free end so that the upper portion thereof is fastened to the outer tube 2 and the lower portion thereof is not brought into contact with the packing housing 3 .

The cylinder protecting sleeve 8 is disposed in the upper peripheral portion of the packing cylinder 3 and has a pipe-shaped sleeve body 81 welded or fastened to the fastening hole 21 of the outer tube 2, And a sleeve cover 82 fastened to the upper portion of the body 81 and having a tool groove 82a for insertion of the tool. At this time, the sleeve cover 82 may be integrally formed with the sleeve body 81, but it is preferable that the sleeve cover 82 is configured to be independently fastened to the fastening hole formed in the sleeve body 81 as shown in FIG.

3 is a slip guide 33 provided at the end of the inner peripheral surface of the housing body 31. The extension pipe 5 is stably supported while maintaining the concentricity.

Hereinafter, the operation of the expansion joint according to the first embodiment of the present invention will be briefly described.

The assembly process of the expansion joint according to the first embodiment of the present invention as described above will be briefly described as follows. First, the ring-shaped packing 332 is inserted into the inner tube 1, the outer tube 2, The packing housing 3, the packing cylinder 4 and the extension and contraction pipe 5, the first sleeve fixing member and the extension pipe protective sleeve 71 are assembled in order and the packing cylinder 4 is inserted through the packing groove 4, The packing powder 331 is injected into the auxiliary packing groove 32 and then the ring packing 622, the packing powder 621 and the ring packing 622 are sequentially inserted into the auxiliary packing groove 61. When the fixing member 64 is fastened and the packing support member 63 is moved inward, the pressing portion 631 presses the ring packing 622, the packing powder 621, and the ring packing 622 The auxiliary packing portion 62 is formed firmly.

The expansion joint thus assembled and having improved expansion and contraction characteristics is connected to the heat insulating double tube (a) buried in the ground (d). That is, the inner pipe 1 and the expansion pipe 5 of the expansion joint are welded to the inner pipe a1 of the heat insulating double pipe and the outer pipe 2 is welded to the outer pipe a2 of the heat insulating double pipe. When the steam is fed from the steam supply device to the supply point through the double heat pipe a, the internal pipe a1 of the double heat pipe is expanded in the longitudinal direction by the heat of the steam, (3).

At this time, since the extension sleeve protective sleeve 71 is provided so as to be located outside the sliding section 51 of the expansion and contraction tube 5, adhesion of impurities and foreign matter to the surface of the sliding section 51 is prevented. As a result, the expansion and contraction tube 5 is effectively slid so that the expansion and contraction of the double tube a can be stably performed according to the internal heat distortion of the tube, thereby improving the safety and durability of the double tube.

Heat conduction is blocked by the heat insulating member 74 interposed between the first and second sleeve fixing members 72 and 73 and the assistant interposed between the first and second heat insulating fixing members 77 and 78 The thermal conduction is blocked by the heat insulating member 79, so that heat transfer to the outer tube 2 is prevented. This prevents waste of energy due to heat loss at the extensible joint portion, thereby improving thermal efficiency and reducing energy cost. Since the heat of the inner pipe 1 is not transmitted to the outer pipe 2, there is an advantage that no corrosion is generated because condensed water is not generated in the heat insulating layer 92, the surface of the outer pipe 2, and the like.

In the expansion joint according to the present invention, the part of the packing housing 3 corresponding to the free end of the expansion and contraction pipe 5 is inserted into the packing groove 32, Since the powder 331 is hermetically contacted by the ring-shaped packing 332, the function of primarily blocking the leakage of the fluid flowing into the inner tube 1 is performed.

Even if primary leakage occurs through the packing groove 32, the leakage of steam is prevented by the packing powder 621 and the ring-shaped packing 622 inserted and arranged in the auxiliary packing groove 62, (C) between the groove (32) and the auxiliary packing groove (61). Thus, the leakage fluid staying in the leaked fluid space c is discharged to the outside through the leakage fluid discharge pipe 91.

Accordingly, the expansion joint according to the present invention has the advantage that the airtightness characteristics are remarkably improved because the expansion joint maintains airtightness in multiple stages by the packing portion 33 and the auxiliary packing portion 62.

Fig. 5 is a cross-sectional view showing a first modified example of the expansion joint according to the first embodiment of the present invention with improved expansion and contraction characteristics, Fig. 6 is a first modified example of the expansion joint according to the first embodiment of the present invention, And FIG.

5 and 6, a telescopic joint according to a first modified example of the present invention having an improved expansion and contraction characteristic includes an inner tube 1, an outer tube 2, a packing housing 3, a packing cylinder 4, 5, an extension pipe protection sleeve 71, a first sleeve fixing member 72, a second sleeve fixing member 73, a heat insulating member 74 and a fixing bolt 75, Is further provided with a surface treatment section (76) protruding toward the sliding section (51) to wipe the surface of the sliding section (51).

The surface treatment portion 76 is not particularly limited in shape or structure so long as it can wipe the surface or maintain the cleanliness of the sliding portion 51. In the present embodiment, A brush support portion 761 protruding from the plate and a brush 762 provided on the brush support portion 761. [

At this time, the brushes 762 may be provided with a plurality of strands formed of a heat-resistant synthetic resin material, or a plurality of strands formed of fine metal lines. At this time, oil such as anti-rust oil or grease may be applied to move the sliding portion 51 more smoothly.

The expansion joint according to the first modified example of the present invention having improved elongation and contraction characteristics is constructed such that the surface treatment portion 76 is further formed so as to protrude toward the sliding portion 51 in the extension pipe protective sleeve 71, Rust formed on the surface of the sliding portion 51 or foreign substances adhered to the surface of the sliding portion 71 can be wiped off, thereby keeping the sliding portion 51 clean. As a result, the expansion and contraction of the expansion and contraction tube 5 can be more effectively performed, so that the safety and durability of the heat insulating double tube and the expansion joint can be further improved.

FIG. 7 is a cross-sectional view showing the overall structure of a stretch joint according to a second embodiment of the present invention in which the expansion and contraction characteristics are improved. FIG. Hereinafter, the second embodiment will be described with reference to Fig. 7, and like or similar elements as those of the first embodiment described above are denoted by the same reference numerals, and detailed description of the same and similar components and operation effects is omitted .

The expansion joint according to the second embodiment of the present invention has improved expansion and contraction characteristics. The expansion joint has an inner tube 1, an outer tube 2, a packing housing 3, a packing cylinder 4, The first sleeve fixing member 72, the second sleeve fixing member 73, the heat insulating member 74, and the fixing bolt 75, as shown in Figs. 7A and 7B, and the extension pipe 5, the extension pipe protection sleeve 71, The first sleeve fixing member 72, the second sleeve fixing member 73, the heat insulating member 74 and the fixing bolt 75 are inserted into the inner tube 1 as shown in Fig. As shown in Fig.

That is, since the extension sleeve 71 is provided so as to be located outside the sliding section 51 of the extension pipe 5 connected to one side and the other side of the inner pipe 1, impurities Or adhesion of foreign matter is prevented.

An auxiliary packing groove 61, an auxiliary packing portion 62, a packing supporting member 63, and a fixing member 64 are formed in the packing housing 3 connected to one side and the other side of the inner tube 1 Which prevents secondary leakage of fluid from both sides.

In addition, the expansion joint according to the second embodiment of the present invention having improved expansion and contraction characteristics is a major difference from the first embodiment described above in that the expansion and contraction tube 5 is a double joint structure disposed on both sides of the inner tube 1 The inner tube 1 is formed in a pipe shape having a symmetrical structure on both sides and a leaked fluid space portion c filled with a fluid leaking into a gap with the packing housing 3 when sliding the extension pipe 5 And a connection line 95 for discharging the leakage fluid of both leaked fluid spaces c is formed at both sides of the leakage fluid discharge pipe 91 .

As described above, the present invention is not limited to the above-described embodiment, and it is to be understood that the present invention is not limited to the above-described embodiment, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

The terminology used in the above embodiments is used only to describe a specific embodiment and is not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

1: inner tube 2: outer tube
3: packing housing 31: housing body
32: packing groove 33: packing part
331,621: packing powder 332,622: ring packing
4: packing cylinder 5: extension pipe
61: auxiliary packing groove 611: first auxiliary packing groove
612: Second auxiliary packing groove portion 613: Packing supporting projection
62: auxiliary packing part 63: packing supporting member
631: pressing portion 632:
64: fixing member 67: air exhaust hole
71: extension sleeve protective sleeve 72: first sleeve fixing member
73: second sleeve fixing member 74:
741: first heat insulating member 742: second heat insulating member
75: Fixing bolt 76: Surface treatment part
761: Brush support part 762: Brush
8: Cylinder protection sleeve 91: Leakage fluid discharge tube
92: heat insulating layer 94:
95: connection line

Claims (7)

In the expansion joint,
A packing cylinder provided at one end or both ends of the inner tube and having a packing groove for inserting the packing; a packing cylinder formed in the packing housing; And an outer tube disposed outside the inner tube,
An extension pipe protective sleeve having one end coupled to the packing housing and the other end positioned at a sliding end of the extension pipe so as to be positioned outside the sliding portion of the expansion pipe;
A first sleeve fixing member connected to the other end of the extension pipe protective sleeve; And
And a first heat insulating member interposed between the other end of the extension pipe protective sleeve and the first sleeve fixing member,
A first adiabatic fixing member provided on an outer surface of the inner tube;
A second adiabatic fixing member provided on an inner surface of the outer tube corresponding to the first adiabatic fixing member; And
Further comprising an auxiliary heat insulating member interposed between and fixed to a connection portion between the first adiabatic fixing member and the second adiabatic fixing member. The method according to claim 1,
A second sleeve fixing member formed on the packing housing to be connected to one end of the extension pipe protective sleeve; And
Further comprising a second heat insulating member interposed between one end of the extension pipe protective sleeve and the connection portion of the second sleeve fixing member,
And the first sleeve fixing member is provided on the inner surface of the outer tube. 3. The method of claim 2,
The extension pipe protection sleeve is formed in a structure in which flange-shaped connection portions are formed at both ends of a cylindrical sleeve body,
Wherein the first and second sleeve fastening members are formed in a shape corresponding to the connection portion and fastened to each other by fastening bolts. The method according to claim 1,
An auxiliary packing groove formed on an inner peripheral surface of the free end of the packing housing;
An auxiliary packing part inserted into the auxiliary packing groove and formed between the auxiliary packing part and the outer peripheral surface of the expansion pipe;
A packing support member installed at an end of the free end of the packing housing and pressing and supporting the auxiliary packing part; And
And a fixing member coupled to the packing housing to apply a pressing force to the packing support member. delete 5. The method according to any one of claims 1 to 4,
Further comprising a surface treatment portion protruding toward the sliding portion and wiping the surface of the sliding portion in the extension pipe protection sleeve. The method according to claim 6,
The surface treatment unit may include:
And a brush provided on an inner surface of the extension pipe protective sleeve and protruding as a ring-shaped plate, and a brush provided on the brush support portion.

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