KR101184392B1 - Insulation apparatus for pipe - Google Patents

Abstract

The present invention relates to a heat insulating device for pipes, and more particularly, to a pipe heat insulating device that can be easily attached and detached, so that the pipe thinning inspection and the construction of the heat insulating material can be very simple.
Insulation device for piping of the present invention is an elbow insulation unit installed on the elbow outer surface of the pipe; T-joint insulation unit installed on the T-join outer surface of the pipe; Insulation unit for straight pipe installed on the outer surface of the straight pipe; And a heat insulation unit for a flange installed on an outer surface of the flange portion of the pipe, wherein each heat insulation unit has two or more partitions detachably coupled to each other based on a split line, and each partition consists of one or more heat insulation layers. The first coupling part and the second coupling part are installed to correspond to each other at the end of the split body, and the first coupling part is rotatably connected to the end of the first coupling body and the first coupling body installed at one end of the split body in the split body. It has a coupling ring provided, the second coupling portion has a second coupling body installed on the other end of the split body of the split body and the coupling jaw rotatably installed at the end of the second coupling body, the coupling ring of the first coupling portion Is rotated so that the end of the coupling ring is caught on the coupling jaw side of the second coupling portion, the partitions are characterized in that the adjacent ends are firmly coupled .

Description

Insulation device for piping {INSULATION APPARATUS FOR PIPE}

The present invention relates to a heat insulating device for pipes, and more particularly, to a pipe heat insulating device that can be easily attached and detached, so that the pipe thinning inspection and the construction of the heat insulating material can be very simple.

As is well known, power plants (nuclear power, thermal power, etc.) and petrochemical plants are installed with pipes for transferring high temperature / high pressure steam, and these pipes are corroded by high temperature / high pressure steam over time. This occurs and thinning phenomenon occurs in which the thickness of the pipe is reduced.

Due to the thinning of the pipes, pinholes may occur on the piping side over time, which can lead to a big accident. Therefore, thinning inspections are carried out through the planned preventive maintenance once a year and recorded and reported. have.

When this type of inspecting is carried out, if the existing insulation is applied, it is necessary to remove the finishing cover and insulation from the outside of the piping, and then perform the thinning inspection. After the thinning test is carried out by attaching a new insulation and finishing with a finish cover.

Insulation construction method after thinning inspection causes enormous waste of materials due to the amount of discarded insulation and finishing cover, which is removed every year, especially in the case of elbows or T-joints, requires highly skilled functions compared to the installation of insulators of straight pipes. In addition, in case of incorrect construction, the thermal stress may increase due to the occurrence of thermal notch, and the thinning phenomenon may be remarkably progressed, thereby shortening the life of the entire pipe. There was this.

The present invention has been made in view of the above-mentioned, it is easy to detach and minimize the occurrence of insulation gaps to provide a pipe insulation device that can simplify the inspection of the pipe thickness and the construction work of the insulation material very simple. There is this.

Insulation device for piping of the present invention for achieving the above object is

An elbow insulation unit installed on an elbow outer surface of the pipe;

T-joint insulation unit installed on the T-join outer surface of the pipe;

Insulation unit for straight pipe installed on the outer surface of the straight pipe; And

Includes; insulation unit for the flange installed on the outer surface of the flange portion of the pipe,

Each insulation unit has two or more partitions detachably coupled based on a split line, each partition consists of one or more insulation layers,

The first coupling portion and the second coupling portion are installed to correspond to each other at the end of the partition,

The first coupling portion has a coupling ring rotatably installed at the end of the first coupling body and the first coupling body of the divided body portion of the one side of the divided body,

The second coupling portion has a second coupling body installed on the other end of the divided body of the divided body and the coupling jaw rotatably installed on the end of the second coupling body,

As the coupling ring of the first coupling unit rotates so that the end of the coupling ring is hooked to the coupling jaw side of the second coupling unit, the adjacent parts of the split bodies are firmly coupled to each other.

Each partition has an inner insulation layer, an outer insulation layer disposed in the outer diameter direction of the inner insulation layer, and an intermediate insulation layer interposed between the inner insulation layer and the outer insulation layer, and the inner insulation layer, the outer insulation layer, and the intermediate insulation layer are wrapped and protected by an insulation protective layer. ,

The insulation protective layer is formed of an inner protective layer disposed on the inner diameter surface of the inner heat insulating layer, a side protective layer extending outwardly from the inner protective layer, an outer protective layer in contact with the outer diameter surface of the outer insulating layer, The outer surface is characterized in that the metal finish cover is disposed.

The first coupling body of the first coupling portion is firmly fixed to the finish cover side of the one side partition by rivets, the reinforcement is provided on the inner side of the outer protective layer, the reinforcement and the first coupling body is coupled by rivets , The outer protective layer and the closing cover is coupled between the reinforcement and the first coupling body,

The second coupling body of the second coupling part is firmly fixed to the finishing cover side of the other partition through rivets, and a reinforcement is provided on the inner side of the outer protective layer, and the reinforcement and the second coupling body are coupled by rivets. To this end, the outer protective layer and the closing cover is coupled between the reinforcing material and the second coupling body.

The finishing cover of the insulation unit for the elbow is assembled so that a plurality of assemblies correspond to the curved surface of the elbow, the assembly is bent at each end of the assembly, the assembly of the assemblies with the cross-sections of the assemblies abut each other The ends are in contact with each other, and both ends of the reinforcing assembly are bent in opposite directions to the assembly ends, respectively, and as the reinforcing bodies are compressed in a state in which each of the coupling ends of the reinforcing assembly is fitted to the assembly ends of the assembly. The plurality of assemblies are characterized in that connected to each other in the curved direction of the elbow.

The inner insulation layer and the outer insulation layer is composed of the same heat insulating material, and the intermediate insulation layer is characterized in that it is composed of different kinds of heat insulating material compared with the inner insulation layer and the outer insulation layer.

The present invention has the advantage of minimizing the generation of waste of the insulation and the finishing cover for the thinning inspection of the pipe by implementing a short-term construction period and precise insulation construction by applying an insulation device of the structure that is easily removable.

In addition, the present invention has the advantage that can be implemented to improve the insulation performance of pipes and the life of the pipes by precisely constructing so as to fundamentally block the occurrence of the insulation gap during the construction of the elbow or T-joint insulation.

1 is a perspective perspective view showing a heat insulating device for piping according to an embodiment of the present invention.
Figure 2 is a view showing a state in which the elbow insulation unit, T-joint insulation unit, flange insulation unit in the pipe insulation device of the present invention is disassembled.
Figure 3 is a view showing a state in which the heat insulation unit for the straight pipe in the pipe insulation device of the present invention is disassembled.
4 is a cross-sectional view taken along line AA of FIG. 1.
FIG. 5 is an enlarged view illustrating a portion D of FIG. 4.
FIG. 6 is a cross-sectional view taken along line BB of FIG. 1.
FIG. 7 is an enlarged view of a portion E of FIG. 6.
8 is a cross-sectional view taken along line CC of FIG. 1.
FIG. 9 is an enlarged view of a portion F of FIG. 8.
FIG. 10 is a cross-sectional view taken along the line GG of FIG. 4 and illustrates a structure in which a finishing cover of the elbow insulation unit is assembled by a plurality of assemblies.
Fig. 11 is an exploded perspective view showing a first embodiment of an intermediate insulation layer of a heat insulating device for pipes according to the present invention.
12 is an exploded perspective view showing a second embodiment of the intermediate insulation layer of the heat insulating device for piping according to the present invention.
Figure 13 is an exploded perspective view showing an elbow insulation unit according to another embodiment of the present invention.
14 is an exploded perspective view showing a heat insulation unit for a T-joint according to another embodiment of the present invention.

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

1 to 9 show a heat insulating device for a pipe according to an embodiment of the present invention.

As shown, the heat insulating device 10 of the present invention is easily installed on the outer surface of the pipe (21, 22, 23), the pipe (21, 22, 23) is elbow 21, T-joint ( 22), straight pipes 23 and the like are connected to each other and extend in a predetermined direction. Flange 24 is provided at the ends of elbow 21, T-join 22, straight pipe 23, etc., and these flanges 24 are joined by fasteners, thereby elbow 21, T-join. 22, the straight pipe 23, etc. are mutually connected.

Insulation device 10 of the present invention is an elbow insulation unit 11 is installed on the outer surface of the elbow 21, the T-joint is installed on the outer surface of the T-join 22 as shown in Figs. Heat insulation unit 12 for flanges, heat insulation unit for straight pipes installed on the outer surface of the straight pipe 23, flange heat insulation unit installed on the outer surface of the flange portion 24 connecting the pipes (21, 22, 23) ( 14).

( Elbow  Insulation unit)

The elbow insulation unit 11 has two or more partitions 11a and 11b formed in a shape corresponding to the elbow 21 so as to surround the outer surface of the elbow 21. The two or more partitions 11a and 11b are divided based on the dividing line 31, and the partitions 11a and 11b are detachably coupled to the outer surface of the elbow 21.

Each of the partitions 11a and 11b includes the inner insulation layer 51 adjacent to the outer surface of the elbow 21 and the outer insulation layer 53 disposed in the outer diameter direction of the inner insulation layer 51 as shown in FIGS. 4 and 5. And an intermediate insulation layer 52 interposed between the inner insulation layer 51 and the outer insulation layer 53.

The inner insulation layer 51 and the outer insulation layer 53 may be made of a material such as glass wool, mineral wool, or, if the fluid passing through the inside of the pipes 21, 22, 23 is low temperature, it may be made of foamed polyethylene or the like. have. The inner insulation layer 51 and the outer insulation layer 53 is composed of the same heat insulating material.

The intermediate insulation layer 52 may have a jacket structure having a space 52a filled with air or argon gas therein. The intermediate insulation layer 52 may be made of a thermally insulating material such as HITLIN or the like and the intermediate insulation layer 52 may be made of a different kind of insulation material as compared with the internal insulation layer 51 and the external insulation layer 52 Lt; / RTI >

The inner insulation layer 51, the outer insulation layer 53, and the intermediate insulation layer 52 are wrapped and protected by the insulation protection layers 54a, 54b, and 54c. The heat insulating material protective layers 54a, 54b, and 54c include the inner protective layer 54a disposed on the inner diameter surface of the inner insulating layer 51, the side protective layer 54b extending outward from the inner protective layer 54a, and the outer insulating layer. It consists of the outer protective layer 54c which contacts the outer diameter surface of 53. As shown in FIG.

A finish cover 55 is disposed on an outer surface of the outer protective layer 54c, and the finish cover 55 is made of a metal material to stably protect the inner insulation layer 51, the intermediate insulation layer 52, the outer insulation layer 53, and the like. To can be maintained.

The first coupling portion 41 and the second coupling portion 42 are installed to correspond to each other at the end portions of the partitions 11a and 11b that are adjacent to each other, and the first coupling portion 41 and the second coupling portion 42 are provided. By means of two or more partitions (11a, 11b) can be combined firmly and accurately.

The first coupling part 41 is a coupling ring rotatably installed at an end of the first coupling body 41a and the first coupling body 41a provided at the end of the one side partition 11a among the partitions 11a and 11b. It consists of 41b.

The second coupling part 42 is a coupling jaw rotatably installed at an end of the second coupling body 42a and the second coupling body 42a provided at the end of the other partition 11b among the partitions 11a and 11b. Has 42b.

Thus, the engaging ring 41b of the first engaging portion 41 is rotated, so that the end of the engaging ring 41b is caught on the engaging jaw 42b side of the second engaging portion 42, the partition 11a. , 11b) are firmly coupled to their adjacent ends.

Meanwhile, as shown in FIG. 5, the first coupling body 41a of the first coupling portion 41 is firmly fixed to the finishing cover 55 side of the one side partition 11a by the rivet 41c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the first coupling body 41a are coupled by rivets 41c, whereby the reinforcing material 54d and the first coupling are provided. The outer protective layer 54c and the closing cover 55 are coupled between the bodies 41a.

In addition, as shown in FIG. 5, the second coupling body 42a of the second coupling part 42 is firmly fixed to the finishing cover 55 side of the other partition 11b through the rivet 42c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the second coupling body 42a are coupled by rivets 42c, thereby reinforcing material 54d and the second. The outer protective layer 54c and the closing cover 55 are coupled between the coupling bodies 42a.

As such, the first and second coupling parts 41 and 42 may be firmly coupled to the outer cover layer 54c of the finish cover 55 and the heat insulating material protective layer by the rivets 41c and 42c.

Meanwhile, as shown in FIG. 10, the finishing cover 55 used for the partitions 11a and 11b of the elbow insulation unit 11 is assembled so that the plurality of assemblies 55a correspond to the curved surface of the elbow 21. do. The plurality of assemblies 55a are assembled with end portions 55b at each end, and the end portions 55b of the assemblies 55a are in contact with each other while the end surfaces of the assemblies 55a abut each other. The strip-shaped reinforcement coupling body 56 is pressed to the assembly ends 55b of the through a rolling process. At both ends of the reinforcing assembly 56, the coupling end 56b is bent in the opposite direction to the above-described assembly end 55b, whereby each coupling end 56b of the reinforcing assembly 56 is assembled to the assembly 55a. As the reinforcing coupling body 56 is pressed through a rolling process or the like while being fitted to the end portions 55b, the plurality of assemblies 55a are connected to each other in a curved direction.

As such, the elbow insulation unit 11 according to the present invention may have a structure in which the finishing cover 55 has a high precision and rigid rigidity through the plurality of assemblies 55a and the reinforcing coupling body 56.

(T- Joint  Insulation unit)

The T-joint insulation unit 12 has two or more dividers 12a and 12b formed in a shape corresponding to the T-join 22 so as to surround the outer surface of the T-join 22. The two or more partitions 12a and 12b are divided based on the dividing line 32, and the partitions 12a and 12b are detachably coupled to the outer surface of the elbow 22.

The partitions 12a and 12b of the T-join insulation unit 12 have an inner insulation layer 51 and an inner insulation layer 51 adjacent to the outer surface of the T-join 22 as shown in FIGS. 8 and 9. It has an outer insulation layer 53, an intermediate insulation layer 52 interposed between the inner insulation layer 51 and the outer insulation layer 53 disposed in the outer diameter direction of the.

The inner insulation layer 51 and the outer insulation layer 53 may be made of a material such as glass wool, mineral wool, or may be made of foamed polyethylene or the like when the fluid passing through the pipes 21, 22, 23 is low temperature. . The inner insulation layer 51 and the outer insulation layer 53 is composed of the same heat insulating material.

The intermediate insulation layer 52 may have a jacket structure having a space 52a filled with air or argon gas therein. The intermediate insulation layer 52 may be made of a thermally insulating material such as HITLIN or the like and the intermediate insulation layer 52 may be made of a different kind of insulation material as compared with the internal insulation layer 51 and the external insulation layer 52 Lt; / RTI >

The inner insulation layer 51, the outer insulation layer 53, and the intermediate insulation layer 52 are wrapped and protected by the insulation protection layers 54a, 54b, and 54c. The heat insulating material protective layers 54a, 54b, and 54c include the inner protective layer 54a disposed on the inner diameter surface of the inner insulating layer 51, the side protective layer 54b extending outward from the inner protective layer 54a, and the outer insulating layer. It consists of the outer protective layer 54c which contacts the outer diameter surface of 53. As shown in FIG.

A finish cover 55 is disposed on an outer surface of the outer protective layer 54c, and the finish cover 55 is made of a metal material to stably protect the inner insulation layer 51, the intermediate insulation layer 52, the outer insulation layer 53, and the like. To can be maintained.

The first coupling part 41 and the second coupling part 42 are disposed to correspond to each other at end portions of the partitions 12a and 12b that are adjacent to each other, and the first coupling part 41 and the second coupling part 42 are provided. By means of two or more partitions 12a, 12b can be combined firmly and accurately.

As shown in FIG. 9, the first coupling part 41 is formed of the first coupling body 41a and the first coupling body 41a provided at the end of the split body 12a on one side of the split bodies 12a and 12b. The end is composed of a coupling ring 41b rotatably installed.

As shown in FIG. 9, the second coupling part 42 is formed of the second coupling body 42a and the second coupling body 42a provided at the end of the split body 12b on the other side of the split bodies 12a and 12b. It has a coupling jaw 42b rotatably installed at the end.

Thus, the engaging ring 41b of the first engaging portion 41 is rotated, so that the end portion of the engaging ring 41b is caught on the engaging jaw 42b side of the second engaging portion 42, the partition 12a. 12b) are firmly coupled to their adjacent ends.

Meanwhile, as shown in FIG. 9, the first coupling body 41a of the first coupling portion 41 is firmly fixed to the finishing cover 55 side of the one side partition 12a by the rivet 41c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the first coupling body 41a are coupled by rivets 41c, whereby the reinforcing material 54d and the first coupling are provided. The outer protective layer 54c and the closing cover 55 are coupled between the bodies 41a.

In addition, as shown in FIG. 9, the second coupling body 42a of the second coupling part 42 is firmly fixed to the finishing cover 55 side of the other partition 12b through the rivet 42c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the second coupling body 42a are coupled by rivets 42c, thereby reinforcing material 54d and the second. The outer protective layer 54c and the closing cover 55 are coupled between the coupling bodies 42a.

As such, the first and second coupling parts 41 and 42 may be firmly coupled to the outer cover layer 54c of the finish cover 55 and the heat insulating material protective layer by the rivets 41c and 42c.

(Intuition Insulation Unit)

The straight heat insulating unit 13 has two or more partitions 13a and 13b formed in a shape corresponding to the straight pipe 23 so as to surround the outer surface of the straight pipe 23. The two or more partitions 13a and 13b are divided based on the dividing line 33, and the partitions 13a and 13b are detachably coupled to the outer surface of the straight pipe 23.

The partitions 13a and 13b of the heat insulation unit 13 for straight pipes are disposed in the outer diameter direction of the inner heat insulation layer 51 and the inner heat insulation layer 51 adjacent to the outer surface of the straight pipe 23 as shown in FIGS. 8 and 9. The intermediate insulating layer 52 interposed between the outer insulating layer 53, the inner insulating layer 51 and the outer insulating layer 53 is disposed.

The inner insulation layer 51 and the outer insulation layer 53 may be made of a material such as glass wool, mineral wool, or may be made of foamed polyethylene or the like when the fluid passing through the pipes 21, 22, 23 is low temperature. . The inner insulation layer 51 and the outer insulation layer 53 is composed of the same heat insulating material.

The intermediate insulation layer 52 may have a jacket structure having a space 52a filled with air or argon gas therein. The intermediate insulation layer 52 may be made of a thermally insulating material such as HITLIN or the like and the intermediate insulation layer 52 may be made of a different kind of insulation material as compared with the internal insulation layer 51 and the external insulation layer 52 Lt; / RTI >

The inner insulation layer 51, the outer insulation layer 53, and the intermediate insulation layer 52 are wrapped and protected by the insulation protection layers 54a, 54b, and 54c. The heat insulating material protective layers 54a, 54b, and 54c include the inner protective layer 54a disposed on the inner diameter surface of the inner insulating layer 51, the side protective layer 54b extending outward from the inner protective layer 54a, and the outer insulating layer. It consists of the outer protective layer 54c which contacts the outer diameter surface of 53. As shown in FIG.

A finish cover 55 is disposed on an outer surface of the outer protective layer 54c, and the finish cover 55 is made of a metal material to stably protect the inner insulation layer 51, the intermediate insulation layer 52, the outer insulation layer 53, and the like. To can be maintained.

The first coupling part 41 and the second coupling part 42 are disposed to correspond to each other at end portions of the partitions 13a and 13b which are adjacent to each other, and the first coupling part 41 and the second coupling part 42 are provided. By means of two or more partitions 12a, 12b can be combined firmly and accurately.

As shown in FIG. 9, the first coupling part 41 is formed of the first coupling body 41a and the first coupling body 41a provided at the end of the split body 13a on one side of the split bodies 12a and 12b. The end is composed of a coupling ring 41b rotatably installed.

As shown in FIG. 9, the second coupling part 42 is formed of the second coupling body 42a and the second coupling body 42a provided at the end of the partition body 13b on the other side of the partitions 12a and 12b. It has a coupling jaw 42b rotatably installed at the end.

Thus, the engaging ring 41b of the first engaging part 41 is rotated, and the end of the engaging ring 41b is caught by the engaging jaw 42b side of the second engaging part 42. 13b) are firmly coupled to their adjacent ends.

Meanwhile, as shown in FIG. 9, the first coupling body 41a of the first coupling portion 41 is firmly fixed to the finishing cover 55 side of the one side partition 13a by the rivet 41c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the first coupling body 41a are coupled by rivets 41c, whereby the reinforcing material 54d and the first coupling are provided. The outer protective layer 54c and the closing cover 55 are coupled between the bodies 41a.

In addition, as shown in FIG. 9, the second coupling body 42a of the second coupling part 42 is firmly fixed to the finishing cover 55 side of the other partition 13b through the rivet 42c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the second coupling body 42a are coupled by rivets 42c, thereby reinforcing material 54d and the second. The outer protective layer 54c and the closing cover 55 are coupled between the coupling bodies 42a.

As such, the first and second coupling parts 41 and 42 may be firmly coupled to the outer cover layer 54c of the finish cover 55 and the heat insulating material protective layer by the rivets 41c and 42c.

(Flange Insulation Unit)

The pipes 21, 22, 23 are connected to each other via the flange portion 24, for example, straight pipe 23 and straight pipe 23, straight pipe 23 and elbow 21, T-join 22 and straight pipe ( 23 and the like may be connected by the flange portion 24. The outer surface of the flange portion 24 is installed so as to surround the flange insulation unit 14, the flange insulation unit 14 has a shape corresponding to the flange portion 24 to surround the outer surface of the flange portion 24 It has two or more partitions 14a, 14b. The two or more partitions 14a and 14b are divided based on the dividing line 34, and the partitions 14a and 14b are detachably coupled to the outer surface of the flange portion 24.

As shown in FIGS. 6 and 7, the partitions 14a and 14b of the heat insulating unit 14 for flanges have an inner diameter layer 51 and an inner diameter layer 51 adjacent to the outer surface of the flange portion 24. It has a middle insulation layer 52 interposed between the outer insulation layer 53, the inner insulation layer 51 and the outer insulation layer 53 disposed in the. The inner insulation layer 51, the outer insulation layer 53, and the intermediate insulation layer 52 are wrapped and protected by the insulation protection layers 54a, 54b, and 54c.

Meanwhile, as shown in FIG. 2, the inner insulation layer 51, the outer insulation layer 53, the intermediate insulation layer 52, and the insulation protection layers 54a, 54b and 54c of the flange insulation unit 14 are flange parts ( It consists of a "c" shaped cross section so as to surround the outer surface.

The inner insulation layer 51 and the outer insulation layer 53 may be made of a material such as glass wool, mineral wool, or may be made of foamed polyethylene or the like when the fluid passing through the pipes 21, 22, 23 is low temperature. . The inner insulation layer 51 and the outer insulation layer 53 is composed of the same heat insulating material.

The intermediate insulation layer 52 may have a jacket structure having a space 52a filled with air or argon gas therein. The intermediate insulation layer 52 may be made of a thermally insulating material such as HITLIN or the like and the intermediate insulation layer 52 may be made of a different kind of insulation material as compared with the internal insulation layer 51 and the external insulation layer 52 Lt; / RTI >

The inner insulation layer 51, the outer insulation layer 53, and the intermediate insulation layer 52 are wrapped and protected by the insulation protection layers 54a, 54b, and 54c. The heat insulating material protective layers 54a, 54b, and 54c include the inner protective layer 54a disposed on the inner diameter surface of the inner insulating layer 51, the side protective layer 54b extending outward from the inner protective layer 54a, and the outer insulating layer. It consists of the outer protective layer 54c which contacts the outer diameter surface of 53. As shown in FIG.

A finish cover 55 is disposed on an outer surface of the outer protective layer 54c, and the finish cover 55 is made of a metal material to stably protect the inner insulation layer 51, the intermediate insulation layer 52, the outer insulation layer 53, and the like. To can be maintained.

The first coupling portion 41 and the second coupling portion 42 are installed to correspond to each other at the end portions adjacent to each other of the partitions 14a and 14b, and the first coupling portion 41 and the second coupling portion 42 are provided. By means of two or more partitions 14a, 14b can be joined firmly and accurately.

As shown in FIG. 7, the first coupling part 41 is formed of the first coupling body 41a and the first coupling body 41a provided at the end of the split body 14a on one side of the split bodies 12a and 12b. The end is composed of a coupling ring 41b rotatably installed.

As shown in FIG. 7, the second coupling part 42 is formed of the second coupling body 42a and the second coupling body 42a provided at the end of the partition body 14b on the other side of the split bodies 12a and 12b. It has a coupling jaw 42b rotatably installed at the end.

Thus, the engaging ring 41b of the first coupling part 41 is rotated, so that the end portion of the coupling ring 41b is caught by the coupling jaw 42b side of the second coupling part 42, so that the partition 14a is provided. , 14b) are firmly coupled to their adjacent ends.

Meanwhile, as shown in FIG. 7, the first coupling body 41a of the first coupling part 41 is firmly fixed to the finishing cover 55 side of the one side partition 14a by the rivet 41c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the first coupling body 41a are coupled by rivets 41c, whereby the reinforcing material 54d and the first coupling are provided. The outer protective layer 54c and the closing cover 55 are coupled between the bodies 41a.

In addition, as shown in FIG. 7, the second coupling body 42a of the second coupling part 42 is firmly fixed to the finishing cover 55 side of the other partition 14b through the rivet 42c. In particular, a reinforcing material 54d is provided inside the outer protective layer 54c, and the reinforcing material 54d and the second coupling body 42a are coupled by rivets 42c, thereby reinforcing material 54d and the second. The outer protective layer 54c and the closing cover 55 are coupled between the coupling bodies 42a.

As such, the first and second coupling parts 41 and 42 may be firmly coupled to the outer cover layer 54c of the finish cover 55 and the heat insulating material protective layer by the rivets 41c and 42c.

(Other configuration)

On the other hand, when the intermediate insulation layer 52 of each of the heat insulating units 11, 12, 13, 14 is a jacket structure having a space 52a therein, as shown in FIG. 11, the outer member 52c and the inner member ( 52d is radially spaced to form a space 52a, in which a plurality of supports 52b extend in the circumferential direction of each of the thermal insulation units 11, 12, 13, 14; The plurality of supports 52b are configured to extend in the respective heat insulation units 11, 12, 13, and 14 (eg, in the case of the straight heat insulation unit 13, the longitudinal direction of the straight pipe 23, and the heat insulation unit for the elbow ( 11) the curved direction of the elbow 21, the T direction of the T-join 22 in the case of the T-joint 22, the longitudinal direction of the flange 24 in the case of the insulation unit 14 for the flange ) Can be spaced apart.

Unlike this, as shown in FIG. 12, in the space 52a of the intermediate insulation layer 52, a plurality of supports 52b extend in the extending direction of each of the heat insulation units 11, 12, 13, and 14. The plurality of supports 52b may be spaced apart in the circumferential direction of each of the heat insulation units 11, 12, 13, and 14.

11 and 12 illustrate the intermediate insulation layer 52 of the heat insulation unit 13 for straight pipe, but the structure associated with the support 52b of the intermediate insulation layer 52 is for the elbow insulation unit 11 and the T-join. The same may be applied to the heat insulation unit 12 and the heat insulation unit 14 for the flange.

Meanwhile, the elbow insulation unit 11, the T-joint insulation unit 12, the straight pipe insulation unit 13, and the flange insulation unit 14 each have their respective dividing lines 31, 32, 33, and 34. They may lead in a coincident direction.

Alternatively, the adjacent heat insulating units 11, 12, 13, and 14 may extend in the direction in which the divided lines 31, 32, 33, and 34 are offset from each other.

For example, as shown in FIG. 1, the dividing line 31 of the elbow insulation unit 11 is arranged to be shifted from the dividing line 33 of the straight heat insulation unit 13 adjacent thereto. In addition, the dividing line 34 of the heat insulating unit 14 for flanges is disposed to be displaced from the dividing line 33 of the adjacent heat insulating unit 13 for adjacent pipes, and the dividing line 32 of the T-joint insulating unit 12 is disposed. ) And the dividing line 33 of the heat insulation unit 13 for straight pipe may be connected to the same direction. In this way, as the heat insulation units 11, 12, 13, and 14 adjacent to each other are disposed to be partially displaced from each other, the sealing property may be more secured.

In particular, when the dividing line 33 of the straight pipe insulation unit 13 is disposed in the vertical direction, since external rainwater and other foreign matter may enter through the dividing line 33, the straight pipe insulation unit 13 is provided. The dividing line 33 is preferably arranged in the horizontal direction.

In addition, the first and second coupling parts 41 and 42 are the elbow insulation unit 11, the T-joint insulation unit 12, the straight tube insulation unit 13, and the flange insulation unit 14. Each of the end portions in contact with each other may be installed, and the heat insulating units 11, 12, 13, and 14 contacting each other may be firmly coupled and connected by the coupling operation of the first and second coupling parts 41 and 42. .

The elbow insulation unit 11 may be formed of four partitions 11c, 11d, 11e, and 11f divided in the circumferential direction as shown in FIG. 13 to more effectively surround the outer surface of the elbow 21.

In addition, the T-joint insulation unit 12 may be formed of six partitions 12c, 12d, 12e, 12f, 12g, and 12h divided into a T-shaped structure as illustrated in FIG. .

10: Adiabatic device for piping 11: Adiabatic unit for elbow
12: insulation unit for T-joint 13: insulation unit for straight pipe
14: insulation unit for flange 21: elbow
22: T-joint 23: Intuition
24: Flange

Claims (5)

An elbow insulation unit installed on an elbow outer surface of the pipe;
T-joint insulation unit installed on the T-join outer surface of the pipe;
Insulation unit for straight pipe installed on the outer surface of the straight pipe; And
Includes; insulation unit for the flange installed on the outer surface of the flange portion of the pipe,
Each insulation unit has two or more partitions detachably coupled based on a split line, each partition consists of one or more insulation layers,
The first coupling portion and the second coupling portion are installed to correspond to each other at the end of the partition,
The first coupling portion has a coupling ring rotatably installed at the end of the first coupling body and the first coupling body of the divided body portion of the one side of the divided body,
The second coupling portion has a second coupling body installed on the other end of the divided body of the divided body and the coupling jaw rotatably installed on the end of the second coupling body,
As the coupling ring of the first coupling unit rotates so that the end of the coupling ring is hooked to the coupling jaw side of the second coupling unit, the adjacent parts thereof are firmly coupled to each other.
Each partition has an inner insulation layer, an outer insulation layer disposed in the outer diameter direction of the inner insulation layer, and an intermediate insulation layer interposed between the inner insulation layer and the outer insulation layer. ,
The insulation protective layer is formed of an inner protective layer disposed on the inner diameter surface of the inner heat insulating layer, a side protective layer extending outwardly from the inner protective layer, an outer protective layer in contact with the outer diameter surface of the outer insulating layer, On the outside is a metallic finish cover is disposed,
The intermediate insulation layer is a jacket structure having a space formed by the outer member and the inner member spaced in the radial direction, a plurality of supports are provided in the space, the plurality of supports are extended in the circumferential direction of each insulation unit and each It has a structure spaced apart in the extending direction of the insulation unit, or extends in the extension direction of each insulation unit and has a structure spaced apart in the circumferential direction of each insulation unit,
The dividing lines of the insulation units adjacent to each other are arranged to be shifted apart from each other, the dividing line of the straight pipe insulation unit is arranged in a horizontal direction. delete In the first aspect,
The first coupling body of the first coupling portion is firmly fixed to the finish cover side of the one side partition by rivets, the reinforcement is provided on the inner side of the outer protective layer, the reinforcement and the first coupling body is coupled by rivets , The outer protective layer and the closing cover is coupled between the reinforcement and the first coupling body,
The second coupling body of the second coupling part is firmly fixed to the finishing cover side of the other partition through rivets, and a reinforcement is provided on the inner side of the outer protective layer, and the reinforcement and the second coupling body are coupled by rivets. , Insulation device for a pipe, characterized in that the coupling between the reinforcement and the second coupling body with the outer protective layer and the closing cover is interposed. The method of claim 3,
The closing cover of the insulation unit for the elbow is assembled so that a plurality of assemblies correspond to the curved surface of the elbow, the plurality of assemblies are assembled at each end is bent, the assembly of the assembly with the cross-sections of the assemblies abut each other The ends are in contact with each other, and a band-shaped reinforcement member is squeezed to the assembly ends of the assemblies, and both ends of the reinforcement assembly are bent in opposite directions to the assembly ends, and each coupling end of the reinforcement assembly is assembled. The plurality of assemblies are connected to each other in the curved direction of the elbow as the reinforcing coupling body is pressed in the state fitted to the assembly ends of the pipe insulation. The method of claim 1,
Insulation device for a pipe, characterized in that the inner insulation layer and the outer insulation layer is composed of the same insulation.

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