KR101173681B1 - Removable insulation cover - Google Patents

Abstract

PURPOSE: A detachable heat-insulating cover is provided to prevent the penetration of water or foreign materials between both ends of an insulating cover because both ends of the insulating cover are closely attached by fixing bands and clamps to both ends of the insulating cover with fixing pins. CONSTITUTION: A detachable heat-insulating cover(100) comprises an inner skin, an outer skin, an insulating material, a first cover(141), and a second cover(142). The inner skin contacts with the outer surface of a pipeline. A space between the inner skin and the outer skin is filled with the insulting material. The first cover is extended from one end of an insulating cover and covers a gap between both ends of the insulating cover. The second cover is extended from both edges of the insulating cover and covers the gap between neighbored insulating covers.

Description

Removable insulation cover

The present invention relates to a removable insulation cover that is installed so as to surround the pipe or valve of the piping line for the insulation of the piping line.

In general, petrochemical plants, thermal and nuclear power plants, various boilers, heat exchangers, and the like are provided with piping lines including various pipes and valves for conveying fluid. The fluid transported through the pipe line needs to maintain a constant temperature, and for this purpose, a heat insulator for keeping warm and cold is attached to the outer surface of the pipe line. In addition, when a worker contacts a pipe line through which a high temperature fluid passes, there is a risk of a safety accident such as a burn, and the insulating material also serves to protect the worker from such a risk.

Conventionally, a method of applying a heat insulating material such as gypsum to an outer surface of a pipe line has been widely used for keeping the pipe line warm and cold. By the way, in this case, when a problem arises in a piping line and needs to repair or replace a pipe, a valve, etc., the heat insulating material, such as gypsum, was destroyed and removed. Since the insulating material such as gypsum removed as described above cannot be reused, it has the disadvantages of adversely affecting the environment as it is industrial waste, and has to be reconstructed with a new insulating material after repair or replacement of pipes or valves is completed.

In order to solve this problem, recently, a heat insulating cover that is detachably installed to be reused has been developed and used. Since the removable insulation cover can be separated from the piping line without damage when repairing the pipe or the valve of the piping line, it can be reused after repairing or replacing the piping line. There is an advantage to reduce the occurrence.

1 is a perspective view showing an example of a conventional removable heat insulating cover, Figure 2 is a partial cross-sectional view of the heat insulating cover shown in FIG.

First, referring to FIG. 1, the conventional detachable heat insulating cover 10 is composed of an inner shell 11, an outer shell 13, and a heat insulating material 12 interposed therebetween. The insulation cover 10 is manufactured in a shape surrounding the pipe 20 or the valve of the piping line. When the insulation cover 10 thus manufactured is wound on the outer surface of the pipe 20 or the valve, and the both ends thereof are brought into close contact with each other, the insulation cover 10 is firmly attached to the outer surface of the pipe 20 or the valve. Is installed. As a means for coupling both ends of the heat insulating cover 10 to be in close contact with each other, a plurality of hooks 14 are fixed to each of the both ends of the heat insulating cover 10 using pins 15, and the plurality of hooks 14 When the stainless wire 16 is pulled in a zigzag form, both ends of the heat insulating cover 10 are coupled to be in close contact with each other.

However, in this case, since the stainless wire 16 has to be hooked and pulled in turn on the plurality of hooks 14, there is a disadvantage in that the installation work and the detaching work are cumbersome and time-consuming. In addition, both ends of the heat insulation cover 10 are brought into close contact by the tensile force applied to the stainless steel wire 16, and the friction force between the stainless wire 16 and the hooks 14 is applied to both ends of the heat insulation cover 10. It becomes difficult to apply an even tensile force, and accordingly, a gap may occur partially between both ends of the heat insulating cover 10.

As shown in FIG. 2, a plurality of hooks 14 are conventionally fixed only to the outer shell 13 of the heat insulating cover 10 by the pins 15. Accordingly, when the stainless wire 16 is pulled, the outer shell 13 of both ends of the thermal insulation cover 10 is in close contact with each other while the outer shell 13 is also pulled together with the hook 14. However, the inner shell 11 of the heat insulation cover 10 is not sufficiently pulled by the friction with the pipe 20, and thus both ends of the heat insulation cover 10 are not completely in contact with each other and the bottom is opened.

As described above, when a gap is partially formed between both ends of the heat insulating cover 10, or when the lower side between the both ends of the heat insulating cover 10 is opened, water or other foreign matter penetrates from the outside through this part. Since a problem occurs and heat is generated through this part, heat insulation performance is deteriorated.

On the other hand, as another example of a conventional removable heat insulating cover, a method of coupling both ends of the heat insulating cover to be in close contact with each other using a spring is also known. However, in the case of the piping line through which the high temperature fluid passes, there may occur a problem that both ends of the heat insulation cover are opened while the spring is thermally expanded. In this case, the same problem as described above occurs.

Embodiments of the present invention provide a detachable thermal insulation cover that can be detachably attached to the outside of the piping line, and has a configuration capable of bringing both ends closer together.

In order to achieve the above technical problem, according to an aspect of the present invention, in the removable insulation cover is installed to surround the piping line,

An inner skin contacting an outer surface of the pipe line; An outer shell which forms a space between the outer end and the endothelial; And a heat insulating material filled in a space between the inner skin and the outer skin.

One end of the band having a plurality of holes is fixedly installed at one end of the heat insulation cover, and a clamp having a hook is fixedly installed at the other end of the heat insulation cover, and the band is pulled out. By attaching the hook of the clamp to any one of the plurality of holes of the band, there is provided a removable insulating cover, characterized in that both ends of the heat insulating cover are in close contact with each other.

And, one end of the band is fixed to one end of the heat insulating cover by a band fixing pin, the clamp is fixed to the other end of the heat insulating cover by a clamp fixing pin, the band fixing pin and the clamp fixing pin Each of the insulation cover may penetrate the outer shell, the insulation and the inner shell.

In addition, the clamp has a configuration in which the lower plate and the upper plate are hinged by a hinge shaft, a torsion spring is installed on the hinge shaft, and the lower plate is fixed to the other end of the heat insulating cover, and at one end of the upper plate. The hook may protrude.

In addition, the band and the clamp may be made of stainless steel.

The apparatus may further include a first cover extending from one end of the heat insulating cover to cover between both ends of the heat insulating cover, and a second cover extending from both edges of the heat insulating cover to cover the neighboring heat insulating covers. Can be.

In addition, the first cover and the second cover is connected to the outer cover of the heat insulating cover, it may be made of the same material as the outer cover.

According to the embodiment of the present invention, since both ends of the heat insulation cover are joined by the band and the clamp, there is an advantage that the heat insulation cover can be easily attached and detached as compared with the related art.

In addition, since the band and the clamp are respectively fixed to both ends of the heat insulation cover by fixing pins penetrating the inner shell, the heat insulation material and the outer skin of the heat insulation cover, both ends of the heat insulation cover can be closely intimately contacted with each other. Intrusion of water or foreign matters can be prevented, and heat can be prevented from entering through this, so that the thermal insulation performance is improved.

In addition, by providing the first cover and the second cover in the heat insulating cover, it is possible to more effectively prevent the entry of water or foreign matter and heat through the both ends of the heat insulating cover and between the adjacent heat insulating covers.

1 is a perspective view showing an example of a conventional removable insulation cover.
FIG. 2 is a partial cross-sectional view of the heat insulation cover shown in FIG. 1.
Figure 3 is a perspective view of a removable insulating cover according to an embodiment of the present invention.
4 is a perspective view illustrating a state in which the heat insulation cover illustrated in FIG. 3 is installed on the pipe outer surface of the pipe line.
5 is a cross-sectional view of the insulation cover along the line AA ′ shown in FIG. 4.
6 is a perspective view illustrating an example of the clamp illustrated in FIG. 3.
7 is a partial cross-sectional view showing a coupling structure of the clamp and the thermal insulation cover shown in FIG.
8 is a partial cross-sectional view showing a coupling structure of the band and the heat insulation cover shown in FIG.

Hereinafter, a removable heat insulating cover according to an embodiment of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same elements.

3 is a perspective view showing a removable insulation cover according to an embodiment of the present invention, Figure 4 is a perspective view showing a state in which the heat insulation cover shown in Figure 3 is installed on the pipe outer surface of the pipe line, Figure 5 It is sectional drawing of the heat insulation cover along the AA 'line shown in FIG.

3 to 5 together, the removable insulation cover 100 according to an embodiment of the present invention, is installed so as to surround the outside of the pipe line for the thermal insulation, cold storage of the piping line. The pipe line includes a pipe 20 and various valves, and the like, and the heat insulation cover 100 may be installed on the valve 20 as well as the pipe 20. Hereinafter, the case where the heat insulation cover 100 is attached to the outer surface of the pipe 20 of the piping line is shown and described as an example.

Detachable insulation cover 100 according to an embodiment of the present invention is produced in a shape surrounding the pipe 20 or the valve of the piping line, the inner shell 111, the outer shell 113 and the insulating material interposed therebetween. (112). In addition, the band 120 and the clamp 130 are provided as a means for tightly coupling both ends of the heat insulating cover 100.

Specifically, the inner shell 111 of the heat insulation cover 100 is in contact with the outer surface of the pipe line, for example, the pipe 20, the outer shell 113 is disposed on the outer side of the inner shell 111 and between the inner shell 111 A space is formed in the heat insulating material 112 is filled in the space between the endothelial 111 and the outer shell (113).

The heat insulator 112 may be made of, for example, glass fibers such as glass wool, and may also include other ceramic fibers, mineral wool, and the like. The heat insulating material 112 may have an appropriate thickness according to the size of the pipe line to be installed the heat insulating cover 100 and the required heat insulating performance. For example, the insulation 112 may have a thickness of about several cm.

The inner shell 111 and the outer shell 113, for example, may be made of a woven fabric of glass fiber, in addition to the woven fabric of other ceramic fibers may be used. In addition, the inner shell 111 and the outer shell 113 may be coated with silicon for waterproofing. Each of the inner shell 111 and the outer shell 113 may have a thickness of about 0.2 mm to about 2 mm, for example.

In order to install the heat insulation cover 100 having the above-described configuration in the pipe line, as shown in FIGS. 4 and 5, after the heat insulation cover 100 is wound on the outer surface of the pipe 20 or the like of the pipe line, Both ends should be firmly joined so that they are in close contact with each other. To this end, as described above, the band 120 and the clamp 130 are provided at both ends of the heat insulating cover 100, respectively.

One end of the band 120 is fixed to one end of the heat insulation cover 100 and has a plurality of holes 122 formed along the longitudinal direction thereof. One end of the band 120 is fixed to one end of the heat insulating cover 110 by a band fixing pin 121 penetrating the inner shell 111, the heat insulating material 112 and the outer shell 113 of the heat insulating cover 100. This will be described later. The band 120 may be made of stainless steel having corrosion resistance to prevent corrosion by an external environment.

The clamp 130 is fixedly installed at the other end of the heat insulating cover 100 and has a hook 132 fitted into one of the plurality of holes 122 of the band 120. The clamp 130 is also fixed to the other end of the heat insulating cover 110 by a clamp fixing pin 131 penetrating through the inner shell 111, the heat insulating material 112 and the outer shell 113 of the heat insulating cover 100, This will also be described later. The clamp 130 may be made of stainless steel having corrosion resistance to prevent corrosion by an external environment.

After the insulation cover 100 is wound on the outer surface of the pipe 20 of the piping line, the band 120 is pulled toward the clamp 130 so that both ends of the insulation cover 100 are brought into close contact with each other. Hook 132 of 130 is inserted into any one of the plurality of holes 122 of band 120. Then, the heat insulation cover 100 is firmly attached to the outer surface of the pipe 20 or the like of the piping line, and both ends thereof are kept in close contact with each other.

In the repair or replacement of the piping line, when the hook 132 of the clamp 130 is detached from the hole 122 of the band 120, the insulation cover 100 is removed from the pipe 20, etc. of the piping line. It can be easily separated from.

As such, according to one embodiment of the present invention, since both ends of the heat insulation cover 100 are coupled by the band 120 and the clamp 130, there is an advantage that the detachable is easier than the conventional.

6 is a perspective view illustrating an example of the clamp illustrated in FIG. 3.

Referring to FIG. 6, the clamp 130 may have a tong shape, but is not limited thereto and may have various shapes.

Specifically, the clamp 130, the lower plate 135 and the upper plate 136 is hinged by the hinge shaft 137, the hinge shaft 137 may have a configuration in which a torsion spring (not shown) is installed. have. The lower plate 135 is fixed to the heat insulation cover 100 by the clamp fixing pin 131, the hook 132 is formed at one end of the upper plate 136 to protrude toward the lower plate 135.

When coupling both ends of the heat insulation cover 100, the band 120 passes between the lower plate 135 and the upper plate 136 of the clamp 130, the hook 132 is the band 120 It will fit in the hole 122 of the). At this time, since the elastic force acts on the hook 132 toward the lower plate 135 by a torsion spring (not shown) installed on the hinge shaft 137, the hook 132 is removed from the hole 122 of the band 120. It is not arbitrarily separated.

7 is a partial cross-sectional view showing a coupling structure of the clamp and the heat insulating cover shown in FIG. 3, and FIG. 8 is a partial cross-sectional view showing a coupling structure of the band and the heat insulating cover shown in FIG.

First, referring to FIG. 7, the clamp 130 is fixedly installed at the other end of the thermal insulation cover 100 by a clamp fixing pin 131, and the clamp fixing pin 131 is endothelial of the thermal insulation cover 100. It is installed to penetrate through the 111, the heat insulating material 112 and the outer shell 113. Specifically, the clamp fixing pin 131 is inserted into the pin insertion hole 138 formed in the lower plate 135 of the clamp 130, and then turn the outer shell 113, the heat insulating material 112, and the inner shell 111. Penetrate the street. Then, the end of the clamp fixing pin 131 penetrating the endothelial 111 is bent so as not to fall out. At this time, the washer 133 may be inserted between the end portion 111 and the bent end of the clamp fixing pin 131.

Next, referring to FIG. 8, one end of the band 120 is fixed to one end of the heat insulation cover 100 by a band fixing pin 121, and the band fixing pin 121 also includes the heat insulation cover 100. It is installed to penetrate through the inner shell 111, the heat insulating material 112 and the outer shell 113. In detail, the band fixing pin 121 is inserted into the pin insertion hole 128 formed at one end of the band 120, and then sequentially penetrates the outer shell 113, the heat insulating material 112, and the inner shell 111. do. Then, the end of the band fixing pin 121 penetrating the endothelial 111 is bent so as not to fall out. At this time, the washer 123 may be fitted between the end portion 111 and the bent end of the band fixing pin 121.

As described above, the band 120 and the clamp 130 are insulated by the fixing pins 121 and 131 penetrating the inner shell 111, the heat insulating material 112 and the outer shell 113 of the heat insulating cover 100 ( Since it is fixed to both ends of the 100, respectively, when the band 120 and the clamp 130 is coupled to the outer shell 113, the heat insulating material 112 and the inner shell 111 is pulled together, both ends of the heat insulating cover 100 It comes in close contact with the whole, and a gap does not arise between them. Therefore, it is possible to prevent the intrusion of water or foreign matter through the both ends of the heat insulating cover 100, it is possible to suppress the entry of heat through this there is an advantage that the heat insulating performance is improved.

Again, referring to FIGS. 3 to 5, the heat insulation cover 100 may further include a first cover 141 and a second cover 142.

Specifically, the first cover 141 extends from one end of the heat insulation cover 100, and the second cover 142 extends from both edges of the heat insulation cover 100. The first cover 141 and the second cover 142 may be connected to the outer shell 113 of the thermal insulation cover 100, it may be made of the same material as the outer shell 113. That is, the first cover 141 and the second cover 142 may be made of, for example, a fabric woven of glass fiber, and may be coated with silicon for waterproofing.

When the insulation cover 100 is installed on the outer surface of the pipe 20 of the piping line, the first cover 141 may be formed between the both ends of the insulation cover 100 and the other end of the insulation cover 100 ( 113) to cover a part.

In addition, a plurality of heat insulation covers 100 may be installed on the pipe 20 of the plumbing line, and in this case, a gap may occur between the heat insulation covers 100. The second cover 142 serves to cover the neighboring heat insulating covers 100.

As described above, the first cover 141 and the second cover 142 are provided on the heat insulating cover 100, thereby covering the both ends of the heat insulating cover 100 and the neighboring heat insulating covers 100. Accordingly, it is possible to more effectively prevent the entry of water or foreign matters and heat through the both ends of the heat insulating cover 100 and between the adjacent heat insulating covers 100.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Accordingly, the true scope of protection of the present invention should be defined by the appended claims.

20.Pipe 100.Removable insulation cover
111 ... inner 112 ... insulation
113 Jacket 120 Band
121.Band fixing pin 122 ... hole
123,133 Washers 128,138 Pin insertion hole
130 ... clamp 131 ... clamping pin
132 ... hook 135 ... bottom
136 ... Top 137 ... Hinge Shaft
141 ... first cover 142 ... second cover

Claims (6)

In the removable insulation cover is installed to surround the piping line,
An inner skin contacting an outer surface of the pipe line;
An outer shell which forms a space between the outer end and the endothelial;
Insulation material filled in the space between the endothelial and the outer shell;
A first cover extending from one end of the heat insulation cover to cover between both ends of the heat insulation cover; And
And a second cover extending from both edges of the insulation cover to cover the neighboring insulation covers.
One end of the band having a plurality of holes is fixedly installed at one end of the heat insulation cover,
On the other end of the heat insulation cover, a clamp having a hook is fixedly installed,
The hook of the clamp in the pulled state of the band is inserted into any one of the plurality of holes of the band, so that both ends of the heat insulation cover is removable insulation cover, characterized in that the close contact with each other. The method of claim 1,
One end of the band is fixed to one end of the heat insulating cover by a band fixing pin, the clamp is fixed to the other end of the heat insulating cover by a clamp fixing pin, and the band fixing pin and the clamp fixing pin are respectively Detachable heat insulation cover, characterized in that penetrates the outer shell, heat insulating material and the inner skin of the heat insulation cover. The method of claim 1,
The clamp has a configuration in which the lower plate and the upper plate are hinged by a hinge axis, and a torsion spring is installed on the hinge axis.
The lower plate is fixed to the other end of the heat insulating cover, the removable heat insulating cover, characterized in that the hook protrudes on one end of the top plate. The method of claim 1,
The band and the clamp is removable insulation cover, characterized in that made of stainless steel. delete The method of claim 1,
The first cover and the second cover is connected to the outer cover of the insulating cover, removable insulation cover, characterized in that made of the same material as the outer cover.

Images