KR100934635B1 - Insulation for connection to cover the connection gap between tubular insulation jacket - Google Patents

Abstract

The present invention is intended to cover the connection gaps between tubular thermal insulation jackets, which are constructed for piping generating high temperature heat, such as tubular objects through which the thermal fluid moves, such as pipes for industrial boilers or heaters. It relates to a thermal insulation for connection.

The present invention, as a heat insulating material for connection (30) for covering the connection gap between the tubular thermal insulation jacket disposed adjacent to each other along the outer surface of the tube body 10 to insulate the tube body 10, Only a filler 34 for insertion into a connection gap between two adjacent tubular thermal insulation jackets 20 and at least one outer surface of the tubular thermal insulation jacket 20 of the adjacent thermally disposed tubular thermal insulation jackets 20. A cover portion 35 integrally formed at one end of the filler 34 so as to be in contact, and a sheet portion 36 integrally formed at the other end of the filler 34 in a direction opposite to the cover part 35. It is configured by.

Tube, insulation insulation, insulation, insulation jacket, insulation reliability

Description

FLEXIBLE COVERS FOR FILLING EACH OF GAPS BETWEEN TUBULAR INSULATING JACKETS ADJACENT TO EACH OTHER}

The present invention relates to an insulating heat insulating material, and more particularly, to a tubular heat insulating material, which is constructed for a pipe in which high temperature heat is generated, such as a pipe of a tubular object to which a thermal fluid moves, for example, an industrial boiler device or a heater device. The present invention relates to a connecting insulation for covering a connection gap between jackets.

In power plants, petroleum and chemical plants, a lot of heat energy is released through piping. Therefore, when the total amount of heat energy released through the pipe is reduced because the operating cost or production cost, the heat insulating insulation of various materials has been used in the past.

By the way, since the length of heat insulation thermal insulation materials used for power plant piping, industrial steam piping, etc. is high, if the surface temperature of a piping is high, it will be easy to produce a gap between two adjacent insulation thermal insulation materials with time. As a result, when a gap is generated, there is a problem that heat energy is taken out there, and the thermal insulation insulation effect is lowered.

In the present invention, when a gap (connection gap) occurs between tubular thermal insulation jackets adjacent to and disposed along the outer surface of the tube, the gap is covered to maintain a low level so that the amount of heat energy is almost negligible. The purpose is to provide a thermal insulation for connection.

In addition, the present invention by forcibly close any one or both of the tubular thermal insulation jacket adjacent to each other and arranged on the outer surface of the tubular body, when the tubular thermal insulation jacket is going to heat shrink, the friction between the outer surface of the tubular thermal insulation jacket and the tubular thermal insulation jacket It is another object to provide a connecting thermal insulation material in which the length shrinkage of the tubular thermal insulation jacket can be effectively suppressed by the contact.

Therefore, according to the connecting thermal insulation material of the present invention, even at a temperature at which the length of the tubular thermal insulation jacket can shrink, it is possible to exert an excellent thermal insulation thermal insulation effect over a long time.

As a result, the reliability about thermal insulation thermal insulation can be improved.

The present invention for solving the above problems is a heat insulating material for connection for covering the connection gap between the tubular heat insulating jacket disposed adjacent to each other along the outer surface of the pipe body to insulate the pipe body, A filler for insertion into a connection gap between two tubular thermal insulation jackets adjacent to and disposed on each other, and at one end of the filler so as to contact only an outer surface of at least one of the adjacent thermal tubular thermal insulation jackets It characterized in that it comprises a cover portion formed in one piece and a sheet portion formed integrally with the other end of the filler in a direction opposite to the cover portion. (See claim 1)

Further, as another configuration, for example, the connecting insulation may be one end of the filler so as to be in contact with both the filler for inserting into the connection gap between the tubular insulation jackets adjacent to and arranged with each other, and the outer surface of the tubular insulation jackets being adjacent and arranged. It characterized in that it comprises a cover portion formed integrally with. (See claim 2)

At this time, Preferably, in the structure of Claim 2, the seat part which contacts only the inner surface of either tubular heat insulating jacket of the tubular heat insulating jacket is further formed in the other end part of the said filler. (See claim 3)

In addition, the connecting insulation is more preferably, an incision line cut along the longitudinal direction of the connecting insulation is formed so that the tube or tubular insulation jacket can be inserted in the circumferential direction of the connection insulation. One or more holes are drilled in each side of the incision, so that at least one strap passes through the holes on both sides in such a way that it crosses the incision so that both sides of the incision are closer by tightening the strap. It is characterized by being retracted. (See claim 4)

As the thermal insulation material for connection, for example, a thermal insulation material having a normal structure can be used, but preferably the thermal insulation material prepared by the method disclosed in the applicant's Patent No. 763430 or Patent No. 764632 To use.

According to an example of the present invention constituted as described above, for example, according to the connecting thermal insulation material having a shape of "T" shape, between the thermal insulation jacket between the tubular thermal insulation jacket that is installed adjacent to each other along the longitudinal direction of the tube body; If the gap occurs due to heat shrinkage, it is necessary to push the filler part of the "T" shape connecting insulation into the open connection gap and tighten the binding strap without having to remove all the installed insulation jackets. The connection gap can be completely covered to prevent contact with the tube. Therefore, the contact between the tube and the outside air through the connection gap can be improved again the warmth.

In addition, since the cover portion covering the end portion of the insulating jacket closely adheres to the heat insulating jacket toward the tubular body, the frictional contact between the tubular body and the heat insulating jacket suppresses heat shrinkage when the tubular heat insulating jacket is about to be heat shrinked. It can act to make the connection gap can be effectively suppressed.

In addition, the thermal insulation material for connection according to an embodiment of the present invention may have a sheet portion inserted between the tube body and the insulation jacket surrounding the tube body, typically, such a sheet portion is mutually with the tube body by the pressure action of the thermal insulation jacket. Because of the frictional contact, heat shrinkage is difficult, but even if both the thermal insulation jacket and the connecting insulation are heat shrinked, if each shrinkage length is made smaller than the length of the sheet portion, the tubular body and the outside air do not directly contact each other.

Hereinafter, with reference to the accompanying drawings will be described in detail the thermal insulation for connection according to each embodiment of the present invention.

Definition of terms

In the following examples, the thermal insulation jacket and the tubular thermal insulation jacket are used in the same sense.

In addition, the tubular body is used in the sense of including not only a pipe having a circular cross section, but also a duct having a shape other than a circular cross section, through which a thermal fluid can flow from one point to another.

Example 1

1 is a cross-sectional view showing a cross-sectional shape of the connecting insulation according to the first embodiment of the present invention. As shown in the figure, a plurality of insulating jackets 20 are disposed adjacent to each other along the outer surface of the tube 10 to thermally insulate the tube. When the thermal insulation jacket is first installed in the tubular body 10, there is almost no connection gap between the thermal insulation jackets 20, but when the thermal fluid flows into the interior of the tubular body 10, the surface temperature of the tubular body 10 increases and the heat is increased. The thermal insulation jacket 20 is transferred to the thermal insulation jacket 20 to thermally contract the thermal insulation jacket in the longitudinal direction of the tube.

In order to cover the connection gap which arises at the time of thermal contraction of such a thermal insulation jacket, the connecting insulation material 30 of this embodiment is the filler 34 inserted into the connection gap between two adjacent and arranged insulation jackets, and the said, It is comprised in the form containing the cover part 35 formed in one body at one end of the said filler so that it may contact all the outer side surfaces of the end side of the thermal insulation jacket arrange | positioned at both sides of the filler. In addition, since this connection insulation material 30, for example, as shown in Figure 4, the connection insulation material can be opened to the left and right around the incision line 31 formed along the longitudinal direction of the tube, It is also possible to install additional insulation only when the insulation jacket is already installed, as well as when the insulation jacket is already installed.

According to this structure, for example, the edges of both thermal insulation jackets are firmly squeezed along the incision line 31 by tightly squeezing the binding strap 33 sewn in the holes 32 drilled at regular intervals on both sides of the incision line. Cover portion 35 that covers the pressing of the end of the thermal insulation jacket toward the tube to be in close contact. As a result, frictional contact is formed between the tube body and the end portion of the thermal insulation jacket, and thermal contraction of the thermal insulation jacket is suppressed.

Example 2

2 is a cross-sectional view showing a cross-sectional shape of the connecting insulation according to a second embodiment of the present invention.

In contrast to the above-described embodiment 1, the sheet portion in contact with the other end of the filler formed integrally with the cover portion 35 at one end, for example, only the inner surface of the thermal insulation jacket located on either of the left and right sides of the filler (36) is further formed.

According to this configuration, the sheet portion 36 is pressed against the tubular body by the insulating jacket 20 to make frictional contact, and the end of the insulating jacket sandwiched between the sheet portion and the lid portion is firmly fixed.

Therefore, the heat shrink of the thermal insulation jacket is further suppressed, and the possibility of occurrence of the connection gap is further lowered. Therefore, the reliability of heat insulation thermal insulation can be ensured.

Example 3

3 and 4 are respectively a cross-sectional view showing a cross-sectional shape of the connecting insulation according to a third embodiment of the present invention and a schematic perspective view in use.

In the case of the present embodiment, for example, in Example 2, there is only a difference in that a part of the lid part 35 which is sandwiching only one end of the thermal insulation jacket together with the seat part 36 is removed. , Except for the same.

1 is a cross-sectional view of the use state of the thermal insulation for connection according to the first embodiment of the present invention.

Figure 2 is a cross-sectional view of the use state of the thermal insulation for connection according to a second embodiment of the present invention.

Figure 3 is a cross-sectional view of the use state of the thermal insulation for connection according to a third embodiment of the present invention.

Figure 4 is a schematic perspective view of the connection insulator according to Figure 3 in use.

[Description of Drawing Reference]

10... Tube

20... Thermal Jacket

30... Thermal insulation for connection

31... Incision

32... hole

33... Ties

34... filler

35... Cover

36... Seat part

Claims (4)

As a heat insulating material for connecting to cover the connection gap between the tubular heat insulating jacket disposed adjacent to each other along the outer surface of the pipe to insulate the pipe insulation, The insulation for the connection, Filler for inserting into the connection gap between the tubular thermal insulation jacket disposed adjacent to each other; A cover part integrally formed at one end of the filler so as to contact only an outer surface of at least one of the tubular insulating jackets disposed adjacent to each other; And A sheet part integrally formed with the other end of the filler in a direction opposite to the cover part; Connection insulation for covering the connection gap between the tubular insulation jacket, characterized in that configured to include. delete delete delete

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