KR101192736B1 - Thermal insulation casing for pipe line and installing method thereof and manufacturing method thereof - Google Patents

Abstract

PURPOSE: A heat insulating casing for a pipe and a construction method thereof are provided to secure the connection portion of two heat insulating casings even through the vibration and the impact of pipes by using coupling protrusions. CONSTITUTION: A heat insulating casing for a pipe comprises a body, a female joint(2), a male joint(3), first and second coupling protrusions, and a side cut portion(6). An oblique portion(7) is formed on the body. The female joint is bent in an S-shape. The male joint is inserted into the female joint and bent in an L shape. The first and the second coupling protrusions are extended radially and projected respectively. The side cut portion is formed on the female and the male joints and cut in predetermined length and width.

Description

Thermal Insulation Casing for Pipe Line and Installing Method Thereof and Manufacturing Method Thereof}

The present invention relates to a heat insulating casing for pipes, and more particularly, to a heat insulating casing which is used to insulate a pipe, and which is covered on the outside of the heat insulating material to protect the heat insulating material surrounding the outside of the pipe, and a construction method and a manufacturing method thereof.

In the case of a pipe in which a fluid, which is a hot or cold liquid or gas, flows through the pipe, preventing the heat of the fluid from flowing out through the wall of the pipe or preventing external heat from entering the inside of the pipe through the wall of the pipe. Keep the pipe warm. Insulating the pipe in this way can prevent the heat loss caused by the fluid flowing through the pipe.

In general, as shown in FIG. 1, the method of insulating a pipe is to cover the outside of the pipe with a heat insulating material, and then cover the outside of the heat insulating material with a cover made of a metal plate such as a galvanized steel sheet or a stainless steel plate to protect the heat insulating material. The method is used a lot. Among the materials used for thermal insulation of such pipes, a cover which is covered on the outside of the heat insulating material is called a thermal insulation casing (hereinafter referred to as "thermal insulation casing" in the present specification).

Normally, the thermal insulation casing of a pipe is made by rolling a metal plate in the form of a pipe. The length of the metal sheet is made in a length corresponding to the width of the metal plate to be used. It is constructed by connecting. To connect two adjacent insulation casings, one end of one insulation casing is inserted at one end of the other insulation casing so that the two insulation casings overlap each other and the overlapped portions are banded together to bind or screwed in the overlapped portions. The method of connection is used.

As described above, the method of tying the overlapped portion with a band or fastening screws by the method of connecting the thermal insulation casing has a problem in connecting the thermal insulation casing because the insulation material inside the thermal insulation casing is very soft. That is, in the case of binding with a band, since the insulating material is a soft material, the two insulating casings are not firmly bound, and in some cases, the connection part of the two insulating casings falls out when a vibration occurs in the pipe or an impact caused by a water hammer. In addition, the screw fastening method is a very soft material insulated inside the insulating casing, and the wall of the insulating casing is very thin. If you try to tighten the screw by force, not only the work is difficult, but also the wall of the thermal insulation casing locally there is a problem that aesthetic appearance worsens.

Republic of Korea Utility Model Registration No. 20-0207805 "Pipe for insulation pipe duct" is formed on the inner wall of one side of the plate cut in accordance with the standard of the heat insulating material 60, the coupling groove 11 is formed, the other end in the coupling groove (11) Coupling of the duct plate 10 formed of the coupling part 12 to be inserted and hooked, the fastening ring 31 and the fasteners 32, etc., which are coupled to each other, the duct plate 10 to be covered by the heat insulating material 60 A duct for a pipe insulator is disclosed which is constituted by a strapping means 30 that binds a state to be maintained. However, this is different from the present invention in that a separate strap means is provided. Republic of Korea Utility Model No. 20-0390732 "Pipe casing" in the pipe casing for wrapping and fixing the insulation for protecting the inner pipe, the body 11 formed by bending a metal plate in the form of a cylinder; A first coupling part 12a configured to bend one end of the body 11; The second casing portion (12b) is formed by bending the other end of the body 11 is fitted to be coupled to the first coupling portion (12a); pipe casing characterized in that the configuration is configured. However, the configuration of connecting the adjacent pipe casing without a separate fastening means is not disclosed herein, which is different from the present invention.

The present invention has a lot of difficulties in connecting the two insulating casing in the pipe insulation work for the insulation of the pipe in the prior art, it is an object of the present invention to provide a thermal insulation casing and a construction method that can be easily connected in a very simple operation.

In addition, an object of the present invention is to provide a thermal insulation casing of a novel structure and a method for manufacturing the same, which can be connected very simply and the connection site is very firmly coupled.

In order to solve the above technical problem, the present invention is a cylindrical body made of a metal plate (1); A female seam (2) formed at one end of the body (1) by bending in a longitudinal direction with an "S" shape; A male joint (3) inserted into the female joint (2) to be fastened and formed by bending the letter “b” in the longitudinal direction at the other end of the body (1); A first coupling protrusion 4 extending in the circumferential direction and protruding from the upper end of the body 1; And a second coupling protrusion 5 extending in the circumferential direction to the lower end of the body 1, wherein the upper and lower ends of the female joint 2 and the male joint 3 have a predetermined length and a predetermined length. It is provided with a heat insulating casing, characterized in that the side cut portion 6 is formed in the width cut.

In addition, the present invention provides a method for constructing the insulating casing in a pipe, comprising the steps of (A) to open the body (1) to open the insulation wrap; Fastening the female joint (2) and the male joint (3) to each other (B); Repeating steps (A) and (B) to couple a plurality of insulating casings to a pipe (C); And connecting the plurality of insulating casings to each other by inserting the first coupling protrusion 4 of one insulating casing into the second coupling protrusion 5 of another adjacent insulating casing. Provides a construction method of the thermal insulation casing.

In addition, the present invention provides a method of manufacturing the insulating casing, the step of cutting a metal plate to a predetermined length; Cutting the four corner portions of the metal sheet to a predetermined length and a predetermined width to form side cutouts (6); One end of the metal plate is bent in the longitudinal direction by the letter "S", and the other end of the metal plate is bent in the longitudinal direction by the letter "b" to form a female joint (2) and a male joint (3). Passing through the cylindrical roller; And forming a first coupling protrusion 4 and a second coupling protrusion 5 by rotating the upper end and the lower end of the metal plate on the roller for forming the protrusion, and then rotating the metal plate material. Provide a method.

When the thermal insulation casing of the present invention is coupled to the pipe for thermal insulation work, the first coupling protrusion 4 and the second coupling protrusion 5 of the two thermal insulation casings are firmly fastened to each other so that both thermal casings may be subjected to vibration or impact of the pipe. It is possible to keep the connection of the coupled state without falling off.

In addition, the thermal insulation casing of the present invention is very easy to install the field because the two adjacent thermal insulation casing is firmly coupled to each other without using a separate fastener.

In addition, the thermal insulation casing of the present invention can be maintained in a cylindrical shape simply and firmly by fastening both ends of the female joint (2) and the male joint (3).

In addition, the present invention can provide a thermal insulation casing that can be used repeatedly.

In addition, in the present invention, by simply inserting both ends of the adjacent insulating casing, the first coupling protrusion 4 of one insulating casing and the second coupling protrusion 5 of the other insulating casing are firmly coupled to each other. In addition, the two adjacent insulating casings can be combined very firmly without any additional connecting means such as fastening bands or fastening screws.

In addition, the present invention can be produced by simply bending a metal plate and forming a projection, a very simple insulating casing can be connected to each other without a separate fastening member.

1 is a view showing a pipe provided with a conventional heat insulating casing.
2 is a perspective view of an insulating casing of the present invention.
Figure 3 is a perspective view of the opened state of the insulating casing of the present invention.
4 is a cross-sectional view of the AA portion of FIG. 2.
Figure 5 is a connection state diagram of the insulating casing of the present invention.
6 is a cross-sectional view of the BB portion of FIG.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those skilled in the art. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

Insulating casing of the present invention is produced by bending a metal plate and processing to form a projection, as shown in Figures 2 and 3, the cylindrical body (1) made of a metal plate; A female seam (2) formed at one end of the body (1) by bending in a longitudinal direction with an "S"shape; A male joint (3) inserted into the female joint (2) to be fastened and formed by bending the letter “b” in the longitudinal direction at the other end of the body (1); A first coupling protrusion 4 extending in the circumferential direction and protruding from the upper end of the body 1; And a second coupling protrusion 5 extending in the circumferential direction to the lower end of the body 1, wherein the upper and lower ends of the female joint 2 and the male joint 3 have a predetermined length and a predetermined length. It is characterized in that the side cut portion 6 is formed by cutting width.

The body 1 of the present invention is formed of a metal sheet and is formed in a cylindrical shape by a roller for producing a cylinder.

As shown in FIG. 4 of the present invention, the female joint 2 of the present invention is a hook 21 and the hook 21 formed by bending so that one end of the body (1) "S" Including an engaging jaw 22 formed at predetermined intervals inside the, and the male joint 3 is inserted into the insertion portion 31 and the insertion formed by bending so that the other end of the body 1 is "b" It includes a locking projection 32 formed in the portion 31 at a predetermined interval.

Therefore, when the inserting portion 31 of the male joint 3 is inserted into the engaging seat 21 of the female joint 2, the locking member of the male joint 3 is inserted into the latching jaw 22 of the female joint 2. The group 32 is caught, and the female joint 2 and the male joint 3 are fastened to each other to form a joint J. At this time, since the male joint 3 is bent by the letter “b”, when the female joint 2 and the male joint 3 are coupled to each other and joined, the heights of both sides of the joint J are the same, so that the step in the joint J is different. Does not occur.

As described above, the present invention forms a joint J by inserting the male joint 3 into the female joint 2 and fastening each other, so that the heat insulating material wraps the insulating casing of the present invention without a separate fastener such as a screw or rivet. It can be conveniently installed on the duct piping.

In addition, it is more preferable that the male joint 3 of the present invention is formed with a bent portion 33 extending from the locking projection 32 and bent inwardly. The bent part 33 makes it easier to insert the insertion part 31 of the male joint 3 into the engaging seat 21 of the female joint 2.

In addition, the fastening structure of the female joint (2) and the male joint (3) as shown in Figure 4 of the present invention can be easily used by the operator when reusing or retaining the insulating casing can be used semi-permanently repeated thermal insulation casing To be.

The first coupling protrusion 4 of the present invention extends in the circumferential direction on the upper end of the body 1, and is formed by mounting and rotating both ends of the body 1 on the roller for forming the protrusion.

The second coupling protrusion 5 of the present invention extends in the circumferential direction at the lower end of the body 1 and is formed in the same manner as the first coupling protrusion 4.

At this time, the protrusion of the second coupling protrusion 5 is formed larger than the protrusion of the first coupling protrusion (4). Therefore, as shown in FIG. 6, when the upper end of one insulating casing is inserted into the lower end of the other insulating casing and a force is applied, the first coupling protrusion 4 of one thermal insulating casing is connected to the other of the thermal insulating casing. The insulating casing of the present invention is very simply and firmly connected while overlapping the second coupling protrusion 5.

As shown in FIG. 3, the side cutting part 6 of the present invention is formed by cutting a predetermined length and a predetermined width at upper and lower ends of the female joint 2 and the male joint 3, and the first coupling protrusion. (4) and the formation of the second engaging projection 5 are facilitated. Specifically, the side cutting portion 6 is formed by cutting four corner portions of the body 1 of the metal plate material, since the four corner portions of the body 1 of the metal plate material are cut out in advance. The female joint (2) and the male joint (3) are formed at both ends of (1), and the upper and lower ends of the body (1) are mounted on the projection forming roller and rotated to form the first coupling protrusion (4). The second coupling protrusion 5 can be easily formed. If the four corner portions of the body 1 are not cut out in advance, the first coupling protrusion 4 and the first coupling protrusion 4 may be difficult to pass because of the female joint 2 and the male joint 3. It becomes difficult to form the two coupling protrusions 5.

In addition, when the two insulating casings are connected, a portion of the first coupling protrusion 4 of one insulation casing is formed due to the side cutting portion 6, and the second coupling protrusion 5 of the other insulation casing is closed. The formed portions are opened to facilitate the connection of the insulating casing adjacent to each other.

It is preferable that the inclined portion 7 inclined inwardly 3 to 5 ° is further formed on the upper end of the body 1 of the present invention, and the inclined portion 7 is more preferably inclined inward by about 4 °. Thus, as the inclined portion 7 is formed above the first coupling protrusion 4 at the upper end of the body 1, the lifting phenomenon of the connecting portion can be excellently prevented when connecting a plurality of insulating casings. When the phenomenon of lifting occurs in the connection portion of the plurality of heat insulating casing, especially when the heat insulating casing is installed outdoors, there is a problem that the warm water or cold insulation is vulnerable to seep into the rain. By the way, the present invention can solve the above problems by further forming the inclined portion 7 inclined 3 to 5 ° inward on the upper end of the body (1). In addition, as the inclined portion 7 is formed, the sharpness of the upper end of the body 1 may be removed to prevent a problem of a safety accident, and the first coupling protrusion 4 and the second coupling protrusion 5 may be more robust. Are combined.

On the other hand, the method of constructing the heat insulating casing of this invention to piping is as follows.

First, open the body (1) in a state in which the joint (J) portion is not coupled, and then coupled to the pipe wrapped with the heat insulating material, and then the female seam (2) and the male seam (3) is coupled to each other. At this time, when the insertion part 31 of the male joint 3 is inserted into the engaging seat 21 of the female joint 2, the male joint 3 of the male joint 3 is inserted into the engaging jaw 22 of the female joint 2. The engaging protrusion 32 is caught, and the female joint 2 and the male joint 3 are fastened to each other to form a joint J. After repeating the above-described method on a long pipe, a plurality of insulating casings are combined, and as shown in FIG. 5, the upper ends of the insulating casings on which the first coupling protrusions 4 are formed are adjacent to the second coupling protrusions 5. ) Is inserted into the lower end of the formed insulating casing to connect a plurality of insulating casings to each other. When the insulating casing is combined as described above, the first coupling protrusion 4 of one insulating casing and the second coupling protrusion 5 of the other insulating casing are firmly coupled to each other, so that the two insulating casings may be subjected to vibration or impact of the pipe. It is possible to keep the connection state without being disconnected. In addition, when connecting the adjacent thermal insulation casing each other, there is no need for a separate fastening means.

In this way, the present invention can be connected very firmly just by inserting adjacent thermal insulation casings without additional fastening means, it is possible to significantly improve the work efficiency.

On the other hand, the method of manufacturing the thermal insulation casing of this invention is as follows.

First, the metal sheet is cut to a predetermined length, and then four corner portions are cut out to form the side cutouts 6, and then the ends of both sides to form a seam Y are folded into a structure that can bite each other, and then a cylinder The metal plate is rolled with a production roller to bond the seam (Y) to form a cylindrical shape. At this time, one end of the metal plate is bent in the longitudinal direction by the letter "S" to form a female joint (2), the other end of the metal plate is bent by the letter "b" to form a male joint (3) Be sure to

The first coupling protrusion 4 and the second coupling protrusion 5 are respectively formed at the upper end and the lower end of the body 1 manufactured as described above, where the end portion enters the inner portion by a predetermined length. The first coupling protrusion 4 ) And the second coupling protrusion 5 are formed by attaching and rotating the upper and lower ends of the body 1 to the protrusion forming roller.

As described above, the present invention can produce an insulating casing that can be connected to each other without a separate fastening means by only a simple process of bending a metal plate and forming protrusions.

In addition, the present invention preferably further comprises the step of forming the inclined portion 7 inclined about 3 to 5 degrees inward on the upper end of the metal plate. At this time, the step of forming the inclined portion (7) is not particularly limited in order, preferably before or after the formation of the side cutting portion (6).

Embodiment of the thermal insulation casing and the construction method and manufacturing method of the present invention described above is merely exemplary, and those skilled in the art to which the present invention pertains various modifications and equivalent other embodiments You can see that it is possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

1: body
2: female seam
21: hanging seat
22: jamming jaw
3: male seam
31: insertion unit
32: jamming
33: Bend
4: first coupling protrusion
5: second coupling protrusion
6: side cutting part
7: inclined portion
J: Seam

Claims (7)

A cylindrical shape made of a metal plate material, the upper end of which includes a body 1 having an inclined portion 7 inclined 3 to 5 ° inwardly;
A female seam (2) formed at one end of the body (1) by bending in a longitudinal direction with an "S"shape;
A male joint (3) inserted into the female joint (2) to be fastened and formed by bending the letter “b” in the longitudinal direction at the other end of the body (1);
A first coupling protrusion 4 extending in the circumferential direction and protruding from the upper end of the body 1; And
And a second coupling protrusion 5 extending in the circumferential direction at a lower end of the body 1 to protrude.
Insulating casing, characterized in that the upper and lower ends of the female joint (2) and the male joint (3) portion is formed side cutting portion (6) cut to a predetermined length and a predetermined width.
delete The method of claim 1,
Insulating casing, characterized in that the second coupling protrusion (5) is formed larger than the first coupling protrusion (4).
The method of claim 1,
The female seam 2 has a locking seat 21 formed by bending one end of the body 1 to be an "S" and a locking jaw 22 formed at predetermined intervals inside the locking seat 21. Including,
The male joint 3 includes an insertion part 31 formed by bending the other end of the body 1 to be “b” and a locking protrusion 32 formed at a predetermined interval on the insertion part 31, ,
The insertion part 31 of the male joint 3 is inserted into the engaging seat 21 of the female joint 2, and the engaging protrusion of the male joint 3 is inserted into the engaging jaw 22 of the female joint 2. 32, the insulating casing, characterized in that the female joint (2) and the male joint (3) is fastened to each other.
The method of claim 4, wherein
The male joint (3) is a thermal insulation casing, characterized in that the bent portion (33) is further formed extending from the engaging projection (32) bent inward.
As a method of constructing the thermal insulation casing according to any one of claims 1 and 3 to 5 in a pipe,
(A) opening the body (1) to couple to the pipe wrapped with the heat insulating material;
Fastening the female joint (2) and the male joint (3) to each other (B);
Repeating steps (A) and (B) to couple a plurality of insulating casings to a pipe (C); And
Inserting the first coupling protrusion 4 of one insulating casing into the second coupling protrusion 5 of another adjacent insulating casing to connect a plurality of insulating casings to each other; Construction method of casing.
As a method of manufacturing the thermal insulation casing according to any one of claims 1 to 3,
Cutting the metal sheet to a predetermined length;
Cutting the four corner portions of the metal sheet to a predetermined length and a predetermined width to form side cutouts (6);
One end of the metal plate is bent in the longitudinal direction by the letter "S", and the other end of the metal plate is bent in the longitudinal direction by the letter "b" to form a female joint (2) and a male joint (3). Passing through the cylindrical roller; And
And attaching an upper end and a lower end of the metal plate to the protrusion forming roller, and rotating the same to form a first coupling protrusion 4 and a second coupling protrusion 5.
Before or after the formation of the side cutting portion (6), the method of manufacturing an insulating casing, characterized in that it further comprises the step of forming an inclined portion (7) inclined inward 3 to 5 ° on the upper end of the metal plate.

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