KR20130075008A - Heat insulator and method for manufacturing the same - Google Patents

Abstract

PURPOSE: A sealed insulator and a manufacturing method thereof are provided to obtain an air layer between a product and the insulator by forming an embossed unit on the surface of a panel and to improve the efficiency for insulating. CONSTITUTION: A sealed insulator (1) comprises an insulating material (20), and first and second insulating covers (10,30). The insulating material is made of the glass fiber or a silica pelt. The first and second insulating covers are formed on both ends while the insulating material is positioned in center to be sealed. The sealed insulator is formed to be corresponded to the outer circumference of an object to insulate and improves the adhering area in the outer circumference of the object.

Description

HEAT INSULATOR AND METHOD FOR MANUFACTURING THE SAME}

The present invention relates to a hermetic heat insulating material and a method for manufacturing the heat insulating material, and more particularly, to provide a hermetic heat insulating material in which the outer periphery of the panel is sealed by inserting an insulating member having heat insulating property between panels made of metal. The present invention relates to a hermetic insulator and a method of manufacturing the insulator which improve insulation by an air layer and a heat insulator formed in a sealed space of the insulator.

In general, the heat insulating material is used for the purpose of blocking heat or keeping warm, and materials include asbestos, glass fiber, cork, diatomaceous earth, and the like.

The heat insulating material is divided into a heat insulating material for the purpose of using at about 100 ℃ or less, a heat insulating material used at 100 ~ 500 ℃, a heat insulating material used at 500 ~ 1,100 ℃, and a fireproof insulation used at 1,100 ℃ or more.

In addition, the heat insulating material is preferably a low thermal conductivity, but most of the thermal conductivity is not low, so configured to be porous to lower the thermal conductivity to use the heat insulation of the air formed in the pores.

On the other hand, high-temperature heat is generated from internal combustion engines, that is, engines of vehicles, engines used in tanks or large ships, and as a result, peripheral devices have risks of safety accidents such as thermal deformation or fire hazard due to high temperatures. Because of this, insulation is used.

As described above, when looking at the heat insulator used in the internal combustion engine, such as high temperature is generated, the glass fiber with excellent heat insulating properties to surround the internal combustion engine to insulate.

However, in the case of the conventional glass fiber, although it has an effect of heat insulation to some extent, there is a problem that the effect of vibration or sound insulation is remarkably inferior.

In addition, in the case of glass fibers, water leakage occurs during the process of replenishing engine oil used in an internal combustion engine or during use, and in the oil adsorbed by the high temperature heat generated in the internal combustion engine as the leaked oil is adsorbed to the glass fiber. There is a problem that fire may occur due to ignition.

As proposed to solve the above problems, an object of the present invention, by inserting a heat insulating member having a thermal insulation between the panel made of metal to provide a sealed heat insulating material sealing the outer periphery of the panel, the sealed heat insulating material It is to provide a sealed heat insulating material and a method of manufacturing the heat insulating material to improve the heat insulation by the air layer and the heat insulating member formed in the sealed space of the.

Another object of the present invention, by bending similar to the outer circumferential shape of the product to be insulated the sealed insulation to form as close as possible between the product and the heat insulating material, thereby improving the beautiful appearance and heat insulation, vibration and noise blocking effect It is to provide a sealed heat insulating material and a method of manufacturing the heat insulating material to be made.

It is still another object of the present invention to provide an enclosed heat insulator and a method of manufacturing the heat insulator, which provide an air layer between the product and the heat insulator by improving the heat insulation effect by forming an embossed portion on the surface of the panel.

The present invention for achieving the above object is a hermetic heat insulating material for insulating high temperature, the hermetic heat insulating material, the heat insulating material made of any one of glass fiber or silica felt; And first and second heat insulating covers configured at both ends with the heat insulating material at the center thereof and configured to be sealed; The hermetic insulation is formed to correspond to the outer circumference of the object to be insulated, and press-processed to improve the adhesion area to the outer circumference of the object; And the like.

In the present invention, the first and second heat insulating covers are made of stainless steel; Consisting of a thickness of 0.3 to 1 (mm); It is preferable to include the thing.

In the present invention, the first and second insulation cover further comprises an embossing portion to maximize the retention area of the air to improve the thermal insulation efficiency.

In the present invention, a method of manufacturing a sealed heat insulating material for insulating high temperature, comprising: an embossing step of forming an embossed portion to maximize the retention area of air in a thin plate used as the first and second insulating cover having a predetermined thickness; A press step of press-processing the thin plates and the heat insulating material of the first and second heat insulating covers embossed through the embossing step into shapes corresponding to the outer circumference of the object; A sealing step of forming a sealed type heat insulating material by closing the first and second heat insulating covers after placing the first and second heat insulating covers with the heat insulating material pressed to correspond to the outer circumference of the object through the pressing step; And a fixing step of fixing the sealed type heat insulating material formed through the sealing step (S3) to the outer circumference of the object and fixing them.

According to the present invention, by inserting a heat insulating member having a heat insulating property between the panels made of metal to provide a sealed heat insulating material sealing the outer periphery of the panel, the heat insulating property by the air layer and the heat insulating member formed in the sealed space of the sealed heat insulating material Has the effect of improving.

In addition, by bending the sealed insulation similar to the outer circumferential shape of the product to be insulated, it is formed to be as close as possible between the product and the heat insulating material, thereby improving the beautiful appearance and heat insulation, vibration and noise blocking effect. .

In addition, there is an effect to form an embossed portion on the surface of the panel, to secure an air layer between the product and the heat insulating material, thereby improving the heat insulating effect.

1 is a cross-sectional view of a sealed insulation according to the present invention.
Figure 2 is a manufacturing process of the sealed insulation according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1, the heat insulating material 1 of the present invention includes a first heat insulating cover 10, a heat insulating material 20 provided on the first heat insulating cover 10, and the heat insulating material 20. It is provided with and is composed of a second insulating material 30 is configured to be sealed with the outer periphery of the first insulating cover (10).

The first and second heat insulating covers 10 and 30 are formed of a metal material having heat resistance and excellent workability, and in this case, stainless steel is preferable.

In addition, the thicknesses of the first and second heat insulating covers 10 and 30 are preferably 0.1 to 1 (mm) so as to be lightweight and easy to process.

In addition, it is preferable to form an air layer on the surfaces of the first and second heat insulating covers 10 and 30 to form an embossed portion 12 and 32 to increase the surface area. The embossing portion 12, 32 is preferably configured to form an air layer by making point contact with the object as a 'egg plate' shape.

The said heat insulating material 20 is comprised from the material excellent in heat insulation.

The heat insulating material 20 is preferably any one of glass fiber or silica felt.

The glass fiber is one of artificial fibers, and is made of a glass having a small amount of alkali, which is increased by high speed or blown by high-pressure air. It is resistant to heat and moisture and does not rust, so it is used as insulation, sound insulation, insulation, and optical communication materials.

The silica felt is a high purity silica fiber having a SiO ₂ of 98% or more, and can be used for a long time in a wide range of high temperature environments of continuous use temperature of 1200 ° C and instantaneous maximum temperature of 1700 ° C, and maintains tensile strength, chemical resistance, electric heat resistance, and abrasion resistance. It is a heat insulator that is harmless to the human body because of no skin irritation. In addition, there is a multi-function of thermal insulation, electronic blocking, sound insulation.

Looking at the manufacturing method of the sealed insulation configured as described above are as follows.

The embossing step (S1) is a step of forming an embossing part of a predetermined size by pressing the thin plates used in the first and second insulating covers.

This presses a thin sheet of metal material of 0.1 to 1 (mm) used as the first and second heat insulating covers 10 and 30 to form the embossed portions 12 and 32.

Pressing step (S2) is a step of pressing so as to correspond to the outer circumferential shape of the object (hereinafter referred to as "object") to insulate the embossed thin plate and the heat insulating material formed through the embossing step (S1).

This press-folds the thin plate and the heat insulating material 20 having the embossed parts 12 and 32 formed thereon to correspond to the outer circumferential shape of the object, thereby making the sealed insulation 1 close to the object as much as possible, thereby improving thermal insulation efficiency.

Sealing step (S3) is a step of sealing by combining the thin plate and the heat insulating material pressed corresponding to the outer circumference of the object through the pressing step (S2).

This constitutes a heat insulating material 20 inside the first heat insulating cover 10 pressed into the outer circumferential shape of the object, and seats the second heat insulating cover 30.

In addition, the heat insulating material 20 configured between the first and second heat insulating covers 10 and 30 by various methods such as welding, bonding, or bending the outer periphery of the first and second heat insulating covers 10 and 30. ) Seal.

That is, to seal the heat insulating material 20 as described above, the air present in the space between the first and second heat insulating cover 10, 30 is heated by the convection phenomenon while insulating the object.

If the first and second heat insulating covers 10 and 30 are not sealed, the warmed air is exhausted to an unsealed portion, resulting in an adverse effect of losing heat insulation efficiency.

Therefore, due to the above problems, the first and second heat insulating covers 10 and 30 are configured to be sealed, thereby improving heat insulation efficiency by performing heat insulation by the heat insulating material 20 configured in the sealed space. It is to let.

Fixing step (S4) is a step of configuring the sealed insulation formed through the sealing step (S3) to surround the outer periphery of the object.

This is fixed after being in close contact with the outer circumference of the object with the sealed type heat insulating material 1 sealed with the first and second heat insulating covers 10 and 30 with the heat insulating material 20 therebetween.

At this time, the fixing of the sealed insulating material (1), by using a separate bracket clip or band can be fixed by mutual tightening, or can be fixed by welding or bonding the sealed insulating materials (1), various fixing methods can be used have.

In addition, since the hermetic insulation 1 is press-formed so as to correspond to the outer circumference of the object, the surface area to be brought into close contact with the object is increased, thereby improving heat insulation efficiency.

In addition, since the embossed portions 12 and 32 are formed on the surfaces of the hermetic insulation 1, that is, the first and second insulation covers 10 and 30, between the hermetic insulation 1 and the object. By the embossing part 12, 32, the heat insulation efficiency is improved by the air layer.

For example, when the first insulation cover 10 is in close contact with the object, the heat insulation efficiency is improved by the air layer of the embossed portion 12 of the first insulation cover 10, and relatively, the second insulation cover 30 is provided. Is provided on the outside is in contact with the outside air, at this time, as the contact area with the outside air to the embossing portion 32 of the second insulation cover 30 is made easy to heat exchange with the outside air, heat insulation efficiency To improve.

What has been described above is just one embodiment for carrying out the hermetic insulation and the method of manufacturing the insulation, the present invention is not limited to the above embodiment. It will be understood by those skilled in the art that various changes may be made without departing from the spirit of the invention.

1: hermetic insulation 10: first insulation cover
12, 32: embossed portion 20: heat insulating material
30: second insulation cover

Claims (4)

In a sealed insulation for insulating high temperature,
The hermetic insulation (1), the heat insulating material 20 made of any one of glass fiber or silica felt; And
A first and second thermal insulation cover (10) (30) configured at both ends with the insulation (20) in the center and configured to be sealed;
The hermetic insulation (1) is formed to correspond to the outer periphery of the object to be insulated, press-processed to improve the adhesion area to the outer periphery of the object; Sealed heat insulating material comprising a. The method according to claim 1,
The first and second insulating covers (10) (20) are made of stainless steel;
Consisting of 0.1 to 1 (mm) in thickness; Sealed heat insulating material comprising a. The method according to claim 1 or 2,
The first and second heat insulating cover (10) (30) is an enclosed heat insulating material further comprises; embossing portion (12) (32) to maximize the retention area of the air to improve the heat insulation efficiency. In the manufacturing method of the hermetic insulation for insulating high temperature,
An embossing step (S1) of forming an embossing part to maximize a retention area of air in the thin plates used as the first and second insulating covers with a predetermined thickness;
A press step (S2) of press-processing the thin plates and the heat insulating material of the first and second insulating covers embossed through the embossing step (S1) to a shape corresponding to the outer circumference of the object;
After the press step (S2) to place the first and second heat insulating cover with the heat insulating material pressed in correspondence with the outer circumference of the object between the sealing to seal the first and second heat insulating cover to form a sealed heat insulating material Step S3; And
Method of manufacturing a sealed heat insulating material, characterized in that consisting of; a fixing step (S4) for fixing the sealed heat insulating material formed through the sealing step (S3) in close contact with the outer circumference of the object.

Images