KR102615552B1 - Insulating jacket for gas pipe heater - Google Patents

Abstract

The present invention relates to a thermal insulation jacket for a gas pipe heater, and more specifically, to the durability provided by providing hardness that facilitates the construction of the insulation jacket for gas pipes, and the inner skin of the insulation jacket part is composed of polyurethane and glass fiber. This relates to a thermal insulation jacket for a gas pipe heater to provide flame retardancy.

Description

Insulating jacket for gas pipe heater {Insulating jacket for gas pipe heater}

The present invention relates to a thermal insulation jacket for a gas pipe heater, and more specifically, to the durability provided by providing hardness that facilitates the construction of the insulation jacket for gas pipes, and the inner skin of the insulation jacket part is composed of polyurethane and glass fiber. It relates to a thermal insulation jacket for a gas pipe heater to provide flame retardancy.

Currently, piping facilities such as gas pipes have problems such as rupture or damage in cold winter, so piping insulation materials are widely used to compensate for this.

Commonly used piping insulation materials are molded into a tubular shape and are sold with a central incision cut out to facilitate installation in piping facilities.

In order to manufacture a piping insulation material with a cut in the center, a sheet-shaped insulation material is rolled into a tubular shape and joined by applying heat to the interlocking parts, then the joined area is cut, and the product is produced by cutting it to the desired length.

However, if the central part that has been glued by heat is immediately cut, the phenomenon in which the piping insulation material spreads due to the restoring force of the insulation material occurs.

Therefore, after joining the central portion using heat, the finished product could only be produced by cutting the central portion after about 30 minutes had elapsed.

Therefore, according to the conventionally used manufacturing method, work is performed after a certain period of time to cut the central part of the piping insulation material, so not only does it require a long working time, but also work to cut the center of the molded insulation material is required. , a lot of work force was needed.

In addition, in order to install the piping insulation with the center cut in this way on the outer diameter of the pipe, after installing the cut insulation on the outer diameter of the pipe, manually attach double-sided tape or polymer tape to the cut surface one by one. I had to use it to wrap it around the pipe.

Therefore, the construction time was long, and the appearance was not good even after construction was completed.

Republic of Korea Patent Publication No. 10-2082234 (2020.02.27)

Therefore, the present invention was devised to solve the above conventional problems,

The purpose of the present invention is to provide robustness by providing hardness that can facilitate the construction of a thermal insulation jacket for gas pipes.

Another object of the present invention is to provide flame retardancy by forming the inner layer of the thermal jacket part with polyurethane and glass fiber.

Another object of the present invention is to provide heat loss suppression by blocking heat radiation through micro-gaps in the zipper portion by positioning the inner layer of the thermal jacket portion between the zipper portion and the gas pipe.

Another object of the present invention is to provide ease of operation when connecting a thermal jacket by installing the zipper portion at a certain distance from the end of the thermal jacket portion.

In order to achieve the problem to be solved by the present invention, a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention,

A shell 110 having a predetermined width and length and composed of aluminum foil and glass fiber;

An inner shell (120) having the same length as the outer shell, but having a width wider than the outer shell, and comprised of polyurethane and glass fiber; a thermal insulation jacket portion (100) configured to surround the gas pipe; and,

The problem of the present invention is solved by including a zipper portion 200 that is installed at both ends of the outer shell of the thermal jacket portion along the longitudinal direction and connects both sides of the outer shell of the thermal jacket portion with the thermal jacket portion surrounding the gas pipe. I do it.

The thermal insulation jacket for a gas pipe heater according to the present invention,

It has the effect of providing robustness by providing hardness that can facilitate the construction of a thermal insulation jacket for gas pipes.

In addition, there is an effect of providing flame retardancy as the inner layer of the thermal jacket part includes polyurethane and glass fiber.

In addition, since the inner layer of the thermal jacket part is located between the zipper part and the gas pipe, it has the effect of providing heat loss suppression by blocking heat radiation through micro-gaps in the zipper part.

In addition, there is an effect of providing ease of operation when connecting the thermal jacket by configuring the installation location of the zipper portion at a certain distance from the end of the thermal jacket portion.

Figure 1 is a plan view of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.
2 to 3 are perspective views of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.
Figure 4 is a front view of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.
Figure 5 is an exemplary diagram of a conventional thermal insulation jacket.
Figure 6 is an exemplary diagram showing the robustness of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.
Figure 7 is an exemplary diagram showing that the robustness of a conventional thermal insulation jacket is poor.
Figure 8 is an example of a plurality of thermal insulation jackets being inserted and connected to each other due to the robustness of the thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.
Figure 9 shows the results of an outer skin heat resistance test of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention, and Figure 10 shows the results of an inner skin heat resistance test.
Figure 11 is a flammability test result for the flame retardant zipper portion of a thermal jacket for a gas pipe heater according to an embodiment of the present invention.
Figure 12 is an example of a heat generation test between a conventional thermal insulation jacket and a thermal insulation jacket for a gas pipe heater of the present invention.

The thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention,

A shell 110 having a predetermined width and length and composed of aluminum foil and glass fiber;

An inner shell (120) having the same length as the outer shell, but having a width wider than the outer shell, and comprised of polyurethane and glass fiber; a thermal insulation jacket portion (100) configured to surround the gas pipe; and,

It is installed along the length direction at both ends of the outer shell of the thermal jacket portion, and includes a zipper portion 200 that joins both sides of the outer shell of the thermal jacket portion with the thermal jacket portion surrounding the gas pipe.

At this time, when the thermal jacket part surrounds the gas pipe by the zipper part, the inner skin of the thermal jacket part is positioned between the zipper part and the gas pipe, thereby blocking heat emission through the fine gaps in the zipper part and suppressing heat loss. It is characterized by

At this time, the outer skin and the inner skin are not joined by bonding, but the outer skin and the inner skin are joined by sewing, thereby forming an air layer between the outer skin and the inner skin to prevent heat loss due to the air layer.

At this time, the zipper unit 200 is,

By applying Phosphate, a liquid phosphorus-based flame retardant, the spread of a fire occurring from a gas pipe can be slowed or stopped.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention.

However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention in the drawings, parts that are not related to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

Hereinafter, the thermal insulation jacket for a gas pipe heater according to the present invention will be described in detail through examples.

In the following description of the present invention, if a detailed description of a known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Throughout the specification, when a part "includes" a certain component, this means that it does not exclude other components but may further include other components unless specifically stated to the contrary, and also means that other components may be included as described in the specification. Terms such as “unit” and “module” refer to a unit that processes at least one function or operation, which may be implemented as hardware, software, or a combination of hardware and software.

Figure 1 is a plan view of a thermal insulation jacket for a gas pipe heater according to an embodiment of the present invention.

As shown in Figures 1 to 3, the thermal insulation jacket for a gas pipe heater according to the present invention is largely comprised of an insulation jacket part 100 and a zipper part 200.

To be specific, the thermal jacket portion 100 is,

A shell 110 having a predetermined width and length and composed of aluminum foil and glass fiber;

It has the same length as the outer shell, but is configured to have a width wider than the outer shell, and is characterized in that it is composed of an inner shell (120) made of polyurethane and glass fiber to surround the gas pipe.

That is, the thermal jacket part 100 is composed of an outer shell and an inner shell. The outer shell has a predetermined width and length and is characterized by being composed of aluminum foil and glass fiber.

In order to achieve the purpose pursued by the present invention, aluminum foil is laminated to glass fiber to provide the effect of preventing sagging.

At this time, in order to maintain a certain hardness, 10 parts by weight of aluminum foil and 80 parts by weight of glass fiber are prepared and laminated using 10 parts by weight of adhesive.

At this time, the adhesive is preferably a thermosetting adhesive film.

In addition, the inner shell 120 has the same length as the outer shell, but has a wider width than the outer shell, and is characterized by being composed of polyurethane and glass fiber.

That is, as shown in Figure 4, the inner shell has the same length as the outer shell, but the width is made much wider than the outer shell width, thereby increasing the thermal conductivity when coupled to the gas pipe through the zipper part below. It is possible to provide advantages that can be minimized.

In order to achieve the purpose of the present invention, the inner skin 120 is prepared with 10 parts by weight of polyurethane and 80 parts by weight of glass fiber, and laminated using 10 parts by weight of adhesive.

At this time, the adhesive is preferably Calcium carbonae.

By including polyurethane as described above, flame retardancy is provided to prevent the spread of flame in the event of a fire, and since the outer shell is made of aluminum foil, heat absorption is additionally blocked.

Meanwhile, since the lamination process described in the present invention is manufactured through a commonly manufactured fabric process, it is a natural fact that those skilled in the art can understand the technology for manufacturing fabric even if detailed description thereof is omitted.

In addition, the zipper portion 200 is installed along the longitudinal direction at both ends of the outer shell of the thermal jacket portion, providing a function of combining both sides of the outer shell of the thermal jacket portion with the thermal jacket portion surrounding the gas pipe.

Unlike the general zipper section, the reason why each zipper section is formed in the longitudinal direction at both ends of the outer shell is because it is most important to form the width of the inner layer to be longer than the outer layer, and when the thermal jacket portion surrounds the gas pipe with the zipper section, This is to provide the effect of suppressing heat loss by blocking heat radiation through minute gaps in the zipper section by placing the inner layer of the thermal jacket section between the zipper section and the gas pipe.

Meanwhile, in order to achieve the purpose pursued by the present invention, the outer skin and the inner skin constituting the thermal jacket part 100 are not joined by bonding, but the outer skin and the inner skin are joined by sewing, so that a bond is formed between the outer skin and the inner skin. It is characterized by forming an air layer to prevent heat loss due to the air layer.

In other words, by forming an air layer between the outer skin and the inner skin through sewing, it can perform the role of an airbag, providing the advantage of suppressing heat loss as much as possible.

Meanwhile, according to an additional aspect, the zipper portion 200,

By applying Phosphate, a liquid phosphorus-based flame retardant, the spread of a fire occurring from a gas pipe can be slowed or stopped.

In other words, when a fire occurring from a gas facility moves along the pipe, it is also transmitted to the zipper unit surrounding it, so Phosphate, a liquid phosphorus-based flame retardant, is applied to the outer surface of the zipper unit 200 to slow or stop the spread of the fire. It is characterized by:

Meanwhile, according to another additional aspect, ease of operation when connecting the thermal jacket is provided by installing the zipper portion at a position spaced a certain distance from the end of the thermal jacket portion.

As shown in FIG. 8, for example, when the length of the gas pipe is 4 meters and the length of the thermal insulation jacket is 1 meter, the work of connecting four thermal jackets to each other is performed.

At this time, it was confirmed through actual experiments that when connecting to each other, since one side must be inserted into the other side, if the zipper part is located at the end of the thermal jacket part, the connection work is difficult and takes a considerable amount of time.

Therefore, in order to solve this problem, if the installation location of the zipper portion is configured to be installed at a certain distance from the end of the thermal jacket portion as described above, a coupling portion 10 is created at a constant interval between the zipper portion and the end of the thermal jacket portion. This makes insertion work easy.

In the following, we will compare the conventional thermal insulation jacket and the thermal insulation jacket of the present invention through an experimental example.

As shown in Figure 9, in the case of the outer shell of the thermal insulation jacket of the present invention, 10 parts by weight of aluminum foil and 80 parts by weight of glass fiber were prepared and laminated using 10 parts by weight of thermosetting adhesive film.

As a test condition, it was observed whether melting occurred when exposed to a 150 degree environment for 10 minutes, and it was confirmed that there was no abnormality.

As shown in Figure 10, in the case of the inner layer forming the thermal jacket of the present invention, 10 parts by weight of polyurethane and 80 parts by weight of glass fiber were prepared and laminated using 10 parts by weight of Calcium carbonae.

As a test condition, it was observed whether melting occurred when exposed to a 150 degree environment for 10 minutes, and it was confirmed that there was no abnormality.

Meanwhile, as shown in Figure 12, as a stress test, it was confirmed that the outer shell and inner shell of conventional thermal insulation jackets generally sold on the market were damaged when exposed to a temperature of 1,400 degrees Celsius for 30 seconds.

On the other hand, in the case of the thermal jacket of the present invention, it was confirmed through experiments that the outer shell was damaged because it contained aluminum foil, but the inner shell was only scorched and not damaged because it contained polyurethane.

Therefore, by including polyurethane as described above, flame retardancy is provided, thereby providing the effect of preventing the spread of flame in the event of a fire.

Meanwhile, as shown in Figure 11, in the case of the present invention, a flame retardant effect is provided by providing a zipper part coated with phosphate, a liquid phosphorus-based flame retardant.

That is, as a result of conducting a flammability test (UL 94: 2013, 20mm VERTICAL BURNING TEST), it was found that the total afterflame time was 10.7, satisfying the V-0 grade.

On the other hand, as shown in Figures 6 and 7, as a hardness test, a distance of 30CM from the end was checked to determine whether or not it was horizontal, and as shown in Figure 7, it was impossible to maintain horizontality in the case of a general thermal insulation jacket, but Figures 6 and 7 Likewise, in the case of the thermal jacket of the present invention, it was found that horizontal maintenance was possible.

This is possible because the inner skin was formed by preparing 10 parts by weight of polyurethane and 80 parts by weight of glass fiber, and laminating them using 10 parts by weight of adhesive Calcium carbonae.

Therefore, when connecting products, it is possible to maintain a horizontal level without fluttering, providing the advantage of easy connection work.

According to the present invention, there is an effect of providing robustness by providing hardness that can facilitate the construction of a thermal insulation jacket for gas pipes.

In addition, there is an effect of providing flame retardancy as the inner layer of the thermal jacket part includes polyurethane and glass fiber.

In addition, since the inner layer of the thermal jacket part is located between the zipper part and the gas pipe, it has the effect of providing heat loss suppression by blocking heat radiation through micro-gaps in the zipper part.

In addition, there is an effect of providing ease of operation when connecting the thermal jacket by configuring the installation location of the zipper portion at a certain distance from the end of the thermal jacket portion.

Those skilled in the art to which the present invention pertains as described above will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. Therefore, the embodiments described above should be understood in all respects as illustrative and not limiting.

100: Insulating jacket part
110: outer shell
120: inner skin
200: Zipper part

Claims (3)

In a thermal insulation jacket for a gas pipe heater,
A shell 110 having a predetermined width and length and composed of aluminum foil and glass fiber;
An inner shell (120) having the same length as the outer shell, but having a width wider than the outer shell, and comprised of polyurethane and glass fiber; a thermal insulation jacket portion (100) configured to surround the gas pipe; and,
It is configured to be installed along the longitudinal direction at both ends of the outer shell of the thermal jacket portion, and includes a zipper portion 200 that joins both sides of the outer shell of the thermal jacket portion with the thermal jacket portion surrounding the gas pipe,
By configuring the installation configuration of the zipper portion 200 at a position spaced apart from the end of the thermal jacket portion by a certain distance, a coupling portion 10 at a constant interval is created between the zipper portion and the end of the thermal jacket portion, thereby allowing the installation of a certain thermal jacket. It is characterized by being able to easily insert another thermal jacket into the inside of the,
The outer skin and the inner skin are not joined by bonding, but the outer skin and the inner skin are joined by sewing, thereby forming an air layer between the outer skin and the inner skin to prevent heat loss due to the air layer,
The zipper portion 200,
A thermal insulation jacket for gas pipe heaters that slows or stops the spread of fires occurring in gas pipes by applying Phosphate, a liquid phosphorus-based flame retardant.
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