KR20100093252A - Prefabricated insulation tube - Google Patents

Abstract

The present invention relates to a prefabricated insulation tube used in a plant such as a petrochemical or refinery plant, and more particularly, after the tube is installed the insulation tube required for transportation of steam, hot and cold liquid, gas or coolant used in the plant. The present invention relates to a pre-fabricated insulation tube for supplying a finished product insulated with a heat insulator in advance without post-treatment work such as keeping the tube insulated or insulated. The present invention provides a tube 10 that is insulated with a heat insulating material to maintain a constant internal fluid temperature or to prevent freezing, the heat insulating material 20 surrounding the tube 10 to a predetermined thickness; A heat reflective aluminum tape (30) surrounding the insulation (20); And covering the aluminum tape 30, the coating material 40 for sealing and maintaining the shape therein; It provides a pre-fabricated insulating tube, characterized in that consisting of. The present invention is integrally made with a coating material for fixing the heat insulating material and the heat insulating material in advance to be installed in the plant, etc., it is possible to save the working time after attaching the heat insulating material and the cover of the heat insulating material, and if the heat insulation tube is installed, the heat insulating material and its cover Since the installation of the coating material is completed, the work efficiency can be improved. In addition, since the work is completed when the insulating tube is installed, not only the construction period is reduced, but also the cost of installing the insulating material and the insulation cover can be greatly reduced. Can have the effect.

Insulation, Coating, Steam Tracing, Heating Cable, Heat Reflective Aluminum Tape, Non-hygroscopic Fiberglass, Airgel, Tube

Description

Prefabricated insulation tube

The present invention relates to a prefabricated insulation tube used in a plant such as a petrochemical or refinery plant, and more particularly, after the tube is installed the insulation tube required for transportation of steam, hot and cold liquid, gas or coolant used in the plant. The present invention relates to a pre-fabricated insulation tube for supplying a finished product insulated with a heat insulator in advance without post-treatment work such as keeping the tube insulated or insulated.

In plants such as petrochemical plants and refinery plants, it is often necessary to insulate and cool the piping or tubes. This is to maintain a constant temperature of the fluid flowing through the pipe or tube, or to prevent freezing. The fluid flowing through the pipe or tube may be coagulated when the temperature is lowered and may not easily flow along the pipe. Therefore, measures such as heat / cooling are required. In addition, in winter, such as winter, the temperature of the outside air decreases a lot, so that the fluid flowing through the tube or the tube may freeze, and freezing may occur. If the temperature cannot be maintained, the fluid flowing through the tube or the tube may be gel. It may need to be insulated so that the fluid temperature in the pipe or tube is kept constant by keeping warm / cooling or steam tracing because it may occur when it solidifies in a) state.

Looking at the conventional pipe or tube, after installing the pipe or tube in the plant, the heat insulating material is installed in the pipe or tube, the work has been in the form of wrapping the outside of the installed heat insulating material with an aluminum cover. Therefore, there is a problem that the installation of the heat insulating material can not be preceded in the work process because the installation of the heat insulating material was always possible only after the installation of the pipe or tube.

In addition, even after the insulation is installed in the tube or tube, if the construction of the plant is not finished, the worker steps on the aluminum cover installed on the upper portion of the insulation, which causes the cover to be crushed, resulting in damage to the exterior, and finally damaged aluminum cover. There was a problem such as need to replace the cover again after the end of the plant work.

In addition, the installation of the heat insulating material in the plant construction process can not be made at the same time as the installation of the pipe or tube, there is a problem that the pre-installation is impossible, there was a problem that it is impossible to shorten the construction period.

In addition, even when the tube is insulated with heat insulating material, if it is necessary to insulate it with steam tracing or heating cable, it is not only difficult to insulate the tube with the steam tracing tube or heating cable, but also has a poor aesthetics after construction, which leads to a decrease in preference in plants and the like. there was.

The present invention is to provide a heat insulating tube that can save the working time after attaching the heat insulating material and the cover of the heat insulating material to be installed in a plant or the like to integrally install the coating material for fixing the heat insulating material and the heat insulating material in advance.

In addition, the present invention is intended to improve the work efficiency because the installation of the insulating material and the cover material covering the cover is completed when the insulating tube is installed.

In addition, an object of the present invention is to provide an insulating tube that can minimize the damage caused by the operator performing other operations due to the elastic force of the coating material when the insulating tube is installed.

In addition, an object of the present invention is to provide a thermal insulation tube having a good aesthetic appearance after construction by insulated with a steam tracing tube or heating cable and to maintain a round shape in appearance while covering the insulation with a covering material.

In order to achieve the above object, the present invention provides a tube 10 that is insulated with a heat insulating material to maintain a constant internal fluid temperature or to prevent freezing, the heat insulating material 20 surrounding the tube 10 to a predetermined thickness; A heat reflective aluminum tape (30) surrounding the insulation (20); And covering the aluminum tape 30, the coating material 40 for sealing and maintaining the shape therein; It provides a pre-fabricated insulating tube, characterized in that consisting of.

Such a heat insulating tube is suitable for a sufficient fluid so that the temperature of the internal fluid is properly maintained or cooled, or is prevented from freezing. It is therefore suitable for the transfer of steam, hot and cold liquids, gases or coolants. The steam transfer can be used as a steam tracing tube used in the plant. If the temperature is properly insulated, it can also be used for cold and warm liquids. It is also suitable for the transfer of gas or coolant that is not easily frozen. The heat insulating material 20 used may be made of non-hygroscopic glass fiber or aerogel. In the case of glass fibers, glass fibers that do not absorb moisture are used to prevent problems such as freezing of the insulation filled in the outside of the tube, and aerogel is a new material. It is very suitable as a heat insulator because its thermal conductivity is considerably lower than that of a heat insulator. In addition, it has the advantage of being lighter because the density is less than the conventional heat insulating material. Therefore, even in the case of using a small thickness of the airgel it can produce an excellent heat insulating effect compared to the conventional heat insulating material. In the case of heat reflective aluminum tape, heat passing through the heat insulating material can be easily prevented from being conducted through the coating material, thereby increasing the effect of heat insulating. That is, although some of the conductive heat may be passed by the aluminum tape, some of the conductive heat may be reflected to double the heat insulating effect of the heat insulating material, and thus have a heat insulating effect of double blocking the heat.

The covering material 40 of the insulating tube as described above may be made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane). In the case of the elasticity of the coating material, even if the worker stepped on the tube while performing other work, it is restored by the elasticity so that the insulation tube is less likely to be damaged. Therefore, FRPVC, a PVC reinforced with glass fiber, can be used, and a coating material can be formed using a TPU having excellent elasticity. FRPVC is reinforced with glass fiber in order to give rigidity as well as elasticity as PVC, and thus has properties of plastic and has stronger rigidity, thus preventing damage such as cracking.

The number of tubes 10 of the insulation tube as described above may be composed of one or two tubes. If there is a need to transfer a larger volume of fluid, two tubes are used to transfer the fluid.

In addition, in order to achieve the above object, the present invention in the tube 10 that is insulated with a heat insulating material to maintain a constant internal fluid temperature or to prevent freezing, the inner heat insulating material 20a surrounding the tube 10 to a predetermined thickness ); An inner heat reflecting aluminum tape 30a surrounding the inner heat insulating material 20a; Steam tracing tube 50 to maintain a predetermined distance from the tube 10, located on the side of the inner heat reflection aluminum tape (30a); An outer heat insulating material 20b surrounding the inner heat reflective aluminum tape 20a and the steam tracing tube 50; An outer heat reflective aluminum tape 30b surrounding the outer heat insulating material 20b; And a covering material 40 surrounding the outer aluminum tape 30b and sealing and maintaining the shape therein. It provides a pre-fabricated insulating tube, characterized in that consisting of.

Such a thermal insulation tube is suitable for the case where it is necessary to prevent the freezing of the fluid which can be easily frozen in winter, or to maintain a constant temperature of the process fluid in the tube. In addition, since the steam tracing tube 50 does not directly contact the tube 10, the thermal conductivity of the steam is low, so that the temperature of the fluid transferred through the tube may need to be maintained at an excessively high temperature. . In general, it is suitable for maintaining a low temperature of about 60 ℃, it can be used in a pressure transmitter to provide a constant pressure to the analysis line or control valve for analyzing various process fluids. The heat insulating material 20 used may be made of non-hygroscopic glass fiber or aerogel. The inner insulation and the outer insulation may use the same kind of insulation, but the inside may use a non-hygroscopic glass fiber and the outside may use an airgel as the insulation, and vice versa. In the case of glass fibers, glass fibers that do not absorb moisture are used to prevent problems such as freezing of the insulation filled in the outside of the tube, and aerogel is a new material. It is very suitable as a heat insulator because its thermal conductivity is considerably lower than that of a heat insulator. In addition, it has the advantage of being lighter because the density is less than the conventional heat insulating material. Therefore, even in the case of using a small thickness of the airgel it can produce an excellent heat insulating effect compared to the conventional heat insulating material. In the case of heat reflective aluminum tape, heat passing through the heat insulating material can be easily prevented from being conducted through the coating material, thereby increasing the effect of heat insulating. That is, since the double aluminum heat reflection tape is installed, the conductive heat partially passed through the inner aluminum tape is insulated once more by the outer heat reflection tape, which may double the heat insulating effect of the heat insulating material, thereby having a heat insulating effect that doubles the heat. Can be.

The covering material 40 of the insulating tube as described above may be made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane). In the case of the elasticity of the covering, even if the worker stepped on the tube while performing other work, it is restored by the elasticity, so that the insulation tube is less likely to be damaged. Therefore, FRPVC which is PVC reinforced with glass fiber can be used, and it can also form a coating material using TPU which is excellent in elasticity. FRPVC is reinforced with glass fiber in order to give rigidity as well as elasticity as PVC, and thus has properties of plastic and has stronger rigidity, thus preventing damage such as cracking.

The number of tubes 10 of the insulation tube as described above may be composed of one or two tubes. If there is a need to transfer a larger volume of fluid, two tubes are used to transfer the fluid.

In addition, the present invention is a tube 10 that is insulated with a heat insulating material to maintain a constant internal fluid temperature or to prevent freezing, steam tracing tube (50) located on one side of the tube (10); An insulating material 20 surrounding the tube 10 and the steam tracing tube 50 to a predetermined thickness; A heat reflective aluminum tape (30) surrounding the insulation (20); And a covering material 40 for encapsulating and maintaining the inside of the aluminum tape 30 and providing a prefabricated insulating tube.

Such a thermal insulation tube is suitable for the case where it is necessary to prevent the freezing of the fluid which can be easily frozen in winter, or to maintain a constant temperature of the process fluid in the tube. In addition, since the steam tracing tube 50 is in direct contact with the tube 10, the thermal conductivity of the steam is high, so that the temperature of the fluid transferred through the tube needs to be maintained at a high temperature. Generally, it is suitable for maintaining a high temperature of about 120 ° C., and can be used as a pressure transmitter for providing a constant pressure to an analysis line or a control valve for analyzing various process fluids as the above temperature. The heat insulating material 20 used may be made of non-hygroscopic glass fiber or aerogel. The inner insulation and the outer insulation may use the same kind of insulation, but the inside may use a non-hygroscopic glass fiber and the outside may use an airgel as the insulation, and vice versa. In the case of glass fibers, glass fibers that do not absorb moisture are used to prevent problems such as freezing of the insulation filled in the outside of the tube, and aerogel is a new material. It is very suitable as a heat insulator because its thermal conductivity is considerably lower than that of a heat insulator. In addition, it has the advantage of being lighter because the density is less than the conventional heat insulating material. Therefore, even in the case of using a small thickness of the airgel it can produce an excellent heat insulating effect compared to the conventional heat insulating material. In the case of heat reflective aluminum tape, heat passing through the heat insulating material can be easily prevented from being conducted through the coating material, thereby increasing the effect of heat insulating. That is, although some of the conductive heat may be passed by the aluminum tape, some of the conductive heat may be reflected to double the heat insulating effect of the heat insulating material, and thus have a heat insulating effect of double blocking the heat.

The covering material 40 of the insulating tube as described above may be made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane). In the case of the elasticity of the coating material, even if the worker stepped on the tube while performing other work, it is restored by the elasticity so that the insulation tube is less likely to be damaged. Therefore, FRPVC which is PVC reinforced with glass fiber can be used, and it can also form a coating material using TPU which is excellent in elasticity. FRPVC is reinforced with glass fiber in order to give rigidity as well as elasticity as PVC, and thus has properties of plastic and has stronger rigidity, thus preventing damage such as cracking.

The number of tubes 10 of the insulation tube as described above may be composed of one or two tubes. If there is a need to transfer a larger volume of fluid, two tubes are used to transfer the fluid.

In addition, the present invention is a tube 10 that is insulated with a heat insulating material to maintain a constant fluid temperature or to prevent freezing, the heating cable (Heating Cable) (60) located on one side of the tube (10); An inner heat insulating material 20a surrounding the tube 10 and the heating cable 60 to a predetermined thickness; An inner heat reflecting aluminum tape 30a surrounding the inner heat insulating material 20a; An outer heat insulating material 20b surrounding the inner heat reflective aluminum tape 30a to a predetermined thickness; An outer heat reflective aluminum tape 30b surrounding the outer heat insulating material 20b; And a covering material 40 for encapsulating and maintaining the inside of the outer heat reflection aluminum tape 30b.

Such a thermal insulation tube is suitable for the case where it is necessary to prevent the freezing of the fluid which can be easily frozen in winter, or to maintain a constant temperature of the process fluid in the tube. In addition, since the heating cable 60 is in direct contact with the tube 10, the thermal conductivity of the heating cable is high, so that the temperature of the fluid transferred through the tube needs to be maintained at a high temperature. If the self regulating heating cable is built in, it can maintain the internal temperature up to 149 ℃, and it can adjust the output by itself according to the change of ambient temperature because it is self-regulating to prevent fluid deterioration and tube damage due to overheating. It can prevent. In addition, in the case of the power limiting heating cable (Power Limiting Heating Cable) it is possible to maintain a high temperature of up to 204 ℃ by controlling the power supplied. The heat insulating material 20 used may be made of non-hygroscopic glass fiber or aerogel. The inner insulation and the outer insulation may use the same kind of insulation, but the inside may use a non-hygroscopic glass fiber and the outside may use an airgel as the insulation, and vice versa. In the case of glass fibers, glass fibers that do not absorb moisture are used to prevent problems such as freezing of the insulation filled in the outside of the tube, and aerogel is a new material. It is very suitable as a heat insulator because its thermal conductivity is considerably lower than that of a heat insulator. In addition, it has the advantage of being lighter because the density is less than the conventional heat insulating material. Therefore, even in the case of using a small thickness of the airgel it can produce an excellent heat insulating effect compared to the conventional heat insulating material. In the case of heat reflective aluminum tape, heat passing through the heat insulating material can be easily prevented from being conducted through the coating material, thereby increasing the effect of heat insulating. That is, although some of the conductive heat may be passed by the aluminum tape, some of the conductive heat may be reflected to double the heat insulating effect of the heat insulating material, and thus have a heat insulating effect of double blocking the heat. In addition, since the aluminum heat reflection tape is installed on the inner side and the outer side, heat conduction through the inner heat reflection tape is insulated again through the outer heat reflection tape, thereby blocking the conduction heat in duplicate, thereby increasing the effect of heat insulation.

The covering material 40 of the insulating tube as described above may be made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane). In the case of the elasticity of the coating material, even if the worker stepped on the tube while performing other work, it is restored by the elasticity so that the insulation tube is less likely to be damaged. Therefore, FRPVC which is PVC reinforced with glass fiber can be used, and it can also form a coating material using TPU which is excellent in elasticity. FRPVC is reinforced with glass fiber in order to give rigidity as well as elasticity as PVC, and thus has properties of plastic and has stronger rigidity, thus preventing damage such as cracking.

The number of tubes 10 of the insulation tube as described above may be composed of one or two tubes. If there is a need to transfer a larger volume of fluid, two tubes are used to transfer the fluid.

The present invention is integrally made with a coating material for fixing the heat insulating material and the heat insulating material in advance to be installed in the plant, etc., it is possible to save the working time after attaching the heat insulating material and the cover of the heat insulating material, and if the heat insulation tube is installed, the heat insulating material and its cover Since the installation of the cladding is completed, the work efficiency can be improved.

In addition, the present invention is completed because the work is completed, the installation of the insulating tube, not only reduce the construction period has the effect that can significantly reduce the cost of installing the heat insulating material and the heat insulating cover.

In addition, the present invention can minimize the damage caused when the operator performs other operations due to the elastic force of the covering material when the insulation tube is installed.

In addition, the present invention can be maintained with a steam tracing tube or heating cable and to maintain a round shape in appearance while covering the insulation with a covering material to maintain a beautiful beauty semi-permanently after construction.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is only to describe in detail enough to be able to easily carry out the invention by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

First, prior to describing the preferred embodiment of the present invention, it is noted that in the various embodiments of the present invention, the same reference numerals are used for the same configuration.

1 is a perspective view of a first embodiment according to the present invention, FIG. 2 is a perspective view of a second embodiment according to the present invention, FIG. 3 is a perspective view of a third embodiment according to the present invention, and FIG. A perspective view of four embodiments.

A first embodiment according to the present invention will be described in detail with reference to the drawings of FIG. 1. In FIG. 1, the heat insulation tube according to the first embodiment includes a tube 10 made of stainless or copper, a heat insulation material 20 surrounding the tube 10 to a predetermined thickness, and heat reflection surrounding the heat insulation material 20. An aluminum tape 30 and a covering material 40 surrounding the aluminum tape 30 to seal and maintain the shape of the aluminum tape 30 are formed. The purpose of the heat insulating tube 10 is to allow the temperature of the internal fluid to be properly maintained or cooled, or to prevent freezing. Therefore, the heat insulating tube 10 is suitable for the transfer of steam, cold or hot liquid, gas or coolant that requires proper warming or cooling. In the case of the transfer of steam can be used as a steam tracing tube used in the plant, and if the temperature is properly insulated, it can also be used in the case of sufficient cold and hot liquid, it is also suitable for the transfer of gas or coolant that is not easily frozen. The outside of the tube 10 is filled with the heat insulator 20, and the non-hygroscopic glass fiber or airgel is used as the heat insulator. Airgel is a very suitable material for thermal insulation because of its low thermal conductivity. In the case of using an airgel, even about half the thickness of a conventional general heat insulating material can sufficiently achieve the desired effect. The outside of the heat insulating material 20 is wrapped with a heat reflective aluminum tape 30 so that the heat passing through the heat insulating material is again reflected again to insulate. Some reflect through the aluminum tape to double insulate the tube 10. The exterior of the aluminum tape 30 is formed with a coating material 40 for sealing and maintaining the shape of the interior. As the coating material, Fiberglass Reinforced Polyvinylchloride (FRPVC) or Temperature Polyurethane (TPU), that is, thermoplastic polyurethane is used. The cladding may be made of a rigid or elastic material to maintain its original shape, and may be made of a material that can withstand moderate heat.

The second embodiment according to the present invention will be described in detail with reference to FIG. 2. The heat insulating tube according to the second embodiment includes a stainless steel or copper tube 10 through which a plant's process fluid flows, an inner heat insulating material 20a surrounding the tube 10 to a predetermined thickness, and the inner heat insulating material ( The inner heat-reflecting aluminum tape 30a surrounding the 20a, the steam tracing tube 50 positioned on the side surface of the inner heat-reflecting aluminum tape 30a while maintaining a predetermined distance from the tube 10, and the inner row. The outer heat insulating material 20b surrounding the reflective aluminum tape 20a and the steam tracing tube 50, the outer heat reflective aluminum tape 30b surrounding the outer heat insulating material 20b, and the outer aluminum tape 30b are wrapped. It consists of a coating material 40 for sealing and shape keeping inside. The insulating tube according to the present embodiment is suitable for the case where it is necessary to prevent freezing of the fluid which can be easily frozen in winter or to maintain a constant temperature of the process fluid in the tube. In addition, the outside of the tube 10 is filled with the outside of the tube using a non-hygroscopic glass fiber or airgel as a heat insulating material. The outside of the heat insulating material 20 is wrapped with the inner heat reflective aluminum tape 30a. To insulate by heat insulation material. In addition, while the thermal conduction by the steam tracing tube 50 is not directly made to the tube 10, it is wrapped with the heat reflective aluminum tape (30a) to lower the thermal conductivity. The steam tracing tube 50 is installed on one side of the inner aluminum tape 30a, and the steam tracing tube 50 and the tube 10 are wrapped with the outer heat insulating material 20b to cover the steam tracing tube 50 and the tube 10. Ensure that the insulation is insulated. The outside of the heat insulating material is wrapped again with the outer heat reflective aluminum tape 30b. Through this process, not only the heat insulated steam in the steam tracing tube, but also can double the heat insulation of the tube 10 is required for a fluid that needs to be maintained at an appropriate temperature. According to this embodiment, since the steam tracing tube 50 and the tube 10 are not in direct contact with each other, the thermal conductivity of steam is low, so that the temperature of the fluid transferred through the tube is suitable for low temperature maintenance of about 60 ° C. It is used for pressure transmitters to provide a constant pressure to analysis lines or control valves for analyzing various process fluids. Since the heat insulating material is composed of multiple layers, the heat insulating effect of the tube 10 and the steam tracing tube 50 may be doubled. The outer surface of the outer insulation 20b is formed with a coating material 40 for sealing and maintaining the shape of the inside, the coating material 40 may be made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane).

A third embodiment according to the present invention will be described in detail with reference to FIG. 3. The heat insulation tube according to the present embodiment includes a tube 10, a steam tracing tube 50 positioned in direct contact with one side of the tube 10, the tube 10, and the steam tracing tube ( Insulation material 20 to wrap 50 to a predetermined thickness, a heat reflection aluminum tape 30 to wrap the heat insulating material 20, and a covering material 40 for sealing and maintaining the shape inside the aluminum tape 30 It is composed. Since the tube 10 and the steam tracing tube 50 are in direct contact with each other, the temperature of the steam in the steam tracing tube can be directly transferred to the tube 10. Therefore, when the thermal conductivity is high and the fluid needs to be maintained at a high temperature. Used. Generally, it is suitable for maintaining a high temperature of about 120 ° C., and can be used as a pressure transmitter for providing a constant pressure to an analysis line or a control valve for analyzing various process fluids as the above temperature. The outer side of the tube 10 and the steam tracing tube 50 is filled with a heat insulating material 20, the outer side of the heat insulating material 20 is wrapped with a heat reflective aluminum tape 30 is configured to show the effect of double insulation. The exterior of the heat reflective aluminum tape 30 is finished with FRPVC or TPU, which is a coating material. The component of the heat insulating material 30 uses a non-hygroscopic glass fiber or an airgel. The number of tubes 10 of the insulation tube as described above may be composed of one or two tubes. If there is a need to transfer a larger volume of fluid, two tubes are used to transfer the fluid.

A fourth embodiment according to the present invention will be described in detail with reference to FIG. 4. The heat insulation tube according to the present embodiment includes a tube 10, a heating cable 60 positioned on one side of the tube 10, and the tube 10 and the heating cable 60. An inner heat insulating material 20a wrapped to a predetermined thickness, an inner heat reflective aluminum tape 30a surrounding the inner heat insulating material 20a, and an outer heat insulating material 20b wrapping the inner heat reflective aluminum tape 30a to a predetermined thickness; The outer heat reflection aluminum tape 30b surrounding the outer heat insulating material 20b and the outer heat reflection aluminum tape 30b surround the outer material and are formed of a covering material 40 for sealing and maintaining the shape. Since the tube 10 and the heating cable 60 directly contact each other, the tube 10 can be used for both low and high temperatures, but the temperature range varies depending on the type of the heating cable 60. The heating cable 60 is a self-regulating heating cable. (Self Regulating Heating Cable) can maintain the internal temperature up to 149 ℃, and can control the output by itself according to the change of ambient temperature, thus reducing the risk of fluid phase change and tube breakage due to overheating. In the case of a power limiting heating cable, the amount of power supplied can be controlled to maintain a high temperature of up to 204 ° C. The temperature can be controlled according to the amount of power supplied, effectively maintaining a constant temperature of the fluid in the tube. In order to double the effect of the insulation, the tube 10 and the heating cable 60 are primarily insulated with insulation, and secondly Insulate again with heat insulator The number of tubes 10 of the heat insulated tube can be made up of one or two tubes, if two volumes of fluid are required to be transferred, the two tubes can be used to transfer the fluid. To do this.

Although some embodiments have been described above by way of example, it is obvious to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof. Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents shall be included within the scope of the present invention.

1 is a perspective view of a first embodiment according to the present invention;

2 is a perspective view of a second embodiment according to the present invention;

3 is a perspective view of a third embodiment according to the present invention;

4 is a perspective view of a fourth embodiment according to the present invention;

Explanation of symbols on the main parts of the drawings

10 tube 20 insulation

30 heat reflection aluminum tape 40 coating material

50: steam tracing tube 60: heating cable

Claims (7)

In the tube (10) which is insulated with heat insulator to keep the internal fluid temperature constant or to prevent freezing, Insulation material 20 surrounding the tube 10 to a predetermined thickness; A heat reflective aluminum tape (30) surrounding the insulation (20); And A covering material 40 surrounding the aluminum tape 30 for sealing and maintaining the shape thereof; Prefabricated insulation tube, characterized in that consisting of. In the tube (10) which is insulated with heat insulator to keep the internal fluid temperature constant or to prevent freezing, An inner heat insulating material 20a surrounding the tube 10 to a predetermined thickness; An inner heat reflecting aluminum tape 30a surrounding the inner heat insulating material 20a; Steam tracing tube 50 to maintain a predetermined distance from the tube 10, located on the side of the inner heat reflection aluminum tape (30a); An outer heat insulating material 20b surrounding the inner heat reflective aluminum tape 20a and the steam tracing tube 50; An outer heat reflective aluminum tape 30b surrounding the outer heat insulating material 20b; And A covering material 40 surrounding the outer aluminum tape 30b and sealing and maintaining the shape thereof; Prefabricated insulation tube, characterized in that consisting of. In the tube (10) which is insulated with heat insulator to keep the internal fluid temperature constant or to prevent freezing, A steam tracing tube (50) positioned at one side of the tube (10); An insulating material 20 surrounding the tube 10 and the steam tracing tube 50 to a predetermined thickness; A heat reflective aluminum tape (30) surrounding the insulation (20); And A covering material 40 surrounding the aluminum tape 30 for sealing and maintaining the shape thereof; Prefabricated insulation tube, characterized in that consisting of. In the tube (10) which is insulated with heat insulator to keep the fluid temperature constant or to prevent freezing, A heating cable 60 positioned on one side of the tube 10; An inner heat insulating material 20a surrounding the tube 10 and the heating cable 60 to a predetermined thickness; An inner heat reflecting aluminum tape 30a surrounding the inner heat insulating material 20a; An outer heat insulating material 20b surrounding the inner heat reflective aluminum tape 30a to a predetermined thickness; An outer heat reflective aluminum tape 30b surrounding the outer heat insulating material 20b; And A covering material 40 surrounding the outer heat reflection aluminum tape 30b and sealing and maintaining the shape therein; Prefabricated insulation tube, characterized in that consisting of. The method according to any one of claims 1 to 4, The insulation 20 is a pre-fabricated insulation tube, characterized in that consisting of non-hygroscopic glass fiber or aerogel (Aerogel). The method according to any one of claims 1 to 4, The coating material 40 is pre-fabricated insulation tube, characterized in that made of Fiberglass Reinforced Polyvinylchloride (FRPVC) or TPU (Temperature Polyurethane). The method according to any one of claims 1 to 4, The tube 10 is a pre-made insulation tube, characterized in that consisting of one or two tubes.

Images