KR20100007337A - Water electricity heat rays for heat exchanger of duplication coffina - Google Patents

Abstract

PURPOSE: A heat exchanger of a double vacuum polymerization tube is provided to reduce noise by forming a noise shield and to increase the efficiency for heat radiation using a heat radiation fin. CONSTITUTION: A heat exchanger of a double vacuum polymerization tube(7) by cold and hot water, and an electricity heating wire comprise an outer pipe(1), and a multilayer heat radiation fin. An inner pipe(5) passes through the central inside of the outer pipe in longitudinal direction. The multilayer heat radiation fin is spirally formed on the outer circumference of the inner pipe.

Description

Heat exchanger of dual vacuum polymerization tube by cold hot water and electric heating wire {water electricity heat rays for heat exchanger of duplication coffina}

The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire in an air conditioning system. More specifically, the small pipe (5) in the longitudinal direction in the inner center of the outer pipe (1) into the interior A double vacuum polymerization tube 7 is formed by welding and passing the inner pipe 5 through the outer pipe 1, and a multi-layer spiral structured on the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7 The heat dissipation fin 22 is formed in a vacuum so that the heat dissipation efficiency can be maximized as much as possible, and the multi-layer heat dissipation fin 22 spiraled on the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7. ) Is a spiral heat-dissipating fin (22) to reduce the noise generated by the spiral heat dissipation fin (22) when the vacuum heating tube (3) is heat-expanded in the vacuum state to reduce the noise, and the vacuum heating tube (3) Double vacuum polymerization tube (7) The double vacuum polymerization tube (7) for dissipating and supplying heat from the heat dissipation fin (11) of the heat generating tube (3) installed to be connected to the vacuum heat exchange unit (1) by passing cold hot water and electric heating wire inside, and cold hot water and electricity The heat generating part by the heat wire heats cold and heat to radiate the heated heat, and the heat exchanger of the double-vacuum polymerization tube (7) by cold hot water and electric heating wire to increase the heat generating efficiency to the maximum.

In general, the heat exchanger provided in the air conditioning facility is a structure that allows heat exchange using heat generated by heat generated by a high temperature circulating medium circulated inside the heat exchanger. In order to raise the circulating medium to a high temperature, it is common to heat the circulation medium by raising the circulating medium to a high temperature by a heat source using liquid fuel. As a result, not only a costly problem occurs due to the heat source consumed to raise the circulating medium to a high temperature, but also a problem of generating pollutants due to the combustion of the liquid fuel. Therefore, in recent years, no pollutant is generated and it is divided into a cold heat exchanger and a heat exchanger that allow heat exchange using an electric heater and cold hot water using electric energy. In a conventional heat exchanger using cold hot water and an electric heater, the heat exchanger does not directly heat-exchange the heat generated by the electric heater, but is configured to have a complicated structure that enables heat exchange after indirect heat transfer through a heat transfer medium. As a result, unnecessary heat loss occurs due to indirect heat transfer, which leads to a problem that the heat exchange efficiency is lowered, as well as a problem that a lot of energy is consumed compared to the heat exchange efficiency. In addition, in a conventional heat exchanger using an electric heater, a large number of electric heaters are required in order to allow heat exchange at a high temperature. In addition, a large amount of electric energy is consumed, and the volume is considerably increased. I had a problem that had to grow.

 In addition, as a large number of electric heaters are used, the heat exchanger provided for heat exchange may also have a considerably complicated structure, and thus, the volume may be considerably large. In addition, in order to use the electric heater to increase the temperature of high temperature in order to increase the thermal efficiency, the heat exchange part is usually made of copper and non-ferrous metal material with a high coefficient of thermal expansion, it is a different material than the electric heater to rise to high temperature Furnace, there is a problem that does not grafting the heat exchanger and the electric heater of a different material. In addition, in order to obtain cooling heat, the gas is compressed with a pump to make a refrigerant, and the refrigerant is operated by circulating pumps to discharge pollutants using electricity and gas. The present invention is a very good method using an electric heating wire to solve this problem.

The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire in an air conditioning system, and more particularly, the small pipe (5) in the longitudinal direction in the inner center of the outer pipe (1) Of the inner pipe 5 of the double vacuum polymerized tube 7, which is the inner pipe 5, by making a double vacuum polymerized tube 7 by welding and passing the inner pipe 5 to the outer pipe 1. On the outer circumferential surface, a spiral multi-layered heat dissipation fin 22 is formed in a vacuum so that the heat dissipation efficiency is maximized by the heat dissipation fin 22, and spirally formed on the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7. The multi-layer heat dissipation fin 22 is made of a noise generated inside the vacuum heat tube 3 when the vacuum heating tube 3 is thermally expanded in a vacuum state. The tooth passed through the inside of the vacuum heating tube (3) Double vacuum polymerized tube for dissipating heat from the external heat dissipation fin 11 of the heat generating tube 3 connected to the vacuum heat exchange unit 1 by passing cold hot water and electric heating wire through the inside of the medium vacuum polymerized tube 7 (7) and the heat exchanger of the double vacuum polymerization tube (7) by cold hot water and electric heating wires, wherein the heating part by cold hot water and electric heating wires generates heat to release the heated heat and to maximize the heating efficiency. will be.

The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire in an air conditioning system. More specifically, the small pipe (5) in the longitudinal direction in the inner center of the outer pipe (1) into the interior The inner pipe 5 of the double vacuum polymerized tube 7, which is an inner pipe 5, is made by making a double vacuum polymerized tube 7 by welding and passing the inner pipe 5 to the outer pipe 1. On the surface, a spiral multi-layered heat dissipation fin 22 is formed in a vacuum so that the heat dissipation efficiency is maximized by the heat dissipation fin 22, and the outer peripheral surface of the inner pipe 5 of the double vacuum polymerization tube 7 The spiral multi-layered heat dissipation fin 22 is a noise generated inside the vacuum heating tube 3 when the vacuum heating tube 3 is thermally expanded in a vacuum state. Into the inside of the vacuum heating tube (3) Dual vacuum for dissipating and supplying heat from the heat dissipation fins 11 on the outside of the heating tube 3 installed in connection with the vacuum heat exchange unit 1 by passing cold hot water and electric heating wires inside the double vacuum polymerization tube 3 Heat exchange of double vacuum polymerization tube 7 by cold hot water and electric heating wire to heat the polymerization tube 7 and the heating part by cold hot water and electric heating wire to release the heated heat and to maximize the heating efficiency A vacuum heat exchanger tube is formed in a heat exchanger heat generating section that generates heat at a high temperature by electrical energy related to the air, and a small amount of heat medium of about 10% to 30% is injected into the vacuum heat exchanger tube, The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire.

The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire in an air conditioning system. More specifically, the small pipe (5) in the longitudinal direction in the inner center of the outer pipe (1) into the interior The vacuum heating tube which has passed and welded the inner pipe (5) to the outer pipe (1) to make a double vacuum polymerization tube (7) and inject a small amount of heat medium so that cold hot water and electric heating wire can be inserted. On the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7 which is the inner pipe 5 of (3), a spiral multilayer heat dissipation fin 22 is formed in a vacuum to dissipate heat dissipation efficiency 22. The multi-layered heat dissipation fin 22, which is made to be as high as possible and spirals on the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7, is used for the vacuum heating tube 3 when the vacuum heating tube 3 is heated and expanded in a vacuum state. 3) Spiral noise generated from inside The heat dissipation fin 22 forms a noise barrier to reduce noise and raise the thermal conductivity to reduce the heating cost, thereby inducing economic effects, and when used as an ondol pipe, it reduces the fatigue load of the building. The inside of the double vacuum polymerization (7) tube passed through the inside of the (3) through the cold and hot water and electric heating wires in the external heat radiation fin (11) of the heating tube (3) installed in connection with the vacuum heat exchange (1) Double vacuum polymerization tube (7) for dissipating heat and the heating unit by cold hot water and electric heating wire generates heat to emit heat, and double vacuum polymerization tube by electric heating wire to maximize the heating efficiency (7) ) Relates to a heat exchanger.

The accompanying drawings, preferred embodiments of the present invention

1 is a perspective view schematically showing the present invention,

FIG. 2 is a schematic perspective view of the main cutaway according to FIG. 1;

3 is another schematic main perspective view;

.

As shown in the heat exchanger using cold hot water and electric heating wire,

The present invention is to generate heat using cold hot water and electrical energy to maximize the thermal efficiency of the vacuum heat exchanger, the heat transferred from the inside to the outer peripheral surface of the heat generating tube (3) of the heat exchanger can be quickly dissipated quickly The multi-layer heat dissipation fin 22 is formed so that the spiral, and there are a plurality of vacuum heating tube (3) formed at a certain interval there is formed a vacuum portion (7) that can be transferred as quickly as possible without loss of heat transferred A heat exchanger tube is connected to the heat generating tube 3 of the vacuum heat generating unit 3 and the heat generating tube 3 of the vacuum heat generating unit 1 to be connected to a vacuum to inject a common heat medium into which heat is rapidly generated. The inside of the pipe is connected to the outside and connected with the heat exchanger tube that can insert a well-known cold hot water and electric heating wire, which generates heat from one side to a high temperature, through welding and the like. It shows that composed of a heat exchange tube with heat sealing being. In addition, a longitudinal outer pipe (1) is welded to the inner pipe (5) at the inner center of the vacuum heating tube (3) connected to the vacuum outer pipe (1) to make a double vacuum polymerization tube (7), and a spiral on the outer peripheral surface The multi-layered heat dissipation fin 22 of the shape is formed to dissipate the thermal efficiency as much as possible. The heat radiation fin () forms a noise barrier to reduce noise, and the inside of the double vacuum polymerization tube (7) connected to the vacuum heating tube (3) passes through cold hot water and a hot wire to form a vacuum heating element built in the vacuum heating tube (3). Heats the cold hot water and the electric heating wire through the double vacuum polymerization tube (7) and the vacuum heating tube (7) passed through the inside of the vacuum heating tube (3) to radiate heat to the heat dissipation fin (22) The heat dissipation fin 11 is formed integrally at the time of manufacturing the vacuum The heat dissipation fins in which the heat transferred to the heat generating tube 3 is integrally coupled to the outer surface of the heat generating tube 3 by being coupled in a spiral form on the outer surface of the heat generating tube 3 ( 11) it will have the condition that heat dissipation can be made uniformly and quickly. The heat medium is injected to the lower end of the heat generating tube 3 in contact with the outer pipe 1, that is, only about 10 to 30% of the combined area of the inside of the heat exchange tube and the internal space of the vacuum heat generating tube 3 is injected. It is preferable that the heat is rapidly heated by the heat generated from the cold hot water and the electric heating wire, and at the same time, the heat transfer to the vacuum portion of the vacuum heating tube 3 is also performed quickly. Accordingly, the cold hot water and the cold hot water and the electric heating wire generate heat at a high temperature, and the heat generated at the high temperature rapidly heats the heat medium through the heat pipe 3, and the heat generated from the heated heat medium is transferred to each heat pipe. The internal heat dissipation fin 22 of (3) is rapidly transferred through the vacuum unit 7 while the heat is generated and at the same time radiates heat with high temperature via the heat dissipation fin 11 on the outer circumferential surface of the heat pipe 3. will be.

1 is a perspective view schematically showing the present invention,

FIG. 2 is a schematic perspective view of the main cutaway according to FIG. 1;

3 is a schematic perspective view of the vacuum radiating fins mounted thereto;

Explanation of symbols for the main parts of the drawings

1: outer pipe 3: vacuum heating tube

5: inner pipe 7: double vacuum polymerization tube

9: electric heating wire 11: external heat radiation fin

22: vacuum radiating fin

Claims (2)

The present invention relates to a heat exchanger of a double vacuum polymerization tube (7) by cold hot water and electric heating wire in an air conditioning system, and more specifically, to a small pipe (5) in the longitudinal direction in the inner center of the outer pipe (1). The inner pipe (5) passed through and welded to the outer pipe (1) to make a double vacuum polymerization tube (7), and a spiral multi-layered on the outer circumferential surface of the inner pipe (5) of the double vacuum polymerization tube (7) The heat dissipation fin 22 is formed in a vacuum so that the heat dissipation efficiency of the heat dissipation fin 22 is maximized. heat transmitter In claim 1, the multi-layer heat dissipation fin 22 spirally formed on the outer circumferential surface of the inner pipe 5 of the double vacuum polymerization tube 7 is a vacuum heating tube 3 when the vacuum heating tube 3 is thermally expanded in a vacuum state. Spiral heat dissipation fins 22 form noise barriers to reduce noise, and inside the double vacuum polymerization tube 7, cold hot water and electric heating wires passed through the inside of the vacuum heating tube 3 are provided. The dual vacuum polymerization tube 7 for heat dissipating and supplying heat from the external heat dissipation fin 11 of the heat generating tube 3 installed to be connected to the vacuum heat exchanger 1 and the heat generating part by cold hot water and electric heating wire generate heat. Heat exchanger of dual vacuum polymerized tubes (7) characterized by dual vacuum polymerized tubes (7) by cold hot water and electric heating wires that dissipate heated heat and maximize heating efficiency

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