KR200391168Y1 - Fuid Heating Apparatus - Google Patents

Abstract

The present invention relates to a fluid heating device, and a housing member 10 having a sufficient space portion 11 for piping a pipe therein, and bent several times in the space portion 11 of the housing member 10 Piping, both ends are exposed to the outside of the housing member 10, one end is the fluid inlet 21, the other end is made of the fluid outlet 22 and the tubular pipe member 20 through which the fluid passes, The heater member 30 is installed inside the housing member 10 and generates heat to heat the pipe member 20, and the pipe member 20 in the space 11 of the housing member 10. The pipe member 20 is formed by a heat conductive filling member 40 made of a material having high thermal conductivity and filled with the remaining empty space of the pipe and absorbs the heat amount of the heater member 30 and discharges it at high heat. ) Is heated evenly over the entire surface at high temperature, so the pipe part It is capable of heating rapidly the fluid through the (20).

In addition, it is possible to reduce the cost of heating the fluid by minimizing the consumption of the amount of heat emitted from the heater member 30 and to increase the thermal efficiency of the heater member 30.

Therefore, the heated fluid can be easily applied to an industrial line that is used quickly, and can be supplied at a uniform temperature for a long time, and its thermal efficiency is high, so the industrial utility value is a very useful design.

Description

Fluid Heating Apparatus

The present invention is directed to a fluid heating device, and more particularly designed to quickly and quickly heat a fluid passing through a pipe.

Generally, a device for heating a liquid or gas is mainly used as a domestic boiler or an industrial boiler, and is widely used in a cold / hot water purifier or a place where a liquid or gas is heated.

In addition, the heating of fluids used commercially and industrially is usually carried out by heating the liquid or gas contained in the storage tank by an electric heater or a burner, storing them in the storage tank until needed, and transporting them to the place used by the transfer pipe when used. It is intended to be used.

In addition, the electric heater for heating the storage tank may be mounted in the storage tank to be heated, and a method of heating liquid or gas in the storage tank by being in close contact with and attached to the outer wall of the storage tank has been used.

 However, there are some drawbacks in commercially and industrially using the heated fluid by heating the storage tank in which the fluid is stored.

If the storage tank is bulky and needs to be located near the place of use in order to avoid heat loss in the pipes, it is inconvenient to place restrictions on its installation location.

In addition, when the storage tank is heated by an electric heater or a burner outside the storage tank, it takes a long time to heat the fluid in the storage tank, which results in a closed end that increases the cost of heating due to high consumption of electricity and fuel. .

And when the use speed of the fluid stored in the storage tank is low, there is a problem that a large amount of energy is consumed unnecessarily to maintain a large volume of fluid at a high temperature.

Or, if the fluid use rate is high, there is a problem that the rate of heating in the storage tank does not follow this use rate.

Therefore, when the pipe is circulated to be circulated and the heated fluid is used while being continuously circulated, it was virtually impossible to use where the heated fluid is continuously supplied.

The object of the present invention is to allow the fluid to be rapidly heated as it passes through the pipe, so that the fluid can be rapidly and continuously supplied, and a large amount of fluid can be heated with a small heat source, thereby providing a fluid heating device that has dramatically increased its thermal efficiency. There is.

An object of the present invention and the housing member 10 is formed with a sufficient space portion 11 to pipe the inside;

The pipe is bent several times in the space 11 of the housing member 10, and both ends thereof are exposed to the outside of the housing member 10 so that one end forms a fluid inlet 21, and the other end is a fluid outlet 22. And a tubular pipe member 20 through which the fluid passes;

A heater member 30 installed inside the housing member 10 and generating heat to heat the pipe member 20;

The pipe member 20 is piped to the space 11 of the housing member 10, and the remaining space is filled with a heat conduction filling member 40 made of a material having high thermal conductivity.

That is, heat is generated by the heater member 30, and the heat conduction filling member 40 is heated by the heat, and the heat conduction filling member 40 stores heat generated by the heater member 30 and stores the heat. The pipe member 20 is continuously heated by heat.

Since the heat conductive filling member 40 is filled in the space 11 of the housing member 10 and contacts the front surface of the pipe member 20 piped in the space 11, the heat is transmitted to the pipe member 20. By heating the fluid evenly through) can be heated quickly and quickly.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view of the present invention, Figure 2 is a front cross-sectional view of the present invention, a pipe member is wound in a multi-layered pipe inside the space portion of the housing member, and shows a state in which the heat conductive filling member is filled in the space portion have.

Figure 3 is a cross-sectional view of the present invention, the upper cross-section of the present invention is shown that the temperature sensor is mounted at the center of the space portion two spaced apart to sense the internal temperature of the housing member to control the operation of the electric heater. .

Hereinafter, as shown in FIGS. 1 to 3, the housing member 10 of the present invention has a sufficient space 11 through which a pipe member 20 to be described later can be piped, and has a square having a predetermined height. It is formed into an enclosure.

And the housing member 10 is made of a heat insulating material, even if the interior of the space portion 11 is heated by the heater member 30 to be described later in the interior, the heat efficiency between the heat and the outside of the space portion 11 to block the heat efficiency The housing member 10 is not heated by the heat of the heater member 30 so that the worker contacts the heated housing member 10 and prevents a safety accident that causes burns.

In the space portion 11 of the housing member 10, the pipe member 20 is bent several times from the top to the bottom in the space portion 11, and the pipe member 20 is piped so as to be evenly positioned throughout the space portion 11 and the space portion ( 11) The length of the section where the fluid is heated in the space 11 by lengthening the length of the pipe member 20 to be piped into.

The pipe member 20 has a tubular shape through which both ends pass such that a fluid such as a gas or a liquid to be heated therein passes through.

Both ends of the pipe member 20 protrude a predetermined length to the outside of the housing member 10 so that one end forms a fluid inlet 21 through which fluid is introduced into the inside, and the other end is a fluid outlet 22 through which the heated fluid is discharged. The fluid introduced through the fluid inlet 21 is passed through the pipe member 20 piped to the space 11 of the housing member 10 and then discharged through the fluid outlet 22.

The pipe member 20 is based on the use of a stainless steel pipe having excellent thermal conductivity, hardly deformed by high heat and excellent in corrosion resistance, and any metal pipe having excellent thermal conductivity and corrosion resistance can be used. It is included in the composition of.

On the other hand, a heat is generated inside the housing member 10 is mounted a heater member 30 for heating the pipe member 20, the heater member 30 is supplied with electrical power to generate electricity It is based on using the heater 31.

The electric heater 31 is provided with a plurality of spaced interval between the pipe member 20 is piped to quickly heat the pipe member 20.

In addition, the space 11 is preferably equipped with a temperature sensor 50 for sensing the temperature in the space 11 to control the operation of the heater member 30, the temperature sensor 50 is Mounted at equal intervals between the heater members 30 so as to accurately sense the temperature of the space 11 heated by the heater member 30.

In addition, as described above, the remaining space of the space 11 in which the pipe member 20, the heater member 30, and the temperature sensor 50 are mounted is filled with the heat conductive filling member 40 made of a material having high thermal conductivity.

The thermally conductive filling member 40 is made of any one of brass, silver, and aluminum, which is a metal having high thermal conductivity, and the metal material is melted so that the pipe member 20, the heater member 30, and the temperature sensor 50 are mounted. It is poured into the remaining space of the space 11 and filled to cool at room temperature to solidify.

When the heat conduction filling member 40 is filled in the space 11 in this manner, the heat conduction filling member 40 is in contact with the heater member 30 so as to be directly heated by the heater member 30, and the pipe member 20 It surrounds the front surface of this pipe member 20 so that all the outer surface may contact.

That is, when heat is generated by supplying electric power to the electric heater 31, the heat generated from the electric heater 31 heats the heat conductive filling member 40, and the heat conductive filling member 40 is an electric heater ( The heat generated in (31) is continuously heated and the amount of heat to be heated is continuously accumulated, and thus the pipe member is heated evenly.

The heat conduction filling member 40 heated at a high temperature surrounds the front surface of the pipe member 20 piped to the space 11 of the housing member 10 to heat the pipe member 20.

Therefore, rather than directly heating the pipe member 20 with the electric heater 31, the heat conduction filling member 40 evenly heats the pipe member 20 evenly, so that fluid flows quickly through the pipe member 20. It can be heated to a high temperature.

In addition, the temperature of the thermally conductive filling member 40 is sensed by the temperature sensor 50 and controlled by controlling the amount of heat generated by the electric heater 31 to maintain a constant temperature of the fluid passing through the pipe member 20. And it is possible to prevent the thermal deformation of the pipe member 20 or the melting of the heat conductive filling member 40 due to overheating.

According to the configuration of the present invention, the pipe member is heated evenly over the entire surface at a high temperature by a heat conduction filling member that absorbs the heat amount of the heater member and discharges it at high heat, thereby rapidly heating the fluid passing through the pipe member. .

In addition, it is possible to reduce the cost of heating the fluid by minimizing the consumption of the heat emitted from the heater member and to increase the thermal efficiency of the heater member.

Therefore, the heated fluid can be easily applied to an industrial line that is used quickly, and can be supplied at a uniform temperature for a long time, and its thermal efficiency is high, so the industrial utility value is a very useful design.

1 is a side cross-sectional view of the present invention

2 is a cross-sectional view of the subject innovation

3 is a cross-sectional view of the present invention

* Description of the major symbols in the drawings *

10 housing member 11 space part

20: pipe member 21: fluid inlet

22: fluid outlet 30: heater member

31: electric heater 40: heat conductive filler

50: temperature sensor

Claims (4)

 A housing member 10 having a sufficient space portion 11 to pipe the pipe therein; The pipe is bent several times in the space 11 of the housing member 10, and both ends thereof are exposed to the outside of the housing member 10 so that one end forms a fluid inlet 21, and the other end is a fluid outlet 22. And a tubular pipe member 20 through which the fluid passes; A heater member 30 installed inside the housing member 10 and generating heat to heat the pipe member 20; A fluid heating device comprising a heat conduction filling member (40) made of a material having high thermal conductivity and filled in the remaining empty space by piping the pipe member (20) to the space (11) of the housing member (10). The fluid heating apparatus according to claim 1, wherein the heater member (30) uses an electric heater (31) for generating heat by receiving electric power. The fluid heating apparatus according to claim 1, wherein the space portion (11) is equipped with a temperature sensor (50) for sensing the temperature in the space portion (11) and controlling the operation of the heater member (30). The method of claim 1, wherein the thermally conductive filling member 40 is any one of brass, silver, aluminum which is a metal having high thermal conductivity is used, and the metal material is melted and poured into the remaining space of the space portion 11 to be cooled and cooled. A fluid heating apparatus characterized by solidifying.