KR101214202B1 - Electric heat boiler - Google Patents

Abstract

The present invention relates to an instantaneous heating type heat transfer boiler, and more particularly, to dissipate high-temperature heat transfer from the outside to a heat-exchange tube through which the heating water circulates, thereby rapidly heating the heating water circulating through the heat-exchange tube by this high-temperature heat transfer. It relates to an instantaneous heating type electric heat boiler.

Description

Instant heat type electric heating boiler {Electric heat boiler}

The present invention relates to an instantaneous heating type heat transfer boiler, and more particularly, to dissipate high-temperature heat transfer from the outside to a heat-exchange tube through which the heating water circulates, thereby rapidly heating the heating water circulating through the heat-exchange tube by this high-temperature heat transfer. It relates to an instantaneous heating type electric heat boiler.

In general, a boiler is a combustion type for heating a reservoir filled with heating water through the heat generated during the combustion process of oil, coal, or wood, and the electric heater is installed in a reservoir filled with heating water to emit from the electric heater. It can be roughly classified into a heat transfer type which aims to heat the heating water by the heat.

Here, the electrothermal boiler has an advantage that the smoke is not generated in the heating process of the heating water through the electrothermal, it is environmentally friendly, there is little restriction due to the installation space, and because the flue gas structure is not required, the structure can be simplified and downsized. As a result, demand is expected to increase gradually.

In the conventional heat transfer boiler, the heating heater is immersed in the heating water of the storage tank so that the heating water is heated by the heat transfer from the heating heater.

However, in the electrothermal boiler, since the storage space of the heating water is reduced by the volume of the electrothermal heater, the problem that the storage tank should be made relatively large in preparation for the capacity, and the heating water adjacent to the electrothermal heater is stable at a high temperature. Heated but the heating water far away from the electrothermal heater is not heated stably, there is a problem that it is difficult to ensure a uniform heating state of the heating water stored in the reservoir.

Of course, this problem can be somewhat solved by disposing a plurality of electric heaters in the storage tank, but if a plurality of electric heaters in the storage tank inevitably must be made large storage tank, it is not a fundamental solution.

Moreover, the general-purpose electric heater built in the storage tank can maintain a surface temperature of 400 ° C to 500 ° C in the air, but when it is immersed in heating water, the surface temperature drops rapidly to 200 ° C or lower, and thus the thermal efficiency is significantly reduced. With the structure and the electric heater, it is difficult to quickly heat the heating water, and there is a problem in that a large amount of current is consumed in heating the heating water.

An object of the present invention devised to solve the above problems is, by dissipating high-temperature heat transfer from the outside to the heat exchanger tube circulating the heating water, the heating water circulating through the heat exchanger tube through the high-temperature radiated heat is quickly discharged To provide a one-time heating type electric heating boiler as possible.

The above object is achieved by the following constitutions provided in the present invention.

Instantaneous heating type heat transfer boiler according to the present invention,

A main body for heating the heating water through heat transfer; In the instantaneous heating type heat transfer boiler comprising a circulation pipe forming an external circulation path of the heating water heated in the main body,

The main body is provided with a heat exchanger tube for forming a transfer path of the heating water in the housing space of the case, the heat exchanger tube is wrapped by a heat transfer unit for dissipating high temperature heat transfer, the heating water circulated along the heat exchange tube It is characterized in that it is configured to be heated by the high temperature heat transfer from the part.

Preferably, the heat transfer portion is formed of a tunnel type in which a heat transfer heater for heating the hollow body by dissipating high temperature heat to the hollow body made of ceramic material is constructed, and is configured to radiate high heat heat into the hollow portion in which the heat exchange tube is accommodated. do.

More preferably, in the hollow portion of the tunnel-type heat exchanger, a spiral heat exchanger tube in which a tubular body is spirally wound is accommodated, and the spiral heat exchanger tube is heated by high-temperature heat dissipated into the hollow portion of the tunnel-type heat transfer portion, and the tunnel is heated. The heating water circulating along the heat exchange tube is rapidly heated and discharged by the high temperature heat radiated from the heat transfer part.

In addition, a rod-shaped auxiliary heater is installed in the hollow portion of the spiral heat exchanger tube, and the heating water circulated along the spiral heat exchanger tube is configured to be heated more quickly by receiving heat radiated through the heat transfer unit and the auxiliary heater at the same time. .

In addition, by installing an insulator between the inner wall and the heat transfer portion of the case, to insulate the heat transfer portion to prevent the heat dissipated from the heat transfer to the outside of the case, the outer wall member is formed on the outer wall of the case spaced apart By forming a heat insulating tank between the outer wall member and the case, by introducing water into the heat insulating tank, the heat transfer from the heat transfer portion by the first heat insulation through the heat insulator and the second heat insulation through the water injected into the heat insulation tank is the outside of the body It is to be suppressed to be released to the loss phenomenon.

As in the present invention, if the heat transfer portion surrounding the heat exchange tube is configured to dissipate heat to the heat exchange tube, rapid heating of the heating water is possible, and the heating water and the heat transfer portion are separated from each other to ensure improved electrical safety. And, considering the volume of the heat transfer section, there is no need to manufacture a reservoir.

In particular, when the heating structure of the spiral heat exchanger tube is accommodated in the hollow portion of the tunnel-type heat transfer portion, the hollow portion of the tunnel-type heat transfer portion is heated to 1000 ° C. or higher, and the heated state is kept warm at a high temperature. Since it is continuously maintained by the action, it has the advantage that the heating water is heated rapidly by the improvement of the thermal efficiency, and the current consumption is greatly reduced.

On the other hand, as a result of a control experiment by the present inventors, it took about 7 hours to heat 3000L of 15 ° C. heating water to 60 ° C. using a conventional instantaneous heating type boiler, and a current consumption of 30 Kw / h was obtained.

However, when heating the heating water of the above conditions through the instantaneous heating type heat transfer boiler according to the present invention, a result of consuming a current of 5Kw / h and reaching 70 ℃ within 1 hour.

As a result of self-analysis by the present inventors, in the present invention, since the heat transfer part heats the heat transfer body without direct contact with the heating water, unlike the conventional one, it consumes a small amount of current through improved thermal efficiency. At the same time, the heating water can be heated quickly.

Therefore, the instantaneous heating type heat transfer boiler according to the present invention has an advantage that the heating water can be heated quickly and uniformly while consuming relatively little current by the improved heating structure.

Figure 1 shows the overall configuration of the instantaneous heating type heat transfer boiler proposed in the preferred embodiment of the present invention,
2 and 3 are shown in detail in the instantaneous heating type heat transfer boiler proposed in the preferred embodiment of the present invention, the internal structure of the main body, and the heating structure in the main body,
Figure 4 shows the operating state of the main body in the instantaneous heating type heat transfer boiler proposed in the preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the instantaneous heating type heat transfer boiler proposed in the preferred embodiment of the present invention.

Figure 1 shows the overall configuration of the instantaneous heating type boiler proposed in the preferred embodiment of the present invention, Figures 2 and 3 are the main heating element in the instantaneous heating type boiler proposed in the present invention, the main body It shows the internal structure of the, and the heating structure which is built in the main body in detail, Figure 4 shows the operating state of the main body in the instantaneous heating type heat transfer boiler proposed in the preferred embodiment of the present invention.

The instantaneous heating type heat transfer boiler 1 proposed as a preferred embodiment of the present invention includes a main body 10 for heating heating water through heat transfer as shown in FIG. 1; And a circulation pipe 20 which forms an external circulation path of the heated heating water W, and externally circulates the heating water W discharged by heating in the main body 10 along the circulation pipe 20. It is configured to promote heating.

The circulation pipe 20 is provided with a circulation pump 30 for forcibly circulating the heating water W heated and discharged from the main body 10, and the heating water according to the driving cycle and driving speed of the circulation pump 30. The circulation amount and the circulation rate of are configured to be adjusted.

In addition, the circulation pipe 30 is generally buried in the floor of a house or the like to plan the heating of the floor through the heating water circulated outside along the circulation pipe.

In addition, the main body 10 is a form in which a heating structure for heating the heating water W is accommodated in the accommodating space of the case 11. In the present invention, a small amount of current is applied to the accommodating space of the cylindrical case 11. It is installing heating structure that can heat heating water quickly while consuming.

The heating structure has a heat exchanger tube 14 which forms a circulation path of the heating water W in the accommodating space of the case 11, and receives a high temperature heat transfer by applying a current to the outside of the heat exchanger tube 14. It is a form which arrange | positioned the heat-transfer part 13 which dissipates.

Referring to the drawings, between the inner wall of the case 11 and the heat transfer part 13 is provided with a heat insulator 15 having excellent heat resistance, the heat transfer from the heat transfer part 13 by the heat insulation action of the heat insulator 15 Dissipation to the outside of the case 11 is suppressed. In the present invention, for example, a ceramic heat insulator having excellent heat resistance and heat insulation is provided between the inner wall of the case and the heat transfer part.

In addition, the outer wall member 12 is formed on the outer wall of the case 11 to be spaced apart to form a heat insulating tank 12a between the outer wall member 12 and the case 11, and the heating water in the heat insulating tank 12a. Water such as the above is injected, and a more stable heat insulating state is ensured through water (heated water W) injected into the heat insulating tank 12a.

In this way, the primary heat insulation through the heat insulator 15 and the secondary heat insulation through the heating water (W) stored in the heat insulator 12a is configured to prevent the phenomenon that the heat transfer to the outside of the main body 10 is unauthorized In this case, the thermal efficiency of the heat transfer part 13 is improved, and the surface of the main body 10 is heated to prevent the occurrence of a safety accident such as a worker being burned.

On the other hand, in the present embodiment, the heat transfer section 13, the heat transfer heater 13b for quickly generating a high temperature heat transfer by supplying a current is configured in a tunnel type in which the hollow body 13a is built in, the heat transfer The hollow body 13a of the part 13 is made of the ceramic material which has the outstanding thermal conductivity and heat resistance of 1000 degreeC or more.

And the hollow part 13a-a of the said tunnel-type heat transfer part 13 accommodates the spiral heat exchanger tube 14 which wound the tubular body spirally.

At this time, the inner wall of the hollow portion (13a-a) of the tunnel-type heat transfer portion 13 and the outer diameter of the heat exchanger tube 14 opposite to each other is in close contact with each other, it is discharged from the tunnel-type heat transfer portion 13 through conduction and radiation It is desirable for the heat transfer to be delivered to the heat exchange tube 14 more quickly.

In addition, by forming the outer diameter of the heat exchange tube 14 in close contact with the inner wall of the hollow portion 13a-a of the tunnel-type heat transfer portion 13 to increase the contact area with the inner wall of the hollow portion 13a-a. It is more preferable to allow rapid heat exchange.

According to the present embodiment, the hollow body 13a of the ceramic material is uniformly heated to 1000 ° C. or higher by the high temperature heat generated by the heat transfer heater 13b since the heat transfer heater 13b is installed. By dissipating this high temperature heat continuously into the portions 13a-a, the high temperature state of 1000 ° C. or higher can be continuously maintained in the hollow portion 13a-a in which the heat exchange tube 14 is accommodated.

At this time, the heat exchange tube 14 is required heat resistance, stable thermal conductivity and durability capable of withstanding the heat transfer of more than 1000 ℃ emitted from the tunnel-type heat transfer portion 13, and the material that satisfies these conditions, such as an alloy alloy Tungsten alloys and the like can be presented.

In the present embodiment, the auxiliary heater 16 is inserted into the hollow portion 14b of the spiral heat exchange tube 14.

Accordingly, the discharged heating water (W) circulated along the spiral heat exchange tube (14) is an electric heat of 1000 ° C or more discharged from the tunnel-type heat transfer portion (13) to the hollow portion (13a-a), and the auxiliary heater (16) Can be quickly heated and discharged through the heat transfer from

In addition, in the present embodiment, the heating water W which has completed external circulation in the heat insulation tank 12a formed between the outer wall of the case 11 and the outer wall member 12 for the purpose of secondary insulation of heat transfer to the outside. The inlet port 14a of the heat exchange pipe 14, which is a circulation path of the heating water W that requires heating, is communicated with the drain port 21 of the circulation pipe 20 for discharging.

In this configuration, when the heating water (W) is introduced into the heat insulating tank (12a) through the drain port 21 of the circulation pipe 20, the heating water is transferred to the heat transfer (W) discharged to the outside of the case (11). Preheated by the heat, and then flows into the heat exchange tube 14 and is heated by the heat transfer radiated through the heat transfer section (13).

As a result, since the heating water in the preheated state is supplied to the heat exchange tube 14, the time according to the heating of the heating water W is shortened, and the heating water W is caused by heat transfer that is dissipated and lost to the outside of the case 11. ), It is possible to combine with improved thermal efficiency.

1. Instantaneous heat type boiler
10. Body 11. Case
12. Outer wall member 12a. Insulator
13. Heat transfer part 13a. Hollow body
13a-a. Hollow part 13b. Electric Heater
14. Heat Exchange Tube 14a. Inlet
14b. Hollow portion
15. Insulator 16. Auxiliary heater
20. Circulation pipe 21. Drain
30. Circulation pump W. Heating water (water)

Claims (4)

A main body for heating the heating water through heat transfer; In the instantaneous heating type heat transfer boiler comprising a circulation pipe forming an external circulation path of the heating water heated in the main body,
The main body is provided with a heat exchanger tube for forming a circulation path of the heating water in the housing space of the case, the heat exchanger tube is wrapped by a heat transfer unit for dissipating high temperature heat transfer, the heating water circulated along the heat exchange tube It is configured to heat by heat exchange with high temperature heat transfer from the part,
The heat transfer part is configured of a tunnel heater in which a heat transfer heater dissipating high temperature heat is embedded in a hollow body made of ceramic material, and dissipates high temperature heat transfer into a hollow part in which a heat exchanger tube is accommodated.
The heat exchanger tube accommodated in the hollow portion of the tunnel-type heat transfer part is formed in a spiral, and an auxiliary heater is installed in the hollow part of the spiral heat exchanger tube, and the heating water circulated along the spiral heat exchanger tube is transferred through the heat transfer part and the auxiliary heater. Are configured to be heated to receive the radiating heat,
Insulation is provided between the inner wall of the case and the tunnel-type heat transfer portion, thereby suppressing the heat transfer from the heat transfer portion by the heat-insulating action of the heat insulation to the outside of the case,
An outer wall member is formed on the outer wall of the case so as to be spaced apart to form a heat insulating tank between the outer wall member and the case, and water is introduced into the heat insulating tank so that the heat transmitted from the heat transfer portion through the water is discharged to the outside of the main body. To suppress this phenomenon,
The inlet of the heat exchange tube, which is a circulation path of the heating water to be heated, communicates with the drainage port of the circulation pipe for discharging the heating water that has been externally circulated to the insulator, and completes the external circulation with the insulation tank through the drain hole of the circulation pipe. By allowing the heating water of the circulation pipe to flow in, the heating water is preheated by the heat transfer to the outside of the case, and then is introduced into the heat exchanger tube through the inlet of the heat exchanger tube and heated by the heat transfer radiated through the heat transfer unit. Instantaneous heating type, characterized in that the tube is supplied with preheated heating water to shorten the time required for heating the heating water, and preheating of the heating water by the heat transfer that is lost to the outside of the case to improve the thermal efficiency Electrothermal boiler. delete delete delete

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