KR100350508B1 - Wind Power Electric Boiler Utilizing Heated Liquefied Medium - Google Patents

Abstract

The present invention relates to a wind electric boiler using a heat medium liquid, and in particular, to heat the heat using a heat medium liquid as well as to supply hot water through a hot water pipe, the DC power generated by using a wind power device AC power By converting to a power source that can be used as a heating source to heat the heating wire.

The present invention puts a heat medium liquid inside the boiler, and a heating wire surrounded by a corrugated pipe is installed below and a circular hot water pipe is installed on the side wall to perform heating through the circulation motor and the heating pipe, and supply hot water through the hot water pipe. It is configured to supply power to the heating wire by using a wind power device.

Description

Wind Power Electric Boiler Utilizing Heated Liquefied Medium}

The present invention relates to a wind electric boiler using a heat medium liquid, and in particular, to heat the heat using a heat medium liquid as well as to supply hot water through a hot water pipe, the DC power generated by using a wind power device AC power By converting to a power source that can be used as a heating source to heat the heating wire.

In general, boilers that are frequently used in homes and factories are usually supplied with heating and hot water by heating cold water using only AC power.

Therefore, the conventional boiler heats cold water and uses it for heating and hot water supply. Therefore, it takes a long time to operate the boiler to heat the cold water with hot water, and there is a disadvantage in that thermal efficiency is also lowered.

The present invention has been made in order to solve such a conventional problem, the object of the present invention is to heat the heat supply using the heat medium liquid quickly and heat medium liquid to be able to supply hot water using such heat medium liquid To provide a wind electric boiler using.

1 is a block diagram of the present invention

<Explanation of symbols for main parts of drawing>

1: Thermal medium liquid 2: Boiler body

3: round hot water pipe 4: heating wire

5: Wrinkle tube 6: Heat shield

7A, 7B: Heating piping 8A, 8B: Hot water piping

9: Circulation motor 10: temperature rod

11: Thermal fluid inlet 12: Wind power device

13: Rechargeable battery 14: Inverter

15: control unit

In order to achieve the above object, the present invention puts a heat medium in the boiler and installs a heating wire surrounded by a corrugated pipe at the bottom thereof, and a circular hot water pipe is installed at the side wall to perform heating through a circulation motor and a heating pipe. Characterized in that configured to supply hot water through the hot water pipe.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of the present invention, a boiler body 2 having a thermal fluid 1 contained therein, a circular hot water pipe 3 installed around the boiler body 2, and the boiler body ( The heating wire 4 located at the bottom center of 1) and emitting heat, a corrugated pipe 5 installed around the heating wire 4 to maximize heat conduction, and installed at the bottom of the boiler body 1 Cold water introduced through the heat-transfer part 6, the heating pipe 7A (7B) which is a circulation pipe of the heat medium liquid 1 for heating by circulating the heat medium liquid 1, and the inlet of the said hot water pipe 3 The hot water pipes 8A and 8B for heating and discharging the hot water, the circulation motor 9 installed in a predetermined portion of the heating pipe 7A and circulating the heat medium liquid 1, and the heat medium liquid 1 The temperature rod 10 is installed to measure the temperature, and is installed on one side wall of the upper end of the boiler body 2 to replenish the heat medium liquid 1. A heat medium liquid insertion port 11 which is an inlet, a wind power device 12 for generating power by wind power, a rechargeable battery 13 for charging DC power generated by wind power of the wind power device 12, and An inverter 14 for converting the DC power of the rechargeable battery 13 into an AC power source, and a control unit connected between the rechargeable battery 13 and the inverter 14 to control the AC power and the DC power source; 15).

Referring to the operation of the present invention configured as described above is as follows.

First, the method using AC (which can be used as industrial power) will be described.

That is, when AC power is input and applied to the heating wire 4 via the control unit 15, heat is generated from the heating wire 4, so that the heat medium liquid 1 is heated.

At this time, the corrugated pipe 5 is formed around the heating wire 4, and a space part is formed therein, thereby maximizing thermal conductivity.

Therefore, when the heat medium liquid 1 is heated, the heat medium liquid 1 is circulated through the heating pipes 7A and 7B by the circulation motor 9, and heating is performed, and at this time, by the temperature rod 10 The temperature at the time of heating can be measured.

In addition, the cold water introduced through the inlet of the hot water pipe 8B becomes hot water by the heat of the heat medium liquid 1 while passing through the circular hot water pipe 3 wound around the boiler main body 2 so that the hot water pipe 8A is opened. By circulating through the hot water supply is made.

At this time, the heat generated by the heating wire 4 is not transmitted at all by the heat-transmitting portion 6 provided at the bottom of the heating wire 4, but is transmitted upward only, thereby increasing the thermal efficiency.

Second, a description will be given of how to use wind power.

Power generated by the wind power device 12 is applied to the heating wire 4 in a state where the DC power is switched to the AC power through the control unit 15 and the inverter 14.

Therefore, since heat is generated from the heating wire 4, the heat medium liquid 1 is heated and circulated through the heating pipes 7A and 7B by the circulation motor 9 so that the heating is performed. ) Can measure the temperature at the time of heating.

Third, the method using the wind power and the rechargeable battery (DC) will be described.

When the DC power is generated by the wind power device 12 and charged in the rechargeable battery 13, the DC power is converted into AC power through the control unit 15 and the inverter 14 and applied to the heating wire 4.

Therefore, since the heat is generated from the heating wire 4, the heating medium liquid 1 is heated, and the heated heating medium liquid 1 is circulated through the heating pipes 7A and 7B by the circulation motor 9 so that heating is performed. In this case, the temperature may be measured by the temperature bar 10.

Fourth, a description will be given of a method using wind power, a rechargeable battery and an AC power source.

DC power generated by the wind power device 10 is charged in the rechargeable battery 13 and then converted into AC power through the inverter 14 to be applied to the heating wire 4 or AC power is directly applied to the heating wire 4. If so, heat is generated from the heating wire 4.

Therefore, the heat medium liquid 1 is heated by the heat generated from the heating wire 4, and is circulated through the heating pipes 7A and 7B by the circulation motor 9 so that heating is performed. The temperature can be measured by

In addition, the cold water introduced through the inlet of the hot water pipe 8B becomes hot water by the heat of the heat medium liquid 1 while passing through the circular hot water pipe 3 wound around the boiler main body 2 so that the hot water pipe 8A is opened. By circulating through the hot water supply is made.

In the present invention, the corrugated pipe 5 is installed around the heating wire 4 to maximize the conductivity of the heat generated from the heating wire 4, thereby heating the heat medium liquid 1 quickly.

If the heat medium liquid 1 is reduced, the heat medium liquid 1 may be replenished through the heat medium liquid insertion hole 11 installed above.

As described above, the present invention can efficiently heat and supply hot water through a heating pipe or a hot water pipe by rapidly heating a heat medium liquid contained in a boiler body by using a wind power device or by heating a heating wire using AC or DC. In addition, by installing a wind turbine outside the boiler separately, there is an effect that can be used to supply power with the power of wind.

Claims (1)

Boiler body that contains the thermal fluid inside, A circular hot water pipe installed around the boiler body in contact with the thermal fluid; A heating wire positioned at the bottom center of the boiler body and generating heat; Corrugated pipe is installed around the heating wire to maximize the thermal conductivity and transfer to the heat medium liquid, And a heat shield is installed to block the heat transmitted to the bottom of the boiler body, A heating pipe for circulating the heated heating medium liquid to perform heating; A hot water pipe for discharging hot water by heating cold water introduced through the circular hot water pipe inlet; A circulation motor installed at a predetermined portion of the heating pipe to circulate the thermal fluid; A temperature bar installed to measure the temperature of the heat medium liquid, And the heating medium liquid insertion hole which is installed on the upper side wall of the boiler body to replenish the heating medium liquid if necessary, Wind power device for generating DC power by wind power, Rechargeable battery for charging the DC power generated by the wind power device, A wind electric boiler using a heat medium liquid, characterized in that it comprises an inverter for supplying the heating wire by converting the DC power of the rechargeable battery to AC power.