KR101415972B1 - device for hot water supply heater - Google Patents

Abstract

The present invention relates to a hot water supplying and heating device. The objective of the present invention overcomes the weakness of an existing technology which simply cools ascendant underground circulating water in underground to be reused, wherein the underground circulating water is generated through a heat exchanger when cooling operates based on a geothermal heat pumping device and sends a waste heating source to a hot water tank of a machine room to be reused, thereby maximizing the collection of waste heat and minimizing lift heat of a circulating pump by circulating the high lift heat of the circulating pump in the machine room. The hot water supplying and heating device of the present invention comprises a buffer tank which supplies warming or cooling to a target place; a geothermal heat pump device which is connected to the buffer tank, supplies hot energy or cool energy to the buffer tank using the heating source of geothermal heat, and condenses a waste heat source generated by the operation of the buffer tank at high temperatures; a first heat storage unit which is connected to the geothermal heat pump device and temporarily stores a heat source condensed by the geothermal heat pump device; and a second heat storage unit which is connected to the geothermal heat pump device and temporarily stores a heat source condensed by the geothermal heat pump device. The geothermal heat pump device and the first heat storage unit, the geothermal heat pump device and the second heat storage unit, and the first heat storage unit and the second heat storage unit are connected by a heat source circulating unit. The heat source repeatedly circulates through the geothermal heat pump device, the first heat storage unit, and the second heat storage unit based on the heat source storage unit and is heated to high temperature. The first heat storage unit and the second heat storage unit are connected to the hot water tank through the heat source supplying unit so that the heat source heated to high temperature is supplied to the hot water tank through the heat source supplying unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a hot water heating apparatus capable of recycling waste heat generated on the heat source side in the use of geothermal cooling and heating. More specifically, the present invention relates to a hot water heating apparatus capable of supplying hot water generated during summer cooling to hot water supply, The circulation pump operation is guided to the hot water tank inside the machine room so that the head of the pump returning to the outdoor ground can be reduced so that the power consumption and the energy required for hot water supply are significantly lowered. On the other hand, And the geothermal heat pump is operated until the temperature of the circulation pump is lowered to below the predetermined temperature, thereby minimizing the power consumption of the circulation pump, thereby minimizing power consumption.

Generally, a geothermal heating / cooling system uses a fluid passing through a geothermal loop through a heat exchanger connected to a heat pump compressor to perform heat exchange and a heat pump compressor to supply heat-exchanged heat energy. In this process, the underground loop goes out of the building and returns to 150 ~ 200m underground. Therefore, the heat exchange fluid in the pipe starting from the machine room goes out of the building and returns to the geothermal heat pump by the underground loop. There is a problem that the head is raised.

Patent Registration No. 10-0557460 (Feb. 24, 2006) Korean Patent Registration No. 10-0786116 (December 10, 2007)

Disclosure of the Invention The present invention has been conceived to solve the problems of the prior art described above, and it is an object of the present invention to provide a disadvantage of the prior art in which the rise of underground circulation water generated by passing a geothermal heat pump apparatus through a heat exchanger, The present invention provides a hot water heating apparatus that maximizes the recovery of waste heat by connecting a waste heat source to a hot water tank of a machine room and circulates the head of the high circulation pump in the machine room to minimize the head of the circulation pump .

The hot water heating apparatus according to the present invention comprises a buffer tank for supplying cooling or heating to a supply source, a supply unit connected to the buffer tank for supplying thermal energy or cold energy to the buffer tank using a geothermal heat source, A first storage unit connected to the geothermal heat pump unit and temporarily storing a heat source condensed by the geothermal heat pump unit, a first heat storage unit connected to the geothermal heat pump unit, And a second heat storage unit connected to the first heat storage unit and temporarily storing the heat source condensed in the geothermal heat pump unit,

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The geothermal heat pump device and the first storage unit, the geothermal heat pump unit and the second storage unit, and the first storage unit and the second storage unit are connected through a heat source circulation unit, The pump device, the first accumulator and the second accumulator are repeatedly circulated and heated to a high temperature,

The first heat storage unit and the second heat storage unit are connected to the hot water supply tank through the heat source supply unit, and the heat source heated to the high temperature is supplied to the hot water supply tank through the heat source supply unit.

A geothermal source supply unit connected to the first heat storage unit and the second heat storage unit and supplying a geothermal heat source to the geothermal heat pump unit,

A first valve installed in the geothermal source supply unit,

A second valve installed in the heat source circulation unit for connecting the first heat storage unit and the second heat storage unit,

And a control unit electrically connected to the first valve and the second valve,

Wherein,

The first valve is opened and the second valve is closed so that the geothermal heat source and the heat source are mixed and circulated when the heat storage temperature of the first heat storage part and the second heat storage part is higher or lower than a preset temperature,

When the heat storage temperature of the first heat storage unit and the second heat storage unit is raised to a predetermined temperature, the first valve is locked and the second valve is opened so that a heat source circulating the heat source circulation unit is supplied to the hot water tank Or the geothermal heat pump apparatus operates the buffer tank through a heat source circulating the heat source circulation unit.

The hot water supply heating device according to the present invention can supply the circulating water heat source passing through the condenser of the geothermal heat pump device to the ground water tank to the hot water supply tank so that the hot water supply can be further performed simultaneously with the cooling or heating of the geothermal heat pump device, And it is also possible to circulate the head of the circulation pump from the circulation loop of the underground loop to the machine room piping circuit, thereby remarkably reducing the power consumption.

If the temperature of the circulating water circulating through the heat source circulation unit does not rise or fall above the proper temperature in the case where the heat source is not supplied to the hot water tank or is used for heating, the geothermal heat pump apparatus is operated at the flow rate of the heat source circulation unit, Circulates the circulating water through the inner loop to heat the inside of the pipe to the same temperature as the ground temperature. Thereafter, when the temperature of the circulating water in the heat source circulation unit becomes the same temperature as the ground temperature, the geothermal source supply unit is submerged so that the circulation water can be repeatedly circulated in the heat source circulation unit so that the power consumption of the circulation pump can be reduced, There is an effect.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing the flow of a basic operation in a hot water heating apparatus according to the present invention; FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot water heating apparatus,
3 is a view showing the flow of operation of the heating / cooling low-maintenance pump in the hot water heating apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

2 is a view showing the flow of waste heat and the waste heat supplied to the hot water tank in the hot water tank heating apparatus according to the present invention, and FIG. 3 Is a diagram showing the flow of operation of the cooling / heating low-lift pump in the hot water heating apparatus according to the present invention.

1 to 3, the hot water heating apparatus 1 according to the present invention includes a buffer tank 10, a geothermal heat pump apparatus 20, a first accumulator 30 and a second accumulator 40 .

First, the buffer tank 10 can be installed in a machine room (not shown) in a house, connected to a cooling / heating device installed in a ceiling of a house and having both cooling and heating functions, Can supply.

The geothermal heat pump apparatus 20 may be installed in the machine room and connected to the buffer tank 10 through a connection pipe 130.

The geothermal heat pump apparatus 20 is connected to a geothermal source supply unit 80 to be described later. The geothermal heat pump apparatus 20 performs heat exchange through a first heat exchanger 21 and a second heat exchanger 22, The buffer tank 10 is supplied with the energy from the geothermal heat pump device 20 and supplies cooling or heating to the inside of the supply source .

At this time, a waste heat source is generated in operation of the buffer tank 10, and the waste heat source is recovered to the geothermal heat pump apparatus 20 through the connection pipe 130, and the geothermal heat pump apparatus 20 And the waste heat source is condensed to a high temperature through the first heat exchanger (21) built therein.

The first storage unit 30 temporarily stores a heat source condensed by the geothermal heat pump unit 20 and may be installed in the machine room and is connected to the geothermal heat pump 20 through a heat source circulation unit 50 And is connected to the pump device 20.

The second heat accumulating unit 40 temporarily stores the heat source condensed by the geothermal heat pump apparatus 20 in the same manner as the first heat accumulating unit 30 and may be installed in the machine room, And is connected to the geothermal heat pump device (20) through a heat source circulation part (50).

The geothermal heat pump device 20 and the first accumulator 30, the geothermal heat pump device 20 and the second accumulator 40, the first accumulator 30 and the second accumulator 40 are connected through a heat source circulation unit 50.

Here, the heat source circulation unit 50 may have the same structure as the piping.

The condensed heat source is repeatedly supplied to the first heat exchanger 21 of the geothermal heat pump apparatus 20 and the first heat storage unit 30 and the second heat storage unit 40 repeatedly by the heat source circulation unit 50, Circulated and heated to a high temperature.

At this time, the heat source circulation unit 50 for connecting the geothermal heat pump apparatus 20 and the second heat accumulation unit 40 may be connected to the circulation pump 140 for repeatedly circulating the heat source.

A temperature sensor (not shown) is installed inside the first and second heat accumulating units 30 and 40 to selectively transmit the heat source through an interaction with a control unit 120 do. The method of transferring the heat source will be described in detail below.

The first storage unit 30 and the second storage unit 40 are connected to the geothermal source supply unit 80.

Specifically, the geothermal source supply unit 80 includes an inlet pipe 81 buried in the ground and connected to the first storage unit 30, and an outlet connected to the inlet pipe 81 and the second storage unit 40 And a tube (82).

1, when the geothermal heat pump apparatus 20 is operated, the geothermal heat source of the geothermal source supply unit 80 is connected to the second heat accumulation unit 40 and a heat source The geothermal heat pump apparatus 20 is moved sequentially through the circulation unit 50 and the moved geothermal resources are heat-exchanged in the heat exchanger of the geothermal heat pump apparatus 20 and then supplied to the buffer tank 10 . The buffer tank 10 supplies cooling or heating to a cooling / heating device as a supply source.

The first heat storage unit 30 and the second heat storage unit 40 are connected to the hot water supply tank 60 through the heat source supply unit 70 so that the heat source heated to a high temperature is supplied to the hot water tank 60 do.

At this time, the heat source supplied to the hot water tank 60 is heat-exchanged through the third heat exchanger 61 built in the hot water tank 60 to raise the hot water of the hot water tank 60.

At this time, the heat source supply unit 70 may have the same structure as the piping. The heat source supply unit 70 for connecting the hot water tank 60 and the first heat storage unit 30 may be connected to the circulation pump 150 for supplying the circulated heat source to the hot water tank 60 have.

The first valve 90 is provided in each of the inflow pipe 81 and the outflow pipe 82 of the geothermal source supply unit 80 and the first storage unit 30 and the second storage unit 40 are connected A third valve 110 is installed in the heat source supply unit 70 that connects the second heat storage unit 40 and the hot water tank 60 to the heat source circulation unit 50 . The first valve (90), the second valve (100), and the third valve (110) are controlled by the controller (120).

At this time, the valves 90, 100 and 110 may be applied as two-way automatic valves.

Hereinafter, the operation of the present invention configured as described above will be described with reference to Figs.

1, the control unit 120 compares the predetermined temperature with the temperature transmitted from the temperature sensor, and determines whether the temperature of the heat storage of the first storage unit 30 and the second storage unit 40 The first valve 90 is opened and the second valve 100 is locked so that the geothermal heat pump apparatus 20, the first heat storage unit 30, and the second heat storage unit 40 circulate the geothermal source supply part 80, the second heat storage part 40, the geothermal heat pump device 20 and the first heat storage part 30 so that the heat source is at the same temperature Respectively.

2, the control unit 120 compares the predetermined temperature with the temperature transmitted from the temperature sensor, and determines whether the temperature of the first storage unit 30 and the second storage unit 40 is higher than the predetermined temperature The first valve 90 is locked and the second valve 100 and the third valve 110 are opened. The heat source circulating through the heat source circulation unit 50 through the geothermal heat pump apparatus 20 and the first heat accumulation unit 30 and the second heat accumulation unit 40 can be circulated through the heat source supply unit 70, (60).

3, the controller 120 compares the predetermined temperature with the temperature transmitted from the temperature sensor, and determines whether the temperature of the first accumulator 30 and the second accumulator 40 is higher than the predetermined temperature The first valve 90 is locked and the second valve 100 is opened. The geothermal heat pump device 20 supplies the buffer tank 10 with the heat energy through the heat source circulating unit 50 through the heat source circulating the first heat storage unit 30 and the second heat storage unit 40, Thereby supplying cold energy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

10: Buffer tank 20: Geothermal heat pump device
21: first heat exchanger 22: second heat exchanger
30: first accumulator 40: second accumulator
50: heat source circulation unit 60: hot water tank
61: third heat exchanger 70: heat source supply part
80: Geothermal source supply part 81: Inflow pipe
82: outlet pipe 90: first valve
100: second valve 110: third valve
120: control unit 130: connector
140,150: circulation pump

Claims (2)

A buffer tank for supplying cooling or heating to the supply source,
A geothermal heat pump device connected to the buffer tank for supplying thermal energy or cold energy to the buffer tank using a geothermal heat source and for condensing the waste heat source generated during operation of the buffer tank to a high temperature,
A first storage unit connected to the geothermal heat pump unit and temporarily storing the heat source condensed by the geothermal heat pump unit,
And a second heat storage unit connected to the geothermal heat pump unit and temporarily storing the condensed heat source in the geothermal heat pump unit,
The geothermal heat pump device and the first storage unit, the geothermal heat pump unit and the second storage unit, and the first storage unit and the second storage unit are connected through a heat source circulation unit, The pump device, the first accumulator and the second accumulator are repeatedly circulated and heated to a high temperature,
The first heat storage unit and the second heat storage unit are connected to the hot water supply tank through the heat source supply unit, and the heat source heated to the high temperature is supplied to the hot water supply tank through the heat source supply unit
Hot water heating device. The method of claim 1,
A geothermal source supply unit buried in the ground and connected to the first heat storage unit and the second heat storage unit and supplying the geothermal heat source to the geothermal heat pump unit,
A first valve installed in the geothermal source supply unit,
A second valve installed in the heat source circulation unit for connecting the first heat storage unit and the second heat storage unit,
And a control unit electrically connected to the first valve and the second valve,
Wherein,
The first valve is opened and the second valve is closed so that the geothermal heat source and the heat source are mixed and circulated when the heat storage temperature of the first heat storage part and the second heat storage part is higher or lower than a preset temperature,
When the heat storage temperature of the first heat storage unit and the second heat storage unit is raised to a predetermined temperature, the first valve is locked and the second valve is opened so that a heat source circulating the heat source circulation unit is supplied to the hot water tank Or the geothermal heat pump apparatus operates the buffer tank through a heat source circulating the heat source circulation unit
Hot water heating device.

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