KR200319292Y1 - Electricity and Air Conditioning Supply Device that use Co-generation GHP - Google Patents

Abstract

The present invention relates to an electric and air-conditioning supply device using cogeneration GICH; The purpose is to provide an electric and air-conditioning supply device using Cogeneration GECHIP (GHP) which can provide electricity supply, hot water supply and heating supply as well as cooling by generating electricity by using cheap city gas.

The present invention for achieving the above object is the electric power supply means for supplying electricity to the electrical apparatus, such as home appliances 10 and lighting devices 11 by the generator 102 to generate electricity by driving the gas engine 101; After cooling the gas engine 101 by using the exhaust heat generated by operating the gas engine 101, the elevated cooling water is supplementally heated to further increase the temperature of the cooling water, and then to the water-water heat exchanger 104. Heating supply means for exchanging heat with the incoming water to supply floor heating and hot water in the home, and cooling supply for supplying cooling in the home using electricity generated by the gas engine 101. The technical gist of the present invention relates to an electric / cooling and heating supply device using a cogeneration GICH.

Description

Electricity and Air Conditioning Supply Device that use Co-generation GHP}

The present invention relates to an electric and air-conditioning supply device using cogeneration GICH. More specifically, a gas engine is operated by using a cheap city gas to generate electricity by supplying electricity to a home. In addition, to recycle the exhaust heat generated when the gas engine is driven to supply hot water and hot water supply, as well as to supply cooling by using the electricity generated by the gas engine Cogeneration GEPP (GHP) to the electric and air conditioning supply device It is about.

In general, a cogeneration GHP using a gas engine drives a gas engine to drive a refrigerant compressor, and performs cooling and heating operation through a fan installed in a heat exchanger to heat energy of a circulating refrigerant.

However, the above method is a method of warming or cooling the indoor air, which requires a refrigerant (heating) and warms the floor of the room, or requires power (electricity) required for lighting and home appliances in a building installed alone. There was a problem that can not produce.

The present invention is devised to solve the conventional problems as described above, by driving a gas engine using a cheap city gas to supply electricity through self-generation can reduce the burden of power costs due to the use of electricity as well as gas By recycling the exhaust heat generated when the engine is running, it is possible to supply hot water and floor heating without having to install a separate boiler facility, and to provide cooling in the home through electricity generated by the gas engine. It aims to provide electricity and air-conditioning supply system using cogeneration GICH, which can reduce the burden of electricity cost and maximize energy efficiency.

1 shows the overall configuration according to the present invention.

<Description of the symbols for the main parts of the drawings>

(1): Cogeneration GICH (2): Hot water heater

(3): bypass valve (4): water storage tank

(5): first hot water pipe (5a): second hot water pipe

(5b): third hot water pipe (5c): fourth hot water pipe

(6): switchboard 7: hot water pipe

(8): Ondol floor (9): Hot water load

(10) home appliances (11): lighting equipment

(12): EHP indoor unit (13): Ceiling

(14): gas pipe (15): water supply line

(16): cooling water circulation line (17): first electric supply line

17a: second electric supply line 17b: third electric supply line

(17c): Fourth electric supply line (18): Power supply, control line and refrigerant pipe

(19): EHP outdoor unit (101): gas engine

(102): generator (103): exhaust heat exchanger

(104): water-water heat exchanger (105): rectifier

106: Inverter 107: Control Unit

(108): display device (109): radiator

Referring to the configuration of the subject innovation in conjunction with the accompanying drawings as follows.

1 is a view showing the overall configuration according to the present invention, the configuration of the electricity supply means for supplying electricity, hot water and cooling to the home using electricity and exhaust heat generated using a cogeneration GHP device And heating and cooling means,

The electricity supply means is connected to the gas pipe 14 and the gas engine 101, the gas engine 101 and the generator 102 is connected, the generator 102 and the first electricity supply line 17 is connected The first electric supply line 17 and the rectifier 105 are connected, the rectifier 105 and the inverter 106 are connected, and the inverter 106 and the second electric supply line 17a are connected. The second electric supply line 17a and the switchboard 6 are connected to each other, and the heating supply means includes an exhaust heat exchanger 103 on one side of the gas engine 101, and the gas engine 101. The cooling water circulation line 16 is connected to the cooling water circulation line 16, and the water-water heat exchanger 104 is connected to the cooling water circulation line 16, and the water supply line 15 passes through the water-water heat exchanger 104. The cooling water circulation line 16 and the radiator 109 are connected to each other, and the water supply line 15 and the water storage tank 4 are connected to the water storage tank 4 and the first hot water. The pipe 5 and the second hot water pipe 5a are connected, one side of the hot water pipe 7 is connected to the first hot water pipe 5, and the other side is configured to be connected to the second hot water pipe 5a. In addition, the cooling supply means is connected to the switchboard 6 and the outdoor etch EHP (EHP) outdoor unit 19 is installed to the fourth electric supply line (17c), the etch EPI outdoor unit 19 and the ceiling ( An EHP indoor unit 12 installed at 13 is connected to a power source, a control line, and a refrigerant pipe 18.

In addition, the heating supply means is connected to the bypass valve (3) to the first hot water pipe (5) to increase the temperature of the hot water when the temperature of the hot water flowing through the first hot water pipe (5) is low. And a third hot water pipe 5b connected to the bypass valve 3 and connected to the third hot water pipe 5b and connected to the switchboard 6 and the third electric supply line 17b. 2) is provided.

In addition, the heating supply means has a hot water load (9) connected to the first hot water pipe (5) and the fourth hot water pipe (5c), and connected to the fourth hot water pipe (5c).

Referring to the configuration as described above will be described the operation of the present invention.

As the gas engine 101 is driven, the generator 102 generates power, and electricity flows into the rectifier 105 through the first electricity supply line 17.

The AC current introduced into the rectifier 105 is converted into a DC current through the rectifier and introduced into the inverter 106.

The DC current introduced into the inverter 106 is converted into an AC current and then introduced into the switchboard 6 through the second electric supply line.

The electric current flowing into the switchboard 6 is an electric device such as a lighting device 11, a home appliance 10, a hot water heater 2, an EHP indoor unit 12, an EHP outdoor unit 19, or the like. Distribute the current to

In addition, the gas engine 101 is driven and at the same time the cooling water circulates along the cooling water circulation line 16 to cool the gas engine 101.

As described above, before the high-temperature cooling water having cooled down the gas engine 101 is introduced into the water-water heat exchanger 104 through the cooling water circulation line 16, the exhaust heat exchanger 103 provided at one side of the gas engine 101 is removed. By exhausting the exhaust heat to the cooling water circulation line 16 through the supplementary heating of the high temperature cooling water once more, the cooling water flows into the water-water heat exchanger (104).

As described above, the high temperature cooling water introduced into the water-water heat exchanger 104 is heat exchanged with water introduced into the water-water heat exchanger 104 through the water supply line 15 connected to the water storage tank 4.

The heat-exchanged water becomes hot water and flows into the water storage tank 4, a part of the cooling water flows into the gas engine 101 through the radiator 109, and the other part flows directly into the gas engine 101.

The hot water introduced into the water storage tank 4 is discharged through the first hot water pipe (5).

When the temperature of the hot water flowing out through the first hot water pipe 5 is less than or equal to the set temperature, it is introduced into the third hot water pipe 5b through the bypass valve 3.

The hot water introduced into the third hot water pipe 5b is additionally heated by the hot water heater 2 and then flows into the first hot water pipe 5 again.

A part of the hot water introduced into the first hot water pipe (5) is introduced into the fourth hot water pipe (5c) to flow into the hot water load (9) and the other part is introduced into the hot water pipe (7) to heat the underfloor floor (8) After the flow is introduced into the water storage tank (4) along the second hot water pipe (5a).

In addition, when the temperature of the hot water flowing out through the first hot water pipe (5) is higher than the set temperature, a part is directly introduced into the hot water load (9) through the fourth hot water pipe (5c) and the other part of the hot water pipe ( 7) is introduced into the reservoir (4) through the second hot water pipe (5a) after heating the ondol floor (8).

In addition, when cooling is required in the home to supply cooling, hot water flowing into the ondol floor 8 through the first hot water pipe 5 is cut off so that the hot water pipe 5c flows into the hot water pipe 5c. Only let hot water enter the.

After the hot water is introduced only into the hot water load 9 as described above, electricity is supplied from the switchboard 6 through the fourth electric supply line 17c to operate the EHP outdoor unit 19 and at the same time, the ichipi (EHP) An IHP indoor unit 12 connected to an outdoor unit 19, a power supply, a control line, and a refrigerant pipe 18 operates to supply cooling in the home.

In the drawing, reference numeral 107 denotes a control unit, and 108 denotes a display device.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention generates electricity by driving a gas engine using inexpensive city gas to supply electricity in the home, and recycles exhaust heat generated by the gas engine to supply hot water and heating in the home, and the gas By using the electricity generated by the engine to supply cooling in the home, the waste heat can be recycled to maximize energy efficiency, prevent waste of resources, and provide hot water and heating in the home. There is no need to install a separate boiler facility, so it does not incur the cost of boiler facility, and it uses the electricity generated by self-generation as the gas engine is driven to drive the air conditioner (EHP). It is a very useful design to greatly reduce the burden.

Claims (3)

Comprising a power supply means for supplying electricity, hot water and cooling to the home using electricity and exhaust heat generated using the cogeneration GHP device, heating supply means and cooling supply means, The electricity supply means is connected to the gas pipe 14 and the gas engine 101, the gas engine 101 and the generator 102 is connected, the generator 102 and the first electricity supply line 17 is connected The first electric supply line 17 and the rectifier 105 are connected, the rectifier 105 and the inverter 106 are connected, and the inverter 106 and the second electric supply line 17a are connected. The second electricity supply line 17a and the switchboard 6 are connected to each other. The heating supply means is provided with an exhaust heat exchanger (103) on one side of the gas engine (101), a cooling water circulation line (16) connected to the gas engine (101), and a water- to the cooling water circulation line (16). A water heat exchanger 104 is connected, a water supply line 15 passes through the water-water heat exchanger 104, the cooling water circulation line 16 and a radiator 109 are connected, and the water supply line ( 15 is connected to the storage tank (4), the storage tank (4), the first hot water pipe (5) and the second hot water pipe (5a) is connected, the hot water pipe (5) to the first hot water pipe (5) One side of 7) is connected and the other side is configured to be connected to the second hot water pipe (5a), The cooling supply means is connected to the switchboard 6 and the outdoor unit (EHP) outdoor unit 19 is installed in the fourth electric supply line (17c), the outdoor unit 19 and the ceiling (EHP) (13) EHP indoor unit (12) installed in the) is an electric and air-conditioning supply device using a cogeneration GICH (GHP), characterized in that is configured by being connected to a power supply, a control line and a refrigerant pipe (18). The method of claim 1, The heating supply means is connected to the bypass valve (3) to the first hot water pipe (5) to increase the temperature of the hot water when the temperature of the hot water flowing through the first hot water pipe (5) is low, A hot water heater 2 connected to the bypass valve 3 and connected to the third hot water pipe 5b and connected to the third hot water pipe 5b and connected to the switchboard 6 and the third electric supply line 17b. Electric and air-conditioning supply device using a cogeneration GEICH (GHP), characterized in that further comprises. The method of claim 1, The heating supply means is connected to the first hot water pipe (5) and the fourth hot water pipe (5c), characterized in that it further comprises a hot water supply load (9) connected to the fourth hot water pipe (5c). Electric and air-conditioning supply device using generation GHP.