KR100463985B1 - GHP air condition system using micro co-gen - Google Patents

Abstract

The present invention relates to an air conditioning system using a gas heat pump, and more particularly, to provide a gas heat pump air conditioning system using a micro cogen that can supply power and heat by generating power and a heat source by operating a micro cogen. It is.

Accordingly, in the present invention, the refrigerant is supplied to the air conditioner side through an outdoor unit including a gas heat pump and a radiator, and the air conditioner is supplied to an air conditioning system using a gas heat pump to heat and exchange these refrigerants through an air conditioner. In the air conditioner, a reheat heater having a humidification function is installed, and a micro cogen generating electric power and a heat source is connected to a heat exchanger. And the heat exchanger is connected to the reheater and the boiler to heat exchange the heat source of the micro-cogen with hot water to supply to the reheater and the boiler.

Therefore, the present invention can be used widely in the maintenance and management of the building by supplying the warm air and power only by operating the micro cogen without operating the gas heat pump, it is possible to provide the hot water or hot water required by the connection of the heat exchanger and the boiler. It has a very useful effect.

Description

Gas heat pump air conditioning system using micro cogen {GHP air condition system using micro co-gen}

The present invention relates to an air conditioning system using a gas heat pump capable of cooling and heating by generating cold and hot air by operating a gas heat pump, and more specifically, generates power and a heat source by operating a micro cogen. The present invention relates to a gas heat pump air conditioning system using microcogen capable of supplying electric power and heating.

In general, the air conditioning system refers to a system for supplying cold and hot air to the interior of a building or ventilating indoor air. In general, an air conditioning system using a cold / hot water device and a cooling tower has been commonly constructed in buildings.

1 shows an example of such an air conditioning system. The air conditioner 2 is connected to a cold / hot water device 3 having a cooling tower to supply cold / hot air to the interior of a building through a duct D.

In more detail, the cold / hot water device 3 is provided with a conventional device for making cold water by storing and circulating a refrigerant therein, thereby circulating and supplying cold water to the air conditioner 2. In addition, the cold / hot water device 3 is provided with a normal burner that is operated by light oil or gas therein to make hot water.

The cold / hot water produced by the cold / hot water device 3 is sent to a normal coil installed in the air conditioner 2 by a pump, and the cold / hot water supplied to the coil is inside the air conditioner 2. Cold and hot air is generated by the operation of the fan installed in the fan, and the cold and hot air is supplied to the inside of the building through the duct (D).

However, such an air conditioning system has a problem in that an expensive cooling tower 1 is separately provided for supplying cold air, and a separate machine room for installing the cold / hot water device 3 is provided. In addition, the cold / hot water device (3) requires a separate supply pump and piping equipment to supply cold water to the air conditioner (2) side.

In addition, the cold / hot water produced by the cold / hot water device 3 is supplied and circulated along the pipe to the fan coil unit side of the air conditioner 2, so that the pipes and the coils of the air conditioner 2 and the like may freeze in winter. Was very high, and the efficiency of cooling and heating was greatly reduced due to heat loss of cold and hot water in the process of being delivered to the coil of the air conditioner 2 and the fan coil unit through the pipe.

Recently, an air conditioner (2) using GHP (Gas Heat Pump) has been developed and used to solve the above problems. 2A and 2B show an example of an air conditioning system using GHP, which is already filed in Korea (Registration No. 20-0249516), and uses a gas heat pump 11 to generate cold or hot air. Intensive heating and cooling can be done in large-scale facilities without the use of

Referring to FIG. 2A, the outdoor unit 10 connected to the air conditioner 2 heats the engine 12 and the refrigerant for operating the gas heat pump 11 and the gas heat pump 11. It consists of the radiators 13 which are replaced.

Therefore, when the engine 12 of the outdoor unit 10 is operated for cooling, the gas heat pump 11 is operated by the engine 12, whereby the refrigerant having a high temperature and high pressure is radiator 13 of the outdoor unit 10. Supplied to the side. The radiator 13 heat exchanges the refrigerant supplied from the outdoor unit 10, and the heat exchanged refrigerant is supplied to the coil side of the air conditioner 2.

Accordingly, since the coolant supplied to the coil side of the air conditioner 2 is thermally converted by the blowing of the fan installed at the coil side, the coolant is converted into the coolant of the low temperature and low pressure, and cold air is generated. Finally, because it is supplied to the interior of the building it is possible to cool the building. The refrigerant of low temperature and low pressure introduced to the coil side of the air conditioner 2 is circulated to the gas heat pump 11 side of the outdoor unit 10 again.

On the other hand, when heating, as shown in FIG. 2B, the gas heat pump 11 is operated by the engine 12 as opposed to cooling to supply the high temperature and high pressure refrigerant to the coil side of the air conditioner 2. Accordingly, the refrigerant circulating in the coil is heat-exchanged by the fan, and hot air is generated and finally supplied to the interior of the building through the duct (D). The heat exchanged coolant is supplied to the radiator 13 side of the outdoor unit 10 for heat exchange.

However, the conventional air conditioning system using the GHP has a problem that can not be utilized for various purposes, such as hot water, hot water supply and power generation required for the building. That is, conventionally, since the air conditioner 2 is operated by the operation of the gas heat pump 11 to operate the cold / hot air, the electric power required for building management cannot be obtained.

Therefore, since all the power required for building management is supplied from the outside, the power dependence is intensified, and a lot of power costs are generated.

In addition, since the conventional gas heat pump 11 is used only for generating cold and hot air, there is a problem that cannot be utilized for various purposes such as hot water or hot water.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned general problems, and an object of the present invention is to provide a gas heat pump air conditioning system using a micro cogen that can supply heating power and provide necessary power without operating a gas heat pump. To provide a system.

In addition, the present invention has another object to provide a gas heat pump air conditioning system using a micro cogen that can be connected to the boiler in addition to providing the necessary heating and power to provide hot water or hot water (熱水).

1 is a flow chart schematically showing a general air conditioning system,

2a and 2b is a flow chart showing an air conditioning system using a gas heat pump according to the prior art,

Figure 3 is a flow chart schematically showing a gas heat pump air conditioning system using a micro cogen according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: air conditioning system 200: outdoor unit

210: engine 220: gas heat pump

230: radiator 300: air conditioner

310: coil 320: fan

330: reheat heater 400: micro cozen

500: heat exchanger 600: boiler

D: Duct

The gas heat pump air conditioning system using the micro cogen of the present invention for achieving the above object supplies a refrigerant to the air conditioner through an outdoor unit including a gas heat pump and a radiator, and heat exchanges the refrigerant through an air conditioner. An air conditioning system using a gas heat pump for supplying cold and hot air, comprising: a reheat heater installed in the air conditioner and having a humidification function; Micro cogen to generate power and a heat source; A heat exchanger for supplying hot water to the reheat heater by collecting and heat exchange the heat source of the micro cogen.

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

3 is a flow chart schematically showing a gas heat pump air conditioning system using a micro cogen according to the present invention.

As shown, a gas heat pump 220, also called a gas heat pump (GHP), uses a fuel such as gas, and the operation thereof is performed by the engine 210. The gas heat pump 220 is connected to the radiator 230 to supply the refrigerant, and the radiator 230 heat-converts the refrigerant supplied from the gas heat pump 220 to the air conditioner 300. .

The air conditioner 300 has a coil 310 installed therein to receive a coolant from the radiator 230 side, and a fan 320 is installed to circulate the coil 310 through the coolant. It generates cold and hot air.

And micro co-Gen (400) is to generate electricity, the operation is made by a fuel such as gas, the generated electricity is a power or gas heat pump 220, air required for building management through the power line It is used for the conditioner 300 etc.

In addition, the waste heat generated by the operation of the micro cogen 400 is collected to the heat exchanger 500 side, the heat exchanger 500 is to create hot water or hot water using the collected heat.

Since the heat exchanger 500 is connected to the reheat heater 330 installed in the air conditioner 300, the hot water or hot water is circulated in the reheat heater 330, and the fan 320 installed on the reheat heater 330 side. The hot air is generated by the operation. In addition, the heat exchanger 500 is connected to the boiler 600 in addition to the reheat heater 330 of the air conditioner 300 so that the supply of hot water or hot water for hot water supply through the boiler 600.

Referring to the operation and effect of the present invention configured as described in detail as follows.

As shown in FIG. 3, when the micro cozen 400 is operated, a heat source for electric power and heating is obtained. The electric power is used to manage the gas heat pump 220 or the air conditioner 300 and the building. It can be used with the required power supply.

And the heat source is collected to the heat exchanger 500 side is converted to hot water by the heat exchanger 500, it is supplied to the reheat heater 330 installed inside the air conditioner 300 through the pipe. And the hot water supplied to the reheat heater 330 is converted to hot air (熱風) by the operation of the fan 320 installed on the reheat heater 330 is blown into the interior of the building through the duct (D).

Therefore, the present invention can be used widely in maintenance and management of the building as needed, since the warm air and electric power is supplied only by operating the micro cogen 400 without operating the gas heat pump 220, in particular, the dependence on the external power supply and supply As it is possible to reduce the cost of electricity and its utility as an alternative power saving.

In addition, since the present invention connects the heat exchanger 500 with the boiler 600, it is possible to supply hot water through the boiler 600 or to provide hot water required for hot water supply. Therefore, when the overload of the boiler 600 performs the function of assisting the boiler 600, in the case of the summer when the full operation of the boiler 600 is unnecessary, it can be usefully used in place of the boiler 600.

Furthermore, since the present invention can discharge water vapor through the reheat heater 330 connected to the heat exchanger 500, it is possible to provide humidified warm air through the fan 320 of the air conditioner 300. Therefore, since the humidity can be properly maintained in addition to simply providing warm air, the maintenance and management of the building is made more comfortable.

On the other hand, since the engine 210 is operated for cooling, the gas heat pump 220 is operated. Accordingly, the low temperature low pressure refrigerant is supplied to the radiator 230 side of the outdoor unit 200, and the radiator 230 heat exchanges the refrigerant supplied from the outdoor unit 200 to the coil 310 side of the air conditioner 300. Supply the refrigerant.

Accordingly, the coolant supplied to the coil 310 side of the air conditioner 300 is converted into the refrigerant having a high temperature and high pressure by blowing the fan 320 installed on the coil 310 side, and cold air is generated. Through the duct (D) is finally supplied to the interior of the building it is possible to cool the building.

At this time, the micro cozen 400 of the present invention may be operated to supply power to the gas heat pump 220 and the air conditioner 300, or may be operated to obtain hot water. It is also possible not to operate the cozen 400.

On the other hand, the above-described embodiment is merely to explain an example of a preferred embodiment of the present invention, the scope of the present invention is not limited to such, and can be changed appropriately within the scope of the same thought, for example By operating the micro cozen and the gas heat pump together, they generate a large amount of hot air as needed, so that the building can be maintained and managed more quickly and efficiently.

As described above, the present invention generates hot air by supplying the heat source generated by the operation of the micro cogen to the reheat heater of the air conditioning system through the heat exchanger without operating the gas heat pump. Therefore, the warm air and the power supply are made only by the operation of the micro cogen, so that the maintenance and management of the building is more efficient, and there is also a useful effect of saving energy due to the operation of the efficient air conditioning system.

In addition, the present invention is used as a power source for buildings, gas heat pumps and air conditioners by using the power generated in the micro-cogen to reduce the dependence on external power to save electricity costs and useful as alternative power It works.

In addition, the present invention connects the heat exchanger and the boiler, thereby supplying hot water through the boiler or providing hot water for hot water supply, replacing the boiler when the boiler is overloaded, or assisting the boiler to provide hot water and hot water for maintenance and management of the building. There is a very useful effect that can be supplied efficiently.

Furthermore, the present invention can discharge the water vapor through the reheater heater of the air conditioner can provide a humidified hot air or hot air through the fan of the air conditioner, thereby enabling more efficient management and maintenance of the building There is also a useful effect.

Claims (2)

In an air conditioning system using a gas heat pump that supplies a coolant to the air conditioner side through an outdoor unit consisting of a gas heat pump and a radiator, and supplies heat and cool air by exchanging the refrigerant through an air conditioner. A reheat heater (330) installed in the air conditioner (300) and having a humidification function; A micro cogen 400 that generates power and a heat source; Heat exchanger 500 for supplying hot water to the reheat heater 330 by collecting and heat exchange the heat source of the micro cozen (400) Gas heat pump air conditioning system using a micro-cogen comprising a. The gas heat pump air conditioning system according to claim 1, wherein the heat exchanger is connected to the boiler 600 so that the heat exchanger can also be used as hot water or hot water.