KR100547094B1 - oxygen suppling GHP air conditioner - Google Patents

Abstract

The present invention relates to an eco-friendly GICHP air conditioner capable of supplying oxygen, and an object thereof is to operate a gas engine to clean a clouded air in an enclosed indoor space as well as indoor air conditioning. By supplying indoors, it is to provide eco-friendly GHP cooling and heating equipment that can supply oxygen with a composition that can refresh the poor indoor environment conditions such as drowsiness and drowsiness due to lack of oxygen and improve to fresh environment.

In the GHP air conditioner, a separate air inlet formed in an outdoor unit, a compressor for compressing air supplied through the air inlet, an oxygen generator for extracting oxygen from air supplied from the compressor, and oxygen On the oxygen supply pipe for supplying the oxygen generated from the generator to the indoor unit, an oxygen injector connected to one end of the oxygen supply pipe and installed in front of the blower inside the indoor unit to discharge oxygen, and on the oxygen supply pipe connected to the inside of the indoor unit An oxygen supply solenoid valve which is provided to automatically control the opening and closing of the injection amount of the oxygen injector, a bypass pipe which is bypassed to the outdoor unit air intake at any point on the oxygen supply pipe, and an indoor unit installed on the bypass pipe installed inside the outdoor unit. The pressure switch operates according to the oxygen pressure supplied to the Including a pressure switch and air intake between the device on the bypass pipe oxygen supply is automatically controlled depending on the opening and closing operation of the pressure switch by-pass valve is characterized in that configured.

GHP outdoor unit, gas engine, refrigerant compressor, evaporator, condenser, oxygen generator, air compressor, oxygen supply solenoid valve (SV1), oxygen supply bypass valve (SV2), pressure switch (PS)

Description

Oxygen suppling GHP air conditioner             

1 is a schematic diagram illustrating a cooling principle of a general GHP system,

2 is a schematic diagram illustrating a heating principle of a general GHP system.

3 is a block diagram of an eco-friendly GHP capable of supplying oxygen according to the present invention,

4 is an enlarged view of the structure of the oxygen injector of FIG. 3.

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

(1): gas engine (2): compressor

(3): Outdoor unit evaporator (condenser for cooling) (4): 4-way valve

(5): Indoor unit condenser (evaporator for cooling) (6): Engine radiator

(7): oxygen generator (8): oxygen supply pipe

(9): oxygen sprayer (10): compressor

(11): manual valve (12): fuel gas pipe

(13): Air intake port (14): Pressure switch

(15): oxygen supply solenoid valve (16): oxygen supply bypass valve

(17): bypass piping (18): manual valve

(19): indoor unit expansion valve (20): outdoor unit expansion valve

The present invention relates to an eco-friendly GHPI air conditioner capable of supplying oxygen.

1 is a schematic diagram illustrating a cooling principle of a general GHP system, and FIG. 2 is a schematic diagram illustrating a heating principle of a general GHP system, with reference to this, to explain the principle of cooling and heating of a conventional GHP system. Is as follows.

At the time of heating, the gas engine is operated to drive the refrigerant gas compressor, and the high-temperature, high-pressure refrigerant gas compressed by the compressor is sent to the indoor unit, and the heat exchanger of the indoor unit exchanges heat with indoor air (in this case, the room is heated). The refrigerant gas expands through the expansion valve, and the medium and medium pressure refrigerant liquid becomes a low temperature and low pressure refrigerant liquid. The refrigerant liquid passing through the expansion valve is sent to the outdoor unit, and passes through the heat exchanger of the filter drier, removes a small amount of water and dust in the system, and changes to the refrigerant gas of low temperature and low pressure while passing through the outdoor cooler and outdoor heat exchanger. After returning to the accumulator through a double-tube heat exchanger (engine coolant and exhaust gas heat exchange), which is a device that recycles the exhaust heat generated when the engine is driven, the refrigerant compressor compresses the refrigerant gas and recompresses the refrigerant gas as described above. The gas is sent to the indoor unit to condense, and the heating cycle operation is continued by performing the expansion and evaporation process as follows.

In addition, during cooling, the refrigerant gas is compressed in the refrigerant compressor, and the refrigerant gas is condensed by passing through the outdoor unit's subcooler and the outdoor unit heat exchanger (when heating, it functions as an evaporator and when cooling, it serves as a condenser). The condensed refrigerant liquid expands on the expansion side of the indoor unit and evaporates in the heat exchanger of the indoor unit. At this time, the heat exchanger of the indoor unit serves as an evaporator, and the indoor air becomes cold by the heat of evaporation (when heating, it functions as a condenser and when cooling, it functions as an evaporator). The refrigerant gas from the heat exchanger (evaporator) of the indoor unit is collected into the accumulator through four directions and enters the refrigerant gas compressor. The cooling cycle operation continues while repeating the above process.

However, the conventional ICHPI air-conditioning device having the above configuration and operating conditions can simplify the cooling and heating of the room. However, since the heat exchange is continuously performed in an enclosed space, the oxygen concentration decreases and the air becomes cloudy. there was. Of course there may be opening and closing of some entrances and inhalation of air through the windows, but this is not a fundamental ventilation system, and the oxygen concentration of about 21% in the air is lean and physiologically carried out by normal human activities. It was difficult to be easy to maintain a clear working environment.

In order to solve the above problem, it is possible to install a separate external air introduction device (ventilation device), but in this case, an expensive ventilation duct is required and still has the disadvantage that it cannot be installed at a limited ceiling height.

In addition, apparatuses equipped with an oxygen generator using PSA have been recently provided in an EHP air conditioner instead of a GHP method. However, these methods allow oxygen in a closed polluted circuit in a room to pass through a media that adsorbs gases other than oxygen. There is a limit to the processing capacity of the device to generate the.

Eventually, if the above method is applied, the process of replacing the media that adsorbs gas other than oxygen adsorbed during the oxygen generation process or periodically operating the engine to release gas such as carbon, generates continuous cost and heating and heating devices. There are problems such as temporary outages.

An object of the present invention for solving the above problems is to operate the gas engine to solve the problem that can not supply fresh air due to the conventional etch air cooling, heating device structure, as well as indoor heating and cooling as well as confined in the enclosed indoor space By supplying a certain amount of oxygen from the outside air to the room to clean the air, it is an eco-friendly zippy that can supply oxygen with a composition that can improve the poor indoor environment conditions such as drowsiness and drowsiness due to lack of oxygen and refresh it to a fresh environment. (GHP) To provide air conditioning and heating.

The configuration of the present invention, which achieves the above object and accomplishes the problem for eliminating the conventional drawbacks, comprises a gas engine which obtains a driving force by explosion of a gas supplied from a fuel gas pipe, and a compression force by driving a gas engine. A heat source from a compressor that provides an engine, a four-way valve that switches the flow path of the refrigerant, an outdoor unit evaporator that evaporates the refrigerant (used as a condenser for cooling), and an engine radiator that cools the high-temperature engine coolant generated during operation of the gas engine. A etchpi outdoor unit which is supplied and comprises a case surrounding the same; In the GHP air conditioning system consisting of an indoor unit consisting of an indoor condenser (cooling is used as an evaporator) for condensing the refrigerant,

A separate air inlet formed in the outdoor unit, a compressor for compressing air supplied through the air inlet, an oxygen generator for extracting oxygen from air supplied from the compressor,

An oxygen supply pipe for supplying oxygen generated from the oxygen generator to the indoor unit, an oxygen sprayer connected to one end of the oxygen supply pipe and installed in front of the blower inside the indoor unit to discharge oxygen;

An oxygen supply solenoid valve installed on an oxygen supply pipe connected to the inside of the indoor unit to automatically open and close an injection amount of the oxygen injector;

A bypass pipe which is bypassed toward the outdoor unit air intake port at any point on the oxygen supply pipe;

A pressure switch operating according to the oxygen pressure supplied to the indoor unit installed on the bypass pipe installed inside the outdoor unit;

It is characterized in that it is configured on the bypass pipe between the pressure switch and the air intake port is configured to include an oxygen supply bypass valve that is automatically opened and closed according to the operation of the pressure switch.

The oxygen generation supply device is characterized in that configured to supply 300 to 500 cm 3 of oxygen per minute to a plurality of indoor units, respectively.

Including the control device for controlling the valve and the power in response to the signal of each device, the control device is to operate the oxygen generation supply device when the outdoor unit is operated, the oxygen supply solenoid valve by the indoor unit operation signal when the indoor unit is operated At the same time, the oxygen supply bypass valve installed inside the outdoor unit is closed.When the indoor unit is stopped, the solenoid valve is closed by the stop signal.When the number of indoor unit operation decreases and the oxygen supply pressure rises, oxygen is supplied by the pressure switch. The bypass valve is opened, and when the outdoor unit is stopped, the circuit is configured to stop the operation of the oxygen generation device by the outdoor unit stop signal.

And a manual valve installed on the indoor unit external oxygen supply pipe to manually open and close the injection amount of the oxygen injector, and a manual valve installed on the internal unit internal bypass pipe to manually open and close the oxygen supply to the air inlet. It features.

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

3 is a schematic diagram of an eco-friendly GHP cooling and heating apparatus capable of supplying oxygen according to the present invention, and FIG. 4 is an enlarged view of the structure of an oxygen injector. Gas engine 1, compressor 2 providing compression force by driving gas engine, 4-way valve 4 for switching the flow path of refrigerant, and outdoor unit evaporator for evaporating refrigerant (used as a condenser for cooling) 3) and a zichepi outdoor unit which is supplied with a heat source from an engine radiator 6 for cooling high-temperature engine cooling water generated during operation of the gas engine, and a case surrounding the heat source. It is based on a GHP air conditioning unit consisting of an indoor unit consisting of an indoor unit condenser (5 used as an evaporator for cooling, 5) for condensing refrigerant.

It looks at the specific configuration of the present invention organically combined with the device.

First, when looking at the outdoor unit, the air inlet 13 is formed on the case of the outdoor unit separately from the gas inlet and outlet for the gas engine, which is not shown in the drawing, but is formed in a conventional GHP outdoor unit, thereby receiving fresh air from outside. Configured to be supplied.

The air supplied from the air inlet 13 is compressed through the compressor 10 and then extracts oxygen from the oxygen generator 7.

There are many kinds of oxygen generators, but it is not necessary to use a high-purity oxygen generator, so select them according to economic cost. Such a configuration and kind of the oxygen generating device itself do not limit the present invention.

Oxygen generated in the oxygen generator is supplied through the oxygen supply pipe 8 toward the indoor unit.

The oxygen supplied through the oxygen supply pipe 8 is connected to the oxygen injector 9 which is installed at the front of the indoor air blower (not shown) and discharges the oxygen toward the room.

The structure of the oxygen injector has a pipe shape such that one side is connected to the oxygen supply pipe as shown in FIG. 3A, and the other side has an injection hole shape having nine holes formed therein. The number of holes formed in the injection hole is not limited to the number, and may be used by forming a small or large number as necessary.

A plurality of valves and pipes are installed on the oxygen supply pipe to control the amount of oxygen flowing in the pipe. Looking at this, the oxygen supply solenoid valve 15 is installed on the oxygen supply pipe 8 inside the indoor unit to provide an oxygen injector 9. Open / close control of injection volume of).

In addition, a manual valve 11 is installed on the indoor unit external oxygen supply pipe 8 so as to be opened and closed manually.

And at any point on the oxygen supply pipe (8) is formed a bypass pipe 17 is bypassed toward the outdoor air intake port 13 is connected to the air intake port (13).

In addition, on the bypass pipe 17, the pressure switch 14 installed inside the outdoor unit and operated according to the oxygen pressure supplied to the indoor unit, and installed on the bypass pipe between the pressure switch and the air intake port, An oxygen supply bypass valve 16 for opening and closing the oxygen supply amount is provided.

In addition, a manual valve 18 is provided on the outdoor unit internal bypass pipe to manually open and close the oxygen supply to the air intake port.

And although not shown in the figure includes a control device (not shown) for controlling the valve and the power in response to the signal of each device.

This control device operates the oxygen generation supply device when the outdoor unit is operated, opens the oxygen supply solenoid valve by the indoor unit operation signal when the indoor unit is operated, and simultaneously closes the oxygen supply bypass valve installed in the outdoor unit, and operates the indoor unit. If it stops, close the solenoid valve by the stop signal, and if the number of indoor unit operation decreases and the oxygen supply pressure rises, open the oxygen supply bypass valve by the pressure switch, and operate the oxygen generator supply device by the outdoor unit stop signal when the outdoor unit is stopped. To stop the circuit.

Reference numeral 12 is a fuel gas pipe, 19 is an indoor unit expansion valve, and 20 is an outdoor unit expansion valve.

To describe the operation of the apparatus of the present invention having the above configuration on the basis of the cooling operation (operation in reverse cycle during the heating operation),

When cooling, the refrigerant gas is compressed by the refrigerant gas compressor (2), and the refrigerant gas is condensed while passing through the subcooler of the outdoor unit and the condenser (3, evaporator during heating) of the outdoor unit.

The condensed refrigerant liquid expands on the expansion side of the indoor unit 5 and evaporates in the evaporator 5 which is a heat exchanger of the indoor unit.

At this time, the heat exchanger of the indoor unit serves as the evaporator 5 and the indoor air is cooled by the heat of evaporation (when heating, it serves as a condenser).

At this time, the blower (not shown) built in the indoor unit is rotated to heat the indoor air. In the past, the indoor air was continuously circulated. However, in the present invention, an oxygen supply pipe 8 is installed in the indoor unit suction port from the outdoor unit and the inside of the outdoor unit is installed. 300-500 cm <3> of oxygen is supplied per minute from the oxygen generation | supply supply apparatus 7 installed in this.

When the outdoor unit is operated, the oxygen generation supply device 7 is also operated by the control circuit. When the indoor unit is operated, the oxygen supply solenoid valve 15 is opened by the indoor unit operation signal.

At this time, the manual valve installed in front of the oxygen supply solenoid valve 15 is in an open state, and the oxygen supply bypass valve 16 installed in the outdoor unit is in a closed state.

When the indoor unit stops operating, the oxygen supply solenoid valve 15 is closed by a stop signal. When the number of indoor units is significantly reduced and the oxygen supply pressure is increased, the oxygen supply bypass valve 16 is operated by the pressure switch 14. When the outdoor unit is stopped, the oxygen generator supply device 7 also stops operation by the outdoor unit stop signal and operates safely.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art 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 as described above has the advantage of the air-heated GHP air conditioning system using cheap city gas while supplying a certain amount of oxygen from the oxygen generator built in the outdoor unit to the indoor air concentration of oxygen normally It is an invention that has the advantage of maintaining the normal concentration in the air (about 21%) and improving work efficiency, maintaining a refreshing working environment and a healthy living environment and having a very beneficial effect on health. It is the invention which is expected greatly.

Claims (4)

A gas engine that obtains a driving force by the explosion of the gas supplied from the fuel gas pipe, a compressor that provides a compression force by driving the gas engine, a four-way valve that switches the flow path of the refrigerant, and an outdoor unit evaporator that evaporates the refrigerant. The air is used as a condenser for cooling), and a zippy air outdoor unit which receives a heat source from an engine radiator that cools high-temperature engine coolant generated during operation of a gas engine and surrounds the case; In the GHP air conditioning system consisting of an indoor unit consisting of an indoor condenser (cooling is used as an evaporator) for condensing the refrigerant, A separate air inlet formed in the outdoor unit, a compressor for compressing air supplied through the air inlet, an oxygen generator for extracting oxygen from air supplied from the compressor, An oxygen supply pipe for supplying oxygen generated from the oxygen generator to the indoor unit, an oxygen sprayer connected to one end of the oxygen supply pipe and installed in front of the blower inside the indoor unit to discharge oxygen; An oxygen supply solenoid valve installed on an oxygen supply pipe connected to the inside of the indoor unit to automatically open and close an injection amount of the oxygen injector; A bypass pipe which is bypassed toward the outdoor unit air intake port at any point on the oxygen supply pipe; A pressure switch operating according to the oxygen pressure supplied to the indoor unit installed on the bypass pipe installed inside the outdoor unit; An eco-friendly zippy air conditioner capable of supplying oxygen, comprising: an oxygen supply bypass valve mounted on a bypass pipe between the pressure switch and an air inlet, and automatically controlled to open and close according to the operation of the pressure switch. The method of claim 1, The oxygen generating supply apparatus is an eco-friendly CHIHPI air conditioner capable of supplying oxygen, characterized in that configured to supply 300 to 500 cm 3 of oxygen per minute to each of a plurality of indoor units. The method of claim 1, And a control device for controlling the valve and the power in response to the signal of each device, wherein the control device operates the oxygen generation supply device when the outdoor unit is operated, and operates the oxygen supply solenoid valve by the indoor unit operation signal when the indoor unit is operated. At the same time, the oxygen supply bypass valve installed inside the outdoor unit is closed.When the indoor unit is stopped, the solenoid valve is closed by the stop signal.When the number of indoor unit operation decreases and the oxygen supply pressure rises, oxygen is supplied by the pressure switch. An eco-friendly CHIHPI air conditioner capable of supplying oxygen, comprising a bypass valve and a circuit configured to stop the operation of the oxygen generator supply unit by the outdoor unit stop signal when the outdoor unit is stopped. The method of claim 1, A manual valve installed on the indoor unit external oxygen supply pipe to manually open and close the injection amount of the oxygen injector, and a manual valve installed on the outdoor unit internal bypass pipe to manually open and close the oxygen supply to the air inlet. Eco-friendly CHIHPI air conditioner that can supply oxygen.

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