KR200397058Y1 - Wireless control system of air conditioner for constant temperature and humidity - Google Patents

Abstract

The present invention is to obtain a wireless control system of a constant temperature and humidity air conditioner configured to transmit and receive a control signal wirelessly in the indoor and outdoor periods with a constant temperature and humidity,

In the air conditioner including an outdoor unit and a constant temperature and humidity indoor unit,

An outdoor unit comprising an outdoor control unit for controlling a compressor and a PWM valve operation signal, and an outdoor communication circuit unit for wirelessly transmitting and receiving data of the outdoor control unit;

An indoor control unit connected to a humidity / temperature detection unit and a humidity / temperature setting unit, and configured to communicate with the outdoor communication circuit unit by wirelessly transmitting and receiving data of the indoor control unit, wherein the indoor control unit transmits and receives frequencies of the outdoor communication circuit unit and the indoor communication circuit unit. It is characterized by the configuration of a constant temperature and humidity indoor unit composed of an indoor communication circuit unit that can be set arbitrarily.

Description

Wireless control system of constant temperature and humidity air conditioner {Wireless control system of air conditioner for constant temperature and humidity}

The present invention relates to a wireless control system of a constant temperature and humidity air conditioner, and more particularly, to a wireless control system of a constant temperature and humidity air conditioner configured to transmit and receive a control signal wirelessly in a constant temperature and humidity room and an outdoor period.

In general, the ideal taste of the air conditioner can be said to maintain a comfortable air condition by controlling not only the temperature of the indoor air but also the humidity. In winter, the humidity of the indoor air is generally low, so it is necessary to humidify it. In the case of the conventional air conditioner can only be installed in the heating and cooling, the relative humidity is lowered due to the increase in the room temperature during heating could not be a pleasant air conditioning.

Pollution in the room due to pollution of other external air due to environmental pollution is also increasing, resulting in respiratory diseases, etc., resulting in diversification of products.

To control indoor humidity, a humidifier must be installed separately at home or in a place that requires precision, and additional power is required to operate it. There was a lot of disuse such as not see.

The simple humidifier that operates as a part of heat emitted from the heat exchanger of the air conditioner during heating, which is known for this problem, is installed in the airken so that the humidification can be performed simultaneously with the heating with almost no extra power consumption. There is a known technique that achieves optimal air conditioning at low cost.

As described above, the function is increased to be a constant temperature and humidity in addition to the humidification function, so as to be a constant temperature and humidity of the room.

As described above, air conditioning is realized by controlling a state amount such as a room temperature and a humidity of a residential building or an office building using a refrigeration cycle.

1 is a block diagram of a general air conditioner, and FIG. 2 is a block diagram showing in detail a terminal portion connecting an outdoor unit and an indoor unit of a conventional air conditioner.

As shown, the air conditioner 1 of the present invention includes a compressor 2, a condenser 3, an electric expansion valve 4, and an evaporator 5 which are sequentially connected by a refrigerant pipe to form a closed circuit. do.

Among the refrigerant pipes, the refrigerant pipe connecting the discharge side of the compressor 2 and the inflow side of the electric expansion valve 4 is a high pressure tube 6 for guiding the flow of the high pressure refrigerant discharged from the compressor 2, and the electric expansion valve The refrigerant pipe connecting the outlet side of (4) and the suction side of the compressor 2 is a low pressure tube 7 which guides the flow of the low pressure refrigerant expanded by the electric expansion valve 4.

The condenser 3 is installed in the middle of the high pressure tube 6, and the evaporator 5 is installed in the middle of the low pressure tube 7. When the compressor 2 operates, the refrigerant flows in the direction of the solid arrow.

Meanwhile, the air conditioner 1 of the present invention includes an outdoor unit 8 and an indoor unit 9. The outdoor unit 8 includes the compressor 2 and the condenser 3 described above, and the accumulator 10 installed in the low pressure tube 7 upstream of the compressor 2 and the high pressure tube 6 downstream of the condenser 3. It includes a receiver 11 installed in.

The accumulator 10 collects and vaporizes the liquid refrigerant which failed to evaporate in the evaporator 5 so as to flow into the compressor 2. That is, when the evaporator 5 does not completely evaporate, the refrigerant entering the accumulator 10 is a mixture of liquid and gaseous state, and the accumulator 10 vaporizes the liquid refrigerant, so that only the gaseous refrigerant (gas refrigerant) is compressed. Inhalation should be done.

To this end, the refrigerant pipe inlet end and the refrigerant pipe outlet end of the accumulator 10 are preferably located above the accumulator 10.

Similarly, when complete condensation is not achieved in the condenser 3, the refrigerant entering the receiver 11 is a mixture of a liquid phase and a gaseous phase. The receiver 11 is configured to separate the liquid refrigerant and the gaseous refrigerant so that only the liquid refrigerant flows out. For this purpose, the refrigerant pipe inlet and outlet ends of the receiver 11 extend to the lower side of the receiver 11.

In order to bypass the gaseous refrigerant inside the receiver 11, a vent bypass pipe 12 is provided which connects the receiver 11 and the low pressure pipe 7 upstream of the accumulator 10. The inlet end of the vent bypass tube 12 is provided above the receiver 11 to allow only the gaseous refrigerant to flow therein, and a vent valve 13 is provided to adjust the flow rate of the bypassed gas refrigerant. 1 shows the flow direction of the gas refrigerant flowing through the vent bypass pipe 12.

The high pressure tube from the receiver 11 is configured to pass through the accumulator 10. This is for vaporizing a low temperature liquid refrigerant in the accumulator 10 by using a refrigerant of a relatively high temperature passing through the high pressure tube.

In order to effectively perform vaporization in the accumulator 10, the low pressure refrigerant tube inside the accumulator 10 is formed in a U shape, and the high pressure refrigerant tube passing through the accumulator 10 is arranged to pass through the inside of the U type low pressure refrigerant tube. do.

In addition, the outdoor unit 8 includes a hot gas bypass pipe 14 and a receiver 11 which connect the high pressure pipe between the compressor 2 and the condenser 3 and the accumulator 10 and the accumulator 10. And a liquid bypass pipe 15 connecting upstream. A hot gas valve 16 is installed in the midway of the hot gas bypass pipe 14 to adjust the flow rate of the hot gas bypassed, and a liquid valve 17 is installed in the midway of the liquid bypass pipe 15 to bypass. Adjust the flow rate of the liquid refrigerant.

Therefore, when the hot gas valve 16 is opened, a part of the hot gas from the compressor 2 flows along the hot gas bypass pipe 14 in the direction of the dashed arrow, and when the liquid valve 17 is opened, the receiver 11 A part of the liquid refrigerant which flows out flows along the liquid bypass pipe 15 in the direction of a dashed-dotted arrow. The indoor unit 9 includes an electric expansion valve 4 and an evaporator 5.

However, as shown in FIG. 2, the conventional air conditioner has a problem in that the installation is complicated and takes a long time since the cable is connected to each cable such as signal lines, power lines, and pipes in the indoor and outdoor periods.

In addition, by installing a conventional thermo-hygrostat to eliminate bacterial pathogens in the water supplied to the room, and to control the temperature of the room by the built-in electronic electrode humidifier to suppress the breeding.

As above, the thermo-hygrostat is installed inside the factory or the place where the equipment is operated, and the outdoor unit should be installed at a place where it is hard to see from the outside roof or the external environment. There was also a problem that must be installed, such as plumbing.

In addition, the piping can be used as it is when replacing the thermo-hygrostat and the external outdoor unit in the existing system, but the signal line has to be laid along the pipe again, so it is difficult to install and re-wire while damaging the designed state of the room. There was this.

Therefore, the present invention has been devised to solve the above-mentioned conventional problems, and can replace the thermo-hygrostat and the outdoor unit without damaging the building or the facility during the replacement work, and the thermo-hygrostat air to wirelessly control the control of the outdoor unit. It is to provide a radio control system of the harmonic.

Another object of the present invention is to provide a wireless control system of a constant temperature and humidity air conditioner that is configured to transmit and receive a control signal wirelessly in a constant temperature and humidity room and an outdoor period, thereby simplifying installation and matching signal lines of each manufacturer. The purpose is.

Another object of the present invention is to provide a wireless control system of a constant temperature and humidity air conditioner with a repeater attached to the pipe to control the frequency interference and precisely to perform the control of the outdoor unit accurately.

Another object of the present invention is to control the humidity of the steam vaporized by heating and evaporated by a heater in order to control the indoor humidity, or a constant temperature and humidity controller that controls the humidity by atomization using an ultrasonic vibrator. It is to provide a wireless control system of the humidity air conditioner.

In the air conditioner including a wireless control system, an outdoor unit and a constant temperature and humidity chamber of the constant temperature and humidity air conditioner according to the present invention for achieving the above object,

An outdoor unit comprising an outdoor control unit for controlling a compressor and a PWM valve operation signal, and an outdoor communication circuit unit for wirelessly transmitting and receiving data of the outdoor control unit; An indoor control unit connected to a humidity / temperature detection unit and a humidity / temperature setting unit, and configured to communicate with the outdoor communication circuit unit by wirelessly transmitting and receiving data of the indoor control unit, wherein the indoor control unit transmits and receives frequencies of the outdoor communication circuit unit and the indoor communication circuit unit. It is characterized by including a constant temperature and humidity indoor unit consisting of an indoor communication circuit unit that can be set arbitrarily.

In addition, the indoor control unit may be able to arbitrarily set the transmission and reception frequency of the outdoor communication circuit unit and the indoor communication circuit unit.

In addition, the outdoor communication circuit unit and the indoor communication circuit unit, it is more preferable to transmit and receive data by the Bluetooth short-range communication method.

As described above, a repeater using a pipe may be installed in an environment in which communication distance is increased or precision control is difficult due to interference of radio waves.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of a wireless control system of the constant temperature and humidity air conditioner of the present invention.

As shown in FIGS. 3 to 5, the present invention includes an outdoor unit 8 and a constant temperature and humidity indoor unit 9 which are wirelessly connected to each other.

The outdoor unit 8 includes an outdoor controller 27 connected to the compressor 2 and the PWM valve 26 to enable signal transmission.

The outdoor controller 27 is connected to the outdoor communication circuit 28 to transmit and receive data.

The constant temperature and humidity indoor unit 9 which maintains indoor temperature and humidity includes an indoor control unit 29, and a temperature detecting unit 30 and a temperature setting unit 31 are connected to an input port of the indoor control unit 29. The expansion valve 4 is connected to the output port.

The humidity / temperature detection unit 30 is a humidity / temperature sensor that senses humidity / temperature of a room that is a harmonic space, and a cooling demand capability is calculated based on the humidity / temperature sensed by the humidity / temperature detection unit 30.

The constant temperature and humidity indoor unit 9 includes an indoor communication circuit 32 that is capable of transmitting and receiving data with the indoor control unit 29.

The constant temperature and humidity unit 33 supplies humidity in accordance with the set humidity, but a heating type and an ultrasonic type are configured, and a heating method and an antimicrobial material are formed on the inner surface to prevent contamination of water and contamination of air by humidity.

The outdoor communication circuit unit 28 and the indoor communication circuit unit 32 are provided to enable data transmission and reception wirelessly. For this purpose, it is preferable that a near field communication method such as an infrared communication method or Bluetooth is applied.

As shown in FIG. 4, the relay antenna or the repeater is configured in the refrigerant circulation pipe connected to the indoor unit with the pipe as close to the outdoor unit as possible.

By configuring as described above, the distance of the radio transmission and reception was minimized by minimizing no signal or minimizing external interference.

In the configuration shown in FIG. 5, the central antennas 34 and 34-1 are configured to transmit / receive the constant temperature / humidity chamber connected to the indoor unit and the communication circuit unit of the outdoor unit by the pipe closest to the outdoor unit. have.

In addition, the indoor control unit 29 allows the outdoor communication circuit unit 28 and the indoor communication circuit unit 32 to arbitrarily set the transmission and reception frequencies.

The indoor control unit 29 receives a signal from the wet / temperature detecting unit 30 and the wet / temperature setting unit 31, and the cooling demand capability of the constant temperature / humidity indoor unit 9 is based on the difference between the indoor wet / temperature and the set wet / temperature. To calculate.

In addition, the indoor control unit 29 has information on its cooling capacity, and calculates the cooling requirement based on the difference between the indoor humidity / temperature and the set humidity / temperature and its own cooling capacity when calculating the cooling requirement. The cooling demand can be calculated based on the cooling capacity of the indoor unit.

When described in more detail the operation of the wireless control system of the constant temperature and humidity air conditioner of the present invention configured as described above.

As described above, the air conditioner 1 of the present invention includes a compressor 2, a condenser 3, an electric expansion valve 4, and an evaporator 5 which are sequentially connected by a refrigerant pipe to form a closed circuit. do.

In this configuration, when the user operates the constant temperature and humidity air conditioner 1, the indoor control unit 29 transmits the outdoor unit operation command as a wireless control signal through the indoor communication circuit 32.

Therefore, the outdoor communication circuit unit 28 wirelessly receives the outdoor unit operation command transmitted from the indoor communication circuit unit 32 and transmits it to the outdoor control unit 27.

Accordingly, the outdoor controller 27 drives the compressor 2 to circulate the refrigerant.

Meanwhile, the outdoor communication circuit unit 28 transmits the operation state of the outdoor unit to the indoor communication circuit unit 32 again, and the indoor communication circuit unit 32 transmits it to the indoor control unit 29 to confirm the operation state of the outdoor unit. .

In this case, the outdoor communication circuit unit 28 and the indoor communication circuit unit 32 are installed to enable data transmission and reception wirelessly, and in particular, a short range communication method such as an infrared communication method or Bluetooth is applied.

In addition, the indoor control unit 29 allows the transmission and reception frequencies of the outdoor communication circuit unit 28 and the indoor communication circuit unit 32 to be arbitrarily set, so that cross-control signals are not generated when multiple products are installed.

Therefore, the present invention is configured to transmit and receive the control signal wirelessly between the constant temperature and humidity indoor unit (8) and the outdoor unit (9) to simplify the installation and to match the signal lines of each manufacturer.

In the above described and illustrated with respect to the preferred embodiment of the present invention, the present invention is not limited to the above-described embodiment, it is common in the field to which the present invention belongs without departing from the spirit of the present invention claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

As described above, according to the wireless control system of the constant temperature and humidity air conditioner according to the present invention, the control signal is wirelessly transmitted and received between the constant temperature and humidity indoor unit and the outdoor period, thereby simplifying the installation and matching the signal lines of each manufacturer. It is a very useful design for the thermo-hygrostat industry because it has various effects.

1 is a block diagram of a general air conditioner.

Figure 2 is a block diagram showing in detail the terminal portion connecting the outdoor unit and the indoor unit of the conventional air conditioner.

Figure 3 is a block diagram showing a wireless control system of a constant temperature and humidity air conditioner according to the present invention.

Figure 4 is a block diagram of another embodiment of a radio control system of the constant temperature and humidity air conditioner of the present invention.

Figure 5 is a block diagram of another embodiment of a wireless control system of the constant temperature and humidity air conditioner of the present invention.

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

2: compressor 5: evaporator

8: Outdoor unit 9: Constant temperature and humidity room

26: PWM valve 27: outdoor control unit

28: outdoor communication circuit unit 29: indoor control unit

30: temperature detection unit 32: indoor communication circuit unit

33: constant temperature and humidity 34, 34-1: relay antenna

Claims (2)

In the air conditioner including an outdoor unit and a constant temperature and humidity indoor unit, An outdoor unit comprising an outdoor control unit for controlling a compressor and a PWM valve operation signal, and an outdoor communication circuit unit for wirelessly transmitting and receiving data of the outdoor control unit; An indoor control unit connected to a humidity / temperature detection unit and a humidity / temperature setting unit, and configured to communicate with the outdoor communication circuit unit by wirelessly transmitting and receiving data of the indoor control unit, wherein the indoor control unit transmits and receives frequencies of the outdoor communication circuit unit and the indoor communication circuit unit. Wireless control system of a constant temperature and humidity air conditioner, characterized in that it comprises a constant temperature and humidity indoor unit composed of an indoor communication circuit unit to be arbitrarily set. The method of claim 1, Constant temperature and humidity air conditioner comprising a relay antenna or a repeater on one side or both sides of the pipe connected to the thermo-hygrostat indoor unit and the outdoor unit to prevent noise from the indoor communication circuit unit and the outdoor communication circuit unit and interference from the surrounding environment Wireless control system.