KR100697067B1 - Heating operation control method for air-conditioner - Google Patents

Abstract

In the heating operation control method of the air conditioner according to the present invention, when a strong (Y2) signal is received from the thermostat at the initial start-up, all the constant speed compressors having different capacities are operated, and when the weak (Y1) signal is received, the capacity is reduced. An initial operation step of operating at least one constant speed compressor of the plurality of other constant speed compressors; When the signal of the thermostat is changed from the strong (Y2) signal to the weak (Y1) signal, the operation of the relatively small constant speed compressor is stopped, and when the strong (Y2) signal is changed from the weak (Y1) signal, the constant speed compressor is operated. Driving switching step; If the signal is not input from the thermostat, it is configured to include a stop operation step for stopping all the constant speed compressor, it is possible to improve the load responsiveness by three-stage operation according to the operating conditions, accordingly energy efficiency and comfort It is possible to improve the performance and to reduce the cost of the product than when using a variable displacement compressor.

Thermostat, 2 Stage, Constant Speed Compressor, Variable Compressor, Four-way Valve, Outdoor Fan

Description

Heating operation control method for air conditioner {Heating operation control method for air-conditioner}             

1 is a configuration diagram showing a heat pump type air conditioner,

Figure 2 is a perspective view of a unitary air conditioner using a heat pump type air conditioner,

3 is a configuration diagram showing a heat pump type air conditioner according to the present invention;

4 is a flowchart illustrating a heating operation control method of a heat pump type air conditioner according to the present invention.

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

50: outdoor unit 51: small capacity constant speed compressor

52: large capacity constant speed compressor 53: four-way valve

55: outdoor heat exchanger 56: outdoor fan

57 accumulator 58 constant pressure valve

59: check valve 60: indoor unit

61: indoor heat exchanger 62: indoor fan

63: expansion device 70: two-stage thermostat

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner using a heat pump type refrigeration cycle, and more particularly, to a heating operation control method of an air conditioner that enables three-stage operation using two compressors having different capacities.

In general, a heat pump type air conditioner is a type of air conditioner capable of simultaneously cooling and heating operation. The heat pump type air conditioner is provided with an evaporator and a condenser, and can be used as a cooling device.

Such a heat pump type air conditioner includes a compressor 11 for compressing and circulating a refrigerant as shown in FIG. 1, a four-way valve 13 for switching a flow of refrigerant in a forward or reverse direction, and heating with a condenser during cooling. An outdoor heat exchanger 15 used as an evaporator, an indoor heat exchanger 21 used as an evaporator for cooling and a condenser when heated, and an outdoor heat exchanger 15 as opposed to the outdoor heat exchanger 15. ) And an expansion valve (23) installed between the indoor heat exchanger (21) and a refrigerant gas of low temperature and low pressure.

Here, the four-way valve 13 is switched so that the refrigerant discharged from the compressor 11 can be circulated to the outdoor heat exchanger 15 when cooling, and circulated to the indoor heat exchanger 21 when heating. It will play a role.

FIG. 2 is a schematic perspective view of a unitary air conditioner using the heat pump type air conditioner as described above, wherein the unitary air conditioner receives an operation or stop signal from a thermostat 30 installed in an indoor unit. 20 and the outdoor unit 10.

Most of these unit air conditioners use products with one-stage thermostat that directs on / off operation by simply sending one drive (Y) signal. However, recently, energy saving and more comfortable heating and cooling are required. Products with two-stage thermostats with variable capacity are also used.

The unitary air conditioner to which the two-stage thermostat is applied is used a variable two-stage variable compressor or a plurality of constant speed compressors, and performs cooling or heating operation while changing the compressor capacity according to the signal of the thermostat.

However, when using a variable displacement compressor to apply a two-stage thermostat as described above, since the price of the variable displacement compressor is expensive, there is a problem that the price of the entire air conditioner is expensive, especially when operating at the initial maximum variable capacity, There is also a problem that the start is not made according to the sudden rise of the current value, or affect the electrical use devices such as other home appliances.

In addition, when two identical constant speed compressors are used, there is a problem in that the heating and cooling operation in more various modes cannot be performed.

The present invention has been made to solve the above problems, by using a plurality of constant speed compressors of different capacities to reduce the cost of the product and to enable the heating operation of various stages to reduce the power consumption and improve the comfort It is an object to provide a heating operation control method of an air conditioner.

In the heating operation control method of the air conditioner according to the present invention for realizing the above-mentioned problems, if a strong (Y2) signal is received from the thermostat at the time of initial start-up, all the constant speed compressors having different capacities are operated, An initial operation step of operating at least one constant speed compressor of the plurality of constant speed compressors having different capacities when a signal is received; When the signal of the thermostat is changed from the strong (Y2) signal to the weak (Y1) signal, the operation of the relatively small constant speed compressor is stopped, and when the strong (Y2) signal is changed from the weak (Y1) signal, the constant speed compressor is operated. Driving switching step; If a signal is not input from the thermostat, it is possible to include a stop operation step of stopping all the constant speed compressors.

When the strong Y2 signal is received in the initial operation step, the operation sequence during the constant speed compressor startup starts the constant speed compressor having a relatively large capacity first, and then starts the constant speed compressor having a small capacity after a predetermined time.

When the weak Y1 signal is received in the initial operation stage, the constant speed compressor having a larger capacity among the plurality of constant speed compressors is started.

When a signal (Y1) is received in the operation switching step, after a predetermined time has elapsed after all the constant speed compressor operation stops, a relatively constant capacity constant compressor of a plurality of constant speed compressors is operated, and the operation switching step is performed. In addition, if the room temperature is above a certain temperature and the Y1 signal is received after the ON / OFF operation of the Y1 operation is repeated a predetermined number of times or more, the operation includes operating a constant speed compressor having a relatively small capacity.

Here, in the operation switching step, when the signal (Y1) is received except for the operation process, the constant speed compressor having a relatively large capacity is operated.

All of the constant speed compressors are controlled so as not to be restarted after a certain time elapses after the stop.

When the strong (Y2) signal is received, the outdoor fan is driven by a strong wind among strong winds / mid wind / weak wind, and when the weak (Y1) signal is received, the outdoor fan is driven by the strong wind / middle wind. In the mid-wind of the wind and the weak (Y1) signal is received when the relatively small capacity constant speed compressor is driven, the outdoor fan is operated in the strong wind of the strong wind / heavy wind / weak wind.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a configuration diagram showing a heat pump type air conditioner to which the heating operation control method according to the present invention is applied.

3 shows an operating state during heating operation, wherein a small capacity constant speed compressor 51 and a large capacity constant speed compressor 52 are provided on the outdoor unit 50 side, and shafts are provided on the suction side of the two constant speed compressors 51 and 52. The pressurizer 57 is provided, and the check valve 59 is provided in the discharge side of each constant speed compressor 51 and 52 so that refrigerant may not flow back. In addition, a constant pressure valve 58 is provided to connect the suction side and the discharge side of each of the constant speed compressors 51 and 52 to function as a flat pressure function when the compressor is stopped.

In addition, the four-way valve 53 for switching the heating and cooling operation is provided, the outdoor heat exchanger 55 that serves as the evaporator during the heating operation and the outdoor fan 56 for blowing operation is provided.

The indoor unit 60 is provided with an indoor heat exchanger 61 and an indoor fan 62 for blowing air, which are connected to the four-way valve 53, the outdoor heat exchanger 55, and the refrigerant line to serve as a condenser during heating. In addition, an expansion device 63 is provided in the refrigerant line connected to the indoor heat exchanger 61 and the outdoor heat exchanger 55.

In addition, a two-stage thermostat 70 is provided indoors to operate the heat pump type air conditioner as described above. This two stage thermostat 70 is configured to generate off / weak (Y1) / strong (Y2) actuation signals. That is, the two-stage thermostat 70 is configured to allow variable operation, and according to the indoor load, a strong (Y2) or weak (Y1) signal is transmitted to the fan 62 of the indoor unit 60 and the compressor of the outdoor unit 50. The signal is transmitted to the 51 and 52.

In the heat pump type air conditioner configured as described above, at least one of the two constant speed compressors 51 and 52 having different capacities is operated at the time of heating operation. The four-way valve 53, the indoor heat exchanger 61, the expansion device 63, the outdoor heat exchanger 55, the four-way valve 53, the accumulator 57, and then back to the constant speed compressor 51, 52. While heating works.

Here, the heating operation control method of the air conditioner according to the present invention will be described with reference to FIG.

4 is a flowchart illustrating a heating operation control method of a heat pump type air conditioner according to the present invention.

For reference, in the present embodiment, 60% operation when only the large capacity constant speed compressor 52 is operated, 40% operation when only the small capacity constant speed compressor 51 is operated, the large capacity constant speed compressor 52 and the small capacity constant speed When all the compressors 51 are operated, the description will be made by dividing into 100% operation. However, this is only for convenience in the description of the present embodiment, and is not limited to this, a plurality of constant speed compressors 51, 52 can be applied in various capacities under different capacities.

In the heating operation control method of the air conditioner according to the present invention, the operation of the compressors 51 and 52 having different capacities and the operation of the indoor fan 62 are operated according to the signals of the two-stage thermostat 70.

After the heating operation is started, when a strong (Y2) signal is received from the thermostat 70, 100% of the operation of both the constant speed compressors 51 and 52 is started, and at the same time the outdoor fan 56 receives the strong wind / It is driven by strong wind during the mid / low wind.

At this time, when the two constant speed compressors 51 and 52 are started, the operation sequence starts the large capacity constant speed compressor 52 first, and then starts the small capacity constant speed compressor 51 about 0.2 seconds after a predetermined time. As a result of the rapid current rise at the initial startup, damages such as failure of starting of the compressors 51 and 52 or generation of noise to other electric appliances can be reduced.

When the weak Y1 signal is received from the thermostat 70 in the strong Y2 operation state, the small capacity constant speed compressor 51 stops in 100% operation while only the large capacity constant speed compressor 52 is operated. At the same time, the outdoor fan 56 is changed to operation by the stroke.

When the strong Y2 signal is received from the thermostat 70 again in the weak Y1 driving state, the small capacity constant speed compressor 51 is started again to switch to 100% operation and the outdoor fan 56 also has a strong wind. To drive.

At this time, in order to protect the compressor 51, it is preferable to set it so as not to restart within a predetermined time after stopping, that is, 3 minutes, while the two compressors 51 and 52 are operated 100% as described above. When a weak (Y1) command is received and the small capacity constant speed compressor 51 is turned off and 60% operation state in which only the large capacity constant speed compressor 52 is operated, the strong (Y2) signal is again received two or more times for 10 consecutive seconds. After the small capacity constant speed compressor 51 stops, the restart time of 3 minutes is determined, and the small capacity constant speed compressor 51 is started at this point and restarts and is set to switch to 100% operation.

On the other hand, when the Y1 signal is received from the thermostat 70 after the heating operation is started, one of the small capacity constant speed compressor 51 and the large capacity constant speed compressor 52 is operated.

At this time, after one hour or more elapses after the heating operation is stopped, or when the high (Y2) signal is changed to the weak (Y1) signal, the large capacity constant speed compressor 52 operates only 60%. Of course, at this time the outdoor fan 56 is driven at a medium speed.

Subsequently, when a strong Y2 signal is received from the thermostat 70, the small capacity constant speed compressor 51 is started and switched to 100% operation, and the outdoor fan 56 is changed to a strong wind.

However, while the outdoor temperature is about A ° C. or more in the about (Y1) operating state, the on / off of the about (Y1) operation is repeated B or more times within a predetermined time, and the about (Y1) signal from the thermostat 70 continues. Upon reception, the large capacity constant speed compressor 52 is stopped and the small capacity constant speed compressor 51 is operated, and the operation is switched to 40% operation, at which time the outdoor fan 56 is changed to operation with light wind.

When the strong (Y2) signal is received from the thermostat 70 again in the 40% weak (Y1) driving state, the large capacity constant speed compressor 52 is started again to switch to 100% operation and the outdoor fan 56 at the same time. The road is driven by strong winds.

In this case, in order to protect the large capacity constant speed compressor 52, it is preferable to set such that the engine is not restarted within a predetermined time after stopping, that is, within 3 minutes.

On the other hand, in the above described the operation method of the compressor when a strong (Y2) signal or a weak (Y1) signal is received from the thermostat 70, but when the signal is not input from the thermostat (70) The constant speed compressors 51 and 52 are all stopped.

The heating operation control method of the air conditioner according to the present invention configured and operated as described above is provided with a plurality of compressors having different capacities, thereby enabling 100%, 60%, 40% operation according to the operating conditions, Stage operation is possible, so that load responsiveness can be improved, and accordingly, there is an advantage of improving energy efficiency and comfort.

In addition, since the present invention is configured to enable three stage operation by using two relatively low speed constant speed compressors, it is possible to reduce the cost of the product than when using a variable capacity compressor to implement two stages. At the same time, since the current does not increase rapidly, there is an advantage that a failure to start due to a rapid current increase or a phenomenon affecting other electronic products can be prevented.

Claims (10)

delete When a strong (Y2) signal is received at the initial start-up from a thermostat that is disposed indoors and generates an operating signal of strong (Y2) and weak (Y1), all the constant speed compressors having different capacities are operated. An initial operation step of operating at least one constant speed compressor among a plurality of constant speed compressors having different capacities when a signal is received; When the signal of the thermostat is changed from the strong (Y2) signal to the weak (Y1) signal, the operation of the relatively small constant speed compressor is stopped, and when the strong (Y2) signal is changed from the weak (Y1) signal, the constant speed compressor is operated. Driving switching step; A stop operation step of stopping all of the constant speed compressors when a signal is not input from the thermostat; When the strong (Y2) signal is received in the initial operation step, the operation sequence when the constant speed compressor is started, first starts the constant speed compressor having a relatively large capacity, and then starts the constant speed compressor having a small capacity after a predetermined time. How to control the heating operation of the air conditioner. When a strong (Y2) signal is received at the initial start-up from a thermostat that is disposed indoors and generates an operating signal of strong (Y2) and weak (Y1), all the constant speed compressors having different capacities are operated. An initial operation step of operating at least one constant speed compressor among a plurality of constant speed compressors having different capacities when a signal is received; When the signal of the thermostat is changed from the strong (Y2) signal to the weak (Y1) signal, the operation of the relatively small constant speed compressor is stopped, and when the strong (Y2) signal is changed from the weak (Y1) signal, the constant speed compressor is operated. Driving switching step; A stop operation step of stopping all of the constant speed compressors when a signal is not input from the thermostat; And a relatively large capacity constant speed compressor of a plurality of constant speed compressors is started when a weak (Y1) signal is received in the initial operation step. delete The method according to claim 2 or 3, In the operation switching step, when the room temperature is above a certain temperature and the signal (Y1) is received after the ON / OFF operation of the operation (Y1) is repeated a predetermined number of times or more, a process of operating a constant speed compressor having a smaller capacity ( Heating operation control method for an air conditioner, comprising a first operation process). The method of claim 5, The control operation of the heating operation of the air conditioner, characterized in that for operating the relatively constant speed compressor having a large capacity when a signal (Y1) is received except for the first operation process in the operation switching step. The method according to claim 2 or 3, And all the constant speed compressors are controlled so as not to be restarted before a predetermined time elapses after the stop. The method according to claim 2 or 3, When the strong (Y2) signal is received, the outdoor fan is a heating operation control method of the air conditioner, characterized in that for driving the strong wind from the strong wind / middle wind / weak wind. The method according to claim 2 or 3, When the weak (Y1) signal is received when the constant speed compressor of a relatively large capacity is driven, the outdoor fan is a heating operation control method of the air conditioner, characterized in that the operation in the middle wind of the strong wind / heavy wind / weak wind. The method according to claim 2 or 3, When the weak (Y1) signal is received and the constant speed compressor of a relatively small capacity is driven, the outdoor fan is operated in a strong wind of the strong wind / medium wind / weak wind, characterized in that the heating operation control method of the air conditioner.

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