KR20060085261A - Driving control method of the linear expansion valve of a multi-type airconditioner - Google Patents

Abstract

The present invention relates to a control method of an electronic expansion valve of a multi-type air conditioner, comprising: determining whether the air conditioner is in an emergency control state or a general control state; And performing a t1 period for A minutes, and performing the opening degree control in a t2 period when it is determined that the general control situation is performed. At this time, the period t1 is faster than the period t2. In the case of emergency control, the period for controlling the opening degree of the electronic expansion valve is faster than that in the general control situation, so it is possible to change the opening degree immediately according to the emergency situation.

Air conditioner, solenoid expansion valve, emergency control, general control, opening degree, opening degree change cycle

Description

Controlling method of the linear expansion valve of a multi-type airconditioner

1 is a configuration diagram of a refrigerant cycle of a general multi-type air conditioner.

2 is an overall configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

3 is a flowchart illustrating a control method of an electromagnetic expansion valve of a multi-type air conditioner according to the present invention.

* Description of the symbols for the main parts of the drawings *

140: indoor unit 142: indoor heat exchanger

144: indoor fan 162: electronic expansion valve

180: outdoor unit 182: inverter compressor

184: constant speed compressor 186: oil separator

187: solenoid valve 188: bypass piping

192: four sides 190: accumulator

194: outdoor heat exchanger 196: outdoor fan

The present invention relates to a control method of an air conditioner, and more particularly, to a control method of an electronic expansion valve of a multi-type air conditioner capable of controlling the electromagnetic expansion valve in response to the situation immediately during emergency control.

An air conditioner is a device that is arranged in a room, living room, office, or business store to adjust the temperature, humidity, cleanliness, and airflow of the air to maintain a comfortable indoor environment. It is divided into (seperate type or split type).

The integrated type and the separated type are functionally the same, but the integrated type integrates the functions of cooling and heat dissipation to install a hole in the wall of the house or hang the device on the window, and the separate type installs an indoor unit that performs cooling / heating on the indoor side. In addition, the outdoor unit installed the outdoor unit that performs the heat dissipation and compression function, and then connected the two separate devices by the refrigerant pipe.

In general, one outdoor unit is installed in correspondence with one indoor unit. However, in the case of a building having several rooms, several outdoor units must be purchased to correspond to the indoor unit installed in each room. Since each outdoor unit must have a certain area of space, it is not efficient in terms of space usage.

Therefore, the development of a multi-type air conditioner capable of cooling and heating several rooms at once by connecting several indoor units to one outdoor unit is actively progressing.

1 is a configuration diagram of a refrigerant cycle of a general multi-type air conditioner.

The multi-type air conditioner includes an indoor unit (10) having a plurality of indoor heat exchangers (11a, 11b, 11c) arranged in the room and performing cooling / heating functions, and an outdoor unit (1) arranged outdoors. .

The outdoor unit (1) has an inverter compressor (2) and a constant speed compressor (4), which serve to compress the refrigerant, an outdoor heat exchanger (6), which serves to dissipate the compressed refrigerant, and the outdoor heat exchanger (6). And an outdoor fan 8 disposed at the rear of the pump to promote heat dissipation of the refrigerant.

An electronic expansion valve (LEV) 13a which allows the refrigerant to expand and depressurize before being introduced into the corresponding indoor heat exchangers 11a, 11b, and 11c in the downstream side of the outdoor heat exchanger 6 along the flow direction of the refrigerant during the cooling operation. , 13b and 13c are provided, respectively.

On the other hand, the inverter compressor (2) and the constant speed compressor (4) has a compression capacity corresponding to half (50%) of the maximum cooling / heating load of the indoor unit (1), respectively, the discharge end of each compressor (2) Are in contact with each other (see "A") before the refrigerant enters the outdoor heat exchanger 6.

Subsequently, the operation of the general multi-type air conditioner will be described (hereinafter, referred to as cooling operation).

The high temperature and high pressure gas refrigerant compressed by the compressors 2 and 4 is guided to the outdoor heat exchanger 6 by the action of a four-sided direction, and then condensed while being radiated in the process of passing through the outdoor heat exchanger 6. The liquid crystal is phase-converted to a high-temperature, high-pressure liquid refrigerant, and then converted to a low-temperature low-pressure state while passing through the electromagnetic expansion valves 13a, 13b, and 13c, and then flows into the indoor heat exchangers 11a, 11b, and 11c. At this time, the refrigerant introduced into the indoor heat exchanger is phase-converted to the gaseous refrigerant by the evaporation action, and then is led to the suction stages of the compressors 2 and 3 by the action of the four sides.

At this time, the temperature control of the air conditioning space (ie, indoor) is performed by heat exchange between the refrigerant passing through the indoor heat exchangers 11a, 11b, and 11c and the indoor air. That is, the refrigerant passing through the indoor heat exchanger takes heat away from the air passing through the indoor heat exchanger and evaporates, and the indoor air is re-introduced into the air conditioning space in a state where the temperature is lowered by this evaporation action, so that the temperature of the air conditioning space is As the heat exchange proceeds repeatedly, it becomes lower gradually.

Compared to a general air conditioner using only one indoor unit connected to one outdoor unit, the above-described multi-type air conditioner can cool / heat several rooms at the same time by using one outdoor unit. It is advantageous.

In the multi-type air conditioner, the electromagnetic expansion valves 13a, 13b, and 13c lower the temperature by reducing the refrigerant passing through the outdoor heat exchanger 6, and flow into the respective indoor heat exchangers 11a, 11b, and 11c. It is a device for controlling the amount of refrigerant.

The electromagnetic expansion valves 13a, 13b, and 13c are controlled by opening or closing the pulse (ie, the degree of opening) by increasing or decreasing the pulse applied thereto. Larger amounts of refrigerant can be passed under reduced pressure, and when the applied pulse decreases, the opening degree is also reduced while passing a small amount of refrigerant under reduced pressure. The increase / decrease of the pulse depends on the change in the load applied to each indoor heat exchanger. For example, in the case of the cooling operation, when the load added to the indoor heat exchanger increases due to a lower set temperature or an increase in outdoor temperature, Increasing the applied pulse increases the opening of the valve, thereby increasing the amount of refrigerant passing through it.

Generally, the opening degree of the electromagnetic expansion valve 13a, 13b, 13c is controlled by the control part (not shown) of an air conditioner. The control unit adjusts the opening degree of the electromagnetic expansion valve at regular time intervals, such as every 2 minutes, in order to correspond to the load conditions of the indoor heat exchanger which changes frequently.

However, according to the conventional control method of controlling the opening degree of the electronic expansion valve at regular time intervals, when the load of the indoor heat exchanger is changed or emergency control of the air conditioner such as safety control inrush, the opening degree is immediately responded to the situation change. There is a problem that it does not change. For example, in a cooling operation, when the user lowers the set temperature and the load of the indoor heat exchanger is rapidly increased, the control unit may increase the frequency of the inverter compressor or turn on the constant speed compressor. The amount is increased according to the changed load, and although the amount of refrigerant is increased, the opening degree of the solenoid expansion valve does not become the change cycle (i.e., less than 2 minutes after the change of the previous opening degree), and thus does not change immediately. If a low opening state is maintained, the inlet side of the electromagnetic expansion valve is increased in pressure by a large amount of refrigerant discharged from the compressor, and thus the discharge pressure of the compressor is increased so that overcurrent flows or locks in the compressor. ), Etc.

Therefore, there is a need for a control method of the electronic expansion valve that can respond immediately when the air conditioner enters the emergency control situation.

SUMMARY OF THE INVENTION An object of the present invention is to provide a control method of an electronic expansion valve of a multi-type air conditioner that can control an electronic expansion valve in response to the situation during emergency control.

In order to achieve the above object, the control method of the electronic expansion valve of the multi-type air conditioner according to the present invention includes determining whether the air conditioner is an emergency control situation or a general control situation, And controlling the opening degree of the expansion valve in a period t1 for A minutes, and performing the opening degree control in a period t2 when it is determined that the general control situation is established. In this case, the period t1 is preferably faster than the period t2.

On the other hand, the emergency control situation is a situation where a sudden change in the operating frequency of the compressor, a certain time to enter the timely control after the end of the start control, a certain time after changing the load of the indoor heat exchanger, and after the safety control start by detecting the safety device It is a situation of any time.

Therefore, according to the present invention, it is possible to control the electromagnetic expansion valve immediately in response to the situation during emergency control.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail for the control method of the electromagnetic expansion valve of the multi-type air conditioner according to the present invention.

First, Figure 2 is an overall configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.

An indoor unit 140 having an indoor heat exchanger 142 and an indoor fan 144 is installed in the room, and the indoor unit 140 is connected to an outdoor unit 180 installed outside the room through a pipe. It is.

The outdoor unit 180 is equipped with a multi-type compressor composed of an inverter compressor 182 and a constant speed compressor 184. These compressors are devices for compressing and discharging a refrigerant circulating in an air conditioner at high temperature and high pressure. At the discharge end of the inverter compressor 182, an oil separator 186 for separating the refrigerant and the oil is mounted. The oil separator 186 is a device for separating oil discharged together with the refrigerant from the discharge end of the inverter compressor 182 from the refrigerant and then recycling the oil to the compressor. The oil contained in the oil separator 186 is a solenoid valve 187. ) And the bypass pipe 188 to the input terminal of the inverter compressor 182.

The refrigerant discharged from each discharge end of the compressors 182 and 184 passes through the oil separator 186, and after the oil contained therein is removed, the refrigerant discharged through the oil confluence pipe 189 is combined in four directions. Inlet to (192). The four sides 192 is a device for changing the flow of the refrigerant flowing into or out of the compressors 182 and 184 according to the operation mode when the air conditioner is operated in the cooling or heating operation, in the case of cooling operation The refrigerant flows in and out in the direction indicated by the solid arrows in FIG. 2, and the refrigerant flows in and out in the direction indicated by the dotted arrows in FIG. 2 in the heating operation. Therefore, the refrigerant discharged from the compressors 182 and 184 flows into the outdoor heat exchanger 194 in the case of a cooling operation and into the indoor unit 140 in the case of a heating operation.

One end of the outdoor heat exchanger 194 is connected to the four sides 192, the other end is connected to the electromagnetic expansion valve 162. Therefore, the refrigerant passing through the outdoor heat exchanger 194 and heat exchanged with the outdoor air passes through the electronic expansion valve (LEV) 162. The electronic expansion valve 162 expands the refrigerant under reduced pressure to convert it into a low temperature low pressure refrigerant. In this case, the refrigerant that is phase-converted to low temperature and low pressure while passing therethrough is introduced into the indoor unit 140 after passing through the receiver 164 and the dryer 166.

The low temperature low pressure refrigerant introduced into the indoor unit 140 lowers the temperature of the indoor (ie, air conditioning space) through heat exchange with the indoor air passing through the indoor heat exchanger 142 by the action of the indoor fan 144. .

On the other hand, since the indoor unit 140 is one end is connected to the four sides 192, the refrigerant after the heat exchange through the indoor heat exchanger 142 flows to the four sides 192, the induction of the four sides 192 It is introduced into the accumulator (190) by the. The accumulator 190 is connected to the inlet of the inverter compressor 182 and the constant speed compressor 184, which is the liquid refrigerant is not vaporized into the compressors 182 and 184 while passing through the indoor unit 140 Serves to prevent this from happening.

In the conventional case, the control part adjusted the opening degree of the electromagnetic expansion valve (LEV) at regular time intervals. That is, after a sudden change in the load condition added to the indoor heat exchanger, the air conditioner enters the safety control situation, or the air conditioner once turned on regardless of an emergency condition, for example, a constant time interval, for example, The opening degree of the electromagnetic expansion valve was changed every two minutes so as to correspond to the load condition of the indoor heat exchanger.

In this case, however, as described above, the process of moving from the start control to the on-time control after the start of the operation of the air conditioner, the load condition added to the indoor heat exchanger is changed, or the various types of safety devices detect the air conditioner. In the event of an emergency, such as a rush, other parts of the air conditioner, such as a compressor, respond immediately to this situation, while the electronic expansion valve is designed to change the opening unless a certain period of opening is required. Do not take any action to Therefore, the amount of refrigerant discharged from the compressor increases, but when the opening degree of the electromagnetic expansion valve is maintained unchanged, the discharge pressure of the compressor is increased to cause an overcurrent or compressor lock in the compressor. Problems may occur.

In order to solve this problem, the present invention sets the period for changing the opening degree of the electromagnetic expansion valve to be different depending on the situation of the air conditioner. That is, in the general control situation, the opening degree of the electromagnetic expansion valve is controlled at t2, for example, at two minute intervals as in the prior art, but when the emergency control situation as described above occurs, t1 time, for example, one minute for ten minutes, is set. The opening degree of the electromagnetic expansion valve is controlled at intervals.

According to this, since the period for controlling the opening degree of the electronic expansion valve in the emergency control situation is faster than in the general control situation, it is possible to change the opening degree immediately according to the emergency situation, so that overcurrent flows to the compressor or the compressor lock Problems such as occurrence can be prevented.

3 is a flowchart illustrating a control method of an electromagnetic expansion valve of a multi-type air conditioner according to the present invention.

The control method of the electronic expansion valve of the air conditioner according to the present invention is largely two steps, that is, determining whether the air conditioner is an emergency control situation or a general control situation, and if it is determined that it is an emergency control situation, The opening degree control is performed in a period t1 for A minutes, and when it is determined that the general control situation is performed, the opening degree control is performed in a period t2. At this time, the period t1 is faster than t2.

The emergency control situation includes a predetermined time to enter the control after the start of the start control of the compressor, second, a certain time after changing the load of the indoor heat exchanger, third, a certain time after the start of the safety control by detecting the safety device, all of the compressor This is a state where a sudden change in operating frequency occurs.

Hereinafter, the control method of the electromagnetic expansion valve will be described in detail with reference to the flowchart.

When the user operates the air conditioner by adjusting the key input unit of the air conditioner, the operation of the air conditioner is started while the outdoor fan, the indoor fan, and the compressor are started.

The compressor performs start-up control for a predetermined time after the start of the air conditioner operation. When the compressor is controlled at the same time as the on-signal for operating the air conditioner, the compressor is controlled at the operating frequency to correspond to the load. Since a problem occurs such as damage to the equipment due to sudden load applied to the equipment in the compressor that has not been operated for a long time, usually by performing the start control for a predetermined time before starting the timely control, Since the operation of the compressor to smooth.

After the start control for a predetermined time, the compressor starts the on-time control, at which time the air conditioner enters the emergency control situation because the compressor's operating frequency is rapidly increased. The control unit determines whether the period after which the operation frequency of the compressor rapidly rises after the end of the start control, that is, the elapsed time after the end of the start control is not more than A minutes, and when it is confirmed that the A minutes have not elapsed (step S110), air conditioning It is determined that the device is in an emergency control situation, and the opening degree control of the electromagnetic expansion valve is performed at t1, for example, in a one minute period (step S120).

However, if it is determined in step S110 that A minute has elapsed, it is determined that the emergency situation after the start-up control has ended and proceeds to the next step.

Next, it is determined whether the A minute has not elapsed since the load added to the indoor heat exchanger is changed (step S130). During the operation of the air conditioner, if the user changes the load added to the indoor heat exchanger by lowering or raising the set temperature, lowering or increasing the outdoor temperature, the operating frequency of the compressor also changes accordingly. Accordingly, the air conditioner performs emergency control to reduce or increase the operating frequency of the compressor in response to the changed load for a predetermined time. When the controller determines that A minute has not elapsed since the load added to the indoor heat exchanger is changed, the air conditioner It is determined that the fire is still in an emergency control situation, and the opening degree control of the electromagnetic expansion valve is performed at t1, for example, at a one minute interval (step S120).

However, if it is determined in step S130 that A minute has elapsed, it is determined that the emergency situation due to the load change added to the indoor heat exchanger has ended, and proceeds to the next step.

Finally, the control unit determines whether the A minute has not elapsed since the air conditioner starts the safety control by detecting the safety device (S140). The controller of the air conditioner automatically adjusts the compressor frequency when a certain detection signal is captured by the safety device due to excessive temperature of the compressor, excessive heat sink temperature of the outdoor unit, or excessive outdoor pipe temperature. Enter safety control, such as lowering or turning off the compressor. Therefore, the operating frequency of the compressor changes rapidly for a predetermined time after the safety control is started, and the controller determines whether A minute has elapsed since the air conditioner started the safety control as described above, and if A minute has not elapsed, It is determined that the conditioner is still in an emergency control situation, and the opening degree control of the electromagnetic expansion valve is performed at t1, for example, at a period of 1 minute (step S120).

However, if it is determined in step S140 that A minute has elapsed, the controller determines that the current air conditioner is in a general control situation, and performs opening control of the electronic expansion valve at t2, for example, in a period of 2 minutes (step S150).

According to the control method of the electromagnetic expansion valve of the multi-type air conditioner according to the present invention, after classifying the state of the air conditioner into an emergency control situation and a general control situation, if it is determined that the emergency control situation is to control the opening degree of the electromagnetic expansion valve. If it is determined that the control is performed at a time period t1 and the general control situation is performed at a time period t2, the opening degree of the electromagnetic expansion valve can be changed more quickly than before.

Therefore, in case of emergency control, the period for controlling the opening degree of the electronic expansion valve is faster than in general control situation, so it is possible to change the opening degree immediately according to the emergency situation, and overcurrent flows to the compressor or the compressor lock occurs. Problems such as

Claims (4)

Determining whether the air conditioner is an emergency control situation or a general control situation; And If it is determined that the emergency control situation, the opening degree control of the electronic expansion valve for a minute t1 period, if it is determined that the general control situation, the opening degree control of the multi-type air conditioner comprising the step of performing the t2 cycle How to control the valve. The method of claim 1, And the t1 cycle is faster than the t2 cycle. The method of claim 1, The emergency control situation is a control method of the electronic expansion valve of the multi-type air conditioner, characterized in that a sudden change in the operating frequency of the compressor. The method of claim 3, wherein The emergency control situation is any one of a predetermined time to enter the timely control after the end of the start control, a certain time after changing the load of the indoor heat exchanger, and a predetermined time after the start of the safety control by detecting the safety device. Control method of solenoid expansion valve

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