KR100584283B1 - The method for control to pressure equilibrium of air-conditioner - Google Patents

Abstract

The present invention relates to a pressure control method of an air conditioner, which is an air conditioner composed of at least one compressor, at least one condenser, at least one expansion device, and at least one evaporator, wherein the refrigeration is stopped when the air conditioner is stopped. By controlling the solenoid valve installed by connecting the discharge side and the suction side of the compressor of the system, or the four-way valve that is switched according to the cooling / heating operation of the air conditioner, the internal pressure of the compressor is quickly settled, There is an excellent effect that a quick restart can be achieved.

In addition, by controlling the solenoid valve or the four-way valve as described above, the internal pressure of the compressor to achieve a flat pressure quickly, when the compressor is started in a state in which the conventional pressure is not achieved, the overcurrent flows due to the internal pressure difference inside the compressor. There is also an excellent effect to prevent the problem that the compressor is broken due to overload.

Air Conditioner, Compressor, Flat Pressure, Solenade Valve, Four Way Valve

Description

The method for control to pressure equilibrium of air-conditioner}

1 is a schematic refrigeration system diagram of a typical air conditioner.

Figure 2 is a state in which the high pressure side and the low pressure side in the compressor is a flat pressure through the expansion valve which is a component of the conventional air conditioner.

3 is a schematic refrigeration system diagram of an air conditioner equipped with a four-way valve according to the present invention.

FIG. 4 is a flow chart that allows the internal pressure of the compressor to achieve flat pressure through the four-way valve control of FIG. 3.

FIG. 5 is an operational state diagram of mutual equalization between the high pressure side and the low pressure side in the compressor according to the four-way valve control of FIG. 3; FIG.

FIG. 6 is a flow chart for allowing the internal pressure of the compressor to be balanced through another control method of the four-way valve shown in FIG.

7 is a schematic refrigeration system diagram of an air conditioner equipped with a solenoid valve according to the present invention.

FIG. 8 is a flow chart that allows the internal pressure of the compressor to achieve flat pressure through the solenoid valve control of FIG.

FIG. 9 is an operational state diagram of mutual equalization between the high pressure side and the low pressure side in the compressor according to the solenoid valve control of FIG. 7; FIG.

Explanation of symbols on the main parts of the drawings

10. Compressor 20. Condenser

30. Expansion valve 40. Evaporator

50. Four-way valve 50a. Solenoid valve

The present invention relates to an air conditioner, and more particularly, to an air conditioner comprising at least one compressor, at least one condenser, at least one expansion device, and at least one evaporator, the air conditioner is stopped for quick restart of the compressor. Air conditioning that allows the internal pressure of the compressor to quickly settle through the solenoid valve installed by connecting the discharge side and the suction side of the compressor or the four-way valve switched according to the cooling / heating operation of the air conditioner. It relates to a method of controlling the flat pressure of the machine.

In general, an air conditioner is a device that lowers indoor temperature by discharging cold air generated through a process of compressing, condensing, expanding, and evaporating a refrigerant into an interior, and is classified into an outdoor unit installed in an outdoor side and an indoor unit installed in an indoor side. The outdoor unit includes a compressor, an accumulator, a condenser, and an outdoor fan, and the indoor unit includes an expansion valve, an evaporator, and an indoor fan.

Referring to the refrigeration system of the air conditioner configured as described above, as shown in Fig. 1, the compressor 10 for pressurizing the refrigerant introduced from the evaporator to high temperature and high pressure, and the refrigerant pressurized from the compressor 10 exchanges heat with outdoor air. Condenser 20 for condensing at room temperature and high pressure through, expansion valve 30 for adiabatic expansion and expansion of the refrigerant condensed in the liquid phase through the condenser 20 to a low temperature low pressure, and decompression through the expansion valve 30 It consists of an evaporator 40 for evaporating the refrigerant to the gaseous state of low temperature low pressure through heat exchange with the ambient air.

At this time, the expansion valve 30 is composed of a capillary tube in the form of a narrow tube tube.

The cooling process of the air conditioner as described above is as follows.

The low-temperature low-pressure gas phase refrigerant introduced from the evaporator 40 to the compressor 10 is pressurized to the high-temperature high-pressure gas phase state through the pressurizing action of the compressor 10, and discharged to the condenser 20, as described above. The refrigerant discharged to the 20 forms a phase change to a liquid state at room temperature and high pressure by performing heat exchange with external air sucked into the outdoor unit by driving an outdoor fan (not shown) while flowing inside the condenser 20.

In addition, the refrigerant phase-changed in the liquid state through the heat exchange action of the condenser 20 is discharged to the expansion valve 30 formed in the form of a narrow tube tube, and the refrigerant discharged to the expansion valve 30 is a narrow tube. While the inside of the tube flows to reduce the low-pressure liquid state so that the evaporation can be easily discharged to the evaporator 40.

In addition, the refrigerant discharged to the evaporator 40 undergoes a heat exchange with the ambient air of the evaporator 40 to form a phase change in a low-temperature, low-pressure gas phase state, and then flows back into the compressor 10.

As described above, the ambient air heat-exchanged with the refrigerant decompressed through the expansion valve 30 in the evaporator 40 is changed into a cold cold while depriving heat of the refrigerant, and the cold air is indoors through an indoor fan (not shown). As it is discharged, the air conditioning process ends.

However, in the air conditioner configured as described above, when the user cools the room at a desired temperature and stops the air conditioner in the cooling operation by the user, the compressor 10 which is being started is also stopped and the inside of the compressor 10 is high in pressure. When the pressure difference is generated at an over low pressure, and when the compressor 10 is restarted in the state where the pressure difference is generated in the compressor 10 as described above, an overcurrent is generated in the compressor 10 in which the pressure difference is generated at the high pressure and the low pressure. As it flows, the compressor 10 is exerted, which causes a problem that the compressor 10 is damaged.

In order to prevent the compressor 10 from being damaged, the high pressure side and the low pressure side of the compressor 10 should be balanced with each other. In the case of the conventional air conditioner, the pressure in the compressor 10 may be balanced. It is not provided with a pressure equalizing device, the pressure inside the compressor 10 is naturally balanced only through the expansion valve 30 for decompressing the refrigerant condensed in the liquid phase through the condenser 20 to the low temperature and low pressure. Because it is configured to achieve, there was a large problem that the pressure in the compressor 10 through the expansion valve 30 to balance the mutual pressure takes a very long time.

In addition, when the air conditioner for indoor cooling is restarted by a user who enters the room after the pressure inside the compressor 10 is not balanced as described above, the compressor 10 is also restarted to Although the refrigeration cycle is operated, there is a big problem that the pressurization of the compressor 10 is not smooth until the pressure in the compressor 10 is balanced, making the room more comfortable.

Furthermore, when the air conditioner for indoor cooling is re-operated by a user who enters the room afterwards when the pressure inside the compressor 10 is not balanced as described above, a pressure difference occurs at the high pressure and the low pressure as described above. As the overcurrent flows to the compressed compressor 10, the compressor 10 is exerted, and this causes the compressor 10 to be broken.

In order to solve the above problems, the present invention is an air conditioner composed of one or more compressors, one or more condensers, one or more expansion valves, one or more evaporators, wherein the refrigeration system when the operation of the air conditioner is stopped. Among the components of the compressor connected to the discharge side and the suction side of the solenoid valve, or the four-way valve to be switched in accordance with the cooling / heating operation of the air conditioner by controlling the internal pressure of the compressor to achieve a rapid pressure, the rapid The purpose is to allow a restart.                         

In addition, by controlling the solenoid valve or the four-way valve as described above, the internal pressure of the compressor to achieve a flat pressure quickly, when the compressor is started in a state in which the conventional pressure is not achieved, the overcurrent flows due to the internal pressure difference inside the compressor. Another object is to prevent the problem that the compressor is broken due to the excessive force.

An object of the present invention, the air conditioner consisting of at least one compressor, at least one condenser, at least one expansion valve, at least one evaporator is connected to the discharge side and the suction side of the compressor installed solenoid valve, or air conditioning of the air conditioner By controlling the four-way valve is switched according to the heating / heating operation can be solved by the flat pressure control method of the air conditioner configured to achieve a flat pressure quickly, it will be described in detail with reference to the accompanying drawings.

Figure 3 shows a schematic refrigeration system of an air conditioner equipped with a four-way valve according to the present invention, Figure 4 is a flow chart for the internal pressure of the compressor to achieve a flat pressure through the four-way valve control of FIG. It is shown.

The control method of the flat pressure of the air conditioner according to the control of the four-way valve 50 of the present invention comprises the steps of: stopping the cooling operation of the air conditioner for indoor cooling (110);

Determining whether the start of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (120);

When it is determined that the start of the compressor 10 is completely stopped, the step 130 of switching the operation mode of the four-way valve 50 for changing the operation state (cooling ↔ heating) of the air conditioner (cooling → heating) and ;

Determining whether a flat pressure is established between the high pressure side and the low pressure side of the compressor 10 by switching the operation mode of the four-way valve 50;

When it is determined that the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 achieves a flat pressure, the operation mode of the four-way valve 50 switched for the normal pressure in the compressor 10 (cooling → Switching (heating → cooling) the heating mode to the operation mode state of the four-way valve 50 before switching again (150);

And restarting the stationary compressor 10 according to the operation mode switching of the four-way valve 50 so that the cooling operation of the air conditioner can be performed again (160).

In addition, the equal pressure control method for controlling the four-way valve 50, step (210) of stopping the cooling operation of the air conditioner for indoor cooling;

Determining whether the start of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (220);

When it is determined that the start of the compressor 10 is completely stopped, the predetermined stop state of the compressor 10 is set so that noise when switching the four-way valve 50 by the internal pressure difference of the compressor 10 can be reduced. Determining whether time elapses by time A;

When it is determined that the stop state of the compressor 10 has elapsed for a predetermined time (A), the operation mode of the four-way valve 50 for switching the operation state (cooling ↔ heating) of the air conditioner is switched (cooling → Heating);

A step (250) of determining whether a flat pressure is established between the high pressure side and the low pressure side inside the compressor (10) by switching the operation mode of the four-way valve (50);

When the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 does not achieve a normal pressure, the normal pressure in the compressor 10 may be set so that the internal pressure of the compressor 10 may achieve a complete normal pressure. Determining whether the set time (B) has elapsed (260);

When it is determined that the normal pressure time of the compressor 10 has elapsed by a predetermined time (B), the operation mode (cooling → heating) of the four-way valve 50 switched for equal pressure in the compressor 10 is reset. Switching (270) the operation mode (heating-to-cooling) state of the four-way valve 50 before switching;

And restarting the stopped compressor 10 according to the operation mode switching of the four-way valve 50 so that the cooling operation of the air conditioner can be performed again (280).

The control method of the flat pressure of the air conditioner according to the control of the solenoid valve 50a of the present invention includes the steps of stopping the cooling operation of the air conditioner for indoor cooling (310);

Determining whether the starting of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (320);

When it is determined that the start of the compressor 10 is completely stopped, the solenoid valve 50a connected between the discharge side and the suction side of the compressor 10 is opened so that the discharge side and the suction side of the compressor 10 communicate with each other. Step 330;

Determining (340) whether a flat pressure is established between a high pressure side and a low pressure side inside the compressor (10) through the discharge side and the suction side of the connected compressor (10);

Closing the solenoid valve (50a) opened for the equalization pressure in the compressor (10) when determining that the internal pressure of the compressor (10) is equalized due to the opening of the solenoid valve (50a);

And restarting the stopped compressor 10 according to the sealing of the solenoid valve 50a so that the cooling operation of the air conditioner can be performed again (360).

Hereinafter, the flat pressure control method of the air conditioner of the present invention will be described in detail.

The method of controlling the flat pressure of the air conditioner of the present invention includes one or more compressors (10), one or more condensers (20), one or more expansion valves (30), and one or more evaporators (40). A solenoid valve 50a is provided between the discharge side and the suction side of the compressor 10 to form a form in which the discharge side and the suction side of the compressor 10 are interconnected through the solenoid valve 50a, or for both cooling and heating. In the state configured to switch the flow direction of the refrigerant pressurized from the compressor 10 toward the condenser 20 or the evaporator 40 according to the cooling / heating operation through the four-way valve 50 which is a general component of the air conditioner made Depending on the cooling / heating operation of the solenoid valve 50a or the air conditioner installed by connecting the discharge side and the suction side of the compressor 10 so that a quick restart of the stopped compressor 10 can be performed. Which controls the four-way switching valve 50 as a platen to achieve the internal pressure of the compressor 10 is quickly, the present invention will be described in detail for it. The same reference numerals will be applied to the same configurations as those of the present invention and the conventional art described above.

In the flat pressure control method of the air conditioner according to the present invention, a solenoid installed in the air conditioner is controlled by controlling the four-way valve 50 to be switched in accordance with the cooling / heating operation, or connected between the discharge side and the suction side of the compressor (10) By controlling the valve 50a so that the internal pressure of the compressor 10 quickly becomes a normal pressure. First, a method of controlling the pressure of the air conditioner according to the control of the four-way valve 50 will be described.

The method for controlling the flat pressure of the air conditioner according to the control of the four-way valve 50 of the present invention includes: stopping the cooling operation of the air conditioner for indoor cooling as illustrated in FIG. 4; Determining whether the start of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (120); When it is determined that the start of the compressor 10 is completely stopped, the step 130 of switching the operation mode of the four-way valve 50 for changing the operation state (cooling ↔ heating) of the air conditioner (cooling → heating) and ; Determining whether a flat pressure is established between the high pressure side and the low pressure side of the compressor 10 by switching the operation mode of the four-way valve 50; When it is determined that the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 has achieved a normal pressure, the operation mode of the four-way valve 50 switched for the normal pressure in the compressor 10 (cooling Switching (heating → cooling) the operation mode of the four-way valve 50 before the heating → is switched again; And restarting the stationary compressor 10 according to the operation mode switching of the four-way valve 50 so that the cooling operation of the air conditioner can be performed again (160).

In contrast to the flow chart shown in FIG. 4, when the air conditioner stops operating, the four-way valve 50 is set such that the internal pressure of the compressor 10 generating a pressure difference between the discharge side and the suction side can achieve a flat pressure within a short time. The control process is as follows.

FIG. 5 illustrates an operation state in which mutual pressure is achieved between the high pressure side and the low pressure side in the compressor according to the four-way valve control of FIG. 3.

First, when the user cools the room at a desired temperature and stops the air conditioner in operation of cooling 110 by the user, it is determined whether the start of the compressor 10 according to the operation stop of the air conditioner is completely stopped as described above. At this time, when it is determined that the start of the compressor 10 is completely stopped, the four-way valve 50 for switching the operating state (cooling ↔ heating) of the air conditioner, that is, the air conditioner Switching operation mode of the four-way valve 50 so as to be switched to the heating operation at 130 to achieve a flat pressure through the mutual heat transfer between the high pressure side and the low pressure side inside the compressor 10 (Fig. 5 (a) On the contrary, if it is determined that the starting of the compressor 10 is not completely stopped, it is determined whether or not the compressor 10 is stopped until the compressor 10 is completely stopped. .

Thus, the compressor 10 in a state in which the pressure is achieved by mutual heat transfer between the high pressure side and the low pressure side inside the compressor 10 by the operation mode switching (cooling → heating) 130 of the four-way valve 50. It is determined whether the internal pressure of the () is completely equal to the pressure (140), when it is determined that the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 is equalized to the pressure (10) the operation mode of the four-way valve 50 switched for the internal pressure, that is, the operation mode of the four-way valve 50 before switching the four-way valve 50 switched from the cooling operation to the heating operation again. Switch 150 from the heating operation to the cooling operation so that the compressor 10 is in the standby state to be restarted (see Fig. 5 (b)), on the contrary, the compressor according to the operation mode switching of the four-way valve 50 The internal pressure of 10 does not equalize If it is determined that there will continue to determine whether the platen in the compressor 10 until the internal pressure of the compressor 10 to achieve a platen.

As described above, the air conditioner for indoor cooling is performed by the user who enters the room later in the standby state such that the compressor 10 may be restarted according to the operation mode switching (heating → cooling) of the four-way valve 50. In the case of restarting the air conditioner, the compressor 10 according to the operation of the air conditioner is also restarted 160 in a stopped state, thereby cooling the air conditioner again.

At this time, the high pressure side and the low pressure side of the compressor 10 through the operation mode switching (cooling → heating) 130 of the four-way valve 50 of the steps (110-160) in the process of achieving a flat pressure, As described above, during the operation mode switching 130 of the four-way valve 50, the heat transfer between the high pressure side and the low pressure side inside the compressor 10 is performed quickly, and the pressure in the compressor 10 is the flat pressure.

FIG. 6 shows a flow chart for allowing the internal pressure of the compressor to be balanced through another control method of the four-way valve shown in FIG. 3.

In addition, another equal pressure control method for controlling the four-way valve 50, as shown in Figure 5, the step of stopping the cooling operation of the air conditioner for cooling the room (210); Determining whether the start of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (220); When it is determined that the start of the compressor 10 is completely stopped, the predetermined stop state of the compressor 10 is set so that noise when switching the four-way valve 50 by the internal pressure difference of the compressor 10 can be reduced. Determining whether time elapses by time A; When it is determined that the stop state of the compressor 10 has elapsed for a predetermined time, the operation mode of the four-way valve 50 for converting the operation state (cooling ↔ heating) of the air conditioner is switched (cooling → heating). Step 240; A step (250) of determining whether a flat pressure is established between the high pressure side and the low pressure side inside the compressor (10) by switching the operation mode of the four-way valve (50); When the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 does not achieve a normal pressure, the normal pressure in the compressor 10 may be set so that the internal pressure of the compressor 10 may achieve a complete normal pressure. Determining whether the set time has elapsed by the predetermined time (B) (260); When it is determined that the normal pressure time of the compressor 10 has elapsed by a predetermined time, before switching the operation mode (cooling → heating) of the four-way valve 50 switched for equal pressure in the compressor 10 again. (Former) switching from the four-way valve 50 to the operation mode (heating → cooling) state (270); And restarting the stopped compressor 10 according to the operation mode switching of the four-way valve 50 so that the cooling operation of the air conditioner can be performed again (280).

At this time, the predetermined predetermined time A for determining whether the stop state of the compressor 10 has elapsed by a predetermined time A is about 3 minutes or less.

In addition, the predetermined predetermined time B for determining whether the internal pressure of the compressor 10 is completely equal to the pressure is about 2 minutes or less.

In contrast to the flow chart shown in FIG. 6, when the air conditioner stops operating, the four-way valve 50 is set such that the internal pressure of the compressor 10 generating a pressure difference between the discharge side and the suction side can achieve a flat pressure within a short time. The control process is as follows.

As described above, when the user cools the room to the desired temperature and stops the air conditioner 210 which is being operated by the user, the start of the compressor 10 according to the operation stop of the air conditioner is completely stopped as described above. If it is determined that the start of the compressor 10 is completely stopped, it is possible to reduce the noise when the four-way valve 50 is switched by the internal pressure difference of the compressor 10. It is determined whether the compressor 10 stop state has elapsed by a predetermined predetermined time A so as to be 230. On the contrary, when it is determined that the starting of the compressor 10 is not completely stopped, the compressor 10 It is determined whether or not the compressor 10 is stopped until is completely stopped.

In addition, when it is determined that the stop state of the compressor 10 has elapsed for a predetermined time A as described above, the four-way valve 50 for switching the operating state (cooling ↔ heating) of the air conditioner, The operation mode of the four-way valve 50 is switched 240 so that the air conditioner is switched from the cooling operation to the heating operation to achieve a flat pressure through mutual heat transfer between the high pressure side and the low pressure side inside the compressor 10.

As described above, the compressor (in the state where the pressure is achieved through mutual heat transfer between the high pressure side and the low pressure side inside the compressor 10 by the operation mode switching (cooling → heating) 240 of the four-way valve 50 as described above. It is determined whether or not the internal pressure of 10) is completely equalized (250). At this time, when it is determined that the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 is not equalized. In operation 260, it is determined whether the normal pressure time in the compressor 10 has elapsed by a predetermined time B so that the internal pressure of the compressor 10 can be completely balanced. When it is determined that the normal pressure time has also elapsed by a predetermined predetermined time (B), before the operation mode (cooling → heating) of the four-way valve 50 switched for the normal pressure in the compressor 10 is switched again. Operation mode of the four-way valve 50 (heating → in the cooling) state (270).

However, when it is determined that the internal pressure of the compressor 10 according to the operation mode switching of the four-way valve 50 achieves a flat pressure, the operation mode of the four-way valve 50 is switched from heating to cooling 270. The process is to be moved directly to the switching mode (270) from the heating operation in the operation mode state of the four-way valve 50 before the switching to the cooling operation 270 is in the standby state that can be restarted.

In addition, the air for indoor cooling by the user who enters the room later in the standby state such that the compressor 10 may be restarted according to the operation mode switching (heating → cooling) of the four-way valve 50 as described above. When the air conditioner is re-operated, the compressor 10 according to the operation of the air conditioner is also restarted 280 in the stopped state, and thus the cooling operation of the air conditioner is performed again.

At this time, the predetermined predetermined time A for determining whether the stop state of the compressor 10 has elapsed by a predetermined time A during the steps 210-280 is about 3 minutes or less. The time (A) of about 3 minutes or less means that the heat transfer between the high pressure side and the low pressure side inside the compressor 10 during the operation mode switching (cooling-to-heating) 240 of the four-way valve 50 is performed as described above. From the state in which the pressure in the compressor 10 is equalized, the noise generated by the pressure difference in the compressor 10 during initial operation of the four-way valve 50 is reduced, and at the same time, the compressor 10 This is the time required to operate after securing a stable time to prevent the liquid compression during start-up.

In addition, the predetermined predetermined time B for determining whether the internal pressure of the compressor 10 is completely equalized during the steps 210 to 280 is about 2 minutes or less, and the predetermined predetermined time B 2 minutes or less means that the pressure in the compressor 10 according to the operation mode switching (cooling → heating) 240 of the four-way valve 50 is almost immediately equalized to the four-way valve 50. In the operation mode switching (cooling to heating) 240, the pressure in the compressor 10 does not achieve a normal pressure, and indicates a required pressure time (normal pressure progress time) for achieving a pressure in the compressor 10. will be.

Next, in the flat pressure control method of the air conditioner according to the present invention, a flat pressure control method of the air conditioner according to the control of the solenoid valve 50a installed between the discharge side and the suction side of the compressor 10 will be described. Same as

7 is a schematic diagram of a refrigeration system of an air conditioner equipped with a solenoid valve according to the present invention, and FIG. 8 is a flow chart for allowing the internal pressure of the compressor to achieve a flat pressure through the solenoid valve control of FIG. 7. 9 is a view illustrating a state diagram of mutually equalizing pressure between the high pressure side and the low pressure side in the compressor according to the solenoid valve control of FIG. 7.

According to the solenoid valve (50a) control of the present invention, the pressure control method of the air conditioner, as shown in Figure 8, the step of stopping the cooling operation of the air conditioner for room cooling (310); Determining whether the starting of the compressor (10) according to the operation stop of the air conditioner is also completely stopped (320); When it is determined that the start of the compressor 10 is completely stopped, the solenoid valve 50a connected between the discharge side and the suction side of the compressor 10 is opened so that the discharge side and the suction side of the compressor 10 communicate with each other. Step 330; Determining (340) whether a flat pressure is established between a high pressure side and a low pressure side inside the compressor (10) through the discharge side and the suction side of the connected compressor (10); Closing the solenoid valve (50a) opened for the equalization pressure in the compressor (10) when determining that the internal pressure of the compressor (10) is equalized due to the opening of the solenoid valve (50a); And restarting the stopped compressor 10 according to the sealing of the solenoid valve 50a so that the cooling operation of the air conditioner can be performed again (360).

In contrast to the flow chart shown in FIG. 8, when the air conditioner stops operating, the solenoid valve 50a is set such that the internal pressure of the compressor 10, which causes a pressure difference between the discharge side and the suction side, can achieve a flat pressure within a short time. The control process is as follows.

First, when the user cools the room to a desired temperature and stops the air conditioner in the cooling operation 310 by the user, as described above, it is determined whether the start of the compressor 10 according to the operation stop of the air conditioner is also completely stopped. At this time, when it is determined that the start of the compressor 10 is completely stopped, the solenoid valve 50a installed between the discharge side and the suction side of the compressor 10, that is, the valve is connected to the electrical signal. Opening (330) the solenoid valve (50a) that is controlled on / off (off) so that the discharge side and the suction side of the compressor 10 is in communication with each other, and at the same time the discharge side of the connected compressor (10) And a high pressure side and a low pressure side inside the compressor 10 through the suction side to achieve a flat pressure while mutual heat transfer is made (see FIG. 9 (a)), on the contrary, the starting of the compressor 10 is completely stopped. If it is determined that it is not, it is determined whether or not the compressor 10 is stopped until the compressor 10 is completely stopped.

In this way, the internal pressure of the compressor 10 is completely balanced in a state in which the pressure is achieved through mutual heat transfer between the high pressure side and the low pressure side inside the compressor 10 by the opening 330 of the solenoid valve 50a. If it is determined that the internal pressure of the compressor 10 according to the opening of the solenoid valve 50a is attained a flat pressure, the solenoid opened for the flat pressure in the compressor 10. The valve 50a is sealed 350 so that the compressor 10 is in a stand-by state where it can be restarted (see FIG. 9B), and conversely, the compressor 10 according to the opening of the solenoid valve 50a. When it is determined that the internal pressure does not achieve a flat pressure, it is determined whether or not the flat pressure in the compressor 10 continues until the internal pressure of the compressor 10 achieves a flat pressure.

As described above, when the air conditioner for cooling the room is re-operated by a user who enters the room later in the standby state such that the compressor 10 may be restarted according to the opening of the solenoid valve 50a. Compressor 10 according to the operation of the air conditioner is also restarted 360 in a stopped state, and thus the cooling operation of the air conditioner is performed again.

At this time, the high pressure side and the low pressure side in the compressor 10 through the opening 330 of the solenoid valve 50a of the step (310-360) in the process of achieving a flat pressure, the solenoid valve 50a as described above At the time of opening 330), as the heat transfer is rapidly performed between the high pressure side and the low pressure side inside the compressor 10, the pressure in the compressor 10 immediately achieves a flat pressure.

In particular, in the case of the control method for controlling the opening and closing of the solenoid valve (50a) as described above to achieve a flat pressure in the compressor 10, the solenoid valve (50a) compared to the four-way valve 50 shown in FIG. Since there is a disadvantage in the high cost, it is the most preferred embodiment in the present invention so that the flat pressure is made in the compressor 10 through the control of the four-way valve 50.

As described above, the flat pressure control method of the air conditioner may include one or more compressors 10 and one irrespective of the number of the compressor 10, the condenser 20, the expansion valve 30, and the evaporator 40. It is applicable to all refrigeration systems of all air conditioners, such as consisting of more than one condenser 20, one or more expansion valves 30, one or more evaporators 40, one or more refrigeration system elements are installed Even if the pressure in the compressor 10 is to be equalized, the operation of the air conditioner must be stopped, and the compressor 10 is also equalized between the high pressure side and the low pressure side in the compressor 10 only when the starting is stopped. It is known in advance that this can be done.

Further, as in the present invention, the solenoid valve 50a is provided between the discharge side and the suction side of the compressor 10 in the refrigeration system of the air conditioner, or discharged from the compressor 10 on the discharge side of the compressor 10. In the air conditioner is provided with a four-way valve 50 for switching the flow direction of the refrigerant to be expanded, expansion of the liquid refrigerant condensed at room temperature and high pressure through the condenser 20 of the refrigeration system of the air conditioner to low temperature low pressure The valve 30 is constituted by LEV (electromagnetic expansion valve) or TXV for controlling the opening area of the valve by an electric signal, so that the flat pressure control of the present invention, that is, the solenoid valve 50a or the four-way valve 50 control is performed. Through the pressure in the compressor 10 to achieve a flat pressure, it can be compressed through the flat pressure control of the present invention even if the expansion of the capillary tube of the narrow tube tube form as the expansion valve 30 as in the prior art That it (10) the pressure can be achieved in a short time within the platen also put out to advance.

In addition, when controlling the solenoid valve 50a installed by connecting the discharge side and the suction side of the compressor 10 as described above, or the four-way valve 50 switched according to the cooling / heating operation of the air conditioner, the compressor 10 It is an excellent invention that a quick restart of the compressor 10 can be achieved by quickly achieving a flat pressure by heat transfer between the internal pressure, that is, the high pressure side and the low pressure side.

The method of controlling the flat pressure of the air conditioner of the present invention is an air conditioner composed of at least one compressor, at least one condenser, at least one expansion valve, and at least one evaporator, wherein the components of the refrigeration system are stopped when the air conditioner is stopped. By controlling the solenoid valve installed by connecting the discharge side and the suction side of the compressor, or the four-way valve that is switched according to the cooling / heating operation of the air conditioner, the internal pressure of the compressor achieves a rapid pressure, the rapid restart of the compressor is achieved It has an excellent effect.

In addition, by controlling the solenoid valve or the four-way valve as described above, the internal pressure of the compressor to achieve a flat pressure quickly, when the compressor is started in a state in which the conventional pressure is not achieved, the overcurrent flows due to the internal pressure difference inside the compressor. There is also an excellent effect to prevent the problem that the compressor is broken by overloading.

Claims (5)

delete Stopping the cooling operation of the air conditioner for cooling the room; Determining whether the compressor is completely stopped due to the stop of the air conditioner; Determining whether the compressor stop state has elapsed for a predetermined time (A) so as to reduce noise when switching the four-way valve by internal pressure difference of the compressor when it is determined that the compressor is completely stopped; Switching the operation mode of the four-way valve for switching the operation state (cooling ↔ heating) of the air conditioner when the stop state of the compressor has elapsed for a predetermined time; Determining whether the flat pressure is established between the high pressure side and the low pressure side inside the compressor by switching the operation mode of the four-way valve; If the internal pressure of the compressor according to the operation mode switching of the four-way valve does not achieve a normal pressure, determining whether the normal pressure in the compressor has elapsed by a predetermined time (B) so that the internal pressure of the compressor to achieve a full pressure Wow; When it is determined that the normal pressure time of the compressor has elapsed by a predetermined time, the operation mode of the four-way valve before switching the operation mode (cooling → heating) of the four-way valve switched for equal pressure in the compressor ( Switching from heating to cooling); Re-starting the stationary compressor according to the operation mode switching of the four-way valve so that the cooling operation of the air conditioner can be performed again; Flat pressure control method of the air conditioner comprising a. delete The method of claim 2, wherein the predetermined predetermined time (A) for determining whether the compressor stop state has elapsed by a predetermined time (A) is about 3 minutes or less. The method of claim 2, wherein the predetermined predetermined time (B) for determining whether the internal pressure of the compressor is completely equalized is about 2 minutes or less.

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