KR100826926B1 - Water Cooling Type Air Conditioner and Control Method thereof - Google Patents

Abstract

The present invention provides a water-cooled air conditioner and a control method thereof, which use the configuration of a conventional water-cooled air conditioner as it is and can always exhibit uniform performance regardless of fluctuations in the water temperature of the coolant supplied from the outside for heat exchange with the condenser. Invention.

To this end, the present invention measures the condenser outlet temperature of the cooling water temperature to determine whether the current cycle is formed according to the supply water temperature, and if it is determined that the proper cycle is not maintained, the suction pressure of the refrigeration cycle is set differently so as to determine the speed of the compressor. By controlling the water-cooled air conditioner according to the present invention to ensure a uniform performance at all times despite the fluctuation of the supply water temperature.

Description

Water Cooling Type Air Conditioner and Control Method

1 is a view showing a schematic configuration of a water-cooled air conditioner according to an embodiment of the present invention.

Figure 2 is a block diagram showing the operation control of the water-cooled air conditioner according to an embodiment of the present invention.

3 is a flowchart illustrating a control method of a water-cooled air conditioner according to an embodiment of the present invention.

Figure 4 is a graph showing the relationship between the condenser outlet temperature and the suction pressure of the water-cooled air conditioner according to an embodiment of the present invention.

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

1: compressor 3: condenser

4: cooling water source 5: cooling water piping

6: temperature sensor 7: indoor unit

The present invention relates to a water-cooled air conditioner and a control method thereof capable of always exhibiting uniform performance regardless of fluctuations in water temperature of cooling water supplied from the outside for heat exchange with a condenser.

An air conditioner connects major components such as a compressor, condenser, expansion device, and indoor heat exchanger with piping through which refrigerant is circulated to form a refrigeration cycle, and separately mounts the components to an outdoor unit and an indoor unit, and heats and heats the room through the indoor unit It is a device to provide.

The condenser cools the refrigerant gas discharged from the compressor at high temperature and high pressure through heat exchange with the outside during the cooling operation. The cooling method uses a blower fan to cool the refrigerant through heat transfer between the condenser and outdoor air space. It is divided into air-cooling to cool the refrigerant through heat transfer between the condenser and low-temperature cooling water supplied from the outside.

The water-cooled air conditioner has an advantage that the condenser can be configured with a small capacity because the heat exchange efficiency is higher than that of the air-cooled air conditioner, and a blower fan is not required.

In recent years, the water-cooled air conditioner has been developed in which the amount of cooling water supplied is a constant flow method and a variable capacity method using a variable speed compressor. In the case of the constant flow method, the condensation temperature varies depending on the water temperature fluctuation of the supplied cooling water. Have

However, the conventional water-cooled air conditioner controls the compressor speed by constantly setting the state amount of the refrigeration cycle based on the standard state irrespective of the water temperature fluctuation. Therefore, when the water temperature fluctuation occurs, the air conditioner does not maintain the proper cycle and is uneven. There is a problem of achieving performance.

For example, if the coolant water temperature is lower than the standard coolant water temperature, the condensation temperature is lowered in the same tendency. If the compressor is operated at the same speed as the standard water temperature, the discharge air temperature of the indoor side may be too low. This may cause dew condensation in the indoor unit discharge port. In addition, since the compressor is operated more than necessary, the efficiency of the system is also reduced due to the increase in power consumption.

On the contrary, when the coolant water temperature is higher than the standard coolant water temperature, the discharge air temperature of the indoor side may be excessively high for the same reason as described above, and as a result, the user may not be provided with a comfortable cooling effect.

In order to solve this problem, there is a method of controlling the performance of the water-cooled air conditioner by measuring the cooling water temperature and setting the refrigeration cycle state amount differently. However, it is not technically easy to install a temperature sensor in the cooling water supply pipe and it is not installed in the pipe. In this case, there is a problem that the reliability of the measurement temperature is low.

The present invention is to solve the above-described problems, the object of the present invention is to use the configuration of the conventional water-cooled air conditioner without adding a separate device as it is appropriate to the operation of the refrigeration cycle is formed according to the temperature of the cooling water If it is determined that the refrigeration cycle in operation does not maintain the proper cycle, the cooling rate is controlled by setting a different state amount of the refrigeration cycle to control the speed of the compressor. An air conditioner and a control method thereof are provided.

In order to achieve the above object, the present invention is characterized in that in the control method of the water-cooled air conditioner, the speed of the compressor is variably controlled in accordance with the variation of the condensation temperature.

In addition, the compressor speed control is a first step of measuring the condensation temperature, a second step of setting the suction pressure differently according to the change in the condensation temperature measured in the first step, the compressor according to the suction pressure set in the second step Characterized in that the third step of controlling the speed of the.

In addition, when the difference between the condensation temperature and the predetermined reference condensation temperature is less than or equal to the predetermined value in the second step, the initial suction pressure setting value is maintained. When the difference exceeds the predetermined value and the condensation temperature is higher, the suction pressure is initialized. It is set lower than the set value of, characterized in that the suction pressure is set higher than the initial set value when the condensation temperature is lower.

In addition, when the suction pressure is maintained in the third step, the compressor speed is maintained at an initial set value, when the suction pressure is decreased, the compressor speed is set higher than the initial set value, and when the suction pressure is increased, the compressor speed is increased. It characterized in that the lower than the initial set value.

The present invention also provides a water-cooled air conditioner including a variable speed compressor, a condenser, a temperature sensor provided at an outlet of the condenser, and a controller for variably controlling the speed of the compressor according to a change in the condensation temperature measured by the temperature sensor. It is done.

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

1 is a view showing a schematic configuration of a water-cooled air conditioner in a cooling operation state according to an embodiment of the present invention.

The high temperature and high pressure refrigerant gas discharged from the compressor (1) flows into the condenser (3) through the four-way valve (2), cools down, passes through the expansion device and the evaporator of the indoor unit (7), and then again the four-way valve (2). Is introduced into the compressor (1) through another flow path.

The condenser (3) is connected to the cooling water pipe (5) for the inflow and outflow of the cooling water supplied from the cooling water supply source (4) located outside, the low temperature cooling water flowing through the cooling water pipe (5) and the condenser (3) The refrigerant is cooled through heat exchange between the refrigerant gas of high temperature and high pressure flowing into the refrigerant.

At the outlet of the condenser 3, a temperature sensor 6 for measuring the condensation temperature of the refrigerating cycle is installed on the surface of the refrigerant pipe. Since the refrigerant pipe is made of copper pipe, it has excellent thermal conductivity, so that the reliability of the measured temperature data can be maintained, unlike the cooling water pipe 5 made of steel pipe, even if a temperature sensor is attached to the surface of the refrigerant pipe.

Hereinafter, the basic operation control of the water-cooled air conditioner according to an embodiment of the present invention will be described with reference to FIG.

The controller 100 of the water-cooled air conditioner determines that the operation signal is input through the input unit 110 and transmits a control signal to the compressor driver 140, and the compressor driver 140 accordingly to the compressor 1. To drive.

In addition, the controller 100 receives the coolant temperature data measured from the temperature sensor 6 attached to the outlet of the condenser during operation of the air conditioner, and stores the coolant temperature data and the condensation temperature and suction pressure stored in the memory 130. By using the relationship of the water-cooled air conditioner outputs the necessary control signal to exhibit a uniform performance despite the cooling water temperature fluctuations.

Hereinafter, a control method of a water-cooled air conditioner according to an embodiment of the present invention will be described with reference to FIGS. 3 and 4.

In the present embodiment, a case where the speed of the compressor 1 is controlled by changing the set value of the suction pressure in the state amount of the refrigeration cycle in accordance with the cooling operation temperature fluctuations.

Unlike the air-cooled air conditioner, the water-cooled air conditioner controls the suction pressure which can be controlled by the speed of the compressor (1) because the discharge temperature and the discharge pressure are determined unilaterally according to the water temperature of the cooling water. Selected.

When power is supplied and the operation of the air conditioner starts, the controller 100 sets the suction pressure Ps, the condenser outlet temperature Tc, and the compressor speed Vcomp as the set values P1 and T1 at the coolant temperature conditions of the standard state. And V1, respectively (S10).

During operation of the air conditioner, the controller 100 receives the current condenser outlet temperature T2 measured by the temperature sensor 6 located at the outlet of the condenser 3 (S20), and uses the standard state. The difference ΔT from the condenser outlet temperature Tc at the cooling water temperature condition is calculated and compared with the set value ΔTset stored in the memory 130 (S30).

When ΔT is less than ΔTset in step S30, the control unit 100 determines that the current refrigeration cycle maintains the proper cycle, and maintains the set value of the suction pressure Ps as it is (S40).

When Ps is maintained in the step S40, the control unit 100 maintains the Vcomp as the same as the cooling water temperature condition of the standard state (S50), and as a result, the cooling capacity of the air conditioner is the same as the cooling water temperature condition of the standard state. Is maintained at the level.

On the other hand, when ΔT is greater than ΔTset in step S30, the control unit 100 determines whether the temperature T2 is higher than Tc (S130), and if it is high, sets the Ps by ΔP lower than P1. (S140).

If Ps is set lower than the cooling water temperature condition of the standard state in step S140, the control unit 100 operates the compressor 1 at a speed of increasing the Vcomp by ΔV to satisfy the set suction pressure (S150). As a result, the cooling capacity of the air conditioner is maintained at the same level as the cooling water temperature condition of the standard condition.

Therefore, even when the coolant water temperature is higher than the standard coolant water temperature, it is possible to prevent user's discomfort due to insufficient cooling unlike the conventional water-cooled air conditioner.

On the other hand, if the T2 is lower than Tc in step S130, the control unit 100 sets Ps by ΔP higher than P1 (S240).

If Ps is set higher than the coolant temperature condition of the standard state in step S240, the controller 100 operates the compressor 1 at a speed of decreasing Vcomp by ΔV to satisfy the set suction pressure (S250). As a result, the cooling capacity of the air conditioner is maintained at the same level as the cooling water temperature condition of the standard condition.

Therefore, even when the coolant water temperature is lower than the standard coolant water temperature, condensation at the indoor unit discharge port due to excessive cooling, user discomfort, and unnecessary power consumption can be prevented, unlike the conventional water-cooled air conditioner.

In consideration of the difference between the current coolant water temperature and the standard coolant water temperature, data on ΔP and ΔV for correcting the initial set values of Ps and Vcomp are experimentally obtained according to the water temperature fluctuation, and a database or relational expression is used. By the pre-stored in the memory 130 in the form of the cooling water temperature fluctuation occurs, the control unit 100 can use it to uniformly control the performance of the air conditioner by the control method.

3 shows, as an example, the relationship between the fluctuation of the outlet temperature of the condenser 3 and the fluctuation of the suction pressure Ps set value accordingly.

When the reset of Ps and Vcomp is completed in this step, the control unit 100 determines whether the main power off signal is input from the user through the input unit 110 (S60), and if so, cuts off the main power (S70). If it is not input, the process returns to step S20 to determine whether the cooling water temperature is continuously changed.

As described in detail above, even if a separate device is not added to the conventional water-cooled air conditioner according to the control method of the present invention, it is possible to determine whether the refrigeration cycle in operation is appropriate by measuring the condenser outlet temperature. When it is determined that the refrigeration cycle in operation does not maintain the proper cycle, the suction pressure is set differently to control the speed of the compressor, thereby providing a water-cooled air conditioner capable of always exhibiting a uniform performance regardless of the coolant water temperature.

Claims (5)

In the control method of a water-cooled air conditioner, Compressor speed control is a first step of measuring the condensation temperature; A second step of setting the suction pressure differently according to the change in the condensation temperature measured in the first step; The speed of the compressor is variably controlled according to the suction pressure set in the second step, but if the suction pressure is maintained, the compressor speed is maintained at an initial setting value, and if the suction pressure is decreased, the compressor speed is initially set value. The control method of the water-cooled air conditioner is set to a higher step, the third step of setting the compressor speed lower than the initial set value when the suction pressure increases. delete The method of claim 1, If the difference between the condensation temperature and the predetermined reference condensation temperature is less than or equal to the predetermined value in the second step, the initial suction pressure setting value is maintained. When the difference exceeds the predetermined value and the condensation temperature is higher, The control method of the water-cooled air conditioner to set lower than the set value, and sets the suction pressure higher than the initial set value when the condensation temperature is lower. delete Variable speed compressor; Condenser; A temperature sensor provided at an outlet of the condenser; And Set the suction pressure according to the change of the condensation temperature measured by the temperature sensor, and control the speed of the compressor in accordance with the set suction pressure, if the suction pressure is maintained and maintain the compressor speed at the initial set value And setting a compressor speed higher than an initial set value when the suction pressure decreases, and setting a compressor speed lower than an initial set value when the suction pressure increases.

Images