KR20090097580A - Air conditioning system and method of controlling the same - Google Patents

Abstract

An air conditioning system and a method of controlling the same are provided to determine the number of outdoor units according to a comparison result of indoor air enthalpy and outdoor air enthalpy, thereby efficiently driving the air conditioning system. An air conditioning system includes an indoor unit(10), a plurality of indoor heat exchangers(142,144,146), a plurality of outdoor units(21,22,23), and a controller. Flow paths through which outdoor air and indoor air flow are respectively formed in the indoor unit. The plurality of indoor heat exchangers is provided on the flow path of the outdoor air. The plurality of outdoor units is connected to the indoor heat exchanger. The controller compares enthalpy of the indoor air with enthalpy of the outdoor air. The controller adjusts the number of outdoor units according to the comparison result.

Description

Air conditioning system and method of controlling the same

This embodiment relates to an air conditioning system and a control method thereof.

In general, most of the day's daily life is indoors, and accordingly, interest in a pleasant indoor environment is increasing. In order to satisfy these concerns, modern air conditioners are used to properly maintain indoor temperatures in winter or summer.

In addition, natural ventilation by opening the window for ventilation of the room or a separate ventilation device is installed separately from the air conditioner. However, when the air conditioner and the ventilator are separately installed as described above, a separate space for installing the air conditioner and the ventilator is required, and the piping structure for installing the air conditioner and the ventilator is complicated. do.

Therefore, recently, an air conditioning system in which ventilation and air conditioning are performed at the same time has been developed.

The air conditioning system includes an indoor unit provided with a plurality of indoor heat exchangers, and a plurality of outdoor units respectively connected to the indoor heat exchangers.

The indoor air is discharged to the outside after entering the indoor unit, and the outside air is supplied to the indoor after passing through the indoor heat exchanger after entering the indoor unit.

An object of the present embodiment is to propose an air conditioning system and a control method thereof in which the operation of a plurality of outdoor units is controlled in response to an indoor load and an outdoor load during a cooling operation.

According to an aspect of an exemplary embodiment, an air conditioning system includes: an indoor unit in which flow paths through which indoor air and outdoor air flow, respectively are formed; A plurality of indoor heat exchangers provided on the flow path of the outdoor air; A plurality of outdoor units respectively connected to the indoor heat exchangers; And a control unit for comparing the enthalpy of the indoor air with the enthalpy of the outdoor air, and controlling the number of outdoor units operated among the plurality of outdoor units according to a comparison result.

According to another aspect, a control method of an air conditioning system includes selecting a cooling operation mode to introduce indoor air and outdoor air into an indoor unit; Comparing the enthalpy of the indoor air with the enthalpy of outdoor air; Determining the number of outdoor units operated among the plurality of outdoor units connected to the indoor unit according to the comparison result; And operating the determined number of outdoor units.

According to the proposed embodiment, since the number of outdoor units to be operated is determined according to the comparison result between the internal air enthalpy h1 and the outdoor air enthalpy h2, there is an advantage that an efficient operation of the air conditioning system is possible.

That is, when the outdoor air enthalpy h2 is smaller than the internal air enthalpy h1, since outdoor air flows into the room while the operation of the plurality of outdoor units is stopped, power consumption due to the operation of the plurality of outdoor units may be reduced. There is this.

In addition, when the indoor enthalpy h1 is smaller than the outdoor air enthalpy h2, the number of outdoor units operated by comparing the indoor load and the outdoor load is determined. Therefore, when the indoor load is small, unnecessary operation of all outdoor units can be prevented.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing the configuration of an air conditioning system according to the present embodiment.

Referring to FIG. 1, the air conditioning system according to the present embodiment includes an indoor unit 10 including a plurality of indoor heat exchangers 142, 144, and 146, and each of the indoor heat exchangers 142, 144, and 146. A plurality of outdoor units (21, 22, 23) connected to each is included.

In the present embodiment, for example, three indoor heat exchangers and three outdoor units are provided. However, if the number of the indoor heat exchanger and the outdoor unit is the same, the number of the indoor heat exchanger and the outdoor unit is not limited. Here, although not shown, the compressor and the outdoor heat exchanger may be provided inside each outdoor unit.

The indoor unit 10 is connected to the indoor space to enable the cooling and heating of the room and at the same time to allow the ventilation of the room.

Hereinafter, the indoor unit 10 will be described in detail.

The indoor unit 10 includes a casing 110 forming an external appearance, an exhaust passage 113 formed inside the casing 110 to allow indoor air to be exhausted to the outside, and an air supply passage for supplying outdoor air to the indoor unit 10. 123 is included.

An exhaust fan 114 is provided in the exhaust flow path 113, and an air supply fan 124 is provided in the air supply flow path 123.

In detail, the casing 110 is provided with a partition 130 for partitioning the exhaust passage 113 and the air supply passage 123. In addition, the partition 130 includes a damper 131 for moving some air on the exhaust flow passage 113 to the air supply flow passage 123.

Therefore, when the damper 131 is operated to communicate the air supply passage 123 and the exhaust passage 113, some air on the exhaust passage 113 is moved to the air supply passage 123. In addition, some indoor air moved to the exhaust passage 113 passes through the indoor heat exchangers 142, 144, and 146 in a state where outdoor air introduced into the air supply passage is combined.

The casing 110 includes an indoor air inlet 111 for allowing indoor air to be sucked into the casing 110, and an indoor air outlet 115 for exhausting indoor air sucked into the casing 110. In addition, an outdoor air inlet 121 for allowing external air to be sucked into the casing 110 and an outdoor air outlet 122 for discharging the outdoor air sucked into the casing 110 to the interior are provided.

In addition, the indoor air outlet 115 and the outdoor air inlet 121 are provided with dampers 115 and 121, respectively.

The plurality of indoor heat exchangers 142, 144, and 146 are provided on the air supply passage 123. The plurality of indoor heat exchangers 142, 144, and 146 are arranged in parallel with respect to the flow direction of air, for example. However, in this embodiment, the arrangement of the plurality of indoor heat exchangers 142, 144, and 146 is not limited and may be arranged in series.

In addition, the air supply passage 123 is provided with a filter 132 for filtering the air on the air supply passage 123.

The plurality of outdoor units 21, 22, and 23 are connected to the indoor heat exchangers 142, 144, and 146, respectively, and operate independently. For example, in the cooling operation, when only the first outdoor unit 21 is operated, the air passing through the first indoor heat exchanger 142 connected to the first outdoor unit 21 of the air on the air supply passage 123 is The air passing through the second and third indoor heat exchangers 144 and 146 connected to the second and third outdoor units 22 and 23 which are not operated and the temperature is lowered due to heat exchange is not subjected to heat exchange.

2 is a block diagram showing a control configuration of the air conditioning system according to the present embodiment.

Referring to FIG. 2, the air conditioning system according to the present embodiment includes a first temperature sensor 211 and a first humidity sensor 221 for detecting a temperature and humidity of indoor air moved to the exhaust passage 113. In addition, the second temperature sensor 212 and the second humidity sensor 222 for sensing the temperature and humidity of the outdoor air moved to the air supply passage 123, and driving the respective dampers (115, 125, 131) The damper driver 230, a mode selector 240 for selecting an operation mode of the air conditioning system, and a controller 210 for controlling the operation of the air conditioning system are included.

In detail, the controller 210 calculates an enthalpy (h1) of indoor air by using information detected by the first temperature sensor 211 and the first humidity sensor 221, and calculates the second temperature sensor ( 212) and the enthalpy h2 of outdoor air is calculated using the information detected by the second humidity sensor 222.

Here, the state of a simple compressive system can be completely represented by two independent stiff state quantities according to the state postulate. In this embodiment, the enthalpy is calculated using temperature and humidity as an example. In this embodiment, detailed expressions related to the enthalpy calculation will be omitted.

The controller controls the operation of the plurality of outdoor units 21, 22, and 23 by comparing an enthalpy h1 of indoor air with an enthalpy h2 of outdoor air.

Hereinafter, a control method of the air conditioning system according to the present embodiment will be described.

3 is a flowchart illustrating a control method of the air conditioning system according to the present embodiment.

Referring to FIG. 3, when the cooling mode is input through the mode selector 240, the air conditioning system is operated in the cooling mode (S1).

When the cooling mode is selected, the air supply fan 114 and the exhaust fan 124 are rotated so that indoor air flows into the exhaust flow passage 113, and outdoor air flows into the air supply flow passage 123. In addition, the temperature and humidity of the indoor air flowing into the exhaust passage 113 from the first temperature sensor 211 and the first humidity sensor 213 are sensed, and the second temperature sensor 212 and the second humidity are detected. The temperature and humidity of the outdoor air flowing into the air supply passage 123 are sensed by the sensor 222.

In addition, the controller 210 calculates the indoor enthalpy h1 using the detected temperature and humidity of the indoor air, and calculates the outdoor air enthalpy h2 using the detected temperature and humidity of the outdoor air (S2). .

In addition, the controller 210 compares the calculated outdoor air enthalpy h2 and the internal air enthalpy h1 (S3). If the outdoor air enthalpy h2 is smaller than the indoor air enthalpy h1, the controller 210 causes the air conditioning system to operate in an outdoor air operation mode in which all of the outdoor units 21, 22, and 23 are stopped. (S4). Then, outdoor air is introduced into the room without undergoing a heat exchange process.

Here, the case where the outside air enthalpy h2 is smaller than the inside air enthalpy h1 is generally the case of the change season. In this case, since the temperature of the outdoor air is lower than the temperature of the outdoor air, even if the outdoor air is introduced directly into the room without the plurality of outdoor units being operated, the cooling effect can be obtained.

As such, when the outdoor air enthalpy h2 is smaller than the internal air enthalpy h1 and the operation of the plurality of outdoor units 21, 22, 23 is stopped, power consumption according to the operation of the plurality of outdoor units 21, 22, 23. There is an advantage that can be reduced.

On the other hand, when the indoor enthalpy h1 is smaller than the outdoor air enthalpy h2, the outdoor units 21, 22, and 23 are required to operate, and the controller 210 compares an indoor load and an outdoor load to the plurality of outdoor units. The number of outdoor units that are operated is determined to allow the outdoor unit to operate as many as the determined number (S5).

For example, the number of outdoor units operated in response to the difference between the indoor load and the outdoor load may be set as shown in the table below.

dT: Ambient temperature-bet temperature Number of outdoor units operated (3 total) dT ≤T1 One T1 <dT ≤ T2 2 dT> T2 Three

Referring to Table 1, when the difference between the outside air temperature and the inside temperature is smaller than the first reference temperature T1, one outdoor unit of the total three outdoor units is operated.

When the outside air temperature and the inside temperature are small as described above, even if only one outdoor unit is operated, indoor cooling conditions can be satisfied. That is, even when some air on the air supply flow path is heat-exchanged while passing through the indoor heat exchanger, the current outdoor load is low, so that the cooling conditions of the indoors can be satisfied.

When the difference between the outside air temperature and the inside temperature is greater than the first reference temperature T1 and less than the second reference temperature T2, the controller 210 causes two outdoor units of the three outdoor units to operate.

In addition, when the difference between the outside temperature and the inside temperature is greater than the second reference temperature T2, since the outdoor load is relatively high, the controller 210 causes all outdoor units to operate.

In the present embodiment, three outdoor units have been described as an example, but four or more outdoor units may be provided. In this case, the number of outdoor units operated according to the difference between the outdoor air temperature and the outdoor air temperature may be set by setting the number of outdoor units. The operation can be adjusted.

According to this embodiment, when the indoor enthalpy h1 is smaller than the outdoor air enthalpy h2, the number of outdoor units operated by comparing the indoor load with the outdoor load is determined. Therefore, when the indoor load is small, all outdoor units are operated unnecessarily. Can be prevented, and efficient operation of the air conditioning system becomes possible.

1 is a view schematically showing the configuration of an air conditioning system according to the present embodiment.

2 is a block diagram showing a control configuration of the air conditioning system according to the present embodiment.

3 is a flowchart showing a control method of the air conditioning system according to the present embodiment;

Claims (7)

An indoor unit in which a flow path through which indoor air and outdoor air flow is formed, respectively; A plurality of indoor heat exchangers provided on the flow path of the outdoor air; A plurality of outdoor units respectively connected to the indoor heat exchangers; And And a control unit for comparing the enthalpy of the indoor air and the enthalpy of the outdoor air, and controlling the number of outdoor units operated among the plurality of outdoor units according to a comparison result. The method of claim 1, A first temperature sensor and a first humidity sensor detecting a temperature and humidity of the indoor air; A second temperature sensor and a second humidity sensor for detecting the temperature and humidity of the outdoor air is included, The control unit calculates an enthalpy of the indoor air and an enthalpy of outdoor air by using the sensed temperature and humidity information. The method of claim 1, And if the enthalpy of the outdoor air is less than the enthalpy of the indoor air, the operation of the plurality of outdoor units is stopped. The method of claim 1, And when the enthalpy of the indoor air is smaller than the enthalpy of the outdoor air, the number of outdoor units operated among the plurality of outdoor units is determined according to a difference between an indoor load and an outdoor load. Selecting a cooling operation mode to introduce indoor air and outdoor air into the indoor unit; Comparing the enthalpy of the indoor air with the enthalpy of outdoor air; Determining the number of outdoor units operated among the plurality of outdoor units connected to the indoor unit according to the comparison result; And And controlling the determined number of outdoor units. The method of claim 5, wherein And when the enthalpy of the outdoor air is smaller than the enthalpy of the indoor air, the operation of the plurality of outdoor units is stopped. The method of claim 5, wherein If the enthalpy of the indoor air is less than the enthalpy of the outdoor air, The method of controlling the air conditioning system in which the number of outdoor units operated among the plurality of outdoor units is determined in response to a difference between an indoor load and an outdoor load, and the determined number of outdoor units is operated.

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