KR20090025834A - The control method of an air conditioning system - Google Patents

Abstract

A control method of an air conditioning system is provided to improve energy efficiency by replacing the indoor air with the outdoor air without heat exchange between them when the outdoor temperature is lower than the indoor temperature. A control method of an air conditioning system is characterized in that it is determined whether the outdoor temperature is in the temperature range when the outdoor temperature is lower than the indoor temperature(730), and then an electric heat exchanger operates in the ventilation mode in order to ventilate the indoor air without heat exchange between the outdoor air and the indoor air if the outdoor temperature is in the temperature range(735).

Description

Control method of an air conditioning system

The present invention relates to a control method of an air conditioning system, and more particularly, to a control method of an air conditioning system for interlocking control of an air conditioner and a total heat exchanger according to indoor and outdoor temperatures.

In general, an air conditioner is a device used for cooling or heating a room, and a normal refrigeration cycle in which a refrigerant is circulated is applied to absorb ambient heat when the refrigerant in a liquid state evaporates. The indoor temperature is controlled by discharging the heat-exchanged air (cold or warm) by the characteristic of discharging.

However, in recent years, as the size of the building where the air conditioner is installed becomes higher and the necessity for the ventilation of the indoor air in the building is highlighted, the air conditioner and the heat exchanger which can efficiently control the ventilation of the air conditioning and the indoor air are controlled. Rapid research and development of air conditioning systems are being made.

In general, the heat exchanger is used as a part of the building air conditioning system. The indoor air is discharged to the outside, the outdoor air is sucked into the room, and the outdoor air sucked into the room is passed through to ventilate the building. The flow path and the flow path through which the indoor air discharged to the outside passes are alternately stacked so that a heat exchange element is provided so that the indoor and outdoor air cross each other without being mixed with each other, thereby reducing the overall heat loss.

In this conventional air conditioning system, the total heat exchanger is only responsible for the ventilation of the indoor air, the air conditioner is set to only cover the heating and cooling of the indoor air.

However, in the conventional air conditioning system, even when the air conditioner performs the cooling operation and the outdoor temperature is lower than the indoor temperature, the total heat exchanger simply exchanges the indoor air with the outdoor air for ventilation to operate the air conditioner unnecessarily to operate the air. There was a problem that power was not consumed efficiently in the harmonized system.

The present invention is to solve the above problems, an object of the present invention to provide a control method of the air conditioning system for controlling the air conditioner and the total heat exchanger using the indoor and outdoor temperature.

In order to achieve the above object, the present invention provides a control method of an air conditioning system for the ventilation operation of a total heat exchanger. When the outdoor temperature is lower than the indoor temperature, the outdoor temperature is compared with a preset temperature range, and the comparison is made. As a result, when the outdoor temperature is within a preset temperature range, the total heat exchanger is operated in a general ventilation so that the indoor air is ventilated without heat exchange with the outdoor air.

In addition, when the outdoor temperature is higher than the room temperature, the heat exchanger is heat-exchanged and ventilated so that the indoor air is heat-exchanged with the outdoor air.

In addition, if the outdoor temperature is outside the preset temperature range as a result of the comparison, the heat exchanger is heat exchanged and ventilated so that the indoor air is exchanged with the outdoor air to be ventilated.

In addition, in the general ventilation operation, indoor air is discharged to the outside through a damper installed between the suction flow path and the discharge flow path of the heat exchanger, and the outdoor air is sucked into the interior through the heat exchange element of the heat exchanger to generate heat exchange between indoor and outdoor air. The heat exchange ventilation operation is a ventilation operation in which indoor air and outdoor air heat exchange through a heat exchange element.

The air conditioner may further include an air conditioner for heating and cooling the room. If the air conditioner is performing a cooling operation during the general ventilation operation of the heat exchanger, the air conditioner stops the cooling operation of the air conditioner.

As described in detail above, the present invention has the effect of reducing the energy consumed in the air conditioning system by controlling the air conditioner and the total heat exchanger using the indoor and outdoor temperatures.

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

1 and 2, the air conditioning system according to an embodiment of the present invention is a heat exchanger 100 for managing the ventilation of the building, an air conditioner 200 for heating and cooling the building indoors, room temperature The central controller 300 controls the air conditioner 200 and the heat exchanger 100 using data transmitted from the sensor 400, the outdoor temperature sensor 500, and the carbon dioxide sensor 600.

The air conditioner 200 may include a compressor 240 for discharging high-temperature refrigerant, a compressor driver 230 for driving the compressor 240, and an indoor fan for blowing air heat-exchanged from an indoor heat exchanger (not shown) to the room ( 260, an indoor fan driver 250 for driving the indoor fan 260, and an air conditioning controller 220 for controlling the air conditioning of the building interior by controlling the respective driving units under the control of the central controller 300. The air conditioning unit 220 is set to perform a cooling operation or a heating operation under the control of the central controller 300.

The total heat exchanger (100) has a main body (10) as shown in FIG. 2, and an intake passage (11) for guiding outdoor air to the inside and an outlet passage (12) for guiding indoor air to the inside are diagonally formed. The compartment is prepared.

One side of the main body 10 is provided with an indoor intake port 12a through which indoor air is sucked and an indoor exhaust port 11b through which outdoor air is discharged into the room. The other side of the main body 10 includes an outdoor intake port 11a through which outdoor air is sucked. Outdoor exhaust ports 12b through which indoor air is discharged to the outside are respectively provided. Therefore, the outdoor intake port 11a and the indoor exhaust port 11b are connected by the suction flow path 11, and the indoor intake port 12a and the outdoor exhaust port 12b are connected by the discharge flow path 12.

In addition, an intake fan 11c and an exhaust fan 12c which generate a blowing force so that air can flow along the flow path are arranged in the suction flow path 11 and the discharge flow path 12, respectively. Therefore, according to the operation of the intake fan 11c and the exhaust fan 12c, the outdoor air and the indoor air flow smoothly along the suction flow path 11 and the discharge flow path 12, respectively, so that the ventilation of the room can be made quickly. It is.

In addition, the suction passage 11 and the discharge passage 12 intersect each other midway so that the outdoor air sucked into the indoor space and the indoor air discharged to the outside can be exchanged with each other, and at the intersection thereof, the suction passage 11 The heat exchange element 15 is arranged so that the air passing through) and the air passing through the discharge passage 12 can exchange with each other without being mixed with each other.

The heat exchange element 15 generally passes indoor and outdoor air having a temperature difference to different flow paths, and is transferred by heat exchanging latent heat and sensible heat by a high-efficiency heat exchange membrane forming layers of different flow paths. Make an exchange. Such a ventilator is preferably formed by repeatedly stacking a panel having a plurality of valleys and a panel having a flat plate shape, and formed in a substantially rectangular pillar shape. In addition, the panel in which the plurality of valleys are formed is laminated so that the directions of the valleys cross at right angles so that the indoor and outdoor air pass through without mixing and are provided for mutual heat exchange.

In addition, a damper 70 is installed between the indoor intake port and the outdoor exhaust port of the total heat exchanger main body 10, and when the damper 70 is opened, the indoor air sucked in the room does not go through the heat exchange element 15 but is outdoor through the damper. Exhaust is exhausted. When the indoor air is discharged to the outside through the damper 70 without passing through the heat exchange element 15, the suction air sucked in the outdoor and sucked into the room does not mutually exchange heat with the discharged air, and thus the outdoor air is sucked into the room. The air is sucked into the room while maintaining the outdoor temperature.

The heat exchanger 100 includes a fan driver 50 for rotating the air supply fan 11c and an exhaust fan 12c in addition to the components shown in FIG. 2, and a damper driver 60 for driving the opening and closing of the damper 70. In addition, the fan controller 50 and the damper driver 60 are driven by the control of the central controller 300 to include a ventilation controller 40 for ventilating the indoor air.

The ventilation control unit 40 controls the ventilation operation by the control signal of the central controller 300, and the ventilation control unit 40 is set to support general ventilation operation and heat exchange ventilation operation. The general ventilation operation is an operation in which indoor air and outdoor air are ventilated without heat exchange, and the ventilation control unit 40 drives the damper driver 60 to open the damper 70 so that the air sucked in the room opens the heat exchange element 15. It is to be discharged to the outdoor exhaust port through the damper 70 without passing through, and at this time, the air sucked from the outdoor is discharged to the room through the heat exchange element 15, so that heat exchange does not occur between the indoor air and the outdoor air. In addition, in the heat exchange ventilation operation, the indoor air and the outdoor air are exchanged by the heat exchange operation, and the ventilation control unit 40 drives the damper driver 60 to close the damper 70 so that the air sucked in the room is exchanged with the heat exchange element 15. ) To be discharged to the outside through the outside, and the air sucked from the outside is also discharged to the room through the heat exchange element 15, so that the indoor air and outdoor air heat exchange occurs in the heat exchange element (15).

The central controller 300 sends a cooling operation signal to the air conditioning controller 220 of the air conditioner 200 when the room temperature measured by the room temperature sensor 400 is higher than the room temperature set for indoor cooling. 220 is set to perform a cooling operation.

The central controller 300 receives the carbon dioxide concentration measured by the carbon dioxide sensor 600, and controls the heat exchanger 100 when the input carbon dioxide concentration exceeds the preset indoor carbon dioxide concentration standard. It is set to ventilate.

In addition, the central controller 300 when the electric heat exchanger is ventilated while the air conditioner performs the cooling operation to reduce the power consumed in the air conditioning system, the indoor temperature sensor 400 and the outdoor temperature sensor 500 By comparing the measured temperature, if the outdoor temperature is lower than the room temperature, the outdoor air is sucked into the room without heat exchange, and the air is cooled. Here, in one embodiment of the present invention, the central controller 300 reduces the power consumption by stopping the cooling operation of the air conditioner 200, the present invention is not limited to this, but the air conditioner 200 and the total heat exchanger. It also includes driving the 100 together to shorten the cooling time of the room.

On the other hand, if the outdoor temperature is too low or high, simply performing general ventilation operation on the total heat exchanger using the information of which the outdoor temperature is lower than the indoor temperature, the cooling operation of the air conditioner 100 is disturbed. Therefore, the central controller 300 has a predetermined range of temperature for the general ventilation operation of the total heat exchanger 100, the central controller 300 is the total heat exchanger 100 when the outdoor temperature corresponds to the predetermined range of temperature. Sends a signal to the ventilation control unit 40 of the general ventilation operation.

For example, if the outdoor temperature is too low than the indoor set temperature set for the air conditioner to operate the cooling operation, when the outdoor air enters the indoors, the indoor temperature may be rapidly lowered to provide inconvenience to the user in the room. . Also, if the outdoor temperature is too low, it may not be summer season, so a suitable air conditioning system will not run.

If the outdoor temperature is lower than the indoor temperature, but both the outdoor temperature and the indoor temperature are high (for example, in a tropical night environment in summer), the air having the high outdoor temperature after the cooling operation of the air conditioner is finished. Since the effect of cooling the room by inhaling the weak provides a discomfort to the user to feel the heat.

Therefore, in order to solve the problem, the central controller 300 has an upper limit temperature and a lower limit temperature of the outdoor temperature, and when the outdoor temperature corresponds to the set temperature range, the central controller 300 is provided with the ventilation control unit 40 of the heat exchanger 100. It is set to send general ventilation operation performance signal without heat exchange.

When the outdoor temperature is higher than the room temperature, the outdoor temperature does not correspond to the set temperature range, and the air conditioner is not a cooling operation, the central controller 300 sends a heat exchange ventilation operation execution signal to the heat exchanger 100. Is set to send.

On the other hand, the body 10 communicates with the outside is provided with an outdoor temperature sensor 500 for measuring the outdoor temperature. In addition, the indoor temperature sensor 400 and the carbon dioxide sensor 600 may be mounted to an indoor ceiling or an air conditioner to measure indoor temperature or carbon dioxide concentration.

Hereinafter, a cooling operation control method of an air conditioning system according to an embodiment of the present invention will be described with reference to FIG. 4.

When the air conditioning system is operated, the central controller 300 receives data about indoor / outdoor temperature and indoor carbon dioxide concentration measured by the indoor / outdoor temperature sensor and the carbon dioxide sensor (700).

When the data measured by each sensor are input to the central controller 300 in step 700, the central controller 300 cools the air conditioner to the temperature measured by the indoor temperature sensor for cooling the air conditioner 200. Compare whether it is higher than the set temperature for operation (705).

If the measured indoor temperature is higher than the room temperature set for the cooling operation, the central controller 300 transmits a cooling operation signal to the air conditioning controller 220 of the air conditioner, and the air conditioning controller 220 operates the compressor. 230 and the indoor fan drive unit 250 to control the air conditioner to perform the cooling operation (710).

When the cooling operation of the air conditioner is performed in step 710 or the room temperature measured in step 705 is lower than the set room temperature, it is determined whether the cooling operation of the air conditioner in which the air conditioner is not performed is performed. 300) compares whether the indoor carbon dioxide concentration measured in step 700 is higher than the preset indoor carbon dioxide concentration to determine whether the indoor air ventilation is necessary, and if the measured indoor carbon dioxide concentration is lower than the preset indoor carbon dioxide concentration, the heat exchanger is operated. After determining that there is no need to ventilate the indoor air, the control returns to step 700 to control the air conditioning system again from the beginning (715).

As a result of the comparison of step 715, if the measured concentration of indoor carbon dioxide is higher than the preset indoor carbon dioxide concentration, the central controller 300 determines whether to perform the general heat exchange operation or the heat exchange ventilation operation of the total heat exchanger 100. It is determined whether the air conditioner 200 is in the cooling operation (720).

If the air conditioner is performing the cooling operation in step 720, the central controller 300 compares the outdoor temperature measured in step 500 with the temperature lower than the room temperature, and ventilates the indoor air without heat exchange with the outdoor air in the heat exchanger 100. Then, it is determined whether general ventilation operation in which outdoor air having a temperature lower than the room temperature is sucked into the room is possible (725).

When the outdoor temperature is lower than the indoor temperature as a result of the comparison of step 725, the central controller 300 determines that the general ventilation operation of the heat exchanger 100 is possible, and the outdoor temperature corresponds to a preset temperature range. It is determined whether to prevent the cooling operation of the 200 (730).

As a result of the determination in step 725, if the outdoor temperature corresponds to a preset temperature range, the central controller 300 performs a general ventilation operation in which outdoor air and indoor air do not heat exchange with the ventilation control unit 40 of the total heat exchanger 100. The control signal is transmitted, and the ventilation control unit 40 drives the damper driver 60 to open the damper 70 so that the air sucked in the room is discharged to the outside through the damper 70 to the outdoor air and the outdoor air. A general ventilation operation is performed in which no heat exchange occurs between the steps (735).

In addition, the central controller 300 controls the air conditioning unit 220 of the air conditioner 200 to stop the cooling operation of the air conditioner, using only the general ventilation operation of the total heat exchanger performed in step 735 of the indoor air. By performing cooling, power consumption consumed by the cooling operation of the air conditioner 200 may be reduced (740).

On the other hand, when the air conditioner 200 is not performing the cooling operation in operation 720 or when the outdoor temperature is not necessary because the outdoor temperature is higher than the indoor temperature in operation 725, and the outdoor temperature is preset in operation 730. If the air conditioner does not correspond to the temperature range to interfere with the cooling operation, the central controller 300 performs a heat exchange ventilation operation in which outdoor air and indoor air are heat-exchanged through a heat exchange element to the ventilation control unit 40 of the total heat exchanger 100. Send a control signal to perform. The ventilation control unit 40 drives the damper driver 60 to close the damper driving unit 60 so as to perform the heat exchange ventilation operation so that the air sucked in the room flows to the heat exchange element without passing through the damper. The air performs a heat exchange ventilation operation in which heat is exchanged (745).

When step 740 or step 745 is performed, the central controller 300 checks whether the stop command of the air conditioning system is input by the system administrator, and returns to step 700 to perform the control of the air conditioning system again if there is no stop command. If the stop command of the system is input, the central controller 300 ends the control of the air conditioning system (750).

1 is a control block diagram of an air conditioning system according to an embodiment of the present invention.

FIG. 2 is a view schematically illustrating an internal configuration of the total heat exchanger illustrated in FIG. 1.

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

Explanation of symbols on the main parts of the drawings

10: total heat exchange element 15: heat exchange element

40: ventilation control unit 50: fan drive unit

60: damper drive unit 70: damper

100; Heat exchanger 200: air conditioner

220: air conditioning unit 230: compressor driving unit

240: compressor 250; Indoor fan drive

260: indoor fan 300: central controller

400: indoor temperature sensor 500: outdoor temperature sensor

600: carbon dioxide sensor

Claims (5)

In the control method of the air conditioning system for the ventilation operation of the total heat exchanger, If the outdoor temperature is lower than the room temperature, Compare the outdoor temperature with a preset temperature range; As a result of the comparison, if the outdoor temperature is within a preset temperature range, And a general ventilation operation of the heat exchanger so that indoor air is ventilated without heat exchange with outdoor air. The method of claim 1, If the outdoor temperature is higher than the room temperature, And a heat exchange ventilating operation of the heat exchanger so that indoor air is ventilated by heat exchange with outdoor air. The method of claim 1, As a result of the comparison, if the outdoor temperature is outside the preset temperature range, And a heat exchange ventilating operation of the heat exchanger so that indoor air is ventilated by heat exchange with outdoor air. The method of claim 2 or 3, In the general ventilation operation, indoor air is discharged to the outside through a damper installed between the suction flow path and the discharge flow path of the heat exchanger, and the outdoor air is sucked into the indoor air through the heat exchange element of the heat exchanger, so that heat exchange between indoor and outdoor air does not occur. Ventilation operation, The heat exchange ventilation operation is a control method of the air conditioning system is a ventilation operation in which indoor air and outdoor air heat exchange through the heat exchange element. The method of claim 1, Further includes an air conditioner for heating and cooling the room, And controlling the cooling operation of the air conditioner if the air conditioner is performing a cooling operation during the normal ventilation operation of the total heat exchanger.

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