KR101524735B1 - Integrated control method using air quality control, Enthalpy control and duty cycle control of a building HVAC system - Google Patents

Abstract

The present invention can perform an enthalpy control operation and a duty cycle operation according to indoor and outdoor environments by considering air quality, enthalpy energy due to the introduction of outdoor air, and power saving energy due to the duty cycle operation; thereby improving indoor air quality and maximizing an energy saving effect. Also, the present invention can prevent the degradation of indoor comfort due to the duty cycle operation by detecting the indoor air quality during the duty cycle operation to determine the duration of the duty cycle operation. Also, the present invention can improve an energy saving effect by selectively operating an enthalpy control mode and a duty cycle operation mode while comparing the enthalpy energy and the power saving energy even during the duty cycle operation. A method to control an HVAC system of a building using air quality control, enthalpy control, and duty cycle control comprises: a step of measuring an indoor temperature, an indoor humidity, an outdoor temperature, an outdoor humidity, and an indoor air quality; a step of comparing the indoor air quality and a preset air quality; a step of determining one among the enthalpy control mode and the duty cycle operation mode when the indoor air quality is the set air quality or lower; a step of calculating an indoor air enthalpy, an outdoor air enthalpy, and an enthalpy energy which is a difference between the indoor and outdoor air enthalpies if the enthalpy control mode is set or the duty cycle operation mode is set and the present time is the preset duty cycle operation time; and a step of selectively performing one among the enthalpy control mode and the duty cycle operation mode by comparing the enthalpy energy and the power saving energy saved in the duty cycle operation mode.

Description

[0001] The present invention relates to a control method for indoor air pollution control using indoor pollution control, enthalpy control, and power saving operation control,

The present invention relates to a method for controlling air conditioning in a building, and more particularly, to an indoor air-conditioning control method for controlling indoor air pollution control, enthalpy control, and power saving that can maximize energy saving by comparing enthalpy energy caused by introduction of outdoor air and energy- The present invention relates to a method of controlling air conditioning in a building using operation control.

Generally, air conditioning facilities are installed in various buildings including office buildings, factories, hotels, restaurants, hospitals, and department stores. When the operation of the air conditioner is performed by the manager's judgment, unnecessary operation for a long time or all day may be performed, resulting in waste of energy.

Recently, a method for controlling the operation of the air conditioner has been continuously studied. When air-conditioning is performed in accordance with occupants, air-conditioning starts before the start time of the room, but since the start time of the air-conditioning is generally determined based on the hottest weather in summer and the coldest in winter, it is unnecessary There is a problem that the air conditioning starts early and energy is wasted.

However, there is a problem in that energy can be wasted due to introduction of outside air during operation of the air conditioner, and it is difficult to appropriately control the amount of outside air introduced according to the indoor conditions .

Korean Patent Publication No. 10-2011-0100895

It is an object of the present invention to provide an indoor air conditioner which can minimize indoor air intake while keeping the indoor air environment pleasant while maximizing the energy saving effect through enthalpy control and power saving operation control. And to provide an air conditioning control method.

A method of controlling air conditioning of a building using indoor pollution degree control, enthalpy control and power saving operation control according to the present invention includes the steps of: measuring a room temperature, an indoor humidity, an outdoor temperature, an outdoor humidity and an indoor pollution degree; Comparing the measured indoor air pollution with a pollution degree of the outdoor unit; comparing an indoor air pollution degree with the pollution degree; and controlling the opening degree of the outdoor air damper according to the indoor temperature to introduce outdoor air, Determining whether any one of the indoor air enthalpy and the indoor air enthalpy is set through the measured values when the enthalpy control mode is set or the power saving operation mode is set and the current time is a predetermined power saving operation time; Calculating an outdoor air enthalpy and calculating a difference between the indoor air enthalpy and the outdoor air enthalpy And a step of comparing the energy of the enthalpy energy and the energy saving energy saved in the power saving operation mode to select one of the enthalpy control mode and the power saving operation mode.

According to another aspect of the present invention, there is provided a method of controlling air conditioning in a building using indoor pollution control, enthalpy control, and power saving operation control, comprising the steps of: measuring room temperature, indoor humidity, outdoor temperature, outdoor humidity, An enthalpy control mode in which the outdoor air is introduced by controlling the opening degree of the outdoor air damper according to the indoor temperature if the indoor air pollution degree is equal to or lower than the set pollution degree; Determining whether any of the power saving operation modes for turning off the air conditioner is set; and determining whether any one of the power saving operation modes for turning off the air conditioner is set, and if the enthalpy control mode is set or the power saving operation mode is set, Lt; RTI ID = 0.0 > enthalpy < / RTI > and outdoor air enthalpy, Comparing the enthalpy energy with a power saving energy saved in the power saving operation mode; and if the enthalpy energy exceeds the power saving energies, Comparing the outdoor relative humidity with a predetermined set relative humidity range when the outdoor temperature is within the set outdoor temperature range; comparing the outdoor relative humidity with a predetermined set relative humidity range; Controlling an opening degree of the outside air damper according to a difference between the room temperature and a target temperature of a predetermined air conditioner; and if the enthalpy energy is equal to or lower than the power saving energy, The air conditioner is turned off during the set power saving operation time to start the power saving operation The method of claim 1, further comprising the steps of: determining whether a minimum power saving time to maintain the minimum power saving operation time is set; Comparing the execution time of the power saving operation with a preset power saving operation time if the temperature of the room is within the set room temperature range; Comparing the indoor pollution degree with the set pollution degree; comparing the execution time of the power saving operation with the minimum power saving time if the indoor pollution degree exceeds the set pollution degree; When the time exceeds the minimum power saving time, stopping the power saving operation and turning on the air conditioner It comprises the step of performing a sleep mode of operation.

The present invention takes into consideration the indoor pollution degree, the enthalpy energy due to the introduction of outside air, and the energy saving due to the power saving operation, so that the enthalpy control operation and the power saving operation can be performed according to indoor and outdoor environments, Energy saving effect can be maximized.

In addition, since the indoor pollution degree is detected during the power saving operation and the power saving operation is continuously determined according to the detected degree of indoor pollution, the indoor comfort can be prevented from being lowered due to the power saving operation.

Also, the energy saving effect can be further improved by comparing the enthalpy energy and the energy saving energy even during the power saving operation time, and by selecting the enthalpy control mode and the power saving operation mode accordingly.

1 is a flowchart illustrating a control method in a cooling operation according to an embodiment of the present invention.
2 is a flowchart illustrating a control method in a heating operation according to an embodiment of the present invention.

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

FIGS. 1A, 1B, and 1C are flowcharts illustrating a method for controlling air conditioning of a building during a cooling operation according to an embodiment of the present invention.

1A to 1C, when a cooling operation of a heating ventilation air-conditioning (HVAC) of a building is started, the indoor temperature, the outdoor temperature, and the indoor pollution degree are periodically (S1), the room temperature is the temperature of the room air, and the outdoor temperature is the temperature of the outdoor air. In addition, the operating time and the current time of the air conditioner are also measured. The indoor pollution degree can individually or integrally determine the CO ₂ concentration, the fine dust concentration, and the like of the indoor air. Since the concentration of CO ₂ in the room air is a typical factor indicating the quality of the room air, the concentration of the room CO ₂ is preferentially taken into account. Hereinafter, the indoor pollution degree is a CO ₂ concentration of indoor air, for example.

The indoor CO ₂ concentration measured above is compared with a predetermined set CO ₂ concentration (S 2)

When the indoor CO ₂ concentration exceeds the set CO ₂ concentration, the outdoor air damper of the building is opened at a predetermined set opening, and the outdoor air is introduced into the building. (S21) If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it can be judged that the indoor air is not pleasant, so that the outdoor air is introduced to supply the outdoor air necessary for the occupants.

If the indoor CO ₂ concentration is lower than the predetermined CO ₂ concentration, it is determined whether the enthalpy control mode or the power saving operation mode is set to perform either the enthalpy control mode or the power saving operation mode (Duty cycle mode) (S3) The enthalpy control mode is a mode for introducing outside air by controlling the opening degree of the outside air damper according to the room temperature differently. The power saving mode is a mode for reducing power consumption by turning on or off the air conditioner at regular intervals. When the power saving operation mode is performed, the operation time of the air conditioner can be shortened while maintaining the maximum heat environment, so that energy can be saved.

When the enthalpy control mode is set, the indoor humidity and the outdoor humidity are measured. (S4) The indoor humidity is the relative humidity of the room air, and the outdoor humidity is the relative humidity of the outdoor air. The indoor humidity and the outdoor humidity are measured only after the enthalpy control mode is set. However, the indoor humidity and the outdoor humidity may be measured together when the indoor temperature and the outdoor temperature are measured.

When the enthalpy control mode is set, indoor air enthalpy and outdoor air enthalpy are calculated through the values measured in step S5.

The enthalpy (h) is calculated by Equation (1).

(1)

The specific heat of static pressure of steam (1,846J / kg · K, 0.441kcal (kg / K · K) / kg · ° C), r0: 0 ° C latent heat of evaporation of water (2,501 ㅧ 103J / kg, 597.5kcal / kg).

The absolute humidity (x) is calculated by Equation (2).

 (2)

Where P is the atmospheric pressure and Pw is the steam partial pressure.

The atmospheric pressure P is calculated by Equation (3), and the steam partial pressure Pw is calculated by Equation (4).

(3)

Where P ₀ is the atmospheric pressure (= 101.325 kPa (760 mmHg)), Z is the sea level (m) and T _0ab is 288.15 K (= 15 + 273.15)

Where T _0ab is the atmospheric pressure at sea level in the standard atmosphere.

(4)

Here, RH is the relative humidity (%) and Pws is the saturated water vapor pressure (kPa).

The dew point temperature (T _dp ) is calculated by equation (5). The dew point temperature may be a minimum reference temperature for introducing the outside air into the room. When the dew point temperature is lower than the dew point temperature, outdoor air is not introduced even if the outdoor air enthalpy is low.

(5)

0.6112≤ P _w ≤12.350 (when 0~50 ℃)

0.0039? Pw <0.6112 (at -50 to 0 ° C)

Here, Y = loge (1,000 Pw)

The saturated water vapor pressure Pws is calculated by Equation (6).

(6)

Where T _ab [k] = T [占 폚] +273.15

If the indoor air enthalpy and the outdoor air enthalpy are respectively obtained by the above Equation 1, the difference between the indoor air enthalpy and the outdoor air enthalpy is calculated. The difference between the indoor air enthalpy and the outdoor air enthalpy can be called an enthalpy energy.

When the enthalpy energy is calculated as described above, the enthalpy energy is compared with the energy saving energy. (S6) Here, the energy saving is the energy saved in the power saving operation mode. The power saving energy can be calculated from the output of the electric motor installed in the air conditioner. The output of the electric motor can be calculated from the air power of the blowing fan of the air conditioner or the power of the motor driving the blowing fan. The air power of the blowing fan can be calculated by Equation (7), and the power of the motor can be directly inputted by the user.

(7)

Here, Q is the blowing amount (m ³ / min) and P _T is the blower voltage (mmAq).

The output of the motor can be calculated using Equation (8).

(8)

Where? F is the blower efficiency,? T is the conduction efficiency, and? Is the margin rate. The blower efficiency is about 45 to 60% for the entire airfoil, about 70 to 85% for the rear airfoil, about 55 to 65% for the reverse airfoil, and about 50 to 85% for the axial airfoil airfoil. The efficiency of the conduction device is about 90 to 93% for a flat belt and about 95% for a V-belt. The margin rate is about 0.10 to 0.20.

(S10) If the enthalpy energy is larger than the energy saving energy, performing the enthalpy control mode is more energy saving than performing the power saving operation mode. . Thus, the enthalpy control mode is started.

1B is a flowchart showing an example of the enthalpy control mode. 1B, in the enthalpy control mode, the outdoor air enthalpy is compared with the indoor air enthalpy (S11)

If the outdoor air enthalpy is less than or equal to the room air enthalpy, the outdoor temperature is compared with a preset outdoor temperature range (S12). The predetermined outdoor temperature range is set within a predetermined allowable maximum outdoor temperature OT_M, And the temperature OT_L. The allowable maximum outdoor temperature OT_M and the allowable minimum outdoor temperature OT_L are set in advance according to the indoor target temperature or the like. If the outdoor temperature is high during the cooling operation of the air conditioner, it is impossible to obtain the outdoor air cooling effect when the outdoor air is introduced. Therefore, it is determined whether the outdoor air is introduced considering the outdoor temperature.

If the outdoor temperature is within the set outdoor temperature range, the outdoor relative humidity is compared with a predetermined set relative humidity range. (S13) The set relative humidity range is set between a preset maximum allowable outdoor relative humidity (OH_M) and a preset allowable minimum outdoor relative humidity (OH_L). When the outdoor relative humidity is high during the cooling operation of the air conditioner, the humidity of the room is increased when the outside air is introduced, so that it is determined whether or not the outdoor air is introduced in consideration of the outdoor relative humidity.

If the outdoor relative humidity is within the set relative humidity range, a difference between the room temperature RT and a predetermined target temperature SAT of the air conditioner is calculated (S14).

The opening degree of the outside air damper is controlled differently according to the difference between the room temperature RT and the target temperature SAT of the air conditioner set in advance. Here, the room temperature (RT) is the temperature of the room air measured in real time, and the target temperature (SAT) is the cooling target temperature of the air conditioner inputted by the user.

For example, if the difference between the room temperature RT and the target temperature SAT is equal to or greater than -2 degrees, the outside air damper is opened 100% (S15) (S16)

The opening degree of the outside air damper is set to a difference between the room temperature RT and the target temperature SAT when the difference between the room temperature RT and the target temperature SAT is less than -2 degrees and equal to or greater than -4 degrees (S17) (S18)

If the difference between the room temperature (RT) and the target temperature (SAT) is less than -4 degrees, the outside air damper is opened to a preset minimum opening degree. (S19) (S20)

On the other hand, if the enthalpy control mode is not set, it is determined whether the power saving operation mode is to be applied (S30)

If it is determined that the power saving operation mode is applied, it is determined whether it is the power saving operation time. (S31) Even if the power saving operation mode is set, the power saving operation for turning off the air conditioner only during the power saving operation time is performed. In the present embodiment, one stopping time of the air conditioner is set to 10 minutes per hour, for example. Therefore, the power saving operation time is 10 minutes per hour.

It is determined that the time is not the power saving operation time, and the enthalpy control mode is performed without applying the power saving operation mode. That is, the enthalpy control mode can be performed because 10 minutes of one hour is the power saving operation time and the remaining 50 minutes is not the power saving operation time.

If it is determined that the power saving operation time is longer than the predetermined time, the enthalpy energy is compared with the power saving energy (S6). That is, the enthalpy energy is compared with the power saving energy even during the power saving operation application time, . &Lt; / RTI &gt;

When the enthalpy energy exceeds the energy saving energy, the enthalpy control mode is performed.

When the enthalpy energy is equal to or lower than the power saving energy, the power saving operation mode is performed. (S40)

1C is a flowchart showing an example of the power saving operation mode. Referring to FIG. 1C, in the power saving operation mode, the air conditioner is turned off to start the power saving operation (S41)

When the air conditioner is turned off to start the power saving operation, it is determined whether a predetermined minimum power saving operation time is to be applied. (S42) The minimum power saving operation time is set in advance to the minimum power saving operation time. When the air conditioner is turned off immediately after the power saving operation or when the air conditioner is turned on and immediately turned off, the electric motor of the air conditioner is overloaded. Therefore, the minimum Set the time. For example, the minimum power saving operation time may be set to 3 to 5 minutes.

If it is determined that the minimum power saving operation time has been set, the room temperature RT is compared with a predetermined set room temperature range. The set room temperature range is set as an allowable maximum temperature during the cooling operation of the air conditioner, for example, and it is determined whether or not the room temperature (RT) exceeds the allowable maximum temperature (S43)

If it is determined that the room temperature (RT) is below the allowable maximum temperature, it is determined that the comfortable state of the room can be maintained even when the air conditioner is turned off, so that the power saving operation is maintained during the power saving operation time.

If the unit is under the power saving operation time, and compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S44) (S45)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined whether the minimum power saving operation time has elapsed (S 46). If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, the room air is not pleasant It is first determined whether the minimum power saving operation time has elapsed so as to determine whether or not the power saving operation is suspended. In the present embodiment, since the minimum power saving operation time is 3 minutes, for example, it is determined whether 3 minutes have elapsed since the air conditioner is turned off.

If it is determined that the minimum power saving operation time has elapsed, the air conditioner is turned on (S47)

After the air conditioner is turned on, it is possible to compare the indoor CO ₂ concentration with the predetermined CO ₂ concentration, thereby selecting either the enthalpy control mode or the power saving operation mode.

On the other hand, if the room temperature RT exceeds the allowable maximum temperature (S43), it is determined whether the minimum power saving operation time has elapsed (S46). If the minimum power saving operation time has elapsed, the air conditioner is turned on (S47 )

If it is determined that the minimum power saving operation time is not applied (S42) when the air conditioner is turned off and the power saving operation starts, it is determined whether the indoor temperature is set to a predetermined set temperature (S50).

If it is not set to maintain the set temperature, it is determined whether the power saving operation time has passed the power saving operation time. In this embodiment, since the power saving operation time is 10 minutes per hour, for example, it is determined whether 10 minutes have elapsed since the air conditioner was turned off. (S51)

If the unit is under the power saving operation time, and compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S52)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined whether the minimum power saving operation time has elapsed. When the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined that the indoor air is not comfortable, so the air conditioner is turned on (S 47)

After the air conditioner is turned on, it is possible to compare the indoor CO ₂ concentration with the predetermined CO ₂ concentration, thereby selecting either the enthalpy control mode or the power saving operation mode.

Meanwhile, when the air conditioner is turned off to start the power saving operation, the minimum power saving operation time is not applied (S42), and if it is set to maintain the room temperature at a predetermined set temperature (S50) ) And the preset room temperature range. The predetermined room temperature range is set as an allowable maximum temperature during the cooling operation of the air conditioner, for example, and it is determined whether the room temperature RT exceeds the allowable maximum temperature (S53)

The room temperature (RT) is equal or less the maximum permitted temperature, compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S54)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, the air conditioner is immediately turned on (S 47)

In the present embodiment, the control is performed by considering the minimum power saving operation time, the room temperature, and the indoor CO2 concentration during the power saving operation time. However, the present invention is not limited to this, It is also possible to control at least one of the temperature and the indoor CO 2 concentration.

2 is a flowchart illustrating a method of controlling air conditioning of a building in a heating operation according to an embodiment of the present invention.

2A to 2C, when the heating operation of the air conditioner of the building is started, the indoor temperature, the outdoor temperature, and the indoor CO ₂ concentration are measured by sensors installed inside and outside the building, And is measured in real time (S101)

The indoor CO ₂ concentration measured above is compared with a predetermined set CO ₂ concentration (S 102)

If it is determined that the indoor CO ₂ concentration is lower than the preset CO ₂ concentration, it is determined whether the enthalpy control mode or the power saving operation mode is set to perform either the enthalpy control mode or the power saving operation mode. )

When the enthalpy control mode is set, the indoor humidity and the outdoor humidity are measured (S104). The indoor humidity is the relative humidity of the room air, and the outdoor humidity is the relative humidity of the outdoor air. The indoor humidity and the outdoor humidity are measured only after the enthalpy control mode is set. However, the indoor humidity and the outdoor humidity may be measured together when the indoor temperature and the outdoor temperature are measured.

When the enthalpy control mode is set, the indoor air enthalpy and the outdoor air enthalpy are respectively calculated through the values measured in the above step (S105). The enthalpy is the same as that described in the cooling operation, and a detailed description thereof will be omitted.

The enthalpy energy is compared with the energy-saving energy. (S106) The method for obtaining the energy-saving energy is the same as that described in the cooling operation, and a detailed description thereof will be omitted.

If the enthalpy energy is larger than the power saving energy, the enthalpy control mode is started. (S110) If the enthalpy energy is larger than the power saving energy, performing the enthalpy control mode is more energy saving than performing the power saving operation mode . Thus, the enthalpy control mode is started.

2B is a flowchart showing an example of the enthalpy control mode in the heating operation. 2B, in the enthalpy control mode, the outdoor air enthalpy is compared with the indoor air enthalpy (S111)

If the outdoor air enthalpy is less than or equal to the indoor air enthalpy, the outdoor temperature is compared with a preset outdoor temperature range (S112). The predetermined outdoor temperature range is set to be equal to or higher than a predetermined allowable minimum outdoor temperature OT_L I will explain it. If the outdoor temperature is lower than the allowable minimum outdoor temperature during the heating operation of the air conditioner, it is impossible to obtain the outdoor heating effect upon introduction of the outdoor air.

If the outdoor temperature is equal to or higher than the allowable minimum outdoor temperature, the outdoor relative humidity is compared with a predetermined set relative humidity range. (S113) The set relative humidity range is set to be equal to or greater than a preset allowable minimum outdoor relative humidity OH_L, for example.

If the outdoor relative humidity is higher than or equal to the allowable minimum outdoor relative humidity, a difference between the room temperature (RT) and a predetermined target temperature (SAT) of the air conditioner is calculated (S114)

For example, if the difference between the room temperature RT and the target temperature SAT is equal to or greater than 2 degrees, the outside air damper is opened 100% (S115) (S116)

The opening degree of the outside air damper is proportional to the difference between the room temperature RT and the target temperature SAT when the difference between the room temperature RT and the target temperature SAT is less than 2 degrees and more than 4 degrees, (S117) (S118)

If the difference between the room temperature (RT) and the target temperature (SAT) is less than 4 degrees, the outside air damper is opened to a preset minimum opening degree. (S119) (S120)

2A, if the enthalpy control mode is not set (103), it is determined whether the power saving operation mode is to be applied (S130)

If it is determined that the power saving operation mode is applied, it is determined whether it is the power saving operation time. (S131) Even if the power saving operation mode is set, a power saving operation to turn off the air conditioner only during the power saving operation time is performed. In the present embodiment, one stopping time of the air conditioner is set to 10 minutes per hour, for example. Therefore, the power saving operation time is 10 minutes per hour.

It is determined that the time is not the power saving operation time, and the enthalpy control mode is performed without applying the power saving operation mode. That is, the enthalpy control mode can be performed because 10 minutes of one hour is the power saving operation time and the remaining 50 minutes is not the power saving operation time.

If it is determined that the power saving operation time is the time, the enthalpy energy is compared with the power saving energy (S106). That is, the enthalpy energy is compared with the power saving energy even in the power saving operation application time, . &Lt; / RTI &gt;

When the enthalpy energy exceeds the power saving energy, the enthalpy control mode is performed (S110)

If the enthalpy energy is equal to or lower than the power saving energy, the power saving operation mode is performed (S140)

2C is a flowchart showing an example of the power saving operation mode in the heating operation. Referring to FIG. 2C, in the power saving operation mode, the air conditioner is turned off to start the power saving operation (S141)

When the air conditioner is turned off to start the power saving operation, it is determined whether a predetermined minimum power saving operation time is to be applied. (S142) The minimum power saving operation time is set in advance to a time at which the power saving operation should be kept to a minimum. When the air conditioner is turned off immediately after the power saving operation or when the air conditioner is turned on and immediately turned off, the electric motor of the air conditioner is overloaded. Therefore, the minimum Set the time. For example, the minimum power saving operation time may be set to 3 to 5 minutes. In the present embodiment, the minimum power saving operation time is 3 minutes, for example.

If it is determined that the minimum power saving operation time has been set, the room temperature RT is compared with a predetermined set room temperature range. The set room temperature range is set to an allowable minimum temperature during the heating operation of the air conditioner, for example, and it is determined whether or not the room temperature RT is equal to or higher than the allowable minimum temperature (S143)

If it is determined that the room temperature RT is equal to or higher than the allowable minimum temperature, it is determined that the comfortable state of the room can be maintained even when the air conditioner is turned off, so that the power saving operation is maintained during the power saving operation time.

If the unit is under the power saving operation time, and compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S144) (S145)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined whether the minimum power saving operation time has elapsed (S 146). If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, indoor air is not pleasant It is first determined whether the minimum power saving operation time has elapsed so as to determine whether or not the power saving operation is suspended. In the present embodiment, since the minimum power saving operation time is 3 minutes, for example, it is determined whether 3 minutes have elapsed since the air conditioner is turned off.

If it is determined that the minimum power saving operation time has elapsed, the air conditioner is turned on (S147)

After the air conditioner is turned on, it is possible to compare the indoor CO ₂ concentration with the predetermined CO ₂ concentration, thereby selecting either the enthalpy control mode or the power saving operation mode.

If the room temperature RT is equal to or higher than the allowable minimum temperature (S143), it is determined whether the minimum power saving operation time has elapsed (S146). If the minimum power saving operation time has elapsed, the air conditioner is turned on (S147)

Meanwhile, if it is determined that the minimum power saving operation time is not applied (S142) when the power saving operation is started by turning off the air conditioner, it is determined whether the indoor temperature is set to a predetermined set temperature (1S50)

If it is not set to maintain the set temperature, it is determined whether the power saving operation time has passed the power saving operation time. In this embodiment, since the power saving operation time is 10 minutes per hour, for example, it is determined whether 10 minutes have elapsed since the air conditioner was turned off. (S151)

If the unit is under the power saving operation time, and compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S152)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined whether the minimum power saving operation time has elapsed. When the indoor CO ₂ concentration exceeds the set CO ₂ concentration, it is determined that the room air is not pleasant, so the air conditioner is turned on (S 147)

After the air conditioner is turned on, it is possible to compare the indoor CO ₂ concentration with the predetermined CO ₂ concentration, thereby selecting either the enthalpy control mode or the power saving operation mode.

Meanwhile, when the air conditioner is turned off to start the power saving operation, the minimum power saving operation time is not applied (S142), and if it is set to maintain the indoor temperature at a predetermined set temperature (S150) ) And the preset room temperature range. The predetermined room temperature range is set to an allowable minimum temperature during the heating operation of the air conditioner, and it is determined whether the room temperature RT is equal to or higher than the allowable minimum temperature (S153)

The room temperature (RT) is not less than the allowable maximum temperature, and compares the indoor CO ₂ concentration and the set CO ₂ concentration. (S154)

If the indoor CO ₂ concentration exceeds the set CO ₂ concentration, the air conditioner is immediately turned on (S 147)

As described above, the control method of the power saving operation mode according to the embodiment of the present invention selects at least one of the indoor CO ₂ concentration, the indoor temperature, the power saving operation time and the minimum power saving operation time, .

When the control is performed in consideration of the minimum power saving operation time, since the power saving operation is stopped after the minimum power saving operation time has elapsed, it is possible to prevent the motor of the air conditioner from being unstable due to abrupt stop or operation.

Further, when it is determined that the temperature change in the room is small, the power saving operation mode can be controlled only in accordance with the power saving operation time regardless of the temperature change in the room.

Further, by comparing the CO ₂ concentration and the set CO ₂ concentration of the room it can be prevented from being deteriorated due to the room air environment to stop the power-saving operation. Therefore, a pleasant indoor environment can be provided.

In addition, when the power saving operation mode is controlled according to the indoor temperature, it is possible to prevent the indoor temperature from being excessively raised or lowered due to the shortening of the operation time of the air conditioner and to maintain the indoor temperature appropriately, It is possible to provide an appropriate cooling and heating environment.

Further, in the case of a building in which a plurality of air conditioners are installed, it is possible to control at least a part of the plurality of air conditioners to be operated and the other to stop. That is, by controlling the plurality of air conditioners to be alternately operated or stopped, the maximum demand power of the building can be lowered.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (12)

Measuring indoor temperature, indoor humidity, outdoor temperature, outdoor humidity, and indoor pollution degree;
Comparing the indoor pollution degree with a predetermined set pollution degree;
An enthalpy control mode in which the outdoor air is introduced by controlling the opening degree of the outside air damper according to the room temperature and a power saving operation mode in which the air conditioner is turned on / ;
The indoor air enthalpy and the outdoor air enthalpy are calculated through the values measured in the case where the enthalpy control mode is set or the power saving operation mode is set and the current time is a predetermined power saving operation time, Calculating enthalpy energy as a difference of enthalpy;
Comparing the enthalpy energy with a power saving energy saved in the power saving operation mode, and selecting one of the enthalpy control mode and the power saving operation mode and performing the indoor pollution control, the enthalpy control, and the power saving operation control Control method of air conditioning in the building. The method according to claim 1,
And when the enthalpy energy exceeds the energy saving energy, performs the enthalpy control mode,
And controlling the indoor pollution degree, the enthalpy control, and the power saving operation to perform the power saving operation mode when the enthalpy energy is equal to or lower than the power saving energy. The method of claim 2,
And controlling the indoor pollution degree control, the enthalpy control, and the power saving operation control, including the step of opening the outside air damper to a predetermined set opening degree when the indoor pollution degree exceeds the set pollution degree. The method of claim 3,
Wherein performing the enthalpy control mode comprises:
Comparing the outdoor air enthalpy with the indoor air enthalpy;
Comparing the outdoor temperature with a preset outdoor temperature range if the indoor air enthalpy is less than the indoor air enthalpy;
Comparing the outdoor relative humidity with a preset relative humidity range if the outdoor temperature is within the set outdoor temperature range;
And controlling the opening degree of the outside air damper according to a difference between the room temperature and a target temperature of a predetermined air conditioner to open the outside air damper if the outdoor relative humidity is within the set relative humidity range, Control Method of Building Air Conditioning Using Enthalpy Control and Power Saving Operation Control. The method of claim 4,
The process of opening the outside-
When the difference between the room temperature and the target temperature is equal to or greater than a first set temperature difference, the outside air damper is fully opened,
If the difference between the room temperature and the target temperature is less than a second set temperature difference set smaller than the first set temperature difference,
The indoor pollution degree control for controlling the opening degree of the outside air damper to be proportional to the difference between the room temperature and the target temperature when the difference between the room temperature and the target temperature is less than the first set temperature difference and equal to or greater than the second set temperature difference, Control Method of Building Air Conditioning Using Enthalpy Control and Power Saving Operation Control. The method of claim 2,
The step of performing the power saving operation mode includes:
Turning off the air conditioner to start a power saving operation;
Determining whether a minimum power saving time for maintaining the minimum power saving operation is set;
Comparing the temperature of the room with a preset room temperature range differently set according to cooling and heating of the air conditioner when the minimum power saving time is set;
Comparing the execution time of the power saving operation with a preset power saving operation time if the temperature of the room is within the preset room temperature range;
Comparing the indoor pollution degree with a predetermined set pollution degree if the execution time of the power saving operation is within the set power saving operation time;
Comparing the execution time of the power saving operation with the minimum power saving time if the indoor pollution degree exceeds the set pollution degree;
And stopping the power saving operation and turning on the air conditioner when the execution time of the power saving operation exceeds the minimum power saving time. The method of claim 6,
Determining whether the indoor temperature is set to be maintained within a preset indoor temperature range differently according to cooling and heating of the air conditioner if the minimum power saving time is not set;
Comparing the room temperature with the set room temperature range if the setting of keeping the room temperature within the set temperature range is established;
Comparing the indoor air pollution degree to a predetermined set pollution degree if the indoor temperature is within the set indoor temperature range;
And stopping the power saving operation and turning on the air conditioner if the indoor air pollution degree exceeds the set pollution degree, and controlling indoor air pollution control, enthalpy control, and power saving operation control. The method of claim 7,
Comparing the execution time of the power saving operation with a preset power saving operation time if the maintenance of the room temperature within the set temperature range is not set;
Comparing the indoor pollution degree with a predetermined set pollution degree if the execution time of the power saving operation is within the power saving operation time;
And stopping the power saving operation and turning on the air conditioner if the indoor air pollution degree exceeds the set pollution degree, and controlling indoor air pollution control, enthalpy control, and power saving operation control. The method of claim 2,
The step of performing the power saving operation mode includes:
Turning off the air conditioner to start a power saving operation;
Determining whether to keep the room temperature within a preset temperature range differently according to cooling and heating of the air conditioner;
Comparing the room temperature with the set room temperature range during a predetermined power saving operation time when the setting of keeping the room temperature within the set room temperature range is established;
Comparing the indoor air pollution degree with a predetermined set pollution degree if the indoor temperature is out of the set room temperature range;
And stopping the power saving operation and turning on the air conditioner if the indoor air pollution degree exceeds the set pollution degree, and controlling indoor air pollution control, enthalpy control, and power saving operation control. The method of claim 2,
The step of performing the power saving operation mode includes:
Turning off the air conditioner to start a power saving operation;
Comparing the execution time of the power saving operation with a preset power saving operation time;
Comparing the indoor pollution degree with a predetermined set pollution degree if the execution time of the power saving operation is within the power saving operation time;
And stopping the power saving operation and turning on the air conditioner if the indoor air pollution degree exceeds the set pollution degree, and controlling indoor air pollution control, enthalpy control, and power saving operation control. Measuring indoor temperature, indoor humidity, outdoor temperature, outdoor humidity, and indoor pollution degree;
Comparing the indoor pollution degree with a predetermined set pollution degree;
If the indoor pollution degree is equal to or lower than the preset pollution degree, either an enthalpy control mode for controlling the opening degree of the outside air damper according to the room temperature to introduce outside air and a power saving operation mode for turning off the air conditioner for a predetermined period of time are set ;
If the enthalpy control mode is set or when the power saving operation mode is set and the current time is a predetermined power saving operation time, the indoor air enthalpy and the outdoor air enthalpy are calculated through the measured values and the indoor air enthalpy and the outdoor air Calculating enthalpy energy as a difference of enthalpy;
Comparing the enthalpy energy with a power saving energy saved in the power saving operation mode;
Comparing the outdoor temperature with a predetermined set outdoor temperature range when the enthalpy energy exceeds the power saving energy; and if the outdoor temperature is within the set outdoor temperature range, comparing the outdoor relative humidity with a predetermined set relative humidity range And controlling an opening degree of the outside air damper according to a difference between the room temperature and a target temperature of a predetermined air conditioner when the outdoor relative humidity is within the set relative humidity range ;
The method comprising the steps of: when the enthalpy energy is equal to or lower than the power saving energy, turning off the air conditioner for a preset power saving operation time to start a power saving operation; determining whether a minimum power saving time, Comparing the temperature of the room with a preset room temperature range differently set according to cooling and heating of the air conditioner when the minimum power saving time is set; Comparing the indoor pollution degree with the predetermined set power saving operation time if the execution time of the power saving operation is within the set power saving operation time; If the pollution degree is exceeded, the execution time of the power saving operation is compared with the minimum power saving time And performing a power saving operation mode including stopping the power saving operation and turning on the air conditioner when the execution time of the power saving operation exceeds the minimum power saving time, Control Method of Building Air Conditioning Using Power Saving Operation Control. The method according to any one of claims 1 to 11,
Wherein the indoor pollution degree is control method of indoor air pollution using indoor pollution degree control, enthalpy control and power saving operation control including CO ₂ concentration of indoor air.

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