KR100565697B1 - method for controlling agreeableness quotient in air-conditioning system - Google Patents

Abstract

The present invention is to calculate more accurate PMV and PPD in consideration of all six elements of temperature and humidity, air velocity, average radiation temperature, wear amount, and activity of human and surrounding environment. Detecting the values of the branch warm environment elements, defining the values of the six detected warm environment elements as constant values, and using the values of the six warm environment elements defined as the constant values. Calculating a predicted mean vote (PMV), and then calculating a predicted percentage of dissatisfied (PPD) using the calculated PMV, and if the calculated PPD value is less than 10, Maintaining the temperature and the air flow rate as it is, and comparing the defined activity amount with a preset reference value if the calculated PPD value is 10 or more, and comparing the activity amount with a reference value. If small, operating the air conditioning system to raise the current room temperature to a set temperature; if the comparison results in the amount of activity being greater than the reference value, detecting a defined current relative humidity; and depending on the detected relative humidity And driving the air supply / exhaust fan of the system to set the airflow speed to light or strong wind.

Air Conditioning System, Air Purifier, PTC, PMV, PPD

Description

Method for controlling agreeableness quotient in air-conditioning system

1 is a flow chart showing a comfort index control method of the air conditioning system according to the present invention.

2 is a diagram showing the improvement rate of satisfaction that the indoors meets through the operation of the air conditioning system according to the present invention through an experimental value

The present invention relates to an air conditioning system, and more particularly, to a method of controlling a comfort index through positive temperature coefficient (PTC) control according to PMV in an air purifier.

Recently, modern people spend about 80% of their time in indoor spaces such as homes, offices, and underground spaces.However, for modern people who spend most of their time indoors, a comfortable indoor environment can increase work efficiency. It is becoming a very important factor in maintaining health. In particular, as human living standards improve, the demand for a more comfortable indoor environment is increasing.

However, in general, the air in the enclosed space increases the content of carbon dioxide (CO ₂ ) over time due to the breathing of the indoor chambers, which interferes with the breathing of the indoor chambers. The heat load in the office is rapidly increasing, causing unpleasant discomfort to the insider.

In order to solve such unpleasant feelings and provide a more pleasant environment for the office workers, many air conditioning systems are used to control indoor temperature and humidity. However, it is difficult to control the air conditioning system by integrating the correlation between the physical environment such as air velocity, radiation temperature, and the human warmth.

Therefore, in order to quantitatively express the effects of the complex elements of the thermal environment on the human body and to present a range of simple and comfortable thermal environment, many indicators of the thermal environment are developed and used, and among them, the ASHRAE (American Society) Predicted Mean Vote used in Europe, adopted as New Effective Temperature (ET) and ISO (the International Organization for Standardization) 7730 used in the US, mainly of of Heating, Refrigerating and Air-Conditioning Engineers : PMV) and Predicted Percentage of Dissatisfied (PPD) are used as representative thermal environmental indicators.

The predicted thermal sensation (PMV) is measured by measuring the temperature, humidity, airflow speed, average radiation temperature, wear amount, and the amount of activity, which are the six thermal elements of the human and the surrounding environment, and assigning them to a comfortable equation based on the thermal balance of the human body. It is an index that predicts the warmth of theoretically. This is represented by Equation 1 below.

At this time, H is humidity, W is metabolic heat, Ec is skin evaporation, Cres is respiration by convection, Eres is respiration by evaporation, M is activity, and S is heat storage.

In addition, the expected dissatisfaction rate (PPD) is "hot", "warm", "slightly warm", "neutral (0)", "slightly cool", "cool" according to the expected thermal sensation (PMV). Set the scale of warmth to "cold", and use this set scale to indicate the expected proportion of people who are not satisfied with the current environment.

Therefore, when the value of the expected thermal feeling (PMV) is determined through Equation 1, the expected dissatisfaction rate PPD may be represented as in Equation 2 below.

And by controlling the air conditioning system in the room temperature and humidity conditions that satisfies the range of the expected dissatisfaction rate, it provides greater comfort to the indoor room (Korean Patent Publication No. 10-0275558).

However, the predicted thermal sensation (PMV) adopted and used in ISO 7730 measures and calculates all six elements of temperature and humidity, air velocity, average radiation temperature, wearing amount and activity of human and surrounding environment. However, in the case of the air conditioner that controls the indoor comfort index by using the predicted thermal sensation (PMV) and the predicted dissatisfaction rate (PDP), only the temperature, humidity, and airflow speed which are some of the six thermal elements of the human and the surrounding environment Expected warmth (PMV) is calculated using.

Therefore, the expected dissatisfaction rate (PPD) is calculated based on the calculated PMV, so that the degree of discomfort felt by the indoor user cannot be accurately determined.

Since the air conditioning system is controlled by using data that is not accurately identified, there are naturally many limitations to eliminate the discomfort felt by the indoor user and to provide greater comfort.

In particular, as human living standards improve, the desire for a more comfortable indoor environment has recently increased, and the expected warmth (PMV) and the expected warmth (PMV) calculated through more accurate calculations are expected at this time. By calculating accurate data values through the dissatisfaction rate (PPD) and effectively solving the discomforts felt by the indoors, research that can give the indoors greater comfort is indispensable.

In addition, in the case of an air purifier, which is one of the air conditioning systems, a heater for raising the temperature of indoor air is not configured as a device used for dust collection and antibacterial action. Therefore, when using an air cleaner, a separate heater must be further provided.

Therefore, the present invention has been made to solve the above problems, in consideration of all six elements of the thermal environment, such as temperature, humidity, air flow rate, average radiation temperature, wear amount, activity amount more accurate PMV and The purpose is to calculate the PPD.

Another object of the present invention is to control the air conditioning system using the accurately calculated PMV and PPD, to provide indoor air characteristics that the indoor room can feel more comfortable.

Another object of the present invention is to increase the comfort satisfaction of the indoor room by controlling the positive temperature coefficient (PTC) according to PMV and PPD in the air purifier.

A characteristic of the comfort index control method of the air conditioning system according to the present invention for achieving the above object is a detection step of detecting the values of the six thermal environment elements of the human and the surrounding environment, respectively, and the detected six thermal environments A definition step of defining an element value as a constant value, and using the values of six warm environment elements defined as the constant value to calculate a predicted mean vote (PMV), and then use the calculated PMV A calculation step of calculating a predicted percentage of dissatisfied (PPD); if the calculated PPD value is less than 10, a maintenance step of maintaining a current temperature and air flow rate as it is; and the calculated PPD value is 10 Or more, comparing the defined activity amount with a preset reference value, and if the activity result is smaller than the reference value, operating the air conditioning system to set the current room temperature. A rising step of raising the temperature, a detection step of detecting a current relative humidity defined if the activity amount is greater than the reference value, and driving an air supply / exhaust fan of the air conditioning system according to the detected relative humidity. It comprises a setting step of setting the to light or strong wind.

At this time, the six heat environment elements are preferably air temperature, humidity, air flow rate, average radiation temperature, wear amount, activity amount.

In addition, it is preferable to increase the room temperature by using a positive temperature coefficient (PTC) provided in the air conditioning system.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

A preferred embodiment of the comfort index control method of the air conditioning system according to the present invention will be described with reference to the accompanying drawings.

1 is a flowchart illustrating a comfort index control method of an air conditioning system according to the present invention.

Referring to Figure 1, first detects the six elements of the thermal environment, the temperature, humidity, air flow rate, average radiation temperature, wear amount, activity amount of the human and the surrounding environment (S10).

At this time, the temperature detects the room temperature and the average radiation temperature through a temperature sensor, and the humidity detects the relative humidity of the room through a humidity sensor. The indoor airflow velocity is detected by the rotation speed of the air supply and exhaust fan of the air conditioning system. The detection of the average radiation temperature of the room by the temperature sensor is to be calculated through the area average weighted temperature of each surface of the room such as the wall surface, the ceiling surface, and the floor surface.

The amount of wear is detected through the measured value of the temperature sensor, and the amount of activity is detected through a MET (metabolic) sensor.

The values of the six thermal environment elements thus detected are defined as constant values (S20).

That is, the room temperature detected by the temperature sensor is 14 ℃ when the temperature is less than 15 ℃, 16 ℃ when 15 ~ 17 ℃, 18 ℃ when 17 ~ 19 ℃, 20 ℃ when 19 ~ 21 ℃ In this case, it is defined as 22 ° C at 21 to 23 ° C, 24 ° C at 23 to 25 ° C, and 26 ° C at 25 ° C or more. At this time, the room temperature and the average radiation temperature is set the same.

And the humidity detected by the humidity sensor is defined as 30%, 40% to 60% 50%, 60% or more when defined as 70% or less.

In addition, the amount of wear is defined as 1.0 [clo] when the measured value of the temperature sensor is less than 23 ℃, 0.5 [clo] when more than 24 ℃, the activity amount is the activity range of the indoor chamber per hour through the MET (metabolic) sensor It is defined as 1 [met] if less than the preset reference activity amount through 2 [met].

At this time, the definition of the amount of wear and the setting criteria of the reference activity amount is set through the following Table 1 and Table 2 defined in accordance with the ISO standards.

그리고 상기 기류속도는 착의량 및 활동량의 정의된 각 조건을 확인하여 미풍, 약풍 또는 강풍 중 어느 하나로 정의한다. 이때의 기류속도는 공조 시스템의 급기/배기팬의 회전속도에 따라 조절되며, 그 설정 조건은 실내 공기의 미리 설정된 특성에 따라 설계자의 정의에 따라 다양하게 변경되게 된다.

And the air flow rate is defined as any one of the breeze, weak wind or strong wind by checking each defined condition of the amount of wear and activity. At this time, the airflow speed is adjusted according to the rotational speed of the air supply / exhaust fan of the air conditioning system, and the setting condition is changed in accordance with the definition of the designer according to the preset characteristics of the indoor air.

delete

As described above, after calculating a predicted mean vote (PMV) using Equation 1 using the values of six heat environment elements defined as constants, the calculated PMV is expressed in Equation 2 above. Substitution is carried out to calculate the predicted percentage of dissatisfied (PPD) (S30).

If the calculated PPD value is less than 10 (S40), the current temperature and air flow rate are maintained as it is (S50).

In addition, if the calculated PPD value is 10 or more (S40), it is determined whether the defined activity amount is 1 [met] or 2 [met] (S60).

If the activity amount is determined as the activity amount 1 [met], by operating the air conditioning system to increase the current room temperature by 2 ℃ (S70).

At this time, the room temperature is increased more stably by using positive temperature coefficient (PTC) provided in the air conditioning system.

Looking at the principle of the rise of the room temperature through the PTC as follows. First, the temperature defined to raise the current room temperature is referred to as a set temperature (temperature at which the room temperature is increased by 2 ° C).

When power is applied to the PTC, the PTC temperature continuously rises at ambient temp by self-heating. When the temperature rises and the PTC reaches a temperature higher than the set temperature, a rapid increase in the PTC resistance and a decrease in the current appear, and the temperature rises above the set temperature falls again and returns to the set temperature.

If the PTC temperature continues to fall below the set temperature, the temperature is increased again by decreasing the PTC resistance and increasing the current.

Through this process, the room temperature is maintained at a defined set temperature, which makes it possible to maintain the room temperature more stably than using a general heater, and there is no separate heater for temperature control such as an air purifier. For non-air conditioning systems, the addition of PTC provides simple and reliable control.

Next, if the activity amount is determined as the activity amount is 2 [met] (S60), the defined current relative humidity is detected (S80).

When the detected relative humidity is 50% (S80), the air supply / exhaust fan of the air conditioning system is driven to set the airflow speed to mild wind (S90), and when the detected relative humidity is 30% or less or 70% or more, air conditioning The airflow speed is set to strong wind by driving the air supply / exhaust fan of the system (S100).

Through the operation of the air conditioning system, it is possible to reduce the expected dissatisfaction rate (PPD) by providing the indoor temperature and humidity conditions that the indoors satisfy, and the improvement rate of the satisfaction is shown in FIG. 2.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

The comfort index control method of the air conditioning system according to the present invention as described above has the following effects.

First, more accurate PMV and PPD can be calculated by considering all six elements of the thermal environment of human and surrounding environment: temperature, humidity, airflow speed, average radiation temperature, wearing amount and activity.

Second, by controlling the air conditioning system by using the PMV and PPD accurately calculated as described above, it is possible to provide indoor air characteristics that the indoor room can feel more comfortable.

Third, the air purifier can stably control the room temperature by controlling the positive temperature coefficient (PTC) according to PMV and PPD, thereby increasing the comfort satisfaction of the indoor room.

Claims (9)

A detection step of detecting the values of six elements of the thermal environment such as temperature, humidity, airflow speed, average radiation temperature, wear amount, and activity amount of the human and the surrounding environment, A definition step of defining values of the six detected thermal environment elements as constant values; After calculating the predicted mean vote (PMV) using Equation 1 using the values of the six heating environment elements defined as the constant values, and substituting the calculated PMV into Equation 2 below, Calculating a Predicted Percentage of Dissatisfied (PPD); If the calculated PPD value is less than 10, the holding step of maintaining the current temperature and air flow rate as it is, A comparison step of comparing the defined activity amount with a preset reference value when the calculated PPD value is 10 or more; If the amount of activity is less than the reference value as a result of the comparison, the step of increasing the current room temperature to the set temperature by operating the air conditioning system; A detection step of detecting a defined current relative humidity if the activity result is greater than a reference value; And a setting step of driving the air supply / exhaust fan of the air conditioning system according to the detected relative humidity to set the airflow speed to a mild wind or a strong wind. Equation 1:

(H is humidity, W is metabolic heat, Ec is skin evaporation, Cres is convection, Eres is evaporation, M is activity, S is heat storage) Equation 2:

delete The method of claim 1, The air temperature detects the room temperature and the average radiation temperature through a temperature sensor, respectively, The humidity detects the relative humidity of the room through a humidity sensor, The air flow rate detects the indoor air flow rate through the rotation speed of the air supply and exhaust fan of the air conditioning system, The amount of wear is detected through the measured value of the temperature sensor, The activity amount is detected using a MET (metabolic) sensor using a range of activities of the room occupants per hour, comfort index control method of the air conditioning system. The method of claim 3, wherein the defining step The temperature measured from the room temperature is 14 ℃ when the detected temperature is less than 15 ℃, 16 ℃ when 15 ~ 17 ℃, 18 ℃ when 17 ~ 19 ℃, 20 ℃ when 19 ~ 21 ℃, 22 ° C for 21 ~ 23 ° C, 24 ° C for 23 ~ 25 ° C, 26 ° C for 25 ° C or more, The humidity is defined as 30% when the detected humidity is less than 40%, 50% when 40% to 60%, 70% when 60% or more, The wear amount is defined as 1.0 [clo] when the measured value of the temperature sensor is 23 ℃ or less, 0.5 [clo] when 24 ℃ or more, The activity amount is defined as 1 [met] if less than the reference activity amount set in advance through the activity range of the in-patient per hour through a MET (metabolic) sensor, and defined as 2 [met], The air flow rate is a comfort index control method of the air conditioning system, characterized in that it is defined as any one of the breeze, weak wind or strong wind by checking all defined conditions of the amount of wear and activity. The method of claim 4, wherein The air flow rate is controlled by the rotational speed of the air supply / exhaust fan of the air conditioning system comfort index control method of the air conditioning system. The method of claim 1, wherein the raising of the room temperature in the raising step is A method for controlling the comfort index of an air conditioning system, comprising raising a room temperature by using a positive temperature coefficient (PTC) provided in the air conditioning system. The method of claim 6 wherein the rise to room temperature through the PTC is Applying power to the PTC to continuously raise the PTC temperature at ambient temp by self-heating, When the PTC temperature rises and reaches a temperature above the set temperature, the temperature rises above the set temperature by the rapid increase of the PTC resistance and the decrease of the current to fall back to the set temperature; If the PTC temperature continues to fall and fall below the set temperature, the temperature is increased again by decreasing PTC resistance and increasing current; Comfort index control method of an air conditioning system comprising the step of repeating the above step. The method of claim 6, The set temperature is a comfort index control method of the air conditioning system, characterized in that the temperature rises 2 ℃ than the current temperature. The method of claim 1, wherein the setting step If the detected relative humidity is 50%, the air supply / exhaust fan of the air conditioning system is driven to set the airflow speed to mild wind. If the detected relative humidity is 30% or less or 70% or more, the air supply / exhaust fan of the air conditioning system is Comfort index control method of the air conditioning system, characterized in that by setting the air flow speed to a strong wind.

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