KR0146118B1 - Airconditioner control method by fingers resistance sensor - Google Patents

Abstract

The present invention relates to a method for controlling an air conditioner using a resin resistance sensor, and in the related art, since the PMV control is a central control for indoor environments, even if the user is sweating, even if the environment is not hot, the air conditioner only blows air or operates weakly. There is a lot of problems to raise the demand for this less cool, driving in the user mode that is cumbersome to use and energy consumption. Therefore, the present invention obtains the resin resistance value of the resin surface due to sweating when the temperature rises, and controls the operation of the air conditioner according to the resin resistance value.

Description

Air conditioner control method using resin resistance sensor

1 is an operation flowchart of the artificial intelligence control method of the air conditioner using the conventional PMV.

2 is an air conditioner control circuit diagram using the resin resistance sensor of the present invention.

3 is a graph of the resin resistance of the subjects having different temperatures in the environment having the specified temperature and humidity.

Figure 4 is a flow chart for the air conditioning control method using a resin resistance sensor of the present invention.

* Explanation of symbols for main parts of the drawings

10: remote control 20: resin resistance sensor

30: voltage sensing unit R1: resistance

The present invention relates to a method for controlling an air conditioner using a resin resistance sensor, and in particular, if the indoor temperature is a proper temperature in a state where a resin resistance value of a user using an air conditioner is low, the user's position is determined and concentrated to operate. When low is related to the air conditioner control method using a resin resistance sensor to operate the entire room in powerful cooling.

Conventional air conditioner control has been controlled under the concept of PMV, where PMV is short for Predicted Mean Vote, and four environmental elements and two human-side elements are calculated by simple calculation. Humidity, airflow, and radiation temperature are the human body factors.

However, because radiation temperature, airflow, and clothing are difficult to measure, air conditioners enter fixed values or calculate proportional equations based on other factors.

If the PMV result is calculated as any value within the range of -3 (cold) to +3 (hot, hot), it is the artificial intelligence of the air conditioner that performs feedback control so that the PMV value becomes "0".

Referring to the above operation based on the flow chart of FIG. 1, first, if PMV elements such as temperature, humidity, air flow or radiation temperature, activity amount or clothing amount are input, the PMV result value is calculated and the value is higher than 0.5. If it is small, go back to the beginning and calculate PMV again. Check if the PMV value is greater than 0.5.

If the PMV is not greater than 0.5, the air conditioner is turned off and terminated.

However, in the prior art as described above, since the PMV control is the indoor environment-centered control, even if the user's sweat is hot, the air conditioner only blows air or weakly drives the air conditioner if the environment is not hot. There are a lot of problems to be driven in a user mode that is bothersome to use and energy consuming.

Accordingly, an object of the present invention is to provide an air conditioner control method using a resin resistance sensor to obtain a resin resistance value due to sweating on the surface of the resin temperature when temperature rises and to control the operation of the air conditioner according to the resin resistance value.

The present invention for achieving the above object is a first step of measuring the user's resin resistance when the user's finger touches the remote control operation switch of the air conditioner, the resistance value measured in the first step the resin resistance constant value In the second step comparing with (α) and the result of the comparison in the second step, if the resistance value is smaller than the predetermined value, it is determined that the sense of warming and cooling is high and the third step of comparing the room temperature with the room temperature constant value β again. And a fourth step in which the room temperature is strongly cooled as a whole when the room temperature is greater than a predetermined value β in the third step, and when the room temperature is smaller, the user's position is concentrated and concentrated operation is performed. If the resistance value is greater than a certain value, it is determined that the sense of warming and cooling is low, and the fifth step of comparing the room temperature and the constant value β again, and if the room temperature is greater than the predetermined value β in the fifth step, the entire room is medium, If it is smaller the cooling comprises a sixth step of ever stopping the air conditioning operation.

The circuit for realizing the method consisting of the above steps is installed on the top of the operation switch 10 of the remote control to control the operation of the air conditioner as shown in Figure 2 resin resistance for measuring the resin resistance value according to the user's temperature Comparing the voltage value and the reference value transmitted through the sensor 20, the voltage sensor 30 through the resin resistance sensor 20 converts a specific resistance value into a voltage and outputs the voltage. And a microcomputer 40 for judging.

When described in detail with respect to the operation and effect of the present invention configured as described above.

When the human body reaches 30 ° C. or more, even if it is still sweating, it starts to sweat, and the body responds in the direction of eliminating this thermal shock.

And when the temperature is higher than 30 ℃, it shows a wet reaction to transfer evaporation energy to sweat after the dry reaction that only hot blood flows on the skin surface. I get squeaked.

If the temperature continues to rise further, the heat from the outside accumulates in the body, and the body loses water and is exhausted, which continues to die due to protein denaturation.

Focusing on these physical characteristics, the resin resistance sensor is installed in the remote control operation switch of the air conditioner to control the air conditioner.

When a person enters the room from the outside and touches the operation switch 10 of the remote control to turn on the air conditioner, the resistance value of the resin resistance sensor 20 is changed by the user's resin state. The higher the resistance, the lower the resistance due to the launching of the resin.

When the resistance value is transmitted from the resin resistance sensor 20 to the voltage sensing unit 30, the resin resistance of the user is set to A and B of the microcomputer 40 by the difference between the voltage according to the resistance value and the reference voltage of 3V. The voltage difference by is transmitted.

The microcomputer 40 controls the room temperature compared to the room temperature.

That is, referring to FIG. 4, first, the resin resistance of the user is measured, and the measured resin resistance and the resin resistance constant value α are compared. As a result, the resin resistance is low. If the room temperature is higher than the room temperature constant value (β) at a high state, the user's sense of warmth and room temperature are also high, so the air conditioner is controlled to operate the entire room with strong cooling. Control the air conditioning to locate and focus on the user.

In addition, if the result of the measurement of the resin resistance is a high value, it is determined that the user's sense of warmth and cooling is low and compares the room temperature with a constant value (β) again. Rather than the user's sense of warmth, the entire room is judged to have a high temperature, and the entire room is controlled to operate in medium or weak cooling.

And, if the room temperature is less than a predetermined value (β), the user's warm and cool and the room temperature is in an appropriate state, so that the air conditioner does not operate.

As shown in FIG. 3, the resin resistance of the subjects was measured in an environment of a specified temperature and humidity for 1 hour, and the subjects were distributed in similar areas although they differed slightly depending on the temperature.

As described in detail above, in the present invention, in the operation control of the air conditioner using the resin resistance sensor of the person, the resin temperature sensor is used in combination, thereby preventing errors in the resin resistance drop due to washing of the water, It is not only limited to summer, but also to be used effectively for heating by heat pump in winter.

Claims (3)

A first step of measuring a user's resin resistance when the user's finger touches the remote control of the air conditioner; a second step of comparing the resistance value measured in the first step with a resin resistance constant? If the resistance value is smaller than the predetermined value in the step, it is determined that the on-angle is high and the third step of comparing the room temperature with the constant value β again, and in the third step, the indoor temperature is constant value β If larger than 4th step to make the whole room powerful cooling, and if smaller, the user's position is concentrated and concentrated driving. If the resistance value is larger than a certain value in the second step, it is determined that the amount of activity is small. A fifth step of comparing the temperature with a constant value β and a sixth step of stopping the air conditioner operation if the room temperature is larger than the predetermined value β in the fifth step and stopping the air conditioner if it is smaller. By Air conditioning control method using a resin resistive sensor, characterized in that binary luer. The air conditioner control method using a resin resistance sensor according to claim 1, wherein the resin resistance value in the first stage uses a resin resistance sensor. The air conditioner control method using a resin resistance sensor according to claim 2, wherein the resin resistance sensor is installed on a surface of an operation switch of the remote controller.