KR101925970B1 - Smart electric fan using human body heat capacity and method of controlling smart electric fan using the same - Google Patents

Abstract

The present invention relates to a smart fan using a body heat capacity and a control method of a smart fan using the same. According to the present invention, there is provided a method of controlling a smart fan, comprising the steps of: a smart fan receiving environment information including body information including a user's key, weight and gender; and body temperature of a user, Calculating a body heat capacity of the user based on the user's body surface area and the body information, calculating a target body temperature change amount for the user using the environment information, Calculating a second heat loss amount corresponding to the air flow rate of the smart fan using the first heat loss amount according to the radiation heat of the user and the evaporation heat of the user, the target body temperature change amount, and the body heat capacity, Generates a motor speed control signal of the smart fan, And controlling the motor driving of the smart fan according to a control signal. As described above, according to the present invention, since the body heat capacity of the user is calculated through only the key and the weight information, the amount of calculation according to the control can be reduced, and the air volume of the fan can be controlled based on the user's body heat capacity, Power consumption is reduced.

Description

TECHNICAL FIELD [0001] The present invention relates to a smart fan using a body heat capacity and a control method of a smart fan using the same,

The present invention relates to a smart fan using a body heat capacity and a control method of a smart fan using the same, and more particularly, to a smart fan using a body heat capacity to provide an optimum fan amount according to a body heat capacity and a smart fan using the same ≪ / RTI >

In general, most fans use a control interface such as a button to allow the user to adjust the air volume of the fan in predetermined stages. There is a difference in how many levels of airflow control can be controlled by the airflow control method of the fan, but the fact that it provides the airflow that has already been determined for each step remains unchanged. As a result, at some stages, the wind of the fan becomes cold, and at some stage, it may feel hot.

In order to solve such problems, researches on a smart fan that automatically collects and analyzes environmental information around the user and controls the air volume like a temperature sensor is being conducted.

In recent years, fans using a fan control method have been used to reduce or increase the air volume automatically by comparing the room temperature or indoor humidity level or the user's body temperature information with an appropriate threshold value.

However, people have different physical information, so even if they are exposed to the same conditions, they feel differently. Particularly, since people have different body heat capacities, even when they are exposed to the same air volume, the body temperature changes are different from each other. Therefore, it is necessary to consider the heat capacity of the user to control the air volume, so that the user can provide air volume for comfort.

Accordingly, there is a need to provide a fan control method that can reflect a user's body heat capacity information and provide a user with an appropriate amount of airflow.

The background of the present invention is disclosed in Korean Patent Publication No. 10-2016-0125839 (published on November 11, 2016).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a smart fan using a body heat capacity to provide an optimal fan air volume according to a body heat capacity and a control method of a smart fan using the same.

According to an aspect of the present invention, there is provided a method of controlling a smart fan, the smart fan being configured to receive environment information including body information including a user's key, weight and gender, Calculating a body surface area of the user using the body information, calculating a body heat capacity of the user using the body surface area of the user and the body information, calculating a body heat capacity of the user based on the environmental information Computing a second heat loss amount corresponding to the air flow rate of the smart fan using the first heat loss amount according to the radiation heat of the user and the evaporation heat, the target body temperature change amount, and the body heat capacity; The motor speed of the smart fan corresponding to the second heat loss amount And controlling the motor driving of the smart fan according to the generated motor speed control signal.

The step of calculating the user's body heat capacity may calculate the user's body heat capacity (HC) using the following equation.

Here, W denotes the weight of the user, and BSA denotes the body surface area of the user.

The body information may further include age information of the user.

The step of calculating the body heat capacity of the user may calculate the body heat capacity (HC) of the user by using the following equation when the age of the user is 20 years or older.

Here, W denotes the weight of the user, and BSA denotes the body surface area of the user.

The step of calculating the body heat capacity of the user may calculate the body heat capacity (HC) of the user using the following equation when the age of the user is less than 20 years.

Here, W denotes the weight of the user, and BSA denotes the body surface area of the user.

A smart fan according to another embodiment of the present invention includes an input unit for receiving environmental information including body information including a user's key, weight and sex, and body temperature of a user, Calculating a body heat capacity of the user based on the user's body surface area and the body information, calculating a target body temperature change amount for the user using the environment information, A calculation unit for calculating a second heat loss amount according to the air volume of the smart fan using the first heat loss amount, the target body temperature change amount and the body heat capacity according to the first heat loss amount, the motor speed control signal And generates a motor speed control signal based on the generated motor speed control signal, A control unit for controlling the motor of the fan.

As described above, according to the present invention, since the body heat capacity of the user is calculated through only the key and the weight information, the amount of calculation according to the control can be reduced, and the air volume of the fan can be controlled based on the user's body heat capacity, Power consumption is reduced.

1 is a configuration diagram of a smart fan according to an embodiment of the present invention.
2 is a flowchart of a method of controlling a smart fan according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

First, a smart fan according to an embodiment of the present invention will be described with reference to FIG. 1 is a configuration diagram of a smart fan according to an embodiment of the present invention.

1, the smart electric fan 100 according to the embodiment of the present invention includes an input unit 110, a calculation unit 120, a generation unit 130, and a control unit 140. As shown in FIG.

First, the input unit 110 receives environment information including body information including the user's key, weight and gender, and body temperature of the user. At this time, the body information may further include age information of the user. Meanwhile, the body surface temperature may be measured through a thermal sensing camera or a temperature measuring sensor, and a thermal sensing camera or a temperature measuring sensor may be included in the smart electric fan 100 according to the embodiment of the present invention.

Next, the calculation unit 120 calculates the body surface area of the user using the body information. The calculating unit 120 calculates the body heat capacity of the user using the user's body surface area and body information, and calculates the target body temperature change amount for the user using the environmental information.

Then, the calculating unit 120 calculates the second heat loss amount according to the air volume of the smart fan 100, using the first heat loss amount, the target body temperature change amount, and the body heat capacity according to the radiant heat of the user and the evaporation heat of the user.

Next, the generation unit 130 generates a motor speed control signal of the smart fan 100 corresponding to the second heat loss amount.

The control unit 140 controls the motor of the smart fan 100 according to the generated motor speed control signal.

Next, a method of controlling a smart fan using a smart fan according to an embodiment of the present invention will be described with reference to FIG. 2 is a flowchart of a method of controlling a smart fan according to an embodiment of the present invention.

2, the input unit 110 receives environment information including body information including a user's key, weight and gender, and body temperature of the user (S210). At this time, the body information may further include age information of the user.

Then, the calculating unit 120 calculates the body surface area of the user using the body information (S220).

Here, BSA denotes the body surface area of the user, W denotes the weight of the user, and H denotes the user's key.

Meanwhile, the calculating unit 120 may calculate the body surface area of the user through Equation (2) or Equation (3) below as well as Equation (1).

Then, the calculating unit 120 calculates the body heat capacity of the user using the user's body surface area and body information (S230).

Specifically, the calculating unit 120 calculates the user's body heat capacity (HC) using the following equation (4).

Here, W denotes the weight of the user, and BSA denotes the body surface area of the user.

That is, Equation (4) is expressed as Equation (5) below when the user is male, and Equation (6) is expressed as Equation (6) below when the user is female.

Meanwhile, the calculator 120 can calculate the body heat capacity using only the user's key, body surface area, and sex without considering the age of the user as in Equations 4 to 6, The body heat capacity of the user may be calculated.

Specifically, when considering the age of the user, the calculating unit 120 calculates the body heat capacity of the user through Equation (7) and Equation (8) below.

If the user is 20 years old or older, the calculating unit 120 calculates the user's body heat capacity (HC) using the following Equation (7).

Here, W denotes the weight of the user, and BSA denotes the body surface area of the user.

If the age of the user is less than 20 years, the calculating unit 120 calculates the user's body heat capacity (HC) using the following equation (8).

Next, the calculating unit 120 calculates the target body temperature change amount for the user using the environmental information (S240).

Specifically, the calculating unit 120 calculates the target body temperature change amount using the difference between the body surface temperature of the user and the predetermined reference body surface temperature. For example, when the body surface temperature of the user is 37 degrees and the surface temperature of the reference body is 35.5 degrees, a difference value of -1.5 degrees obtained by subtracting the body surface temperature of the user from the reference body surface temperature is calculated as the target body temperature change amount.

On the other hand, when the target body temperature change amount exceeds the threshold value, the smart fan can stop airflow control according to the embodiment of the present invention. For example, when the target body temperature change amount is -6 degrees and the threshold value is -5 degrees, since the target body temperature change amount exceeds the threshold value, the motor can be controlled with the strongest air volume or the motor control can be stopped. Further, when the target body temperature change amount is positive, the motor operation of the fan can be stopped or the motor control can be stopped.

Then, the calculating unit 120 calculates the second heat loss amount according to the air flow rate of the smart fan 100 by using the first heat loss amount, the target body temperature change amount, and the body heat amount according to the radiant heat and the evaporation heat of the user, ).

Specifically, the calculation unit 120 can calculate the second heat loss amount by the following equation (9).

Here, the body heat production amount refers to a heat production amount according to the user's metabolism, and the body heat loss amount refers to a sum of the first heat loss amount and the second heat loss amount.

Heat loss from the user's body can be divided into convection, radiation, conduction, and heat loss due to evaporation due to breathing and sweat discharge. According to the embodiment of the present invention, the calculating unit 120 calculates the second heat loss amount, which is the heat loss of the user according to the air volume of the smart fan 100, by using the first heat loss amount, which is heat loss due to radiation and evaporation of the body . The second heat loss means the heat loss of the user due to convection depending on the air flow rate of the smart fan 100.

Specifically, the first heat loss amount includes heat loss due to radiant heat of the user's body, heat loss due to evaporation due to respiration, and heat loss due to evaporation due to sweat discharge. At this time, the first heat loss amount may be a pre-stored value or a value calculated by the calculation unit 120. [

First, when the first heat loss amount is calculated, the calculation unit 120 can calculate the first heat loss amount using the following Equations (9) to (11).

First, the heat loss (Ra) due to radiant heat of the body can be calculated by the following equation (10).

Here, t _cl denotes the body surface temperature of the user, and t _a denotes the ambient temperature of the user.

Next, heat loss (He) due to evaporation due to sweat discharge can be calculated by the following equations (11) and (12).

Here, r _h refers to the user around the interior relative humidity, and T _w denotes the user's body surface temperature, and T indicates the room temperature of a user and surrounding, and W refers to the rate of the room air, and A is Means the body surface area of the user.

The heat loss due to evaporation due to respiration can be calculated as 30% of heat loss due to radiation.

Here, the ambient temperature of the user, the indoor relative humidity, and the speed of the indoor air can be inputted through a temperature / humidity sensor or an indoor air speed sensor. Such a sensor can be applied to the smart fan 100 according to the embodiment of the present invention .

Next, the first heat loss amount may be a pre-stored value. For example, a heat loss of 63.73 watts due to radiant heat, a heat loss of 19.24 watts due to evaporation due to respiration, and a heat loss of 81.53 watts due to evaporation due to sweat discharge Value of 164.5 Watt can be stored as the first heat loss amount.

Also, the calculating unit 120 may calculate the first heat loss using a look-up table stored with values according to the variables shown in Equations (10) to (12).

After step S250, the generating unit 130 generates a motor speed control signal of the smart fan 100 corresponding to the second heat loss amount (S260).

Specifically, the second heat loss amount c can be expressed by the following equation (12).

Here, v denotes the wind speed provided by the user from the smart fan 100.

Specifically, the generating unit 130 calculates the wind speed of the smart fan 100 using the second heat loss amount calculated in step S250 and the equation (12), and calculates the wind speed of the smart fan 100 according to the calculated wind speed And generates a control signal.

Then, the controller 140 controls the motor of the smart fan 100 according to the generated motor speed control signal (S270).

According to the embodiment of the present invention, since the body heat capacity of the user is calculated through only the key and the weight information, the amount of calculation according to the control can be reduced and the air volume of the fan can be controlled based on the body heat capacity of the user. And the power consumption is reduced.

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.

100: Smart fan 110: Input unit
120: Calculator 130: Generator
140:

Claims (10)

A method of controlling a smart fan,
The smart fan is configured to receive environment information including body information including the user's key, weight and gender, and body temperature of the user,
Calculating a body surface area of the user using the body information, calculating a body heat capacity of the user using the body surface area of the user and the body information,
Calculating a target body temperature change amount for the user using the environment information,
Calculating a second heat loss amount according to the air volume of the smart fan using the first heat loss amount, the target body temperature change amount, and the body heat amount depending on the radiant heat and the evaporation heat of the user of the set user, and
Generating a motor speed control signal of the smart fan corresponding to the second heat loss amount and controlling motor driving of the smart fan based on the generated motor speed control signal. delete The method according to claim 1,
Wherein the body information comprises:
And further comprising age information of the user. delete delete An input unit for receiving environment information including body information including a user's key, weight and sex, and body temperature of the user,
Calculating a body heat capacity of the user using the body surface area and the body information of the user by using the body information, calculating a target body temperature change amount for the user using the environment information, Calculating a second heat loss amount according to the air flow rate of the smart fan using the first heat loss amount according to the radiation heat of the user and the evaporation heat of the user, the target body temperature change amount, and the body heat capacity,
A generator for generating a motor speed control signal of the smart fan corresponding to the second heat loss amount,
And a controller for controlling the motor of the smart fan according to the generated motor speed control signal. delete The method according to claim 6,
Wherein the body information comprises:
And further comprising age information of the user. delete delete

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