KR20150019466A - Feedback Cooling System and Method according to User Environment - Google Patents

Abstract

The present invention relates to a feedback cooling system and method according to a user environment. The feedback cooling system according to the user environment disclosed on an embodiment of the present invention comprises: an environment detecting apparatus to detect the temperature and humidity of the periphery of the apparatus and determine a cooling mode; and a remote control apparatus control the environment detecting apparatus to operate the environment detecting apparatus. Therefore, the difference between the temperatures of the periphery of a user and the periphery of a cooling apparatus can be reduced, and it is convenient to use the cooling apparatus for the user.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a feedback cooling system and method,

The present invention relates to a user environment feedback cooling system and method.

The air conditioner has a high temperature to cool the indoor air to lower the room temperature, or conversely, the room temperature is raised to warm the indoor air by the low temperature, thereby making the room comfortable.

Especially, high humidity in summer is very useful for people to feel discomfort and stress, so it is very useful to use air conditioner to remove humidity and lower the temperature to provide comfortable space for people.

Korean Patent Laid-Open Publication No. 2012-0028773 proposes an air conditioner capable of not only reusing abandoned resources while using an air conditioner, but also improving cooling efficiency.

 Recently, as the price of air conditioners has become cheaper and power consumption has decreased, more and more households are installing air conditioners in the living room together with the living room in the house.

However, since the temperature is detected by the temperature sensor provided in the air conditioner, the actual temperature around the user differs from the target temperature set by the user in the air conditioner, It is inconvenient to use the cooling apparatus during sleeping.

Accordingly, the present invention can reduce the difference between the actual temperature around the user and the temperature around the air conditioner, and provides convenience to the user in using the air conditioner.

The feedback cooling system according to an embodiment of the present invention described in the embodiment of the present invention detects temperature and humidity around the apparatus and controls the cooling mode in which at least one of the air volume, And a remote controller device for controlling the cooling device to operate according to the cooling mode determined by the environment sensing device.

The environmental sensor includes an environmental sensor unit for sensing an environmental number including a temperature and a humidity around the environment sensor, an environment variable including temperature and humidity sensed by the sensor unit, A wind speed, and a wind direction; and a wireless transmission unit wirelessly transmitting the cooling mode determined by the determination unit to the remote controller device.

The environmental sensor unit senses the illuminance of the surroundings.

The environment sensing device may further include a band part that can be fixed on a part of the human body, and the environmental sensor part senses the body temperature of the human body.

The environmental sensor unit senses the amount of fine dust in the indoor space.

According to another aspect of the present invention, there is provided a feedback cooling method according to a user environment, comprising: a first step of detecting environmental variables including a temperature and a humidity of a surrounding environment in a sensor part of an environment sensing device; A second step of analyzing environmental variables to determine a cooling mode in which at least one of wind speed, wind speed and wind direction is controlled; and a third step in which the cooling device is controlled by the remote controller device according to the determined cooling mode.

In the first step, the environmental sensing device is attached to a part of the body to detect the body temperature.

Also, in the first step, the illuminance is detected in the environmental sensor unit of the environment sensor, and the amount of fine dust is detected in the environmental sensor unit of the environment sensor.

According to the present invention, since the environment around the user is detected, the target temperature of the air conditioner can be provided to the user in a wide indoor space.

In particular, when the user is sleeping, the temperature and humidity are automatically controlled, and the operation of the air conditioner is controlled according to the lighting time, so that a pleasant condition can be maintained without the user's operation.

In addition, it is possible to reduce unnecessary cooling by controlling the air conditioner by sensing the surrounding environment, thereby saving energy.

1 is a configuration diagram illustrating a feedback cooling system according to a user environment according to the present invention.
2 is a flowchart illustrating a feedback cooling method according to a user environment according to the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for the sake of brevity.

<Description of Configuration>

The feedback cooling system according to the user environment according to the present invention can be performed by the environment sensing device 100, the remote controller device 200 and the cooling device 300.

The environment sensing apparatus 100 includes an environment sensor unit 110, a band unit 120, a determination unit 130, and a wireless transmission unit 140.

The environment sensing apparatus 100 senses temperature and humidity around the apparatus and determines a cooling mode in which cool air such as wind speed, wind speed, and wind direction is controlled according to the sensed environmental variable. The environment sensing unit 100 includes an environmental sensor unit 110, 120, a determination unit 130, and a wireless transmission unit 140.

The environmental sensor unit 110 is a component incorporated in one side of the environment sensing apparatus 100 and sensing the temperature and humidity around the environment sensing apparatus 100.

The environmental sensor unit 110 senses the illuminance of the indoor space, the amount of fine dust present in the air, and the body temperature of the human body.

The determination unit 130 is a component for determining the cooling mode in which at least one of the air flow rate, the wind speed, and the wind direction of the air conditioner 300 is controlled by analyzing the environmental variable obtained in the environment sensor unit 110. [

The wireless transmission unit 140 is a component that transmits the cooling mode determined by the determination unit 130 to the remote controller device 200.

The remote controller device 200 is a device for controlling the cooling device 300 by the user's operation or receiving the cooling mode received from the environment sensing device 100 and controlling the cooling device 300 according to the cooling mode to be.

<Description of Method>

The operation mode in which the cooling apparatus 300 is operated generally includes a general mode in which the user directly operates the remote controller apparatus 200 to control the cooling apparatus 300 and a normal mode in which the temperature sensed by the environment sensing apparatus 100 There is a smart mode in which the cooling device 300 is controlled while the cooling mode is changed periodically.

The feedback cooling method according to the user environment according to the present invention will be described with reference to an embodiment of a smart mode.

1. First step < S10 >: environmental variable detection step

The environment sensing apparatus 100 is placed in the vicinity of the indoor space or the sleeping space in which the user is active and an environment including the temperature, humidity, Detect the variable.

In addition, when attached to a part of the user's body by the band part 120 of the environment sensing device 100, the body temperature of the user is sensed through the environmental sensor part 110.

2. Second step < S20 >: Determination of the cooling mode

The environment variable detected by the environment sensing device 100 is interpreted by the determining unit 130 and the cooling mode in which one or more of the airflow rate, the wind speed, and the wind direction is controlled is determined.

When the cooling apparatus 300 is currently operating in the smart mode, the determining unit 130 synthesizes the environment variables so that the cooling apparatus 300 is organically controlled by the environment variables acquired by the environment sensing apparatus 100 do.

For example, when the indoor temperature is 33 degrees and the humidity is 80%, the determination unit 130 determines that the air conditioner 300 is an environmental condition in which the person can live the most comfortable in the indoor space The target temperature is set to 26 degrees, and the target humidity is set to 50%, so that the cooling apparatus 300 is operated.

At this time, when the amount of fine dust exceeds the average of 100 μg / m 3 for 24 hours, the target temperature and humidity are set low to lower the concentrations of sulfate and nitrate, and when the cooling device 300 has built- , And the clean function is activated to reduce the amount of fine dust to 100 μg / m 3 or less.

When the illuminance of the indoor space sensed by the air conditioner 300 is detected to be equal to or less than 10 lux at least for one hour, the target temperature of the air conditioner 300 currently operating is increased by 2 degrees, And then determines that the cooling apparatus 300 stops operating.

In addition, the environment sensing device 100 is attached to a part of the user's body by the band part 120 to sense the temperature of the user. At this time, when the temperature of the user's body is detected to be 36 degrees or less, the controller immediately determines that the operation of the cooling apparatus 300 is stopped.

When the cooling apparatus 300 is in operation, the determination unit 130 periodically acquires environmental variables from the environment sensing apparatus 100 at intervals of about one hour, and determines a new cooling mode according to the current indoor environment through a new environment variable .

3. Third Step < S30 >: Control of Cooling Unit

The cooling mode determined by the determination unit 130 is transmitted to the remote controller device 200 through the wireless transmitter 140 and the remote controller 200 controls the cooling device 300 to operate in the received cooling mode And controlling the air conditioner 300. Fig.

It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection is to be construed in accordance with the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: Environmental sensing device
110: Environmental sensor unit
120: band portion
130:
140: radio transmission unit
200: remote controller device
300: Air conditioner

Claims (9)

An environment sensing device for sensing temperature and humidity around the device and determining a cooling mode in which one or more of the air flow rate, wind speed and direction of the air conditioner in operation is adjusted according to the sensed environment variable;
And a remote controller device for controlling the cooling device to operate according to the cooling mode determined by the environment sensing device.
The method according to claim 1,
The environment sensing device includes:
An environment sensor unit for sensing environmental variables including temperature and humidity around the environmental sensor;
A determination unit for determining an air conditioning mode in which at least one of an air flow rate, a wind speed, and a wind direction of the air conditioner 300 in operation is analyzed by analyzing environmental variables including temperature and humidity sensed by the sensor unit;
And a wireless transmission unit that wirelessly transmits the cooling mode determined by the determination unit to the remote controller device.
The method according to claim 2,
Wherein the environment sensor unit senses the ambient illuminance.
The method according to claim 2,
The environment sensing device includes:
And a band portion that can be fixed on a part of the human body,
Wherein the environmental sensor unit senses a body temperature of the human body.
In claim 2
Wherein the environmental sensor unit senses the amount of fine dust in the indoor space.
A first step of sensing an environmental variable including a temperature and a humidity of a surrounding environment at a sensor part of the environmental sensing device;
A second step of determining a cooling mode in which at least one of wind speed, wind speed, and wind direction is controlled by analyzing the environmental variable in a determination unit of the environment sensing device;
And controlling the cooling device by the remote controller device according to the determined cooling mode.
The method according to claim 6,
Wherein the environment sensing device is attached to a part of the body and the body temperature is sensed in the first step.
The method of claim 6,
Wherein the illuminance is detected in an environmental sensor part of the environment sensing device in the first step.
In claim 6
The method of claim 1, wherein the amount of fine dust is detected in the environmental sensor unit of the environment sensing device in the first step.

Images