KR20110114004A - Apparatus for controlling mode of electric fan using surrounding information and method thereof - Google Patents

Abstract

The present invention relates to an apparatus for controlling a mode of a fan using surrounding environment information and a method thereof, the sensor means having a plurality of sensors disposed around the user for sensing the environmental information around the user, and a plurality of sensors and wireless And connected to determine the operating mode of the fan based on the surrounding environment information of the user collected from the plurality of sensors, and to control the driving of the fan according to the determined operating mode. According to the present invention, in consideration of environmental information (temperature, air flow, etc.) around the user, there is an advantage that can provide an optimal air flow to the user.

Description

Apparatus for controlling mode of electric fan using surrounding information and method

The present invention relates to an apparatus and a method for controlling a mode of a fan using the surrounding environment information, in particular, to analyze the information collected through the sensors installed around the user to grasp the current situation around the user, the optimum for the current situation of the user The present invention relates to a mode control apparatus and a method of a fan using surrounding environment information to automatically adjust the wind direction, wind strength, time, etc. of the fan to provide an air flow.

A fan generally used operates according to the set contents when the user sets the wind direction, wind strength, time, and the like.

In addition, when the fan sets a reservation content for the wind direction, wind strength, time, etc., the fan automatically operates according to the set content when the reservation time elapses.

However, the electric fan currently used only operates according to the contents set by the user regardless of the change of the environment, even if the surrounding environment of the user changes.

An object of the present invention, in the fan having a short-range wireless communication function such as WLAN, Zigbee, Bluetooth, etc., the optimum air flow suitable for the current state of the user by detecting the temperature and air flow around the user The present invention provides a mode control apparatus and a method of a fan using the surrounding environment information.

A mode control apparatus for a fan using the surrounding environment information according to the present invention for achieving the above object, the sensor means having a plurality of sensors disposed around the user, for sensing the environmental information around the user, and the plurality A main body means wirelessly connected to the sensors of the controller to determine an operation mode of the fan based on the surrounding environment information of the user collected from the plurality of sensors, and to control the driving of the fan according to the determined operation mode. Characterized in that.

The main body means, an information collecting unit for collecting the surrounding environment information detected from a plurality of sensors at a reference time interval, and analyzes the surrounding environment information collected at a reference time interval by the information collecting unit, the analysis result And a control unit for outputting a control command corresponding to the operation mode determined according to the above.

The control command may include at least one information of a wind direction, a rotation angle, a wind strength, a blowing time, and an operation mode of the fan.

The plurality of sensors may include one or more of a temperature sensor, a humidity sensor, a wind direction sensor, and a pollution degree sensor.

The plurality of sensors are characterized in that the communication interface capable of short-range wireless communication is provided.

The main unit may include a communication module having a short range wireless communication method and further include a communication unit configured to receive surrounding environment information detected from the plurality of sensors.

On the other hand, the mode control method of the fan using the surrounding environment information according to the present invention for achieving the above object, collecting the surrounding environment information detected from each of the plurality of sensors disposed around the user at a reference time interval, Analyzing the surrounding environment information collected at the reference time interval, determining an operation mode of the fan according to the analysis result, and controlling driving of the fan based on the determined operation mode. do.

The controlling of the driving may include outputting a control command including at least one of a wind direction, a rotation angle, a wind strength, a blowing time, and an operation mode of the fan, and the fan according to the control command. It characterized in that it comprises a step of driving.

The determining of the operation mode may include re-determining an operation mode of the fan according to the change of the surrounding environment information.

The plurality of sensors may include one or more of a temperature sensor, a humidity sensor, a wind direction sensor, and a pollution degree sensor.

According to the present invention, the fan having a short-range wireless communication function such as wireless LAN, direct rain, Bluetooth, and a sensor function capable of measuring temperature and air flow periodically grasps the temperature and air flow around the user and is optimal for the user. It has the advantage of providing airflow and wind strength.

1 is a diagram illustrating a system configuration to which a mode control apparatus of a fan using ambient environment information according to the present invention is applied.
2 is a block diagram referred to for explaining the configuration of the mode control apparatus of the fan using the environment information according to the present invention.
3 is a flowchart illustrating an overall operation flow of the method for controlling the mode of the fan using the surrounding environment information according to the present invention.
4 is a flowchart illustrating a detailed operation flow of the fan control process of FIG. 3.

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

1 is a view showing an example in which a mode control apparatus of a fan using the environment information according to the present invention is applied.

As shown in FIG. 1, a mode control apparatus for a fan using ambient environment information according to the present invention measures a surrounding environment information such as air flow and temperature by placing a plurality of sensors around a user.

In addition, the mode control apparatus of the fan using the surrounding environment information collects the surrounding environment information measured from the plurality of sensors, and controls the operation of the fan based on the collected information.

In this case, the plurality of sensors includes a communication interface for wireless communication, and the mode control apparatus of the fan using the surrounding environment information collects the surrounding environment information measured from the plurality of sensors through the wireless communication.

Thus, the configuration of the mode control apparatus for the fan using the surrounding environment information will be described in detail with reference to FIG. 2.

2 is a block diagram referred to describe the configuration of a mode control apparatus for a fan using the surrounding environment information according to the present invention.

As illustrated in FIG. 2, the apparatus for controlling a fan mode using ambient environment information controls an operation of the fan based on sensor means 100 including a plurality of sensors and ambient environment information measured from the plurality of sensors. It consists of a main body means (200).

First, the sensor means 100 may include a first sensor 110, a second sensor 120, ..., the N-th sensor 190, the number of sensors and the position where the sensor is disposed is the convenience of the user Can be adjusted according to. In this case, the plurality of sensors includes at least one of a temperature sensor, a humidity sensor, a wind direction sensor, and a pollution degree sensor.

In addition, the plurality of sensors includes a communication interface for short range wireless communication such as WLAN, Zigbee, Bluetooth, and the like. Therefore, each sensor collects the surrounding environment information at the position where the corresponding sensor is disposed, and transmits the collected surrounding environment information to the main body means 200 through wireless communication. Here, the surrounding environment information includes information corresponding to at least one of temperature, humidity, air flow, and pollution degree.

Meanwhile, the main body means 200 includes a communication unit 210, an information collecting unit 220, a control unit 230, and a driving unit 240.

The communication unit 210 includes a communication module corresponding to at least one of a wireless LAN, a Zigbee, and a Bluetooth that supports a wireless communication interface with a plurality of sensors.

The communication unit 210 performs synchronization with a plurality of sensors arranged around the user when the main body 200 and the sensor means 100 are turned on.

In addition, when synchronization with the plurality of sensors is completed, the communication unit 210 receives surrounding environment information from the plurality of sensors, respectively, and transmits the received surrounding environment information to the information collection unit 220.

The information collecting unit 220 collects the surrounding environment information measured from the plurality of sensors at predetermined time intervals. The surrounding environment information collected by the information collecting unit 220 is stored in a DB (not shown).

The controller 230 analyzes the surrounding environment information collected by the information collector 220 in real time or at regular time intervals. At this time, the controller 230 determines an operation mode of the fan based on information such as temperature, humidity, and air flow, generates a control command corresponding to the determined operation mode, and outputs the control command to the driver 240.

Here, the control command includes at least one information of the wind direction, the rotation angle, the wind strength, the blowing time, the operation mode of the fan.

For example, the controller 230 may control to increase or decrease the intensity of the wind in order to adjust the temperature around the user to the reference value when the temperature around the user exceeds the preset reference value or is below the preset reference value. The command is output to the driver 240.

As another example, if it is determined that the air flow around the user is not smooth, the controller 230 outputs a control command to the driver 240 to cause the fan to operate in the air circulation mode.

The driver 240 controls the driving of a fan rotating motor, a direction control motor, a timer, etc. of the fan in response to the control command output from the controller 230.

Looking at the operation of the mode control apparatus of the fan using the surrounding environment information of the present invention configured as described above are as follows.

3 is a flowchart illustrating an operation flow of the method for controlling the mode of the fan using the surrounding environment information according to the present invention.

Referring to FIG. 3, when the sensor means 100 and the main body means 200 are driven (S300), wireless communication is connected between the plurality of sensors and the main body means 200 (S310). At this time, the synchronization is made between the plurality of sensors and the body means 200 in the 'S310' process.

The plurality of sensors sense the environment information around the user, and the main body means 200 receives the surrounding environment information sensed by the plurality of sensors (S320).

The main body unit 200 collects the surrounding environment information measured from the plurality of sensors at predetermined time intervals (S330), and when the reference time elapses (S340), analyzes the collected surrounding environment information, and according to the result of the fan Determine an operation mode for controlling (S350). Thereafter, the main body means drives the fan based on the determined operation mode (S360).

If the surrounding environment information detected by the plurality of sensors is changed (S370), the main body means 200 variably controls the operation of the fan according to the changed surrounding environment information.

4 is a flowchart illustrating a detailed operation flow of the fan control process of FIG. 3.

As shown in FIG. 4, after the process S340 of FIG. 3, the main body 200 analyzes the surrounding environment information collected during the reference time.

At this time, when the main body means 200, as a result of the analysis of the surrounding environment information, the sensed temperature around the user exceeds the preset reference value (α) (S351), it is determined that the air flow is not smooth (S352), It increases and outputs a control command to be driven in the air circulation mode (S353).

On the other hand, the main body means 200 outputs a control command to increase the wind strength when the sensed temperature around the user exceeds the preset reference value α (S351), but if it is determined that the air flow is smooth (S352). (S354).

On the other hand, when the main body means 200, as a result of the analysis of the surrounding environment information, the detected temperature around the user is less than the predetermined reference value (α) (S351), it is determined that the air flow is not smooth (S355), the wind strength is reduced In operation S356, a control command for driving in the air circulation mode is output.

On the other hand, the main body means 200 outputs a control command to reduce the wind strength if the sensed temperature around the user is below the predetermined reference value α (S351), but the air flow is determined to be smooth (S355) ( S357).

Therefore, in the process' S360 'of FIG. 3, the fan is driven according to the control commands output in the processes'S353,' S354 ',' S356 ', and' S357 ', respectively.

As described above, the apparatus and method for controlling the fan using the surrounding environment information according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, It can be applied within the scope of protection.

100: sensor means 110: first sensor
120: second sensor 190: N-th sensor
200: main body means 210: communication unit
220: information collecting unit 230: control unit
240: drive unit

Claims (1)

Sensor means disposed around a user, the sensor means having a plurality of sensors for sensing environmental information around the user; And
Body means wirelessly connected to the plurality of sensors to determine an operation mode of the fan based on the surrounding environment information of the user collected from the plurality of sensors, and controls the driving of the fan according to the determined operation mode Mode control apparatus of the fan using the surrounding environment information, characterized in that it comprises a.

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