KR20170062723A - The Control method For Smart Glass And Home Appliances - Google Patents

Abstract

The present invention relates to an image processing apparatus, The server unit and the glass are connected to each other by wire or wireless communication, the input unit automatically supplying Internet weather information; A step of measuring and inputting the indoor illuminance with an illuminance sensor attached to the outside of the glass, and a step of transmitting information to a server unit of a plurality of data among the steps of inputting data directly to the personal terminal, The method comprising: receiving data transmitted from the mobile terminal; Analyzing the received data by the analysis unit, controlling the analyzed data by the control unit, and transmitting the controlled data to the first communication unit, wherein the glass transmits and receives data transmitted from the first communication unit A second communicating unit for communicating with the first communication unit An adjusting unit adjusting the transparency of the glass by the transmitted data; And a display unit capable of confirming the transmitted data in a glass.

Description

[0001] The present invention relates to a smart glass and a home appliance,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a smart glass and a method of controlling an electric appliance, and more particularly, to a control method of automatically controlling a glass transparency and an electric appliance through an external input device.

In the residential life, sunshine is an important issue in health as well as property value. However, it is necessary to cover the sunlight as needed and most of them use curtains. However, it is necessary to adjust the transparency of the windshield according to the weather information or the situation to control the brightness of the room and to block it from the outside.

 Smart glass is used to solve this problem. Smartglass is a glass whose light transmittance varies according to the external environment. It is an electrochromic glass whose light transmittance is changed according to electricity, a thermochromic glass whose light transmittance is changed in a visible light region or an infrared light region according to temperature or heat, Glass, and thermotropic glass in which the light transmittance of a visible light region or an infrared region varies depending on the temperature.

Such conventional control of the smart glass is only possible by manual operation by the user, but there is no mention of automatic control.

Korean Patent Laid-Open Publication No. 10-2013-0037877 discloses a control device that is automatically controlled in response to a voltage applied to an interior lamp in connection with an interior lamp in a vehicle, and is a device for automatically detecting the external environment and controlling the transparency of the glass There is no.

SUMMARY OF THE INVENTION In order to solve the above problems, an object of the present invention is to provide a control method for controlling glass transparency through an external input device.

The present invention also provides a control method for providing information to a glass through an external input device.

The present invention also provides an electronic product control method capable of automatically operating with analyzed data through various weather information through an external input device.

According to an aspect of the present invention, The server unit and the glass are connected to each other by wire or wireless communication, the input unit automatically supplying Internet weather information; A step of measuring and inputting the indoor illuminance with an illuminance sensor attached to the outside of the glass, and a step of transmitting information to a server unit of a plurality of data among the steps of inputting data directly to the personal terminal, The method comprising: receiving data transmitted from the mobile terminal; Analyzing the received data by the analysis unit, controlling the analyzed data by the control unit, and transmitting the controlled data to the first communication unit, wherein the glass transmits and receives data transmitted from the first communication unit A second communicating unit for communicating with the first communication unit An adjusting unit adjusting the transparency of the glass by the transmitted data; And a display unit capable of confirming the transmitted data to the glass

In addition, the present invention provides a smart glass control method characterized in that the display unit can display the current weather, indoor illuminance and transparency of glass transmitted from the Internet.

Further, the present invention provides a smart glass control method characterized in that information of cloud cover of sunlight can be numerically expressed in the weather-related data transmitted from the Internet.

Further, in the present invention, the control unit compares the information data of the blurring that has been digitized by the analyzing unit with the data measured by the illuminance sensor, and controls the transparency numerical value required to approach the indoor illuminance value input from the personal terminal And provides a smart glass control method characterized by the presence.

Further, the present invention provides a smart glass control method characterized by controlling the transparency of a glass determined according to data of the control unit.

Further, in the present invention, the server unit may be additionally connected to household appliances through wired / wireless communication,

The operation of the household appliances can be controlled using the information transmitted from the input unit to the server unit and the operating state of the electronic appliances and the input information can be displayed through the display unit of the glass. to provide.

According to the present invention, there is provided a household appliance comprising: a humidifier which automatically humidifies a humidifier according to information of humidity provided by an input unit; b) a dehumidifier which can remove moisture; c) an air cleaner which can operate according to air pollution information; The air conditioner according to the present invention may be constituted by an air conditioner capable of cooling and heating according to external temperature information, a boiler, and an illuminator for maintaining an indoor illuminance according to external illuminance. The present invention provides a method of controlling a home appliance characterized by being operable.

The present invention has an effect that the glass transparency can be controlled not only manually but also automatically through an external input device.

In addition, the present invention is characterized in that information provided through an external input device can be confirmed on a glass.

Further, the present invention is characterized in that an electronic product can be automatically operated with data analyzed through various weather information through an external input device.

1 is a functional block diagram of the transparency of a glass of the present invention and a controllable method of an electronic product.

Hereinafter, preferred embodiments of the present invention will be described in detail. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

As used herein, the terms " about, " " substantially, " " etc. ", when used to refer to a manufacturing or material tolerance inherent in the stated sense, Accurate or absolute numbers are used to help prevent unauthorized exploitation by unauthorized intruders of the referenced disclosure.

1 is a functional block diagram of a method of controlling transparency of a glass according to the present invention.

More specifically, the present invention includes an input unit 100; The server unit 200 and the glass 300 are connected by wire or wireless communication, respectively.

The input unit 100 can directly enter weather data or designate transparency of a glass through various types of weather data and a terminal. Describing in detail, automatically providing Internet weather information; A step of inputting and measuring the indoor illuminance with the illuminance sensor 120 attached to the outside of the glass, and a step of transmitting a plurality of data to the server unit 200 among the steps of inputting data directly to the personal terminal 130 .

The illuminance sensor 120 measures the indoor illuminance so as to increase the degree of transparency of the glass as much as possible so as to allow the outside sunlight to enter into the interior of the room if the illumination does not reach a certain level regardless of lighting.

If the illuminance is too high, the transparency of the glass 300 can be lowered. In addition, the color of the window can be specified according to the user's setting. Blue, yellow, and red, and the saturation of the designated color can be changed.

The data generated in the input unit 100 is transmitted to the server unit 200. Receiving data transmitted from the input unit (100) by the first communication unit (210) of the server unit; Analyzing the received data by the analyzer 220; Controlling the analyzed data by the controller 230, and transmitting the controlled data to the first communication unit.

The data received by the server unit 200, particularly the weather data transmitted from the Internet, is not directly related to the transparency of the glass 300, And standardizes the data in the control unit according to the glass transparency.

The control unit 230 compares the data of the blurring data quantitated by the analysis unit 220 with the data measured by the illuminance sensor and controls the transparency value necessary to approach the indoor illuminance value input from the personal terminal can do.

The standardized data is transmitted to the first communication unit 210 for transmission to the glass and then to the second communication unit 310 of the glass 300.

The glass (300) includes a second communication unit (310) for transmitting and receiving data transmitted from the first communication unit; An adjusting unit 320 for adjusting transparency of the glass by the transmitted data; And a display unit 330 for confirming the transmitted data to the glass.

The display unit 330 can display the current weather, the indoor illuminance, and the transparency of the glass transmitted from the Internet, and thus the user can visually confirm the transparency of the glass.

Further, the server unit may be further connected to household appliances through wired / wireless communication so that the operation of the household appliances can be controlled using the information transferred from the input unit to the server unit, and the operating state of the electronic appliances and the input information Or may be displayed through the display portion of the glass.

It is common that the operation of household appliances is operated by the necessity of the present user or by operating a reservation setting.

However, various weather data input from the input unit 100 and data analyzed and controlled by the server unit 200 may be connected to household appliances through wired / wireless communication so as to be automatically operated and controlled.

The household appliance (400) can control the humidity of the weather data to control the humidifier for automatic humidification and the dehumidifier for removing moisture.

In addition, according to the air pollution information, the air cleaner can be operated when the fine dust and the yellow dust are severe, the air conditioner or the boiler can be operated according to the external temperature information, and the indoor lighting can be automatically operated according to the external cloud cover information .

In addition, the presence / absence and operation state of the household appliances and the weather information provided in the input unit can be confirmed by image and data in the smart glass 300.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

100: Input unit 110: Internet
120: illuminance sensor 130:
200: server unit 210: first communication unit
220: Analysis section 230: Control section
300: glass 310: second communication section
320: control unit 330: display unit
400: Electronics

Claims (7)

An input unit; The server unit and the glass are connected to each other by wire or wireless communication,
The input unit automatically providing Internet weather information; A step of inputting and measuring an indoor illuminance with an illuminance sensor attached to the outside of the glass, a step of transmitting information to a server unit of a plurality of data among the steps of directly inputting data into the personal terminal,
The first communication unit of the server unit receiving data transmitted from the input unit; Analyzing the received data by an analysis unit; Controlling the analyzed data by the control unit and transmitting the controlled data to the first communication unit,
A second communication unit for transmitting and receiving data transmitted from the first communication unit; A controller for adjusting transparency, color and saturation of the glass by the transmitted data; And a display unit capable of confirming the transmitted data in a glass.
The method of claim 1, wherein
Wherein the display unit is capable of digitizing and displaying the current weather, indoor illuminance and transparency of the glass transmitted from the Internet.
The method according to claim 1,
Wherein the analysis unit is capable of digitizing information of sunshine blindness among weather-related data transmitted from the Internet.
The method according to claim 1,
The control unit compares the data of the cloud cover data calculated by the analysis unit with the data measured by the illuminance sensor and controls the numerical values of transparency, color saturation, and saturation necessary to approximate the indoor illuminance value input from the personal terminal A smart glass control method characterized by being able to.
The method according to claim 1,
Wherein the controller controls the transparency of the glass determined according to the data of the controller.
The method according to claim 1,
The server unit may be additionally connected to household appliances through wired / wireless communication,
Wherein the operation of the household appliances can be controlled using the information transmitted from the input unit to the server unit, and the operating state of the electronic appliances and the input information can be displayed through the display unit of the glass.
The method according to claim 6,
A) a humidifier which automatically humidifies the humidifier according to the humidity information provided by the input unit, b) a dehumidifier which can remove moisture, c) an air cleaner which can operate according to the air pollution information, A boiler, and an illuminator that maintains the indoor illuminance according to the external illuminance,
Wherein the household appliances are capable of operating and controlling the analytical controlled information of the server unit through wired / wireless communication.

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