KR20210030025A - VTDS / Virtual Touch Display Switch - Google Patents

Abstract

The present invention relates to a light switch including a virtual touch display, which is a touch screen light switch having a function of an existing light switch. When a screen is displayed on a wall of a narrow space through the optical technology of a beam projector, a user can control the lighting and the outlet by means of clicking the image displayed on the wall. The present invention includes a human body sensor (1) automatically sensing the user when the user approaches to operate the switch while the screen is not normally displayed, and an external push button (2) provided to display an image when the user approaches and touches the external push button (2) and to implement the function of a setting or operation button. When a signal is sent to a MCU (4), the MCU (4) controls a beam projector (6) to display a virtual screen (10) on the wall and, when the user presses a desired button, X and Y positions of the displayed image is measured by a proximity sensor (3) to control a light (7) and an outlet (8) to be turned on and off.

Description

Light switch with virtual touch display {VTDS / Virtual Touch Display Switch}

The present invention relates to a lighting switch including a virtual touch display, in particular, a touch screen lighting switch having the function of an existing lighting switch, and when a user displays a screen on a wall in a narrow space through optical technology of a beam projector Lighting and outlets can be controlled by means of clicking on the displayed image.

In general, virtual touch screen technology is widely used for virtual screens or augmented reality, and is widely known as glasses called HUD (Head Up Display) for vehicles or Head Mounted Disply (HMD).

This technology requires a small graphic display technology and a lens optical technology that can be enlarged and projected on the front side.

If you develop a lighting switch incorporating these technologies, it is expected to be a product with the features mentioned above.

The present invention has been devised in response to these points, and an object of the present invention is to provide an illumination switch with a touch screen function having a function of an illumination switch, displaying a screen in a confined space and using optical technology. Accordingly, it is to provide a lighting switch including a virtual touch display that allows the user to control a lighting lamp by clicking an image displayed on the wall while displaying a screen image on the wall.

The present invention for achieving such an object includes a human body detection sensor for automatically displaying an image when a person approaches a person while the screen is not normally displayed, and displays an image when a person approaches and touches it, and the setting button or An external touch button to implement the function of the operation button, a plurality of proximity sensors installed on the side of the projector to determine the X and Y position of the displayed image, and the human body detection sensor and the external touch button and proximity It has an MCU that controls according to an input signal from a sensor, a power supply for supplying power to the MCU, and has an image display function inside to display an image. It is characterized in that it comprises a projector to display, and a lighting and outlet turned on/off under the control of the MCU.

The present invention as described above provides a lighting switch including a virtual touch display to display a screen in a confined space and to control a lighting by clicking an image displayed on the wall while displaying a screen image on the wall using optical technology. There is.

In addition, the present invention can be installed regardless of the size of the buried box installed on the wall, there is an effect of improving the aesthetics of the wall.

In addition, the present invention has the effect of increasing the delivery power through a GUI (graphical user interface), which can increase the recognition rate of consumers, and various provisions of status and information.

1 is a diagram showing a HUD for a vehicle among conventional virtual touch screen technology
2 is a view showing a conventional HMD glasses
3 is a schematic configuration diagram of a lighting switch including the present invention virtual touch display
Figure 4 is a flow chart of the operation of the present invention
5 is a view showing the state of the wall display of the present invention
6 is a diagram showing an image of the present invention
7 is a schematic configuration diagram of a projector of the present invention
8 is a diagram for supplying power to the AC electricity and the virtual display switch of the present invention.

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

3 is a schematic configuration diagram of the present invention, and FIG. 4 is an operation flow diagram of the present invention. A human body detection sensor (1) for display, an external touch button (2) for displaying an image and implementing the function of a setting button or operation button when a user approaches and touches it, and X,Y positions on the displayed image. Control corresponding to a number of proximity sensors 3 installed on the side of the projector in order to discriminate, and signals input from the human body detection sensor 1, external touch button 2, and proximity sensor 3 The MCU 4 performs the operation, the power supply 5 for supplying power to the MCU 4, and has an image display function inside to display an image. A projector 6 that displays an image on the screen, and a lighting and outlet that are turned on/off under the control of the MCU 4, and the reference numeral 9 in the drawings is an image output unit that outputs an image of the projector, 10 is a virtual screen displayed on the wall.

In the present invention, a high frequency is output from the proximity sensor 3 to determine the X position of a finger at a distance to the extent that the hand or object is bumped and returned, and to determine the Y position of which proximity sensor is recognized. It is composed.

The operation of the present invention configured as described above will be described.

The present invention removes the light switch where the existing light switch was installed, installs a product as shown in FIG. 8 for lighting on/off and power supply in the buried box, and then finishes the buried box like a cover and performs a virtual screen ( 10) is installed on it.

Here, domestic products cannot be installed overseas because the sizes of the buried boxes in which domestic and overseas lighting switches are installed are different from each other.

In addition, since the difference between the voltage and the frequency of AC electricity is also different, they cannot be used interchangeably.

In the present invention, since the electric control unit and the power generating unit are installed without a small-sized operation unit, only a certain space needs to be allocated within the installation space.

In the existing buried box, a product as shown in FIG. 8 is installed to supply AC electricity and power to the virtual display switch.

In addition, a projector 6 as shown in FIG. 7 is installed on the wall, and when the user approaches, the human body sensor 1 detects it and displays a virtual display lighting switch on the wall.

Here, in the present invention, when an image is output through the image output unit 9 of the beam projector 6, a lighting switch as shown in FIG. 5 is displayed on the wall.

Therefore, when the light switch is displayed on the wall, the user sees the screen displayed on the wall and clicks the desired icon. In order to determine which icon the user clicked, the proximity sensor on the left and right of the image output unit 9 of the projector 6 Since 4 to 8 (3) are built in, check which icon is clicked to display related controls and corresponding information.

That is, the proximity sensor 3 judges the X position of the distance to which the finger is located so that the high frequency is output and returns to the hand or object, and the Y position is determined by which proximity sensor is recognized.

Accordingly, in the present invention, when signals input from the human body detection sensor 1, the external touch button 2, and the proximity sensor 3 are received by the MCU 4, the MCU 4 controls the projector 6 to virtually A lighting switch is displayed on the screen 10, and when the user presses a button with a finger in this state, the MCU 4 detects the X,Y positions of the finger and the proximity sensor, By controlling 8), you can turn on and off lights and outlets.

1: Human body detection sensor 2: External touch button
3: proximity sensor 4: MCU
5: Power section 6: Beam projector
7: lighting 8: outlet
9: Image output unit 10: Virtual screen

Claims (2)

A human body detection sensor (1) for automatically displaying an image when a person approaches a switch when the screen is not normally displayed, and an image is displayed when a user approaches and touches it. An external touch button (2) for implementing the function, a plurality of proximity sensors (3) installed in 4 to 6 sides to determine the X, Y position of the displayed image, and the human body detection sensor (1), An external touch button (2), an MCU (4) that performs a corresponding control according to a signal input from the proximity sensor (3), a power supply unit (5) for supplying power to the MCU (4), and an image display In order to do this, the beam projector 6 has an image display function inside and displays a virtual screen 10 on the wall by applying lens refraction and optical technology, and the illumination 7 under the control of the MCU 4 Light switch with a virtual touch display, characterized in that it is configured to control an outlet (8). The method of claim 1, wherein the proximity sensor (3) determines the X position of the distance at which the finger is located so that the high frequency is output and returns to the hand or object, and the Y position is recognized by which proximity sensor. Lighting switch comprising a virtual touch display, characterized in that configured to determine.

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