KR100686524B1 - Apparatus for controlling a plane illumination - Google Patents

Abstract

The surface lighting apparatus according to the present invention is a surface lighting control device for controlling a plurality of lights respectively connected to the lighting control terminal, the power supply for supplying power to the surface lighting control device, and different XY for each position touched by the user A touch screen for outputting a voltage value of the axis, an RF communication module for transmitting a predetermined control signal to the lighting control terminal through wireless communication, and the position values touched by the user are read and read using the voltage values input from the touch screen. And a microcomputer that provides a control signal to the terminal for controlling light through the RF communication module to turn on or off the lights installed at the predetermined positions.

As described above, the present invention can control the installed space at any position in the space by applying the concept of the space perceived by the user, whereby the user memorizes the serviceable space of the lighting one by one and manipulates the operation switch. Unlike this, the user's convenience can be enhanced.

Lighting, interface, surface, touch screen

Description

Cotton lighting control unit {APPARATUS FOR CONTROLLING A PLANE ILLUMINATION}

1 is a block diagram showing a surface lighting control apparatus according to the present invention,

2 is a detailed circuit diagram of a surface lighting control device according to the present invention;

3 is a spatial view controllable by the surface lighting control apparatus according to the present invention,

4A to 4C are views for explaining a compass module of the surface lighting control apparatus according to the present invention;

5 is a view for explaining the structure of the touch screen of the surface lighting control apparatus according to the present invention.

6 is a view for explaining an output voltage value according to a touch of a touch screen according to the present invention;

7A to 7D and 8A and 8C are views for explaining a control process of lights according to a touch of a touch screen according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100: microcomputer 110: compass module

112: X axis resistor plate 114: Y axis resistor plate

120: touch screen 125: analog switching unit

130: RF communication module 135: connection

140: status display unit 150: power unit

160: input switch unit

The present invention relates to a lighting control device, and more particularly to a surface lighting control device to which the concept of space is applied.

In general, when incomes increase, people want to improve their quality of life. The quality of life that people seek may vary. One of them is the house, a living space.

Housing grows and becomes more advanced as income grows. There are many factors that make a home more luxurious, such as luxury furniture, convenient facilities, and health care equipment. One of them is lighting.

Lighting has recently become a very important factor in home interiors, ranging from simple concepts where a person maintains a certain level of brightness for time information, to emotional lighting where the brightness and color of the light affect a person's emotions. Are classified.

Conventional lighting installs a light source in the center or on one side of a space and illuminates the entire space.

However, in this case, if the illuminance is far from the illumination source and another object exists between the illumination source and the user, there is a problem in that the lighting effect is halved due to the user's shadow.

In order to overcome this, surface lighting has been recently performed. In contrast to the installation of a single lighting source with high power in a space, the surface lighting is distributed in low power and distributed evenly in various places. Although there are problems such as increase in installation cost and management cost compared to point lighting, surface lighting is increasingly used due to its convenience, increase in lighting effect, interior effect, and the like.

realistically. In the case of an apartment of about 42 pyeong, the total lighting need area is about 10, but the number of lightings is about 70.

However, this convenient and increasing point lighting is not only inconvenient for the user to easily locate the operation switch when necessary, because the number of the operation switch increases due to the increase in the illumination source, and whether many light sources are off There is a problem that the waste of power is worse because it does not check.

An object of the present invention is to solve the problems of the prior art, to provide a surface lighting apparatus that can control the lights installed in any position at any position in the space by applying the concept of the space perceived by the user. have.

In order to achieve the above object, the present invention provides a surface lighting control device for controlling a plurality of lights respectively connected to the lighting control terminal, the power supply for supplying power to the surface lighting control device, the user touches The touch screen outputs voltage values of different XY axes for each position, an RF communication module for transmitting a predetermined control signal to the lighting control terminal through wireless communication, and the user using the voltage values input from the touch screen. And a microcomputer for reading the touched positions, generating a control signal for turning on or off the lights installed at the read positions, and providing the control signal to the lighting control terminal through the RF communication module.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a surface lighting control apparatus according to the present invention, Figure 2 is a detailed circuit diagram of the surface lighting control apparatus according to the present invention.

Referring to FIGS. 1 and 2, the surface lighting control apparatus may include a microcomputer 100, a compass module 110, a touch screen 120, an RF communication module 130, a status display module 140, and a power supply unit 150. , The input switch unit 160, an analog switching unit 125 is connected between the touch screen 120 and the microcomputer 100, and a connecting unit 135 is provided between the RF communication module 130 and the microcomputer 100. It is connected and configured. Here, the surface lighting control device may be manufactured in a portable size.

The compass module 110 detects the direction in which the user looks with the surface lighting control device and provides the direction to the microcomputer 100 so that the microcomputer 100 may select lights to be controlled.

The compass module 110 is a CMPS03 chip to be always aligned in a constant orientation, regardless of which direction the user looks with the surface lighting control device, first the surface lighting control device when the user at any position of FIG. If the user is holding as shown in FIG. 4A, since the user is looking toward the north, the direction indicated by the compass module 110 becomes north.

In addition, when the user has the surface roughness control device at any position as shown in FIG. 4B, since the user is looking west, the direction indicated by the compass module 110 becomes west.

When the user has the surface lighting control device as shown in FIG. 4C, since the user is looking east, the direction indicated by the compass module 110 becomes east.

As such, the compass module 110 recognizes the concept of the space perceived by the user, thereby efficiently controlling the lights.

The touch screen 120 is a means for selecting the lights to be controlled, and the user may control the lights of the corresponding area by touching a desired tool, for example, his or her finger, without directly operating a switch.

That is, as illustrated in FIG. 5, the touch screen 120 includes two resistance plates 112 and 114 in the XY axis direction to output voltage values in different XY axis directions for each touched position. The resistance plates 112 and 114 in the XY axis direction separately output voltages of + 5VDC to + 0VDC.

That is, when the user touches the touch screen 120 in ABCD order as shown in FIG. 6, the touch screen 120 outputs about 4V as the X-axis voltage value and about 2.5V as the Y-axis voltage value at the A point. In case of point B, output about 2.5V as X-axis voltage value, about 4.5V as Y-axis voltage value, in case of point C, output about 2V as X-axis voltage value and about 1.8V as Y-axis voltage value, D In case of dot, output about 3V as X-axis voltage value and 0.5V as Y-axis voltage value.

As such, the voltage value of the XY axis sensed by each position by the touch screen 120 is provided to the microcomputer 100.

Here, an analog switching unit 125 is included between the touch screen 120 and the microcomputer 100, and the XY axis voltage values detected by the resistance plates 112 and 114 of the touch screen 120 are analog switching units. Input to the microcomputer (100) through (125).

The RF communication module 130 wirelessly communicates with a lighting control terminal (not shown) that controls the lighting on or off, and transmits a predetermined control signal output from the microcomputer 100 to the lighting control terminal. Turn the lights on or off.

The RF communication module 130 transmits and receives a signal between the lighting control terminal and the surface lighting control device using an RS232C communication protocol, and uses a circuit having a different operating voltage between the RF communication module 130 and the microcomputer 100. It includes a connection 135 composed of transistors for connection.

The transistors of the connection unit 135 are driven by the output signals of the microcomputer 100 and the RF communication module 130. Accordingly, the transistor operates as an open collector, and thus, the corresponding circuit, that is, the microcomputer 100 and the RF communication module 130. Supply the load voltage according to the voltage of.

The status display unit 140 is composed of a plurality of LEDs arranged at regular intervals on the bottom of the touch screen 120, the LEDs are the operating state of the lights operated by the touch screen 120, that is, whether the lighting is turned on and illuminance Mark it.

The driving method of these LEDs is a multi-pressing method, which is sequentially turned on from x1 to x6, and when one x line is turned on, a low signal is output to a corresponding LED to be lit at y1-y6. If this operation is repeated in 1/6 cycles, a total of 36 LEDs can be turned on.

The LEDs of the status display unit 140 are turned on as many as the number of lights powered on by the microcomputer 100.

As such, by displaying the operating state of the lights by using the LED, the user can directly check whether the illumination of the lighting and illumination can directly control the lights.

The input switch unit 160 is composed of switches corresponding to an area to be controlled by a user, for example, a bedroom, a kitchen, a living room, a veranda, a study room, a small room, and a switch for controlling the corresponding area according to the operation of each switch. The signal is output to the microcomputer 100, and accordingly, the microcomputer 100 transmits a control signal for turning on at least one or more lights in the region corresponding to the switching signal to the lighting control terminal through the RF communication module 130.

In addition, the input switch unit 160 further includes a switch that can adjust the illuminance of the lights turned on by the microcomputer 100, that is, a switch such as a light illuminance or a dark illuminance, and provides a corresponding switching signal according to the operation of the switch. By providing the microcomputer 100, the user can adjust the illuminance of the turned on lights.

The microcomputer 100 generally controls the surface lighting control device, and in particular, the surface lighting control device is turned on and waits for input from the compass module 110 and the touch screen 120.

Here, the microcomputer 100 reads the position touched by the user by using the voltage values input from the touch screen 120, and the read position among the lights in the area corresponding to the direction indicated by the compass module 110. The control signal is provided to the lighting control terminal through the RF communication module 130 to turn on or off the lights installed in the field.

The power supply unit 150 is a means for supplying the power required for the surface lighting control device, in particular using a battery of 3V suitable for the portable surface lighting control device.

The operation of the surface lighting control device having the above configuration will be described with reference to FIGS. 7A to 7D and 8A to 8C.

As shown in FIG. 7A, when the lights controlled by the light control terminal are arranged in an arbitrary space, for example, an apartment, the user may touch the touch screen 120 of the surface lighting control device as shown in FIG. 8A. Assuming that the touch, the touch screen 120 provides the microcomputer 100 with the XY axis voltage values for each position.

Accordingly, the microcomputer 100 reads the positions touched by the user based on the XY axis voltage values and transmits a control signal to the lighting control terminal through the RF communication module 130 to turn on the lights corresponding to the read positions. The terminal for controlling the lighting turns on the lights in the living room as shown in FIG. 7B based on the control signal.

At this time, the microcomputer 100 controls the status display unit 140 to turn on the LED as many as the number of lights turned on.

If the user touches the touch screen 120 of the surface lighting control device as shown in FIG. 8B, the touch screen 120 provides the microcomputer 100 with XY axis voltage values for respective positions.

Accordingly, the microcomputer 100 reads the positions touched by the user based on the XY axis voltage values and transmits a control signal to the lighting control terminal through the RF communication module 130 to turn on the lights corresponding to the read positions. The terminal for controlling the light turns on the lights installed in the moving line from the living room to the veranda as shown in FIG. 7C based on the control signal.

In addition, when the user touches the touch screen 120 of the surface lighting control apparatus as shown in FIG. 8C, the touch screen 120 provides the corresponding positional XY axis voltage values to the microcomputer 100.

Accordingly, the microcomputer 100 reads the positions touched by the user based on the XY axis voltage values and transmits a control signal to the lighting control terminal through the RF communication module 130 to turn on the lights corresponding to the read positions. The terminal for controlling a light turns on lights installed from the entrance to the living room for the visitor as shown in FIG. 7D based on the control signal.

As described above, in the present invention, for example, the lights are turned on through the manipulation of the touch screen 120, but are input from at least one of the compass module 110, the touch screen 120, and the input switch unit 160. Lighting can be controlled based on the signal.

According to the present invention, by controlling the lights through at least one or more of the touch screen, the compass module, the input switch unit, the user can individually control the lights without the operation of the switch or the wireless remote control.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, according to the present invention, the concept of space perceived by the user can be applied to control installed at any position in the space, so that the user memorizes the serviceable space of lighting and manipulates the operation switch. Unlike the conventional one, the user's convenience can be enhanced.

Claims (9)

A surface lighting control device for controlling a plurality of lights respectively connected to the lighting control terminal, A power supply unit for supplying power to the surface lighting control device; A touch screen for outputting voltage values of different XY axes for each position touched by the user; An RF communication module for transmitting a predetermined control signal to the lighting control terminal through wireless communication; Terminals for controlling lighting through the RF communication module by reading the positions touched by the user using the voltage values input from the touch screen and generating a control signal for turning on or off the lights installed at the read positions. Provided to Micom Surface lighting control device comprising a. The method of claim 1, The apparatus further includes a compass module for sensing the direction of the user's viewing direction, The microcomputer reads the positions touched by the user by using the voltage values input from the touch screen and turns on or off the lights installed at the read positions among the lights in the direction indicated by the compass module. And generating a control signal for the lighting control terminal through the RF communication module. The method of claim 1, The touch screen is a surface illumination control device, characterized in that composed of two resistance plates in the XY axis direction for outputting different voltage values in the XY axis direction for each position touched by the user. The method of claim 1, The apparatus may further include an input switch unit configured of switches corresponding to an area to be controlled by the user and outputting a switching signal for controlling the area according to an operation of the switch. The microcomputer generates a control signal for turning on or off at least one of the lights installed in the area corresponding to the switching signal output from the input switch unit, and transmits the control signal to the lighting control terminal through the RF communication module. Surface lighting control device. The method of claim 4, wherein The input switch unit, the surface lighting control device further comprises a switch for controlling the illuminance of the lights turned on by the micom. The method of claim 1, The device further comprises a status display unit for displaying an operating state of the plurality of lights controlled by the microcomputer. The method of claim 6, The status display unit is composed of a plurality of LEDs, the surface lighting control device, characterized in that turned on the number corresponding to the lights on by the microcomputer of the plurality of LEDs. The method of claim 1, And said power supply unit uses a 3V battery. The method of claim 1, The RF communication module, the surface lighting control device characterized in that for performing communication with the light control terminal using an RS232C communication protocol.

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