KR101522569B1 - Non-contact switch for controlling illumination and sensing invader - Google Patents

Abstract

The present invention relates to a non-contact switch for controlling illumination and sensing an invader and outputting control signals by sensing a motion, comprising: an optical sensor including a plurality of light emitting elements that emit a light and a light receiving element to receive a reflected light; a controlling part to output control signals depending on selection mode composed of an illumination controlling mode and an invader sensing mode based on sensing values of the optical sensor, wherein the number of the light emitting elements operated varies depending on the selection mode. Additionally, an embodiment of the present invention has a technological feature to turn on and off an illumination, output an alarm, and transmit invader data to a user′s terminal in case of sensing a motion on the invader sensing mode. In addition, an embodiment of the present invention has a technological feature to turn on a plurality of illuminations connected to the switch alternatively when a movement is sensed on the invader sensing mode. Additionally, the present invention has a technological feature to emit a light from one light emitting element on the illumination control mode while turning on at least two light emitting element on the invader sensing mode, thus, having different sensing range depending on the mode.

Description

[0001] NON-CONTACT SWITCH FOR CONTROLLING ILLUMINATION AND SENSING INVADER FOR LIGHT CONTROL AND INTRUDER DETECTION [0002]

The present invention relates to a noncontact switch for controlling illumination and detecting an intruder and detecting an intruder by detecting an operation and outputting a control signal.

More specifically, the noncontact switch includes an optical sensor including a light emitting element and a light receiving element, and a control unit for outputting a control signal according to a mode selected from an illumination control mode or an intruder detection mode, so as to control the illumination according to an operation sensed by the optical sensor To a contactless switch for illumination control and intruder detection for detecting an intruder.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a noncontact switch for illumination control and intruder detection for controlling dimming of an illumination according to the intensity of a light source received by a light receiving element.

According to the present invention, in the illumination control mode, the light source is caused to emit light in a single light emitting device, and in the intruder detection mode, light emission is performed in at least two light emitting devices, Contact switch.

The present invention relates to a contactless switch for illumination control and intruder detection in which a light source emitted from a light emitting device has a predetermined angle and is emitted in a superimposed manner in an intruder detection mode.

The present invention relates to a noncontact switch for intruder detection and illumination control in which an alarm is sounded when an operation is detected by an optical sensor and intrusion information is transmitted to a user terminal in an intruder detection mode.

The present invention relates to a contactless switch for illumination control and intruder detection in which a light connected to a switch is blinked when an operation is detected by an optical sensor in a chip particle detection mode.

The present invention relates to a noncontact switch for illumination control and intruder detection for switching modes based on ECU information of a vehicle when installed in a vehicle.

In general, a switch controls the on / off operation of a device installed in a specific place.

In particular, the lighting switch is a mechanical switch that is provided on one side of a specific place to control the lighting of the place, and is controlled by a button or the like, or a touch switch for touching and controlling the screen.

However, in the case of the above-mentioned mechanical switches and touch switches, there is a problem such as loss or breakage of the durability of the switch, since it requires direct contact with the switch for lighting control.

To solve these problems, techniques for controlling the illumination without direct contact are being developed.

In connection with the above technique, Japanese Patent Application Laid-Open No. 10-2009-0097241 discloses a light switch connected with a sensor and a light control and unmanned security system using the same.

The above-described technique is to connect a sensor for detecting a human body to a light switch in an infrared or heat sensing manner in a room where a light is installed, and to control the light through human body detection information sensed by the sensor.

In the outgoing mode, the intruder is detected through the sensor and the flashing of the lamp and the alarm sound are outputted.

However, the technology described above only provides a condition for illumination control, and does not provide a configuration capable of controlling dimming (brightness) of illumination.

In connection with the technique capable of dimming control, Japanese Unexamined Patent Application Publication No. 10-2012-0021047 discloses a dimming control system interlocked with a crime prevention system.

The above-described technique is configured such that the brightness of the lighting apparatus is automatically adjusted to the set brightness by interlocking with the human body detection. To this end, a control signal for controlling the power AC voltage supplied to the illumination and the DC voltage for dimming control The dimming can be controlled.

By setting the security mode, the security system is executed according to the human body detection signal.

However, the technology described above only describes controlling the dimming by controlling the DC voltage according to a human body detection signal, and specifically, does not describe a method of freely controlling brightness (dimming) of illumination according to the user's choice .

In addition, the above-described technologies perform illumination control and security function through the same detection range in performing illumination control and security (unmanned security) function through a sensor.

For example, when a certain detection range is formed to perform a crime prevention function, since there is no configuration for the detection range adjustment, the illumination control is performed through the same detection range as the detection range of the crime prevention function.

Accordingly, the detection range for the illumination control can be inefficiently expanded. In performing the illumination control, an unnecessary operation for detecting the sensor is frequently detected, which may interfere with performing the illumination control .

On the other hand, when the sensing range is formed by reducing the sensing range in accordance with the lighting control performance, it is necessary to perform a crime prevention function through the sensing range, so that a blind spot is generated or a crime prevention function can not be efficiently performed.

Therefore, by switching the illumination control mode and the intruder detection mode as necessary, the detection range is formed differently according to each mode. In the case of illumination control, the detection range can be narrowed to minimize unnecessary motion detection. By broadening the detection range, it is required to develop a technology capable of performing a more effective crime prevention function.

Furthermore, it is required to develop a technology capable of adjusting the dimming (brightness) of the illumination in a noncontact manner according to the user's selection.

Published Patent Application No. 10-2009-0097241 (September 16, 2009) Open Patent Publication No. 10-2012-0021047 (March 23, 2012)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a noncontact switch which includes an optical sensor for detecting an operation and outputting a control signal, Contact switch for detecting the contactless switch.

It is another object of the present invention to provide a noncontact switch for illumination control and intruder detection that can control dimming of an illumination according to the intensity of a light source received by a light receiving element.

It is still another object of the present invention to provide an illumination control method for illuminating a light source in a single light emitting device and illuminating a light source in at least two light emitting devices in an intruder detection mode, Contact switch for control and intruder detection.

Still another object of the present invention is to provide a noncontact switch for illumination control and invader detection capable of removing a blind spot because the light source emitting light from the light emitting device has a certain angle and is superposed to emit light in the intruder detection mode have.

Still another object of the present invention is to provide a noncontact switch for intruder detection and lighting control for emitting an alarm when an operation is detected by an optical sensor, blinking illumination connected to a switch, transmitting intrusion information to a user terminal, .

Another object of the present invention is to provide a contactless switch for intruder detection and illumination control in which a mode is switched based on ECU information of a vehicle when a contactless switch is installed in a vehicle, There is.

According to an aspect of the present invention, there is provided a contactless switch for detecting an operation and outputting a control signal, the contactless switch comprising: a plurality of light emitting devices for emitting a light source; An optical sensor including a light receiving element; And a control unit for outputting a control signal according to a selection mode configured by an illumination control mode and an intruder detection mode based on the detection value of the optical sensor. The number of the light emitting devices to be operated according to the selection mode is changed.

Further, the present invention is characterized in that the dimming of the illumination is controlled according to the intensity of the light source received by the light receiving element.

According to another aspect of the present invention, there is provided an intruder detection mode in which when an operation is detected, an illuminator is turned on, an alarm is output, and intruder information is transmitted to a user terminal. And when the operation is detected in the intruder detection mode, a plurality of lights connected to the noncontact switch are alternately emitted.

Further, according to the present invention, in a lighting control mode, a light source is caused to emit light by a single light emitting element, and in a case of an intruder detection mode, a light source is emitted by at least two light emitting elements, do.

The noncontact switch for illumination control and intruder detection according to the present invention has a remarkable effect that the durability of the switch can be improved because the switch can be controlled in a noncontact manner.

Further, the present invention adjusts the dimming of the illumination according to the intensity of the light source received by the light receiving element of the optical sensor, so that the user can control the brightness (dimming) of the illumination by controlling the operation sensed by the optical sensor, It has a remarkable effect.

Further, since the present invention has a different detection range according to the illumination control mode or the intruder detection mode, it has a remarkable effect in that unnecessary operation is detected in the case of the illumination control mode to prevent random illumination control from being performed.

According to the present invention, in the intruder detection mode, the light sources emitted from the light emitting devices are arranged to have a predetermined angle and overlap each other to emit light, thereby minimizing the blind spots in the sensing range, Effect.

Further, in the intruder detection mode, when an operation is detected, an alarm is output and the illumination is blinked, thereby giving intrusion to the intruder. By transmitting the intrusion information to the user terminal, It has a remarkable effect that can be achieved.

1 shows a schematic connection configuration of a contactless switch for illumination control and intruder detection according to the present invention.
2 shows an internal configuration of a contactless switch for illumination control and intruder detection according to the present invention.
3 shows the configuration of an optical sensor included in a contactless switch for illumination control and intruder detection according to the present invention.
4 shows an example in which an optical sensor of a contactless switch for illumination control and intruder detection according to the present invention detects an operation in an illumination control mode.
5 shows another example in which the optical sensor of the contactless switch for illumination control and intruder detection according to the present invention senses the operation in the illumination control mode.
6 shows an example in which an optical sensor of a contactless switch for illumination control and intruder detection according to the present invention detects an intruder in an intruder detection mode.
6A is a view illustrating a configuration of an optical sensor in which a light source emitting light from a light emitting device of a noncontact switch for illumination control and intruder detection according to the present invention has a certain angle.
FIG. 7 shows an example of an operation that the optical sensor can detect in the intruder detection mode in the contactless switch for illumination control and intruder detection according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor can properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

The present invention relates to a noncontact switch for controlling illumination and detecting an intruder and detecting an intruder by detecting an operation and outputting a control signal.

To this end, the noncontact switch according to the present invention includes an optical sensor including a light emitting element and a light receiving element, and a control unit for outputting a control signal according to a selection mode.

That is, the contactless switch according to the present invention can switch the selection mode, wherein the selection mode is divided into the illumination control mode and the chip particle sensing mode.

Prior to the description, the meanings of words used in the present invention will be summarized.

The illumination control mode is a mode for controlling the on / off operation of the illumination connected to the contactless switch based on the operation sensed by the optical sensor.

At this time, besides the on / off operation, the dimming (brightness) adjustment can be controlled, which will be described later.

The intruder detection mode is a mode in which an external intrusion is detected based on the operation detected by the optical sensor.

Accordingly, the contactless switch is switched between the illumination control mode and the intruder detection mode by the user's operation, and can be automatically switched depending on the design conditions.

The motion may also be a human hand gesture or body gesture motion.

That is, the illumination control can be performed by the optical sensor detecting the motion of the hand gesture (hand gesture) or the body gesture (body motion), and the intruder detection is performed by the optical sensor detecting the motion of the person (external intruder).

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

FIG. 1 shows a schematic connection structure of a non-contact switch for illumination control and intruder detection according to the present invention, and FIG. 2 shows an internal structure of a contactless switch for illumination control and intruder detection according to the present invention.

As shown in FIG. 1 of the accompanying drawings, the noncontact switch 100 according to the present invention includes a built-in optical sensor 110 on the outside and a speaker on the outside.

The noncontact switch 100 is installed in a residence such as a home or the like to control illumination or control lighting of a vehicle installed inside the vehicle, and performs intruder detection through mode switching. And is configured to communicate with the user terminal through wire / wireless communication.

The contactless switch 100 includes the optical sensor 110, the control unit 120, the alarm output unit 130, and the communication unit 140, as shown in FIG. 2 of the accompanying drawings.

The optical sensor 110 includes a light emitting element that emits a light source and a light receiving element that emits light from the light emitting element and receives a light source reflected from the object.

This optical sensor 110 will be described with reference to FIG. 3 of the accompanying drawings.

3 shows the configuration of an optical sensor included in a contactless switch for illumination control and intruder detection according to the present invention.

The optical sensor 110 according to FIG. 3 of the accompanying drawings may be composed of a plurality of light emitting devices 111 in the periphery on the basis of the light receiving element 112 and the light receiving element 112.

In FIG. 3 of the accompanying drawings, the number of the light emitting devices 111 is three. However, the number of the light emitting devices 111 is not limited to three as shown in the drawing, A plurality of such units may be provided.

In summary, it is sufficient that at least two light emitting elements 111 are provided around the light receiving element 112.

The control unit 120 outputs a control signal according to the detection value of the optical sensor 110, thereby controlling the illumination or detecting the intruder.

The control unit 120 includes a sensed value determining module, a lighting control module, a mode switching control module, and a light emitting device control module.

The detection value determination module can determine whether an operation is detected in the illumination control mode or an operation is detected in the intruder detection mode, and generates a control signal according to the detection value.

In other words, the control signal in the illumination control mode and the control signal in the intruder detection mode according to motion detection are output in a different manner.

The illumination control module controls the on / off operation of the illumination connected to the contactless switch 100 when the operation of the optical sensor 110 installed in the contactless switch 100 is detected.

The lighting control module can also control the dimming (brightness) of the illumination.

At this time, the dimming adjustment of the illumination may be adjusted according to the intensity of the light source received by the light receiving element 112 of the optical sensor 110.

That is, when an object to be operated is detected close to the optical sensor 110, the intensity of the light source is strongly received by the light receiving element 112.

In summary, as the object is closer to the optical sensor 110, the intensity of the light source received by the light receiving element 112 becomes stronger, which will be described with reference to FIG. 4 of the accompanying drawings.

4 shows an example in which an optical sensor of a contactless switch for illumination control and intruder detection according to the present invention detects an operation in an illumination control mode.

In FIG. 4 of the accompanying drawings, the light source may be configured to emit light only in a selected one (single) of the three light emitting devices 111 included in the optical sensor 110.

This is because the detection range is formed only around the non-contact switch, so that unnecessary operation without the purpose of illumination control is detected to prevent illumination from being controlled.

In addition, according to FIG. 4 of the accompanying drawings, an object to be operated is displayed by the user's hand, and the object moves in the high and low directions with the optical sensor 110 as a reference.

The dimming value of the illumination is adjusted according to the distance between the object and the optical sensor 110. According to FIG. 4 of the accompanying drawings, as the object approaches the optical sensor 110, the dimming value is adjusted to 100% (maximum brightness) , And the dimming value is adjusted to 10% (minimum brightness) as the object moves away from the optical sensor 110. [

However, since the scope of the present invention is not limited or limited by the drawings, the dimming values (10% and 100%) can be controlled to be reversed according to the distance between the object and the optical sensor 110 to be.

The termination of the dimming control of the illumination is performed by extracting a hand (object) out of the sensing range of the optical sensor 110 in a short time.

In addition, the optical sensor 110 can determine the number of times the light source receives the light from the light receiving element 112, in addition to the movement of the object in the high and low directions, which will be described with reference to FIG. 5 of the accompanying drawings.

5 shows another example in which the optical sensor of the contactless switch for illumination control and intruder detection according to the present invention senses the operation in the illumination control mode.

5 of the accompanying drawings shows that an object passes through the sensing range of the light emitting device 111 emitting the light source in the parallel direction of the optical sensor 110. [

The detection range of the optical sensor 110 is determined based on the number of times the object has passed through the sensing range.

That is, the light source emitted from the light emitting element 111 is reflected by an object passing through the sensing range and is received by the light receiving element 112. At this time, the number of times the object passes through the sensing range, It detects motion through the number of times.

For example, when the object is not within the detection range, the amount of light received by the light receiving element 112 may be zero. When the object passes the detection range, the amount of light received by the light receiving element 112 exceeds 0 do.

At this time, the number of times the light amount passes through the detection range of the optical sensor 110 can be determined by detecting the number of times the light amount is changed.

The light emitting device control module controls the number of light emitting devices to emit light according to a mode among the plurality of light emitting devices 111 provided in the optical sensor 110.

That is, in the lighting control mode as described above, the light emitting element control module controls the light source to emit light in the single light emitting element 111.

Accordingly, the sensing range formed by the light source emitted from the light emitting device 111 can be reduced, and unnecessary operation can be sensed to prevent illumination control.

The intruder detection module performs a function of detecting an intruder according to the detection value of the optical sensor 110.

On the other hand, the light emitting device control module controls the light source to emit light from at least two light emitting devices when the contactless switch 100 is in the intruder detection mode according to the intruder detection module.

At this time, the two or more light emitting elements may be all light emitting elements provided in the optical sensor 110, and may be two or more light emitting elements for detecting an intruder among the n light emitting elements provided in the optical sensor 110 have.

In the case of the intruder detection mode, the light source is illuminated in two or more light emitting devices will be described with reference to FIGS. 6 to 7 of the accompanying drawings.

6 shows an example in which an optical sensor of a contactless switch for illumination control and intruder detection according to the present invention detects an intruder in an intruder detection mode.

According to FIG. 6 of the accompanying drawings, light sources are overlapped and emitted from three light emitting devices 111.

Accordingly, the detection range of the optical sensor 110 can be further widened. Unlike the illumination control mode for preventing unnecessary motion detection, a wide sensing range is required for intruder detection, .

The reason why the light sources emitted from the light emitting device 111 are overlapped is to remove the blind spot for the detection range.

Also, the light emitting device 111 used in the illumination control mode is configured to emit a stronger light source than the illumination control mode in the intruder detection mode.

That is, the light source that emits light in the illumination control mode may be configured such that the intensity of the light source is weaker than that of the light source that is emitted in the intruder detection mode.

Accordingly, in the illumination control mode, the operation of the object close to the optical sensor 110 is detected to control the on / off operation and the dimming control of the illumination. In the intruder detection mode, Detect the motion of the object.

In addition, the light source of the light emitting device 111 that emits light in the intruder detection mode is configured to emit light with a certain angle. Herein, the predetermined angle is preferably 60 [deg.], So that the light emitting device 111 emits light with an angle of 120 [deg.] In total.

The configuration of the optical sensor 110 will be described with reference to FIG. 6A of the accompanying drawings.

6A is a view illustrating a configuration of an optical sensor in which a light source emitting light from a light emitting device of a noncontact switch for illumination control and intruder detection according to the present invention has a certain angle.

6A, a lens L is formed on the light emitting device 111 provided on the optical sensor 110 and a fresnel lens P is provided on the lower side of the lens L.

At this time, the Fresnel lens P guides the light emitted from the light emitting device 111 to emit light at a certain angle.

That is, the Fresnel lens P is configured such that the light source emitted from the light emitting element 111 has an angle of 60 degrees.

Depending on other design conditions, the light emitting device 111 that emits a light source in the intruder detection mode may be provided on the circuit board of the optical sensor 110 so that a certain angle (preferably 60 degrees) is formed.

The sensing range of the optical sensor 110 is also set to a constant value corresponding to the angle of the light source of the light emitting device 111. Accordingly, the light source 111 emits light with a predetermined angle (60 degrees) It has an angle (a, angle) and forms a sensing range.

That is, the optical sensor 110 may have a detection range of 120 degrees.

FIG. 7 shows an example of an operation that the optical sensor can detect in the intruder detection mode in the contactless switch for illumination control and intruder detection according to the present invention.

7 of the accompanying drawings shows that an object moves in the downward direction from the upper direction and the rightward direction moves from the left direction to the sensing range of the optical sensor 110 have.

In this case, the optical sensor 110 may sense the movement of an object moving in the left (up) direction from the lower (lower) direction or the right (left) direction.

In addition, depending on the design conditions, various operations such as diagonal direction as well as upward, downward, leftward, and rightward directions can be detected.

That is, in the intruder detection mode, since the number of the light emitting elements 110 in which the light sources are emitted is two or more, each of the two or more light sources emitting light is reflected from the object and received by the light receiving element 112 The optical sensor 110 can sense an operation in which an object (hand) moves in a direction.

The illumination control mode and the intruder detection mode described above are switched through the mode switching control module. That is, the mode switching control module controls switching of the illumination control mode or intruder detection mode of the noncontact switch 100.

At this time, in the selection mode switching, the optical sensor 110 detects a certain operation or configures a specific interface (for example, a slide type select button, a touch screen, a card identification unit, etc.) to the contactless switch 100 Mode selection, password input, or recognition of the security card.

In particular, when the non-contact switch 100 is in the illumination control mode in the case of switching the selection mode by detecting the predetermined operation, since a single light emitting element is used, the operation is detected through the number of times the light source receives the light receiving element .

When the noncontact switch 100 is in the intruder detection mode and switches to the illumination control mode, two or more light emitting elements are used. Therefore, when the object is in the upper, lower, left, (Low and high) directions including the current mode, so that the mode is switched by detecting the corresponding operation.

For example, in order to switch from the intruder detection mode to the light control mode, the user operates the hand (object) from the upper direction to the lower direction and then operates in the right direction so that the mode is switched Can be configured.

Thus, when the intruder detection mode is released, the contactless switch 100 is configured to automatically switch to the illumination control mode.

The selection mode switching of the noncontact switch 100 can be interlocked with the door of the residence according to the design conditions.

For example, when the door is locked, the noncontact switch 100 is automatically switched to the intruder detection mode, or when the door that has been locked is normally controlled to be opened, the contactless switch 100 in the intruder detection mode It is possible to configure to switch to the illumination control mode.

When an operation is detected in the intruder detection mode, the alarm output unit 130 outputs an alarm through a speaker provided in the noncontact switch 100.

In addition, when an operation is detected in the intruder detection mode, the control unit 120 can control the illumination to be turned on through the illumination control module.

That is, the illumination is controlled while repeating on / off operations.

In addition, a plurality of lights may be connected to the non-contact switch 100. In this case, when the operation is detected in the intruder detection mode, the plurality of lights may be alternately controlled to emit light.

The communication unit 140 transmits the intrusion information to the user terminal through wire / wireless communication.

Therefore, it is possible to give intruders a feeling of overpressure due to visual and auditory impulses, and it is possible to promptly follow up the invasion by notifying the invasion state by transmitting the invasion information to the user terminal quickly.

The noncontact switch 100 thus constructed can be installed in the vehicle as described above.

(Trunk lights, sunroof lights, etc.) installed in the vehicle, and detects intruders entering the vehicle.

Also, when installed in a vehicle, switching from the illumination control mode to the intruder detection mode can be automatically switched to the engine control unit (ECU) of the vehicle without any additional operation.

That is, based on the engine state of the vehicle and the lock state of the vehicle door, when the vehicle's engine is stopped and the door of the vehicle is locked, it is determined that the user has got off the vehicle, May be configured to be performed.

At this time, as the state of the vehicle door is unlocked, the contactless switch 100, which is an intruder detection mode, may be switched to the illumination control mode.

The noncontact switch for illumination control and intruder detection according to the present invention may further include at least one sensor selected from an ultrasonic sensor or a human body sensor in the contactless switch 100 to perform intruder detection.

Here, the ultrasonic sensor senses the motion through the ultrasonic wave.

In addition, the human body detection sensor may be an infrared sensor or a thermal sensor. In particular, in the case of a thermal sensor, the human body sensor may acquire an image through the sensed heat, and may transmit the acquired thermal image to the user terminal.

Accordingly, when intruders are detected in intruder detection mode, intruders can be formed with a wider detection range.

The contactless switch for illumination control and intruder detection according to the present invention can control the switch in a noncontact manner, thereby improving the durability of the switch.

Further, since the dimming of the illumination is controlled according to the intensity of the light source received by the light receiving element of the optical sensor, the user can adjust the brightness (dimming) of the illumination according to the user's selection by controlling the operation sensed by the optical sensor .

In addition, since the present invention has a different detection range according to the illumination control mode or the intruder detection mode, it is possible to prevent the unnecessary operation from being performed in the illumination control mode to perform the random illumination control.

Also, in the intruder detection mode, the light source emitting light from the light emitting device has a predetermined angle and is overlapped to emit light, thereby minimizing a blind spot in the sensing range and forming a wider sensing range.

Further, in the intruder detection mode, when an operation is detected, an alarm is output and the illumination is blinked, thereby giving intrusion to the intruder. By transmitting the intrusion information to the user terminal, can do.

1 to 7 have described only the main points of the present invention. As various designs can be made within the technical scope of the present invention, the present invention is limited to the configurations of Figs. 1 to 7 It is self-evident.

100: contactless switch 110: optical sensor
111: light emitting element 112: light receiving element
120: control unit 130: alarm output unit
140: Communication part L: Lens
P: Fresnel lens

Claims (15)

An optical sensor including a plurality of light emitting elements for emitting a light source and a light receiving element for receiving the reflected light source; And
A control unit for outputting a control signal according to a selection mode configured by an illumination control mode and an intruder detection mode based on the detection value of the optical sensor; A noncontact switch for illumination control and intruder detection for detecting an operation and outputting a control signal,
In the selection mode,
The control mode is switched to the light control mode or the intruder detection mode through at least one of motion detection, password input, and card recognition,
Wherein the control signal of the illumination control mode includes:
And a control signal for controlling the dimming of the illumination according to the sensed value of the optical sensor,
The light-
The number of operations according to the selection mode is changed,
Wherein a single light emitting device is operated in the light control mode and at least two light emitting devices are activated in the intruder detection mode.
The method according to claim 1,
Wherein the control signal of the illumination control mode includes:
Wherein the control signal is a control signal for controlling illumination on / off according to a detection value of the optical sensor.
delete The method according to claim 1,
The control signal of the intruder detection mode,
Wherein the control signal is a control signal for blinking the light according to the detection value of the optical sensor.
The method of claim 4,
The illumination is made up of a plurality of lights,
The control signal of the intruder detection mode,
Wherein the control signal is a control signal for alternately emitting the plurality of lights according to a detection value of the optical sensor.
The method according to claim 1,
The control signal of the intruder detection mode,
And a control signal for outputting an alarm according to the detection value of the optical sensor.
The method according to claim 1,
Wherein the contactless switch includes a communication unit,
The control signal of the intruder detection mode,
And the intrusion information is transmitted to the user terminal through the communication unit according to the detection value of the optical sensor.
delete The method according to claim 1,
The selection mode is switched according to the motion detection,
Wherein the selection mode is switched according to the number of light sources received by the light receiving element or the direction of the object determined based on the light source received by the light receiving element.
delete delete The method according to claim 1,
Wherein the light source emits light from at least two light emitting devices,
Contact switch for illumination control and intruder detection.
The method according to claim 1,
Wherein the noncontact switch further comprises at least one sensor selected from an ultrasonic sensor or a human body detection sensor.
14. The method according to any one of claims 1 to 13,
Wherein the non-contact switch is installed in the vehicle and outputs a control signal in accordance with the selection mode.
15. The method of claim 14,
The noncontact switch includes:
And the selection mode is switched in cooperation with the ECU of the vehicle.

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