KR100355401B1 - remote control device for electronic products useing laser - Google Patents

Abstract

The present invention includes a laser transmitter for outputting a general operation command of the electronic device desired by the user with a laser beam; A power control circuit unit which detects the laser beam transmitted from the laser transmitter as the first light receiving element and controls the power supply to the electronic device by opening and closing the relay element by the detected laser beam; and a laser beam transmitted from the laser transmitter. And a laser receiver configured by a timer circuit unit which automatically turns off the power after a predetermined time by operating the timer by the laser beam sensed by the second light-receiving element.

In addition, the electronic device remote control device using a laser in the present invention is a filter for filtering light other than the laser beam in order to prevent the circuit from malfunctioning because a light source (natural light, lighting, etc.) other than the laser beam is detected in the laser receiver. Dimming circuit unit which includes a circuit unit, and the laser receiver detects the laser beam transmitted from the laser transmitter as the third and fourth light-receiving elements and adjusts the brightness of the electronic device (eg, a lighting device) by the detected laser beam. It further includes.

Description

Remote control device for electronic products useing laser

The present invention relates to a remote control device for an electronic device using a laser. Specifically, a laser for enabling accurate remote control of a device by applying a laser pointer, which is used for lectures and seminars, to a remote control of an electronic device. It relates to an electronic device remote control device used.

More specifically, by using a laser pointer instead of a conventional infrared remote control to remotely control electronic devices, the size of the remote controller itself can be reduced, and the electronics using a laser can be introduced at low cost by using the existing laser pointer as it is. An object of the present invention is to provide a remote control device.

The number of remote controllers used in the modern society is considerable, and the number of electronic devices remotely controlled by the remote controller is also large, so the use of the remote controller will gradually increase, and the use of all electronic devices will be expanded.

Currently used remote controller (remote controller) for the electronic device (lighting device) is mostly to transmit the user's operation command to the electronic device by using the infrared, and to control the lighting device accordingly, the infrared communication It plays a role that corresponds to the transmission part of the communication mechanism that allows the operation command to be transmitted and received by the combination.

The infrared remote control is reflected on a wall or other objects, and the electronic device is controlled without specially aiming the electronic device. This is an advantage of the infrared remote control and a considerable problem.

If several of the same product is in the same space, it becomes difficult to selectively control the electronic device. For example, in the case of lighting equipment, when the user presses the on / off button of the remote control to turn off the kitchen light, In addition to being reflected in the kitchen, but also in the living room that the user does not want to turn off occurs.

It is also difficult to control electronic devices if the distance to the kitchen is outside the range of infrared radiation emitted from the remote control.

Therefore, there is a need for a new type of model that eliminates these shortcomings.

Accordingly, the present invention has been made to solve the above-described problems, the use of a laser pointer used for the purpose of lectures, seminars, etc. to the remote control of the electronic device by using the laser to enable accurate remote control of the device An object is to provide a device remote control device.

Another object of the present invention is to provide an electronic device remote control device that is low cost and easy to introduce using an existing laser pointer as it is.

Another object of the present invention is to provide an electronic device remote control apparatus using a laser to reduce the size of the remote controller itself by remote control of the electronic device using a laser pointer instead of the existing infrared remote control.

1 is a schematic diagram of an electronic device remote control apparatus using a laser of the present invention.

2 is a block diagram of an electronic device remote control apparatus using a laser showing a preferred embodiment of the present invention.

Figure 3 is a detailed circuit diagram showing a laser receiver of the electronic device remote control apparatus using a laser showing a preferred embodiment of the present invention.

<Description of Symbols of Major Parts of Drawings>

10: laser transmitter 20: lens

30: laser receiver 30-1: laser detector

30-2: filter circuit PD1 to PD4: photodiode

100: power supply control circuit 200: reset circuit

300: timing circuit portion 400: brightness control circuit portion

500: power supply

In order to achieve the above object, an electronic device remote control apparatus using a laser of the present invention includes: a laser transmitter for outputting an overall driving command of an electronic device desired by a user as a laser beam; A laser receiver for receiving a laser beam from the laser transmitter and outputting an electrical signal, wherein the laser receiver detects the laser beam transmitted from the laser transmitter as the first light receiving element of the laser detector, the relay element by the detected laser beam A power control circuit for controlling the supply of power to the electronic device by opening and closing the sensor, and detecting the laser beam transmitted from the laser transmitter by the second light-receiving element of the laser detector. And a timer circuit unit for automatically turning off the power supply after it has passed.

In addition, the electronic device remote control device using a laser in the present invention is a filter for filtering light other than the laser beam in order to prevent the circuit from malfunctioning because a light source (natural light, lighting, etc.) other than the laser beam is detected in the laser receiver. It has a circuit part.

If the electronic device for controlling the laser pointer is a lighting device, a dimming circuit part for adjusting the brightness of the lighting device by the laser beams received by the third and fourth light receiving elements of the laser detection unit of the laser receiver is provided. It is further provided.

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

1 is a schematic diagram of an electronic device remote control apparatus using a laser of the present invention.

First, the laser pointer (Laser Pointer) 10 as a laser transmitter in the present invention uses a conventional one, but when the laser pointer 10 is difficult to check with the naked eye when controlling a device at a long distance, the laser pointer 10 Attach the lens 20 to the laser to allow some spread out.

In addition, a laser pointer 10, which is commercially available, is selectively lasered to the first, second, third and fourth light receiving elements PD1 to PD4 of the laser detector 30-1 provided in the laser receiver 30. By radiating the beam, it is possible to remotely control the lighting and turning off of the lighting fixture, and to control the dimming function and the timer function to adjust the brightness of the lighting fixture.

In order to control a general lighting device with the laser pointer 10, a first photodiode PD1 which is a first light receiving element provided in the laser detector 30-1 by aiming the laser beam by the laser pointer 10. When the timer function is used, the home appliance is turned on / off by radiating a laser beam, and the timer is operated by radiating a laser beam to the second photodiode PD2, which is a second light receiving element, to operate a timer. After the last power off.

In addition, when the dimming function is used, the laser beam is radiated to the third and fourth photodiodes PD3 and PD4 which are the third light receiving elements to brighten or darken the illuminance of the lighting fixture.

2 is a block diagram of an electronic device remote control apparatus using a laser showing a preferred embodiment of the present invention.

According to the present invention, a laser transmitter 10 outputs an overall driving command of an electronic device (eg, a lighting device) desired by a user as a laser beam, and a laser that receives the laser beam from the laser transmitter 10 and outputs it as an electrical signal. The receiver 30 is provided.

The laser receiver 30 opens and closes the relay element by the laser beam received by the first light receiving element PD1 of the laser detector 30-1 to control the power supply to the lighting fixture 100. And a timer circuit 300 to automatically turn off the power after a predetermined time by operating the timer by the laser beam received by the second light receiving element PD2 of the laser detector 30-1, and laser detection. The dimming circuit unit 400 adjusts the brightness of the lighting apparatus by the laser beams received by the third light receiving elements PD3 and PD4 of the unit 30-1.

In this case, the laser receiver 30 includes a filter circuit unit 30-2 for filtering light other than the laser beam in order to detect a light source (natural light, illumination, etc.) other than the laser beam and prevent the circuit from malfunctioning.

3 is a detailed circuit diagram illustrating a laser receiver when the electronic device for controlling with the laser pointer is a lighting device.

The power supply control circuit unit 100 constituting the laser receiver 30 is switched on when the base is connected to one end of the first photodiode PD1 and the first photodiode PD1 serving as the light receiving element is turned on by detecting a laser. The first transistor Q1, the first inverter IN1 connected to the contact point of the collector and voltage Vcc of the first transistor Q1, and the other end of the first inverter IN1, A first flip-flop FF1 having the same two stable states, an SSR element SSR1 connected to the Q terminal of the first flip-flop and opened / closed (disconnected / shorted) according to the on / off state of the second transistor; A light emitting diode (LED) connected to the Q 'terminal of one flip-flop and operated by turning on the third transistor Q3 when the power of the lighting fixture is turned off (non-conducting state) by the remote control.

In the preferred embodiment of the present invention, a solid state relay (SSR) element is used, but it is well known that a contact relay, a circular relay, a balanced relay, a reed switch, and the like may be used according to its function or structure.

The reset circuit 200 at the S stage of the first flip-flop FF1 is connected to a wall of the first flip-flop FF1 so that the remote controller can be used when the power is turned on using a light switch attached to a wall. It is a circuit to set the initial state.

In addition, the timer circuit unit 300 has a base connected to one end of the second photodiode PD2, and is switched on when the second photodiode PD2, which is a light receiving element, is turned on by detecting a laser. And a third inverter IN3 whose one end is connected to the collector of the fourth transistor Q4 and the contact of the voltage Vcc, one end of which is connected to the other end of the third inverter IN3, and the other end of which is The first end gate, which is connected to the Q terminal of the first flip-flop FF1 and operates the timer when the output of the third inverter is the signal "1" and the luminaire is turned on (the Q terminal signal of the flip-flop "1"). And (AND1).

In addition, when the third photodiode PD3 detects the laser and turns on the light, the brightness control circuit 400 adjusts the brightness of the light and turns it on, and when the fourth photodiode PD4 detects the laser and turns on, It performs the additional function of darkening the light by adjusting the brightness of the light.

In addition, in the present invention, the filter circuit unit 30-2 for filtering light other than the laser beam is not shown in order to prevent malfunction of the circuit, but the power supply control circuit unit 100 may include the first photodiode PD1 and the first transistor ( It is preferably located between Q1). That is, the filter circuit unit 30-2 is installed behind the first to fourth photodiodes PD1 to PD4, which are light receiving elements included in the laser detector 30-1, and thus the first to fourth photodiodes PD1 to PD4. If the detected light is not a laser beam, it is filtered.

In a preferred embodiment of the present invention, the electronic device remote control device using a laser is applied to the lighting fixture, but can be applied to other electronic products as well as to a heating device.

Hereinafter, with reference to Figures 2 to 3 will be described in detail the operation in the preferred embodiment of the present invention.

The power supply unit 500 uses a bridge diode to obtain a direct current required for circuit operation. This eliminates the need for a transformer, because the current required by the circuit is not very large, and can reduce power consumption.

When the first photodiode PD1, which is a light receiving element, senses the laser beam emitted from the laser pointer 10 and the first photodiode PD1 is ON, voltage is applied to the base of the first transistor Q1. One transistor Q1 is turned on. As a result, a signal enters the clock CK terminal of the flip-flop FF1, and a signal "1" is output from the Q terminal of the flip-flop FF1. This signal is applied to the base terminal of the second transistor Q2 via the resistor R1 to turn on the second transistor Q2. The SSR is operated by the electrical signal from the second transistor Q2, so that the power supply path between the external power source and the lighting fixture is in a conductive state to supply power to the lighting fixture.

Thereafter, when the first photodiode PD1 detects the laser beam radiated from the laser pointer 10 again, the first photodiode PD1 is turned on as in the above, and the first transistor Q1 is turned on. The first transistor Q1 is turned on by applying a voltage to the base of the transistor. As a result, a signal enters the clock CK terminal of the flip-flop FF1, and "0" is output through the Q terminal of the flip-flop FF1. In this case, the voltage applied to the base terminal of the second transistor Q2 is lost, and the second transistor Q2 is turned off and the SSR is disconnected, so that the power supply path between the external power source and the lighting fixture is not conducted, and thus the power connection is lost. It will be cut off.

At this time, since the signal of Q 'is opposite to the signal of the Q terminal, when the power is turned off by the laser pointer 10, a low signal "0" is output to the Q terminal of the flip-flop FF1 and a high signal to Q'. Phosphorus " 1 " is output to conduct the emitter and the collector of the third transistor Q3 to operate the light emitting diode LED. As a result, when the power of the lighting apparatus is turned off by the laser pointer 10, the LED is automatically operated, and the positions of the switches of the electronic apparatus and the lighting apparatus can be monitored by the emission of the LED. By making it easy to find the switch of the lighting fixture that is difficult to identify in a dark or dark place, it helps to accurately aim the laser pointer (10).

In addition, the circuit 200 formed below the S stage of the flip-flop FF1 sets the flip-flop FF1 to an initial state when the power is turned on by using a wall switch of the lighting fixture. ) To make it available.

On the other hand, when the second photodiode PD2, which is a light receiving element, detects the laser beam emitted from the laser pointer 10 and the second photodiode PD2 is turned on, a voltage is applied to the base of the fourth transistor Q4. Thus, the fourth transistor Q4 is turned on. When the fourth transistor Q4 is operated, a 0 V voltage is applied to the emitter terminal of the fourth transistor, whereby a low signal is input to the inverter IN3, and the inverter IN3 is connected to one end of the AND gate AND1. Inverted high signal "1" is applied. The other terminal of the AND gate AND1 is connected to the Q terminal of the flip-flop to allow the timer to be in operation standby state when the state of the Q portion of the flip-flop circuit FF1 is high, that is, "1". That is, when the signal at the Q terminal of the flip-flop FF1 is "1" and the signal output through the inverter IN3 through the fourth transistor Q4 is "1", the signal is provided through the AND gate AND1. The timer is operated by outputting "1", and after a predetermined time, a signal is transmitted from the timer output terminal to the clock CK terminal of the flip-flop FF1 to turn off the power.

Therefore, when an electronic device such as a lighting fixture is turned off, that is, when a "0" signal is output from the Q terminal of the flip-flop FF1, the timer does not operate. When the electronic device such as a lighting fixture is turned on, When the "1" signal is output from the Q terminal of the flip-flop, the timer is started by turning on the AND gate AND1 with the "1" signal inverted by the inverter IN3 via the fourth transistor Q4 and a predetermined time. After this time, a signal is transmitted from the output terminal of the timer to the CK terminal of the flip-flop FF1 to turn off the power supply. At this time, the timer circuit 300 uses an existing circuit as it is.

In addition, as in the preferred embodiment of the present invention, when the electronic device for controlling with the laser pointer 10 is a lighting device, the intensity / brightness of the lighting device is adjusted using a dimming circuit 400. . At this time, the voltage regulation circuit uses an existing circuit as it is.

When the third photodiode PD3 to the fourth photodiode PD4, which are light receiving elements, detects the laser beam emitted from the laser pointer 10, a transistor at a rear end of the third and fourth photodiodes PD3 and PD4 ( (Not shown) is operated to adjust the brightness of the luminaire by +/- voltage by a circuit connected to the emitter side. Therefore, when one of the third and fourth photodiodes PD3 and PD4 is detected, for example, when the third photodiode PD3 detects a laser beam, the brightness of the luminaire is increased, and the third and fourth photodiodes For example, when the fourth photodiode PD4 detects the laser beam, the brightness of the luminaire is dimmed.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention is not limited to the contents described in the accompanying drawings and the detailed description of the specification.

As described above, according to the present invention, by applying a laser pointer used for the purpose of lectures and seminars to the remote control of the electronic device to enable accurate remote control of the device to prevent malfunction of the electronic device, remote control of the device Has the effect of enabling.

In addition, the present invention has an excellent effect of using a laser pointer that is commonly used as it is, low cost and easy to introduce.

In addition, there is an advantage that can reduce the size of the remote controller itself by remote control of the electronic device using a laser pointer instead of the existing infrared remote control.

Claims (5)

A system for enabling remote control of an electronic device, A laser transmitter 10 for outputting an overall driving command of an electronic device desired by a user as a laser beam; The power control circuit unit 100 which detects the laser beam transmitted from the laser transmitter 10 as the first light receiving element PD1 and opens and closes the relay element by the detected laser beam to control power supply to the electronic device. ) And The timer circuit unit 300 detects the laser beam transmitted from the laser transmitter 10 as the second light receiving element PD2 and operates a timer by the detected laser beam to automatically turn off the power after a predetermined time. Electronic device remote control device using a laser, characterized in that it comprises a laser receiver 30 configured. The filter circuit unit 30-2 of claim 1, wherein the laser receiver 30 filters light other than the laser beam to prevent malfunction of a circuit by detecting light sources (natural light, lighting, etc.) other than the laser beam. Electronic device remote control device using a laser, characterized in that it further comprises a). The electronic device (illumination) of claim 1, wherein the laser receiver 30 detects a laser beam transmitted from the laser transmitter 10 by the third and fourth light receiving elements PD3 and PD4. Device for remote control of the electronic device using a laser, characterized in that it further comprises a dimming circuit unit (400) for adjusting the brightness of the mechanism). 4. The electron of claim 3, wherein one of the third and fourth light receiving elements adjusts the illuminance of the electronic device (lighting mechanism) brightly, and the other adjusts the illuminance of the electronic device darkly. Instrument remote control device. The apparatus of claim 1 or 3, wherein the first, second, third and fourth light receiving elements are photodiodes (PD1, PD2, PD3, PD4).