KR102317031B1 - Lamp - Google Patents

Abstract

The present invention relates to a lamp operated by external input light. According to the present invention, a light receiving unit 110 that receives light irradiated from the outside and outputs it as a voltage pulse wave, and a voltage pulse wave output from the light receiving unit 110 The pulse voltage detection unit 120 for detecting the intensity of the voltage and the voltage pulse wave output from the light receiving unit 110 are inputted, and the voltage value detected by the pulse voltage detection unit 120 is read, and the input voltage pulse wave is input. The control unit 140 that outputs a lighting control signal to the light emitting unit 150 based on the number of times and the magnitude of the voltage value of the voltage pulse wave, and the light emitting unit that turns on or turns off based on the lighting control signal received from the control unit 140 It is characterized in that it is configured to include 150, and according to this, there is an advantage that only a desired lamp can be selectively turned on and off from a plurality of lamps.

Description

Lamp operated by external input light {LAMP}

The present invention relates to a lamp, and in particular, when a plurality of lamps are installed, one or a plurality of lamps can be selectively turned on and off to improve the convenience of lamp control operation. It relates to lamps operated by light.

In general, LEDs are widely used as lighting lamps, and a method of operating the LED lamps with a remote control to conveniently turn on and turn off the LED lamps is known.

As a remote control for turning on/off LED lamps, an infrared remote control is generally used.

In the case of turning on and off LED lamps with a remote control, if there is one LED lamp, there is no inconvenience in turning off the lights. Even lamps that you do not want to use were operated in some cases, which caused inconvenience in use.

As a technology developed to solve this inconvenience, an address designation method for communication for each lamp has been developed.

However, in this addressing method, an address must be assigned to each lamp, and a button corresponding to each address must be provided in a one-to-one correspondence with the lamps for each remote control.

Document 1: Registered Patent Publication No. 10-1306021 (Announcement date: September 12, 2013) Document 2: Registered Utility Model Publication No. 20-0400022 (Announcement: November 04, 2005)

The present invention was created to solve the problems of the prior art as described above, and the purpose of the lamp operated by external input light according to the present invention is,

First, a number of lamps can be conveniently and error-free controlled by one light irradiation means (eg, infrared remote control, light irradiator, flash, light transmitter, light emitting unit, LED, etc.),

Second, to selectively operate only the lamps to be turned on in a plurality of lamps,

Third, the maximum voltage value can be accurately detected in a short time with respect to the voltage pulse wave output by the light receiving unit,

Fourth, the light emitting part can be turned on according to the maximum voltage value and the number of inputs of the voltage pulse wave, not the address designation method, so that the control of the lamp can be made simple and convenient, and thus the cost of the product can be lowered,

Fifth, based on the light receiving unit, pulse voltage detecting unit, and control unit, which are the existing components for realizing the lamp on/off operation, it is possible to control the additional operation (function) of the light emitting unit simply by setting some input values. and

Sixth, it is operated by external input light suitable to be able to perform additional functions (operations) of the lamp even if a separate control circuit or additional configuration is not adopted by simply turning on and off the lighting switch. It is to provide a lamp that becomes

The lamp operated by external input light of the present invention for achieving the above object includes a light receiving unit that receives light irradiated from the outside and outputs it as a voltage pulse wave, and detects the intensity of the voltage of the voltage pulse wave output from the light receiving unit receiving the voltage pulse wave output from the light receiving unit, reading the voltage value detected by the pulse voltage detecting unit, based on the number of input of the input voltage pulse wave and the magnitude of the voltage value of the voltage pulse wave It is characterized in that it comprises a control unit for outputting a lighting control signal to the light emitting unit, and a light emitting unit that turns on or off based on the lighting control signal received from the control unit.

The lamp operated by external input light according to the present invention having the above configuration has the following effects.

First, there is an effect of conveniently and error-free control of a plurality of lamps with only one button operation of one light irradiation means (eg, infrared remote control, light irradiator, flash, light transmitter, light emitting unit, LED, etc.).

Second, there is an effect of selectively operating only the lamps desired to be turned on in the plurality of lamps.

Third, there is an effect of accurately detecting the maximum voltage value in a short time with respect to the voltage pulse wave output by the light receiving unit.

Fourth, by allowing the light emitting part to light up according to the maximum voltage value and the number of inputs of the voltage pulse wave rather than the address designation method, there is an effect of making the control of the lamp simple and convenient, and as a result, the cost of the product can be lowered. It works.

Fifth, it is based on the light receiving unit, the pulse voltage detecting unit, and the control unit, which are the existing components for realizing the lamp on/off operation, but it is possible to control the additional operation (function) of the light emitting unit simply by setting some input values. It works.

Sixth, there is an effect that can perform additional functions (operations) of the lamp even if a separate control circuit or additional configuration is not adopted by simply turning on and off the lighting switch.

1 is a block diagram of a lamp operated by external input light according to an embodiment of the present invention.
FIG. 2 is a detailed circuit diagram of the pulse voltage detector in FIG. 1 .
3 is a conceptual diagram showing the main part for controlling operations other than ON/OFF by the light emitted from the light emitting unit 150 in the lamp operated by external input light according to an embodiment of the present invention.
4 is a conceptual diagram illustrating selectively operating a lamp by a single button with one remote control 10 when a plurality of lamps operated by external input light according to an embodiment of the present invention are provided. am.

Hereinafter, a preferred embodiment of the present invention of a lamp operated by external input light will be described in detail with reference to the accompanying drawings.

The lamp operated by light input from the outside according to an embodiment of the present invention receives the light [light pulse] irradiated from the light irradiation means such as an infrared remote control, an optical transmitter, and an optical output device, and receives a voltage pulse wave [pulse] signal], the pulse voltage detector 120 for detecting the voltage intensity of the voltage pulse wave output from the light receiving unit 110, and the voltage pulse wave output from the light receiving unit 110 are input and read the voltage value detected by the pulse voltage detection unit 120, and based on the number of input of the input voltage pulse wave and the magnitude of the voltage value of the voltage pulse wave, a lighting control signal control signal or light emission off control signal], and a light emitting unit 150 that turns on or off based on a lighting control signal received from the control unit 140 .

According to this, it is possible to conveniently and error-free control of a plurality of lamps with only one button operation of one light irradiation means (eg, infrared remote control, light irradiator, flash, light transmitter, light emitting unit, LED, etc.).

That is, a plurality of lamps 100-1, 100-2, ..., 100-9 are provided in a certain space, and in particular, the lamps 100-1, 100-2,. When a plurality of .., 100-9) is provided, all the lamps 100-1, 100-2, ..., 100-9 operate unconditionally at once according to the optical signal output from the remote control. Rather, it is possible to individually operate each lamp 100-1, 100-2, ..., 100-9 according to the number of inputs and the distance of a single button.

Since it operates according to the intensity of voltage and the number of inputs, it is possible to selectively operate only the lamp to be turned on.

In the lamp operated by external input light according to an embodiment of the present invention, the pulse voltage detector 120 detects a maximum voltage value of the input voltage pulse wave.

According to an embodiment, the lamp operated by external input light according to an embodiment of the present invention is provided between the light receiving unit 110 and the control unit 140 , and a voltage pulse wave output from the light receiving unit 110 . It is characterized in that it further includes a pulse wave processing unit 130 that receives and outputs, for example, a DC signal that the control unit 140 can process and outputs to the control unit 140 .

The pulse wave processing unit 130 may be implemented by various known technologies prior to application, such as a filter unit, an amplifier unit, and an FET.

And, according to an embodiment, an amplifying means (not shown) for amplifying the voltage pulse wave may be further included at the rear end of the light receiving unit 110 .

Of course, when the amplifying means is additionally provided as described above, the pulse voltage detecting unit 120 detects the intensity of the voltage of the voltage pulse wave amplified by the amplifying means.

In addition, the light emitting unit 150 may be composed of, for example, a light emitting device such as an LED, or may be composed of a light emitting device (eg, LED) and a light emitting driving unit (eg, LED driver) for driving the light emitting device, in any case Of course, it belongs to the technical scope of the present invention.

In the lamp operated by external input light according to an embodiment of the present invention, the pulse voltage detecting unit 120 is a capacitor provided by branching in parallel between the light receiving unit 110 and the pulse wave processing unit 130 . A rectifier diode (D2) for blocking the voltage accumulated in (C2) from flowing in the reverse direction is connected in parallel between the rectifier diode (D2) and the control unit 140, and between the rectifier diode (D2) and the ground (G1) and a capacitor C2 for accumulating the electrical energy of the voltage pulse wave, connected in parallel with the capacitor C2, and connected between the rectifier diode D2 and the ground G1, and the capacitor C2 It is characterized in that it comprises a resistor (R2) for discharging the voltage accumulated in the.

According to this, there is an advantage in that the voltage can be accurately detected in a short time with a simple configuration.

In the lamp operated by external input light according to an embodiment of the present invention, the control unit 140 includes the number of inputs of the voltage pulse wave and the voltage of the voltage pulse wave input during a first set time (eg, 2 seconds). It is characterized in that the lighting control signal is output to the light emitting unit 150 based on the maximum value (maximum voltage value) of the value.

Since the light emitting unit 150 can be turned on according to the maximum voltage value of the voltage pulse wave and the number of inputs rather than the address designation method, it is possible to simply and conveniently control only the lamps that want to turn on and off.

In addition, the first set time, the maximum voltage value of the voltage pulse wave, and the number of voltage pulse waves, which are conditions for the controller 140 to output the lighting control signal, are stored in the storage unit 142 .

The storage unit 142 may be provided inside the control unit 140 (that is, may be configured in the form of a single chip with the control unit) or may be configured separately from the control unit 140, in any case, the present invention belong to the technical scope of

In the lamp operated by external input light according to an embodiment of the present invention, the magnitude of the voltage value of the voltage pulse wave input within the first set time and the number of times the voltage pulse wave are input are in inverse proportion to the storage unit 142 characterized in that it is stored.

Therefore, when the magnitude of the voltage value of the voltage pulse wave is large, the number of times of inputting the input voltage pulse wave is small, and when the magnitude of the voltage value is small, the lighting control signal is output when the number of times of input of the input voltage pulse wave is large. do.

Since the strength of the voltage is inversely proportional to the distance, that is, a nearby lamp has a large voltage strength and a distant lamp has a weak strength, so depending on the distance from the remote control 10 to the farther away, for example, 5 V is 1 time, 4 V is set to 2 times, 3 V is 3 times, 2 V is 4 times, and 1 V is 5 times, which will be described in detail later.

In the lamp operated by external input light according to another embodiment of the present invention, after the lighting control signal is output, that is, after the light emitting unit 150 is turned on, the second set voltage value is higher than the second set voltage value within the second set time. When the voltage pulse wave is input as the second set number of times as the voltage value, the control unit 140 recognizes the voltage pulse wave input as the second set number of times as the second set voltage value or more as a logic signal, and the light emitting unit 150 It is characterized in that the additional operation control signal for controlling the light emitting unit 150 is output by recognizing it as a command signal for controlling an operation other than the on/off of the . At this time, the light emitting unit 150 is characterized in that the control operation according to the additional operation control signal received from the control unit (140).

The second set time, the second set voltage value, and the second set number of times may be stored, for example, in the storage unit 142 .

In some embodiments, the control unit 140 recognizes a voltage pulse wave input as a second set number of times equal to or greater than the second set voltage value as a COLOR CHANGE command signal of the light emitting unit 150, It outputs a change control signal to the light emitting unit 150, and the light emitting unit 150 receives the color change control signal and performs a color change operation.

According to another embodiment, the control unit 140 recognizes the voltage pulse wave input as the second set number of times equal to or greater than the second set voltage value as a dimming command signal of the light emitting unit 150, and the brightness It outputs an adjustment control signal to the light emitting unit 150, and the light emitting unit 150 receives the brightness control signal and performs a brightness adjustment operation.

As shown in FIG. 3, in the lamp operated by external input light according to another embodiment of the present invention, for example, it is embedded in a wall, and the lighting switch 160 turns on and off the lighting of the light emitting unit 150. is further included, and the light receiving unit 110, the pulse voltage detecting unit 120, the control unit 140, and the light emitting unit 150 are mounted on the PCB substrate M1, and the light receiving unit 110 is the light emitting unit 150 ), it is characterized in that it is installed adjacent to the light emitting unit 150 so that a part of the light emitted from the incident.

At this time, it is preferable that there is no obstacle blocking the transmission of light between the light receiving unit 110 and the light emitting unit 150 .

In the lamp operated by external input light according to another embodiment of the present invention, the light receiving unit 110 and The light emitting unit 150 is adjacently mounted on the PCB board M1, and when the on operation of the lighting switch 160 is performed for the second set number of times, the second set voltage is greater than or equal to the second set number of times. Since the input voltage pulse wave is input to the control unit 140 , the control unit 140 outputs the additional operation control signal to the light emitting unit 150 .

According to this, it is possible to perform an additional function (operation) of the lamp even if a separate control circuit or additional configuration is not adopted by simply turning the lighting switch 160 on and off.

The light receiving unit 110 may be configured as an IR sensor, a CDS sensor, or the like.

However, the light receiving unit 110 is not limited to the above IR sensor or CDS sensor, and any configuration that receives light and outputs it as an electrical signal may be included.

Next, an operation of a lamp operated by external input light according to an embodiment of the present invention having the above configuration will be described.

First, a control operation of turning the lamps 100-1, 100-2, ..., 100-9 on and off will be described.

In the plurality of lamps 100-1, 100-2, ..., 100-9, each storage unit 142 has a first set time (eg, 2 seconds) that is a condition for the control unit 140 to output a lighting control signal. The maximum voltage value of the overvoltage pulse wave and the number of inputs of the voltage pulse wave are pre-stored.

A lamp (for example, a lamp indicated as 100-7 in the example of FIG. 4 ) located at a short distance from the remote control 10 has a large voltage and a small number of voltage pulse waves input, and vice versa, at a distance from the remote control 10 . A lamp (eg, a lamp indicated by 100-2 and 100-3 in the example of FIG. 4 ) will have a small voltage and a large number of voltage pulse waves input.

For example, the maximum voltage value of the voltage pulse wave of the lamp 100-8 is 5 V, the number of inputs of the voltage pulse wave is 1, the maximum voltage value of the voltage pulse wave of the lamp 100-2 is 1 V, and the voltage It is said that the number of pulse wave input is set to 5 and stored.

When the remote control 10 emits a light pulse only once by pressing the button near the lamp 100-8 only once as shown in FIG. 4 , the lamp 100-8 detects a maximum voltage value of 5 V and generates one voltage pulse wave is input, and a voltage pulse wave 1 is inputted while sensing the maximum voltage value of 1 V in the lamp 100-2.

In this case, the lamp 100-8 will be turned on, but the lamp 100-2 will not be turned on. For reference, in this case, all of the lamps including the two lamps 100 - 8 and the lamp 100 - 2 would have been conventionally turned on.

If the user wants to light the lamp 100-2 at the same location, he will press the button of the remote control 10 five times.

Meanwhile, since the light-off operation is the same as the above-mentioned light-on operation, a detailed description thereof will be omitted.

Next, control operations other than turning off the lamps 100-1, 100-2, ..., 100-9 will be described.

Preferably, a control operation other than turning off the lamps 100-1, 100-2, ..., 100-9 is performed after the lamps are turned on.

In each storage unit 142 of the plurality of lamps 100-1, 100-2, ..., 100-9, a second set time (eg, 2 seconds), which is a condition for the control unit 140 to output an additional operation control signal (Of course, it may be possible to set the second set time different from the first set time.) and the second set voltage value and the second set number of times should be pre-stored.

At this time, in order to distinguish the control operation other than the light-off operation and the light-off operation, the second set voltage value and the second set number of times may be set and stored to be the same as the maximum voltage value and the input number of voltage pulse waves during the light-off operation. Alternatively, depending on the embodiment, the setting may be stored separately.

For example, it is assumed that the second set voltage value of the lamp 100 - 5 is set to 3 V, and the second set number of times is set to 3 circuits.

When the additional function button of the remote control 10 (this button may be a button different from the on/off button) is pressed three times at an intermediate distance from the lamp 100-5, the control unit 140 sets the preset Since it is the same as the current condition, an additional operation control signal (eg, dimming control signal, color conversion control signal, etc.) is output instead of outputting a lighting control signal.

And, as shown in FIG. 3 , the additional operation control signal may be output even by the repeated operation of the lighting switch.

In the embodiment shown in FIG. 3 , since the light receiving unit 110 and the light emitting unit 150 are mounted on the PCB substrate M1 close to each other, strong light from the light emitting unit 150 is incident on the light receiving unit 110 , so the light receiving unit 110 . ), the output voltage will be equal to or greater than the second set voltage value, and when the lighting switch is operated three times, three light pulses are input to the light receiving unit 110, so that the control unit 140 recognizes three voltage pulse wave inputs. It is determined that the second set number of times is 3.

Accordingly, in the embodiment shown in FIG. 3 , it is possible to perform additional functions of various lamps only by a simple operation of a lighting switch.

As described above, preferred embodiments according to the present invention have been reviewed, and it is common knowledge in the technical field that the present invention can be implemented in other specific forms without changing the technical spirit or essential features in addition to the above-described embodiments. It is self-evident to those who have Therefore, it should be understood that the above-described embodiments are illustrative and not restrictive.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

100-1, 100-2,..., 100-9: ramp
110: light receiving unit 120: pulse voltage detecting unit
130: pulse wave processing unit 140: control unit
142: storage unit 150: light emitting unit
160: lamp switch 10: remote control

Claims (5)

a light receiving unit 110 for receiving light irradiated from the outside and outputting it as a voltage pulse wave;
a pulse voltage detection unit 120 for detecting the intensity of the voltage of the voltage pulse wave output from the light receiving unit 110;
The voltage pulse wave output from the light receiving unit 110 is received, and the voltage value detected by the pulse voltage detecting unit 120 is read, based on the number of inputs of the input voltage pulse wave and the magnitude of the voltage value of the voltage pulse wave. a control unit 140 for outputting a lighting control signal to the furnace light emitting unit 150;
It is configured to include a light emitting unit 150 that turns on or off based on a lighting control signal received from the control unit 140,
The pulse voltage detection unit 120 detects the maximum voltage value of the input voltage pulse wave,
The pulse voltage detection unit 120,
a rectifier diode (D2) provided to be branched in parallel between the light receiving unit 110 and the pulse wave processing unit 130;
A capacitor (C2) connected in parallel between the rectifier diode (D2) and the controller (140) and connected between the rectifier diode (D2) and the ground (G1) for accumulating the electrical energy of the voltage pulse wave;
It is connected in parallel with the capacitor (C2) and connected between the rectifier diode (D2) and the ground (G1), and comprises a resistor (R2) for discharging the voltage accumulated in the capacitor (C2),
The control unit 140,
Outputs a lighting control signal to the light emitting unit 150 based on the number of inputs of the voltage pulse wave input during the first set time and the magnitude of the voltage value of the voltage pulse wave,
The first set time, the maximum voltage value of the voltage pulse wave and the number of voltage pulse waves, which are the conditions for the control unit 140 to output the lighting control signal, are stored in the storage unit 142,
The magnitude of the voltage value of the voltage pulse wave input within the first set time and the number of times of input of the voltage pulse wave are stored in the storage unit 142 in inverse proportion,
When the voltage pulse wave is input as a second set number of times as a voltage value equal to or greater than a second set voltage value during a second set time, the controller 140 is a voltage inputted as a second set number of times equal to or greater than the second set voltage value. Recognizing the pulse wave as a command signal for controlling an operation other than on/off of the light emitting unit 150 and outputting an additional operation control signal for controlling the light emitting unit 150,
The light emitting unit 150 operates according to the additional operation control signal received from the control unit 140,
A lighting switch 160 for turning on and off the lighting of the light emitting unit 150 is further included,
The light receiving unit 110 and the light emitting unit 150 are mounted on the PCB substrate M1,
The light receiving unit 110 is installed adjacent to the light emitting unit 150 so that a part of the light emitted from the light emitting unit 150 is incident,
The light receiving unit 110 and the light emitting unit 150 are adjacent to each other so that the intensity of the voltage pulse wave output from the light receiving unit 110 is equal to or greater than the second set voltage value, and is mounted on the PCB substrate M1,
When the ON operation of the lighting switch 160 is performed for the second set number of times, a voltage pulse wave input as a second set number of times greater than or equal to the second set voltage value is input to the controller 140, so that the controller ( 140) is a lamp operated by external input light, characterized in that outputting the additional operation control signal to the light emitting unit 150.
The method according to claim 1,
It is provided between the light receiving unit 110 and the control unit 140,
The pulse wave processing unit 130 that receives the voltage pulse wave output from the light receiving unit 110, processes it as a signal that the control unit 140 can process, and outputs it to the control unit 140 is further included. A lamp operated by external input light.
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