KR101448962B1 - Led lamp, led lamp control assembly for dimming with microwave sensor and lighting facility using thereof - Google Patents

Abstract

The present invention relates to an LED lamp for dimming with a microwave sensor and a lighting device using the same. More particularly, the present invention relates to an LED lamp and an LED lamp control assembly for dimming with a microwave sensor capable of increasing the number of mounted LEDs without a sensing range of a microwave sensor by an LED substrate, and controlling dimming of an adjacent LED lighting device according to a detection signal sensing movement of the microwave sensor, and a lighting device using the same. The LED lamp with a microwave sensor according to the present invention includes an LED substrate in which an LED is installed; a microwave sensor module installed at a rear surface of the LED substrate, in which the LED is installed, to expose an antenna; a dimming converter which receives and converts AC power into DC power, and applies a dimming voltage to an LED of the LED substrate according to a control signal; and a control module to output a control signal to the dimming converter according to a detection signal from the microwave sensor module.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a dimming LED lamp, an LED lamp control assembly, and a lighting apparatus using the LED lamp,

The present invention relates to an LED lamp having a microwave sensor, an LED lamp control assembly for controlling the LED lamp, and an illumination facility using the LED lamp control assembly.

More particularly, the present invention relates to an LED lamp having a microwave sensor and a microwave sensor capable of dimming and controlling the LED according to the detection value of the microwave sensor.

The present invention also includes a microwave sensor for detecting a movement of a user by means of one microwave sensor and for dimming control of LED lamps surrounding the LED lamp as well as an LED lamp provided with a microwave sensor upon detection of a motion signal LED lamp control assembly for controlling an LED lamp and an LED lamp, and an illumination facility using the LED lamp control assembly.

Further, according to the present invention, even if a lamp installed around a lamp of a lamp equipped with a microwave sensor is not provided with a microwave sensor, the LED lamp is turned on at 100% To an LED lamp control assembly for dimming equipped with a microwave sensor capable of dimming or turning off an LED lamp, and a lighting facility therefor.

In addition, the present invention can be applied to a case where a conventional luminaire is equipped with a dimming converter, an LED having a microwave sensor driven by power supplied from the dimming converter and capable of dimming the existing luminaire or dimming the luminaire provided with the adjacent dimming converter To lamp control assemblies.

The present invention also relates to an LED lamp having a microwave sensor capable of expanding the number of mounted LEDs without limiting the detection range of the microwave sensor.

Further, in the present invention, in a luminaire to which a dimmable LED lamp equipped with a microwave sensor module is applied and an LED lamp adjacent to the luminaire, the adjacent LED luminaire is dimmed in accordance with a control signal output from the control module, It is possible to reduce the manufacturing cost of the LED lamp while reducing the installation cost of the overall dimming control lamp and to provide a LED having a microwave sensor capable of maximizing the reduction of electric energy according to the dimming control A lamp control assembly, and a lighting facility using a dimming LED lamp equipped with a microwave sensor.

Lamps (lamps, lamps) are installed in living spaces such as offices, including houses, and in access areas such as parking lots and stairs. Such a lamp is configured to be turned on and off according to the operation of the switch or the detection of the human body motion.

The lamp, which is controlled on / off according to the presence / absence of human motion detection, includes various sensors for detecting the human body. Among them, a technology combining an infrared sensor and an optical sensor for detecting illumination is introduced. However, such a technology has a disadvantage in that the user can not detect it if the operation is not large, or it is easily turned off. Thus, a composite sensor has been developed that combines an ultrasonic sensor with an infrared sensor to detect the presence of a human being in real time.

However, when the lamp is turned on / off using an infrared sensor or an ultrasonic sensor, if the sensor is installed inside the lamp cover, the sensor can not detect the human body by the cover. Therefore, the infrared sensor and the ultrasonic sensor can not be integrated with the lamp, and the infrared sensor and the ultrasonic sensor must be separately exposed to the side or periphery of the lamp.

Thus, a lamp using a microwave sensor for detecting the user is described inside the cover of the lamp.

One of the lamps equipped with a microwave sensor is disclosed in Japanese Utility Model Publication No. 20-2008-0006294 as a ceiling purchase.

The above-mentioned ceiling embedded type or the like includes a PCB substrate to which external power is applied in the joining structure of the upper frame and the lower frame and the cover; A plurality of LEDs arranged toward an edge of the PCB substrate to emit light by an external power source applied to the PCB substrate; And a microwave human body detection sensor arranged adjacent to the LED of the PCB substrate to be operated by an external power source applied to the PCB substrate to detect the human body.

That is, the LED substrate is constituted by a sensor for detecting a microwave human body (microwave sensor) at the center of the PCB substrate and an LED disposed around the sensor.

However, the LED substrate is limited in the number of LEDs installed due to the area occupied by the installed microwave sensor. There is a problem that the PCB substrate must be widened in order to constitute a lamp which emits light with the required illuminance.

In addition, in a public utility model publication No. 20-2009-0011781, an integrated LED fluorescent lamp or an LED bulb is described.

The fluorescent lamp or the LED bulb described above is also installed to expose the LED, the microwave motion sensor, and the CCTV camera on the PCB substrate, thereby reducing the number of LEDs installed due to the area occupied by the installed microwave motion sensor. There is still a disadvantage that the PCB substrate must be widened in order to constitute a lamp which emits light with the required illuminance.

In order to alleviate such a problem, a LED fluorescent lamp having a microwave sensor is disclosed in Japanese Patent Application Laid-Open No. 10-1020713.

The above LED fluorescent lamp includes a housing; A reflector; Wherein the angle adjuster is disposed in the interior of the reflector, the angle adjuster includes a semicircular bracket having a microwave sensor in close contact with the angle adjuster, the angle adjuster having a recess; A fitting portion rotatably inserted into and coupled to the inside of the bracket; And elastic means capable of imparting elasticity for smooth rotation of the fork adjuster.

According to the drawings of the above description, the LED substrates on which the LEDs are arranged are constituted as a pair, and the angular adjustment unit with the microwave sensor is provided between the pair of LED substrates to detect the human body.

However, the above configuration may be suitable for a lamp composed of more than one pair of LED substrates, but in a lamp unit composed of one LED substrate, the LED substrate and the microwave sensor are separated from each other because the microwave sensor and the LED substrate are not integrated. There is a problem that the size of the luminaire increases.

Open Utility Model Publication No. 20-2008-0006294 (December 17, 2008) Public Utility Model Publication No. 20-2009-0011781 (2009.11.19) Registered Patent Publication No. 10-1020713 (March 30, 2011)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a microwave sensor and an LED substrate integrally combined, And a microwave sensor capable of detecting the presence or absence of a human body by the LEDs and controlling dimming of the LEDs.

The present invention also provides a dimming LED lamp including a microwave sensor capable of dimming control of an LED according to a detection signal to conserve power.

Another object of the present invention is to provide an LED lamp control assembly for dimming equipped with a microwave sensor capable of dimming control of an LED without providing a microwave sensor in an LED lamp adjacent to the LED lamp with a microwave sensor, .

According to an aspect of the present invention, there is provided a dimming LED lamp including a microwave sensor, including: an LED substrate on which an LED is mounted; A microwave sensor module including a microwave sensor installed to expose an antenna portion to the back surface of the LED substrate on which the LED is mounted and a sensor controller for controlling the microwave sensor; A dimming converter that receives an AC power and converts the DC power into a DC power, and applies a dimming voltage to an LED of the LED substrate according to a control signal; And a control module for outputting a control signal to the dimming converter according to a detection signal of the microwave sensor module; The present invention provides a dimming LED lamp provided with a microwave sensor.

According to another aspect of the present invention, there is provided an LED lamp control assembly for dimming provided with a microwave sensor, comprising: a micro sensor module for sensing a moving object and outputting the detected object as a detection signal; A control module receiving the detection signal output from the microsensor module and outputting the dimming control signal based on the received detection signal and the set information; And a control signal output from the control module is output to a plurality of connectors. The present invention provides a dimming LED lamp control assembly having a microwave sensor.

In addition, in a lighting apparatus to which a dimming LED lamp equipped with a microwave sensor module is applied and an LED lighting apparatus adjacent to the same, an adjacent LED lamp is controlled by a dimming converter controlling dimming of an LED according to a detection signal of a microwave sensor, And an illumination system using a dimming LED lamp provided with a microwave sensor is provided to solve the technical problem.

According to the present invention, since the LED substrate and the microwave sensor are integrally coupled and the antenna unit of the microwave sensor is exposed to the outside, the microwave sensor capable of detecting the moving object without diminishing the number of LEDs, There is an effect that it is possible to provide an LED lamp for dimming equipped with a light emitting diode.

In addition, since the dimming control of the LED can be performed by using a signal detected by the microwave sensor as a detection signal, it is possible to provide an LED lamp for dimming equipped with a microwave sensor capable of controlling illumination according to human body detection .

Also, there is an effect that dimming control of an LED can be performed according to a human body detection result even if a dimming LED lamp equipped with a microwave sensor is connected to an adjacent LED lighting device and a microwave sensor is not provided in an adjacent LED lighting device.

Further, since the microwave sensor is installed so as not to be visible from the outside, it is possible to provide a luminaire to which an LED lamp having a beautiful appearance is applied.

In addition, since dimming control of the LED lamp around the LED lamp having the microwave sensor can be performed, the entire LED lamp installation cost and the manufacturing cost of the dimming control LED lamp can be reduced, and if the user can not detect the movement for a predetermined time, As dimming is controlled or turned off with brightness of 10 ~ 20%, it is possible to maximize the reduction of electric energy.

FIG. 1 is an assembled state diagram of an LED lamp for dimming provided with a microwave sensor according to an embodiment of the present invention,
FIG. 2 is an exploded view of a dimming LED lamp provided with a microwave sensor according to an embodiment of the present invention. FIG.
3 is a cross-sectional view (a) and a longitudinal sectional view (b) of A-A ', according to an embodiment of a dimming LED lamp equipped with a microwave sensor according to the present invention,
4 is a diagram illustrating a connection relationship between a control module and a peripheral structure in a dimming LED lamp equipped with a microwave sensor according to the present invention;
FIG. 5 is a schematic diagram of a tandem light source connected to a lighting device to which a dimming LED lamp equipped with a microwave sensor according to an embodiment of the present invention is applied.
FIG. 5A is a schematic diagram of a tandem light source connected to a lighting device to which an on / off LED lamp equipped with a microwave sensor according to the present invention is applied,
6 and 7 are views illustrating an LED lamp control assembly for dimming provided with a microwave sensor according to an embodiment of the present invention using an existing LED lamp,
FIG. 8 and FIG. 9 are exploded views of a lighting fixture to which a dimming LED lamp equipped with a microwave sensor according to the present invention is applied,
10 is an exploded view of a dimming LED lamp provided with a microwave sensor according to the present invention in a down light.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept 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 It should be understood that water and variations may be present.

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 an LED lamp having a microwave sensor, an LED lamp control assembly for controlling the LED lamp, and an illumination facility using the LED lamp control assembly.

More particularly, the present invention relates to an LED lamp having a microwave sensor and a microwave sensor capable of dimming and controlling the LED according to the detection value of the microwave sensor.

The present invention also includes a microwave sensor for detecting a movement of a user by means of one microwave sensor and for dimming control of LED lamps surrounding the LED lamp as well as an LED lamp provided with a microwave sensor upon detection of a motion signal LED lamp control assembly for controlling an LED lamp and an LED lamp, and an illumination facility using the LED lamp control assembly.

Further, according to the present invention, even if a lamp installed around a lamp of a lamp equipped with a microwave sensor is not provided with a microwave sensor, the LED lamp is turned on at 100% To an LED lamp control assembly for dimming equipped with a microwave sensor capable of dimming or turning off an LED lamp, and a lighting facility therefor.

In addition, the present invention can be applied to a case where a conventional luminaire is equipped with a dimming converter, an LED having a microwave sensor driven by power supplied from the dimming converter and capable of dimming the existing luminaire or dimming the luminaire provided with the adjacent dimming converter To lamp control assemblies.

The present invention also relates to an LED lamp having a microwave sensor capable of expanding the number of mounted LEDs without limiting the detection range of the microwave sensor.

Further, in the present invention, in a luminaire to which a dimmable LED lamp equipped with a microwave sensor module is applied and an LED lamp adjacent to the luminaire, the adjacent LED luminaire is dimmed in accordance with a control signal output from the control module, It is possible to reduce the manufacturing cost of the LED lamp while reducing the installation cost of the overall dimming control lamp and to provide a LED having a microwave sensor capable of maximizing the reduction of electric energy according to the dimming control A lamp control assembly, and a lighting facility using a dimming LED lamp equipped with a microwave sensor.

FIG. 1 is an assembled state diagram of an LED lamp for dimming provided with a microwave sensor according to an embodiment of the present invention. FIG. 2 is a perspective view of a dimming LED lamp provided with a microwave sensor according to an embodiment of the present invention. FIG.

3 is a cross-sectional view (a) and a longitudinal sectional view (b) of A-A ', according to an embodiment of a dimming LED lamp equipped with a microwave sensor according to the present invention.

The LED lamp 1 for dimming equipped with the microwave sensor according to the present invention includes an LED substrate 10, a microwave sensor module 20, a heat sink 30, a control module 40, Converter 50 as shown in FIG.

The LED substrate 10 is a substrate on which a LED (Light Emitting Diode) 11 is mounted. As shown in the drawing, the LED substrate 10 has a predetermined width W1 and a long length.

1 and 2, in order to explain the features of the present invention, the LEDs 11 installed on the LED substrate 10 are shown as being installed on the upper surface, Respectively.

That is, when the LED lamp 1 is installed in the upper part of the room, the LED 11 is installed to illuminate the bottom surface.

At this time, the LED 11 to be installed may be installed by an SMT (Surface Mounting Technolgy) method mounted on the LED substrate 10.

SMT refers to a general technique for mounting an LED on the surface of a substrate without penetrating the LED through the substrate.

Therefore, the back surface of the LED substrate 10 installed by the SMT method is characterized by no electrical wiring.

According to design conditions, the LED substrate 10 may be made of a metal substrate.

The microwave sensor module 20 detects a moving object and outputs it as a detection signal. The microwave sensor module 20 includes a microwave sensor, an antenna unit 21, and a sensor control unit.

The microwave sensor detects an object (human body) moving using the Doppler radar principle and includes a transmitting antenna for transmitting the frequency and a receiving antenna for receiving the reflected frequency transmitted from the transmitting antenna . At this time, 10 ~ 20Ghz high frequency is mainly used.

Here, the transmitting antenna and the receiving antenna constitute the sensor with a maximum separation to minimize the interference between the transmitting antenna and the receiving antenna.

For example, when the transmitting antenna is disposed on one side of the microwave sensor, the receiving antenna is arranged on the other side.

The microwave sensor module 20 in the dimming LED lamp having the microwave sensor according to the present invention includes the antenna unit 21 of the microwave sensor on the back surface of the LED substrate 10 on which the LED 11 is installed, An antenna and a receiving antenna) are installed to be exposed so as not to be disturbed in transmitting or receiving a radio frequency.

That is, the width W1 of the LED substrate is narrower than the width W2 of the microwave sensor module 20, and the microwave sensor module 20 has the antenna portion 21 formed on both sides thereof, As shown in FIG.

According to this configuration, the LED substrate 10 and the microwave sensor module 20 are integrally coupled and the antenna portion 21 of the microwave sensor is exposed to the outside, so that if the number of the LEDs 11 is not reduced It is possible to provide a dimming LED lamp equipped with a microwave sensor capable of detecting movement of the human body.

Here we examine some of the features of microwave sensors.

Microwave sensors can be used in environments where poor conditions (heat, temperature, noise, moisture, airflow, dust, etc.) exist and there is little malfunction. It can detect up to 25 ~ 30m according to the characteristics of the antenna part, and can detect moving objects within 10m diameter of direct downward at a sensing angle of 360 °.

 In addition, since glass and gypsum boards are also permeable to high frequencies, there is an advantage that they can be detected even when a lamp cover is installed, and the frequency output from the microwave sensor is known to be harmless to the human body.

In a case where a cover 120 through which the frequency of a microwave sensor passes is attached to an LED lamp having a microwave sensor module including the microwave sensor, the microwave sensor is installed so as not to be seen from the outside , The appearance of the LED lamp can be finely finished. Accordingly, there is an advantage that the LED lighting aesthetics can be more refined.

The sensor control unit supplies driving power to the microwave sensor and outputs the detected signal from the microwave sensor as a detection signal, although the sensor control unit is not shown in the drawing.

The heat sink 30 absorbs heat generated from the LED substrate 10 and dissipates heat. The heat sink 30 may be made of a metal material that absorbs heat and dissipates heat.

At this time, the width W3 of the heat sink 30 may be wider than the width W2 of the microwave sensor module 20. In this case, a channel groove 31 in which the microwave sensor module 20 can be installed is formed.

(Not shown) may be formed on the rear surface that does not make surface contact with the LED substrate 10 according to the design conditions so that the heat generated from the LED 11 may be emitted from the LED substrate 10 The heat sink 30 may be omitted.

The control module 40 outputs a dimming control signal based on the detection signal output from the microwave sensor module 20. The configuration of the dimming control signal is shown in Fig.

4 is a diagram illustrating a connection relationship between a control module and a peripheral structure in a dimming LED lamp equipped with a microwave sensor according to the present invention.

The control module 40 includes a detection signal receiving unit 41, a timer unit 42, a sensitivity adjusting unit 43, an illuminance sensor unit 44, a wireless communication unit 45, a control unit 46, And a first to a third output unit 47, 48, 49.

The detection signal receiving unit 41 detects and receives a motion sensed by the microwave sensor module 20 and receives a signal for sensing motion in the microwave sensor module 20 and outputting the detected motion as a detection signal.

The timer unit 42 sets the lighting time and the output time of the dimming voltage, and can be configured to be changeable according to the user's operation. Here, the lighting time refers to a time when the microwave sensor module 20 senses a user (human body) and outputs 100% of a voltage for lighting the LED. The time during which the dimming voltage is output is determined by the user (human body) To 10% to 20% of the voltage at which the LED is turned on. Therefore, if the user's motion is not detected even after the lighting time and the output time of the dimming voltage, the LED lamp is kept off. Of course, if the user's movement is detected while the LED lamp is off, the LED lamp will be lit at 100% brightness.

According to the design conditions, the time set in the timer unit 42 is a first time (100% of the output voltage) for detecting the user's motion and outputting it to the maximum voltage, a second time , A third time (20% of the output voltage) during which the user's motion is not sensed, and a time (0% of the output voltage) during which the user's motion is not sensed.

The sensitivity adjusting unit 43 adjusts the sensing sensitivity of an object moving in the microwave sensor module 20, and the sensing sensitivity can be changed according to a user's operation.

That is, the sensitivity adjusting unit 43 adjusts the sensing sensitivity of an object moving in the microwave sensor module 20, thereby adjusting the distance to the user that the microwave sensor module 20 can detect.

The illuminance sensor unit 44 detects the illuminance around the LED lamp 1. Based on the illuminance detected by the illuminance sensor unit 44, the control unit 46, which will be described later, can be configured to determine whether the LED lamp is lit or not.

For example, the LED lamp 1 is configured not to be turned on when sufficient illumination is detected even when the LED lamp is not lit (daytime). Or to control the dimming of the light emitted from the LED lamp 1 so that the sum of the detected illuminance and the illuminance caused by the light emitted from the LED lamp 1 is set to a predetermined illuminance.

That is, even if motion is detected in the microwave sensor module 20, the LED lamp 1 is not lit if the illuminance by natural light is sufficient. If natural light is not sufficient, the LED lamp 1 is turned on, So as not to illuminate at a higher illuminance than necessary.

The wireless communication unit 45 is for wirelessly connecting with an external device and controlling lighting or dimming control according to external control.

The external device may be a remote-controller, a management server, or the like.

That is, the wireless communication unit 45 is for controlling the LED lamp 1 by wirelessly connecting the external device and the control module 40, and may be a device capable of performing wireless communication.

The remote controller and the management server wirelessly control the point / off of the LED lamp or the dimming rate (%, dimming voltage) when the set time of the timer, required illuminance and motion are not detected.

The LED lamp 1 can be configured to be controlled in groups through an external device according to design conditions.

For this purpose, an individual ID (Identification) may be assigned to each control unit 46. The control unit 46 may be provided with a memory for storing an ID and a dimming program, or may be separately configured.

That is, the LED lamp 1 is configured to be able to perform integrated control by grouping IDs assigned to the control unit 46 in a predetermined group unit.

As a result, LED lamps grouped together can control dimming control in a group basis as well as set conditions (timer setting time, illuminance, and dimming rate) uniformly.

The controller 46 receives the output signal from the microwave sensor module 20 and outputs the control signal to the dimming converter 50 for a predetermined time according to the received detection signal.

The voltage of the dimming unit is output through the first output unit 47 based on the detection signal received by the detection signal receiving unit 41 and the time set in the timer unit 42. [

For example, if the lighting time set in the timer unit 42 is 10 seconds and motion is detected in the microwave sensor module 20, the control unit 46 sets the supply voltage to 100% for 10 seconds to the dimming converter 50, And outputs a control signal for outputting.

If no further motion is detected during the lighting time set in the timer section 42, the control section supplies the dimming converter 50 with a 10 to 20% supply voltage for the time during which the dimming voltage set in the timer section 42 is outputted, .

Thereafter, when no further motion is detected after the time when the dimming voltage set in the timer unit 42 is output, the controller turns off the LED lamp by interrupting the supply voltage to the LED substrate 10 in the dimming converter 50.

The voltage output according to the design conditions can be further subdivided.

That is, the output voltage may be subdivided into a voltage between 0 and 100% of the voltage supplied to the LED according to the time set in the timer unit 42. [

It goes without saying that the lamp may be turned off if no motion is detected for a predetermined time in the dimming control illumination state.

The dimming converter 50 adjusts the voltage output to the LED substrate 10 according to the dimming control signal output from the control unit 46. The dimming control signal is supplied to the first output unit 47, do.

On the other hand, the luminaire is installed at intervals of 1 ~ 2m, although the spacing of the luminaire is different according to the required illuminance. However, since the microwave sensor 21 can sense a moving object within a range of 10 m in diameter with a sensing angle of 360 °, it is possible to detect a movement in a wider range than the spacing of installed luminaires.

Accordingly, a single lamp equipped with a microwave sensor can detect and detect motion including a coarse / wide range of adjacent lamps, and can control dimming of adjacent lamps.

The second and third output sections 48 and 49 output control signals identical to those of the first output section 47 output from the control section 46 to the dimming converter 50, The dimming control function of the luminaire is implemented while maximizing the characteristics of the microwave sensor module 20 to reduce the installation cost of the lighting facility.

At this time, the second and third output sections 48 and 49 may be formed of connectors to easily connect to the adjacent lamps.

Therefore, it is advantageous that dimming control of the adjacent luminaire can be performed even if the microwave sensor module 20 is not provided in the luminaire adjacent to the luminaire provided with the lamp of the present invention.

The dimming converter 50 receives the AC power and converts it into DC power, and controls the dimming control of the LED 11 of the LED substrate 10 based on the control signal of the control module 40.

Here, the dimming converter 50 includes a power supply line 51 for receiving commercial power, an LED driving line 52 for outputting DC power to the LED substrate 10, a control for supplying power to the control module 40, A control signal line 54 for receiving a control signal output from the module driving line 53 and the control module 40 is constituted (see Fig. 2). (See Fig. 2)

This will be described with reference to FIG.

FIG. 5 is a schematic view of a lighting device connected to a lighting device to which a dimming LED lamp with a microwave sensor according to the present invention is applied, according to an embodiment of the present invention.

The power supply line 51 of the dimming converter 50 is connected to the AC power line to receive commercial power and converts AC power to DC power at the AC / DC converter 56 (see FIG. 4) of the dimming converter 50 do.

The DC power converted by the AC / DC converter 56 is adjusted to a voltage applied to the LED substrate 10 and a voltage applied to the control module 40 through the output voltage regulator 57, Is output through the LED driving line 52 and the control module driving line 53. [

Also, the dimming converter 50 receives the control signal of the control module 40 through the control signal line 54 to control the voltage applied to the LED substrate 10.

Where the control signal line 54 is connected to the first output 47 of the control module 40.

The control module 40 is driven by the DC power from the dimming converter 50 and generates a control signal through the first output unit 47 based on the detection value output from the microwave sensor module 20 and the set information Output.

Also, the control module 40 outputs the same control signal as the control signal output through the first output section 47 through the second and third output sections 48 and 49.

The control signals output through the second and third output sections 48 and 49 are input to the control signals of the dimming converters provided in the adjacent lamps 101 and 102, And controls the brightness of the LED by controlling the DC power applied to the LED substrate provided in each luminaire.

In the above configuration, the first to third output portions 47, 48, and 49 may be configured as connection connectors to facilitate connection with the dimming converter.

That is, the dimming control signal output through at least one of the plurality of output units is input as a control signal of the dimming converter provided in the lamp of the adjacent LED lamp. At this time, the direct current power supplied for driving the control module 40 is connected to be supplied from one dimming converter selected from the dimming converters provided in the lamps of the adjacent LED lamps.

By arranging the lamp units 101 and 102 adjacent to the left and right or front and rear of the lamp 100 having the microwave sensor module 20 and the control module 40 according to the design conditions, The right and left or front and rear lamps of the lamp 100 to which the LED lamp of the present invention is applied may be interlocked to control dimming. Here, the second and third output portions 48 and 49 are not limited to those shown in the drawings, and a plurality of the second and third output portions 48 and 49 may be provided.

Accordingly, since the dimming control is performed in accordance with the control of the luminaire to which the LED lamp according to the present invention is applied, the dimming control can be performed without providing the microwave sensor module in each luminaire So that the cost of the dimming device is reduced.

However, in the case where the provided converter is not a dimming converter 50 but a general converter, the dimming control signal output from the control unit 46 is meaningless. That is, the dimming control signal output from the control unit 46 is effective for the dimming controller 50.

For example, the general converter converts the supplied power to a power source suitable for lighting the LED lamp, and only functions to turn on / off the voltage supply to the LED substrate 10. When the dimming control signal is transmitted to the general converter , The normal converter may determine that the dimming control signal is an output voltage and output a voltage supplied to the LED substrate 10 in an ON state (100% of an output voltage), and may be maintained in a lighted state.

Accordingly, the LED lamp having the general converter can be configured to transmit the on / off signal to the general converter according to the motion detection of the user.

The 1-1 output unit 47a is for outputting the on / off signal of the control unit 46 according to the configuration of the general converter, and will be described with reference to FIG. 5A of the accompanying drawings.

FIG. 5A is a schematic view of a lighting device connected to a lighting device to which an on / off LED lamp equipped with a microwave sensor according to the present invention is applied, according to an embodiment of the present invention.

Here, the description of the configuration described above will be omitted, and only the 1-1 output section 47a and the conventional converter 51 will be described.

The first output unit 47a outputs an on / off signal according to the operation of the control unit 46. The control unit 46 turns on the LED lamp according to the received detection signal of the detection signal receiving unit 41 And an off signal which goes out with the on-signal, and the output signal is outputted through the 1-1 output section 47a.

The signal output from the 1-1 output unit 47a is transmitted to the normal converter 51 and the normal converter 51 converts the voltage applied to the LED substrate 10 according to the signal (on signal or off signal) I will crack down.

In this case, when a common converter is also provided in the other luminaire to be connected, the output signal of the 1-1 output unit 47a is connected to a general converter provided in the luminaire 102, and the luminaire 102 is also controlled by the point / can do.

With such a configuration, even if a general converter is provided, the LED lamp can be turned on / off through the normal converter 51, so that the lamp can be turned on or off according to the presence or absence of the user and the electric energy can be saved .

Also, in the case of the LED lamp having the dimming converter 50, in the case of performing only the point / light-off control, the output signal of the 1-1 output unit 47a is connected to the dimming converter 50, Accordingly, it is possible to control the dimming of the LED lamp as well as the point / light-off control. That is, in FIG. 5A, the lamps 100 and 102 according to the wiring connection perform point / light-off control according to the motion detection of the user, and the lamp 101 performs dimming control.

If the output signal of the 1-1 output unit 47a is connected to the dimming converter of the lamp 101, the lamp unit 101 also performs the point / light-off control.

Meanwhile, the LED lamp control assembly for dimming equipped with the microwave sensor includes a micro sensor module 20 and a control module 40.

That is, the LED lamp control assembly according to the present invention includes a micro sensor module 20 for detecting a moving object and outputting the detection signal as a detection signal, and a controller 20 for receiving a detection signal output from the micro sensor module 20, And a control module 40 for outputting a signal.

The set information may include time information such as a lighting time set in the timer unit 42 and a time at which the dimming voltage is output, illumination information detected by the illumination sensor unit 44, and the like.

At this time, the control module 40 is configured such that the microwave sensor module 20 is driven by applying the supplied power to the microwave sensor module 20.

According to the design conditions, the LED lamp control assembly may be configured to be driven by receiving power from a power conversion device (for example, SMPS or the like) provided separately, or to be driven by receiving a DC power output from the dimming converter of the lamp.

The control assembly thus configured may be configured to be dimming controlled by being combined with a dimming luminaire having an existing dimming converter 50.

FIGS. 6 and 7 illustrate an LED lamp control assembly using an existing LED lamp according to an embodiment of the present invention.

If the dimmer converter is provided in the existing lamp 103, it may be configured to control dimming by being connected to the periphery of the existing lamp 103 or the existing lamp 103.

For example, referring to FIG. 6, the microwave sensor module 20 and the control module 40 are configured as a single control assembly unit, and the driving power of the control assembly is received from the existing lamp 103 Wiring. In addition, the selected one of the first to third output portions 47, 48, 49 of the control module 40 is connected to the control signal line of the dimming converter provided in the existing lamp 103.

7, the control assembly selects two outputs from the first through third outputs 47, 48 and 49 of the control module 40 and supplies them to the control signal lines of the dimming converters of the lamps 104 and 105, Connection.

Therefore, it is a matter of course that dimming control can be performed using the LED lamp control assembly of the present invention if the lamp is provided with a dimming converter in the conventional lamp.

8 to 10 illustrate various luminaire provided with a dimming LED lamp and an LED lamp control assembly each having a microwave sensor according to the present invention.

Referring to the drawings, a plurality of LEDs 11 are longitudinally arranged on an LED substrate 10, and a plurality of such LED substrates 10 are installed.

A microwave sensor module 20 is provided on the back surface of one LED substrate 10 in the LED substrate 10 and an antenna 21 of the microwave sensor 21 is mounted on the LED substrate 10, (10) so as not to interfere with transmission of high frequency waves by the LED substrate (10) or reception of reflected high frequency waves.

The control module 40 is located above the microwave sensor module 20 and receives a detection signal output from the microwave sensor module 20 and outputs a dimming control signal.

The dimming converter 50 is attached to the inside of the lamp 100.

The LED substrate 10, the microwave sensor module 20, the control module 40 and the dimming converter 50 are installed inside the housing 110 of the lamp 100, The cover 120 is closed. The LED substrate 10 may be composed of a plurality of rows based on the required roughness according to design conditions.

In this case, the luminaire shown in Figs. 8 and 9 is a luminaire applied to a square luminaire, and in particular, the luminaire shown in Fig. 9 can be manufactured to have a size capable of replacing a fluorescent luminaire. It goes without saying that the LED lamp according to the present invention can be applied to a luminaire equipped with parabolic louvers. That is, the cover 120 may be constituted by a parabolic louver.

10 is an exploded view of a dimming LED lamp provided with a microwave sensor according to the present invention in a down light.

As shown in the figure, a plurality of LEDs 11 are installed on the LED substrate 10 installed on the rear surface of the LED 11, and a microwave sensor module 20 including a microwave sensor and a sensor control unit is mounted on the rear surface of the LED 11, Respectively.

At this time, the LED substrate 10 may be formed of a circular plate.

The LED substrate 10 is provided with a through hole 12 and the antenna unit 21 of the microwave sensor is disposed in the through hole 12. The microwave sensor module 20 senses a moving object .

Although not shown in the drawing, the LED substrate 10 and the heat sink 30 may be integrally formed. When the heat sink 30 is further provided, grooves corresponding to the through holes 12 are formed in the heat sink.

A control module 40 is provided on the microwave sensor module 20, and a dimming converter 50 is installed on the microwave sensor module 20.

At this time, a spacing pin (not shown in the figure) for separating the LED substrate 10 and the dimming converter 50 from each other by a predetermined interval may be provided by the installed microwave sensor module 20.

The LED substrate 10, the microwave sensor module 20, the control module 40 and the dimming converter 50 having the above-described structure are housed in the housing 62 and the lens cover 63 is coupled to the housing 62 .

Accordingly, the LED substrate 10 and the microwave sensor module 20 are integrally coupled and the antenna portion 21 of the microwave sensor is exposed to the outside, so that the number of the LEDs 11 is not decreased, A dimming LED lamp having a microwave sensor can be provided.

According to the above-described structure, since the lighting apparatus provided with the LED lamp according to the present invention can control dimming to other adjacent lamps, the installation cost due to the dimming control is reduced, and the configuration of the adjacent lamps is simplified.

In addition, since dimming control of the LED lamp around the LED lamp having the microwave sensor can be performed, the entire LED lamp installation cost and the manufacturing cost of the dimming control LED lamp can be reduced, and if the user can not detect the movement for a predetermined time, As dimming is controlled or turned off with brightness of 10 ~ 20%, it is possible to maximize the reduction of electric energy.

1 to 10 illustrate only the main points of the present invention. As far as various designs can be made within the technical scope thereof, the present invention is not limited to the configurations and functions of Figs. 1 to 10 It is self-evident that it is not limited.

1: LED lamp 10: LED substrate
11: LED 12: through hole
20: Microwave sensor module 21: Antenna part
30: Heat sink plate 31:
40: control module 41: detection signal receiver
42: Timer unit 43: Sensitivity adjusting unit
44: illuminance sensor unit 45: wireless communication unit
46: control unit 47: first output unit
47a: the 1-1 output section 48: the second output section
49: third output section 50: dimming converter
51: general converter 56: AC / DC conversion section
57: Output voltage regulator
100, 101, 102, 103, 104, 105: Luminaires

Claims (10)

In an LED lamp,
An LED substrate on which LEDs are installed;
A microwave sensor installed on a rear surface of the LED substrate on which the LED is mounted so that the antenna is exposed; and a sensor controller for controlling the microwave sensor,
(a) the width of the LED substrate is narrower than the width of the microwave sensor, so that both side antenna portions of the microwave sensor are exposed to the side of the LED substrate,
(b) a microwave sensor module having a through hole in the LED substrate and an antenna portion of the microwave sensor installed in the through hole;
A dimming converter which applies an alternating current power and converts the alternating current power into a direct current power and applies a dimming voltage to the LED of the LED substrate according to a dimming control signal or an on / off voltage to an LED of the LED substrate A light - off converter; And
A control module for outputting a dimming or a light-off control signal to the dimming converter or the light-up converter according to a detection signal of the microwave sensor module; ≪ / RTI >
The control module includes:
A control unit receiving the detection signal output from the microwave sensor and outputting the dimming or turn-off control signal through the first output unit in accordance with the detection signal for a predetermined time; And a second output unit outputting a signal identical to or different from the output signal of the first output unit,
Characterized in that the control means is configured to control dimming or lighting of the adjacent luminaire such that control signals output from the first outputting portion or the second outputting portion are line-connected so as to be transmitted to a dimming converter or a light-off converter of an adjacent luminaire, LED lamp with sensor.
The method according to claim 1,
And a heat sink is further provided on a rear surface of the LED substrate on which the LED is mounted.
delete delete delete An LED lamp equipped with the microwave sensor module according to claim 1 or 2 is applied to a rectangular lamp or a down light.
An LED lamp control assembly including the microwave sensor module and the control module according to claim 1 or 2.
The method of claim 7,
Wherein the direct current power supplied from the control module is supplied from a converter selected from a dimming converter or a light-up converter provided in a lamp of an adjacent LED lamp.
In a luminaire to which an LED lamp having a microwave sensor according to claim 1 or 2 is applied and an LED lamp adjacent thereto,
The adjacent LED lamps,
Wherein the dimming control unit is controlled to dim or turn on according to a control signal output from the control module.
The method of claim 9,
The adjacent LED lamps,
Wherein the LED lamp is a LED lamp in a sensing range of the microwave sensor.

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