KR20110056016A - A light emitting diode lighting system with rfid chip - Google Patents

Abstract

PURPOSE: A lighting system using an RFID chip embedded LED lamp is provided to automatically control the illumination of a preset area and to prevent an LED lamp from being lost. CONSTITUTION: A lamp casing includes a socket. An LED lamp has a power pin. The power pin is connected to the socket. A unit LED lamp is formed by combining the lamp casing with the LED lamp. A unit microcomputer(350) is installed in the unit LED lamp. A region microcomputer(320) is installed in the entire light emitting unit, a zone light emitting unit, and a group light emitting unit. The region microcomputer is connected to the unit microcomputer and interposes a power line modem. The region microcomputer receives an external power source and a control signal.

Description

Lighting system using LED lamp with integrated RFID chip {a light emitting diode lighting system with RFID chip}

The present invention attaches a unit micom and a wireless transmission and reception unit to the unit LED lamp, and installs a local micom having a sensor and a wireless transmission and reception unit in the local light emitting unit consisting of a plurality of unit LED lamp, the local microcom is interposed through the power line modem The present invention relates to a lighting system using an RFID chip built-in LED lamp that automatically adjusts illuminance of a predetermined area by automation through a configuration installed to receive external power and control signals.

In general, a light emitting diode (LED) generates a minority carrier (electron or hole) injected using a pn junction structure of a semiconductor, and emits light by recombination thereof. There is a characteristic that the straightness becomes strong.

For example, a luminaire using an LED may include a light bulb formed of a bulb having a conventional threaded socket shape and a bulb shape, and the bulb may receive an external commercial power source between the lower end of the bulb and the socket, and may be configured using a PWM method. A power supply unit for supplying current, a multi-layered LED substrate having a plurality of LEDs on the top of the power supply unit, a socket for supplying and fixing power to the multi-layered LED substrate and the like.

LED fluorescent lamp is disclosed in Korean Patent No. 784886 in connection with such a technique, and the configuration thereof is a cylindrical pipe-shaped lamp vitreous tube 60 and a circuit board 30 to be embedded therein. The circuit board 30 includes a plurality of LED modules 20 including LEDs arranged in a length direction, and a current conversion mechanism 40 for converting alternating current into direct current is provided at one side thereof. The lamp vitreous tube 60 is formed in a cylindrical pipe shape at both ends of the lamp socket 61 to be sealed inside.

In addition, when assembling the lamp green tube 60 and the lamp socket 61, the completed circuit board 30 is embedded into the green tube 60, and the connectors provided at both ends of the circuit board 30 are conventional. In such a state that the lamp socket 61 is turned out, such as a fluorescent lamp, the airtightness can be maintained.

In this case, when power is supplied to the fluorescent lamp, light is generated in each of the LED modules 20, and the light generated from each LED module 20 is applied to the inside of the lamp element tube 50. ) Is generated by the layer, and the light is emitted to the soft light through the entire interior of the cylindrical lamp vitreous tube 60 which has lost its straightness.

However, the fluorescent lamp as described above has a problem in that expensive fluorescent lamps are frequently lost because the fluorescent lamp tube 60 and the lamp socket 61 are easily disassembled from the outside.

In addition, there is a disadvantage that it becomes difficult to control the unit in the field or remote location of the fluorescent lamp, which makes it difficult to use energy efficiently.

An object of the present invention for improving the above problems, to adjust the illuminance of a certain area automatically by the site situation, to prevent the expensive LED lamp is lost in advance, the ID is matched By using only LED lamp, it can be used as a dedicated lamp, by allowing external input of ID, so that one lamp can be used universally, and loss prevention function with simple configuration without the need of a separate loss prevention device The present invention provides a lighting system using an RFID chip built-in LED lamp to control the LED lamp in a remote location and a nearby location.

In order to achieve the above object, the present invention provides a unit microcomputer in a unit LED lamp made of a combination of a lamp casing provided with a socket and an LED lamp having a power pin connected to the socket,

Install a local microcomputer in a local light emitting unit consisting of a plurality of unit LED lamps,

The local microcomputer provides a lighting system using an RFID chip embedded LED lamp installed to receive an external power supply and a control signal from the outside through a power line modem.

In addition, the wireless transmission and reception unit of the present invention is selected from a transceiver using RFID or a transceiver using infrared, the detection sensor using an RFID chip built-in LED lamp made of an IR sensor and an illuminance sensor for detecting a human movement. Provide lighting systems.

In addition, the present invention is attached to the RFID tag with a unique ID inside the unit of the LED lamp after the RFID chip built-in LED lamp that is installed so that the unit microcom provided in the lamp casing supply only the LED lamp having a unique ID. Provides a lighting system used.

In addition, the unit microcomputer of the present invention provides a lighting system using an RFID chip built-in LED lamp to enable the user's ID input so that the user can input and use the LED lamp recognition ID from the outside of the user's recognition.

Further, the unit LED lamp of the present invention is further provided with a sub-microcom capable of inputting a unique ID so that the unit LED can be dedicated. It provides a lighting system using the LED chip embedded LED lamp made of a configuration to be initialized.

On the other hand, the unit microcomputer and the local microcomputer of the present invention provides a lighting system using an RFID chip built-in LED lamp that is installed to enable wireless control at a remote location using a remote control.

According to the present invention as described above, by adjusting the illuminance of a certain area automatically by the site situation, to prevent the expensive LED lamp is lost in advance, and to use only the LED lamp matching the ID used as a dedicated lamp It enables the external input of ID to use a single lamp universally, performs the loss prevention function with a simple configuration without the need of a separate loss prevention device, and controls the LED lamps in remote and nearby areas. There is.

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

Figure 2 is a block diagram showing a connection state of the lighting system according to the present invention, Figure 3 is an installation state diagram of the anti-theft device according to the present invention, Figures 4 and 5 respectively show an anti-theft system according to the present invention. It is a block diagram.

The unit LED lamp of the present invention is composed of a combination of the lamp casing 300 and the LED lamp 500 mounted thereto.

That is, a combination of an LED lamp 500 having a lamp casing 301 having a socket 375 and a power pin 510 connected to the socket 375, and the plurality of unit lamp casings 300 are provided. The zone light emitting portion L2 made of a combination provided, the group light emitting portion L3 made of the combination of the zone light emitting portion L2 as described above, the whole light emitting portion L4 made of a combination of the group light emitting portion L3 is It is provided.

At this time, the unit lamp casing 300, the unit microcomputer 350 is provided.

In addition, the local microcomputer 320 is provided in each of the zone light emitting part L2, the group light emitting part L3, and the total light emitting part L4 including a plurality of unit LED lamp combinations.

In addition, at least one of the unit lamp casing 300, the zone light emitting unit L2, the group light emitting unit L3, and the total light emitting unit L4 is provided with a wireless transmitting and receiving unit 360.

In addition, the local microcomputer 320 is installed to receive an external power supply and a control signal from the outside via the power line modem 370.

The wireless transmission / reception unit 360 may not be installed in the unit lamp casing 300, the zone light emitting unit L2, the group light emitting unit L3, and the total light emitting unit L4, respectively, and the local microcomputer 320 is used. The control signal may be supplied by an operation of controlling the unit microcomputer connected through a wired or wireless connection.

In addition, the wireless transmission and reception unit 360 is selected from a transceiver using an ID or a transceiver using an infrared ray, and the detection sensor 355 is composed of an IR sensor and an illumination sensor for detecting the movement of a person.

In this case, the detection sensor 355 may be installed on one side of the local microcomputer 320, but may be separately installed at a desired position as necessary.

Meanwhile, an RFID tag 530 having a unique ID embedded therein is attached to the inside of the LED lamp 500.

In addition, the LED lamp 500 further includes a sub-microcom 570 capable of externally inputting a unique ID by wired or wireless signals, and includes a plurality of LED elements 550 on a substrate 510 installed inside. Is fitted.

Subsequently, a ballast 330 is provided to stably supply power to the LED lamp 500 through the socket.

In this case, the unit microcomputer 350 is installed to supply driving power only to the LED lamp 500 having a unique ID that is initially recognized.

In addition, the unit microcomputer 350, the user's ID can be input so that the user can be used to input the ID for recognition of the LED lamp 500 from the outside.

In addition, the unit micom 350 and the sub-microcom 570 is configured to be set to be used in conjunction with a timer (not shown) so that the use period can be set and initialized after a predetermined time elapses.

On the other hand, the unit microcomputer 350 and the local microcomputer 320, the remote control 600 is configured to be installed so that the remote control.

The operation of the present invention having the above configuration will be described.

2 to 5, the LED lamp of the present invention, when the power is supplied through the power pin 510, the power is supplied to the plurality of LED elements 550 mounted on the substrate 590 is turned on Do it.

At this time, the LED lamp 550, to prevent the light source consisting of the LED element 550 having a linearity to which the diffusion cover is integrally concentrated to diffuse the light uniformly as a whole.

In addition, the illumination system is provided with a zone light emitting unit (L2), a group light emitting unit (L3), a total light emitting unit (L4), each of which a plurality of lamp casing 300 is connected in one group, the illumination intensity measured in each region By controlling the dimmer 340 provided in the lamp casing 300 is installed to adjust the brightness of each zone, group and the whole.

In addition, the zone light emitting unit L2, the group light emitting unit L3, and the entire light emitting unit L4 may automatically control illuminance or measure the presence of a person by an operation of a sensor 355 installed at one side thereof. Power is supplied to the LED lamp 500 connected to the unit lamp casing 300.

In addition, the entire light emitting part L4 is installed to simultaneously transmit a control signal when power is supplied from the outside through the power line modem 370 installed at one side thereof, so that the entire light emitting part L4 and the whole light emitting part ( Each zone light emitting part L2 and the group light emitting part L3 connected to L4 can be individually controlled.

In addition, the wireless transmission and reception unit 360 is selected from a transceiver using an RFID or a transceiver using an infrared ray to enable the illumination system to be driven by an RFID signal or an infrared signal.

In addition, the LED lamp 500 mounted on the casing 300 having the reflection shade through the socket 375 has an RFID tag 530 having a unique ID pre-built therein, which is an RFID chip interworking with the RFID tag. When the operation of the wireless transmission and reception unit 360 is made, it is possible to know the unique ID.

At this time, the unit microcomputer 350 installed on one side of the wireless transmission and reception unit 360 is built in the RFID tag 530 when the circuit is completed through the first LED lamp 500 mounted on the socket 375. The unique ID is recognized and stored as an available dedicated LED lamp 500, and the power is supplied to the LED lamp 500 through the ballast 330.

That is, when the LED lamp 500 identified in the unit microcom 350 of the lamp casing 300 as described above is disconnected from the socket and then connected to the other lamp casing 300, the microcomputer of the other casing also has a unique ID. By recognizing the lamp to cut off the power supply to solve the problem of stealing the LED lamp 500 can be used to prevent theft.

In addition, the LED lamp 500 is further provided with a sub-microcom 570 that is capable of external input of a unique ID by wired or wireless signals, and has a unique ID in the LED lamp itself by the user as well as when the product is shipped. It is possible to enter the name so that only authorized users can use it exclusively.

Subsequently, the lamp casing 300 is connected to a power line modem 370 that allows one side of the unit microcomputer 350 and the local microcomputer 320 to control the power line to be connected to the power line modem 370 so as to control the same. When the control signal input of the LED lamp 500 connected to it can be easily adjusted on / off.

In addition, the unit microcomputer 350 is installed so that a user can input another unique ID through a remote controller or the like so that the user can input and use a recognition ID of the LED lamp 500 from the outside.

On the other hand, the unit microcomputer 350, so that the remote control 600, such as remote control is installed to be able to easily control the LED lighting in the room without a separate switch operation.

Through the above configuration, through the LED lamp installed to operate only by checking the unique ID, it is possible to eliminate the fear of losing the expensive LED lamp, as well as the field and remote control of the LED lamp is possible.

In addition, the lighting and turning off of the entire light emitting unit L4, the zone light emitting unit L2, the group light emitting unit L3, and the unit LED lamp are performed as wired or wireless signals, and the unit LEDs according to the ambient illumination It is to save energy by maintaining the proper illuminance required at all times by automatically adjusting the illuminance of lamp, zone, group and whole.

1A and 1B are exploded views and cross-sectional views showing a conventional LED fluorescent lamp, respectively.

2 is a block diagram showing a connection state of the lighting system according to the present invention.

Figure 3 is an installation state of the anti-theft device according to the invention.

4 and 5 are a cross-sectional view and a block diagram respectively illustrating an anti-theft system according to the present invention.

* Description of the symbols for the main parts of the drawings *

300 ... casing 375 ... socket

500 LED lamp 510 Power pin

530 ... RFID tag 570 ... Submicrocom

590 ... substrate

Claims (10)

A unit microcomputer is installed in a unit LED lamp made of a combination of an LED lamp having a lamp casing provided with a socket and a power pin connected to the socket, A local microcomputer connected to the unit micom is installed in at least one of the entire light emitting unit L4, the zone light emitting unit L2, and the group light emitting unit L3 composed of a plurality of unit LED lamps. The local microcom is a lighting system using an RFID chip built-in LED lamp that is installed to receive an external power supply and a control signal from the outside through a power line modem. The illumination system using an RFID chip embedded LED lamp according to claim 1, wherein a wireless transmission / reception unit is further installed at at least one selected from the unit microcom and the local microcom. The illumination system using an RFID chip embedded LED lamp according to claim 1 or 2, wherein the wireless transmission / reception unit is selected from a transceiver using RFID or a transceiver using infrared rays. According to claim 1, wherein the sensor is provided at any one or more of the total light emitting unit (L4), the zone light emitting unit (L2), the group light emitting unit (L3), The detection sensor is an illumination system using an RFID chip built-in LED lamp, characterized in that made of an IR sensor or an illumination sensor for detecting the movement of a person. According to claim 1, wherein the LED lamp, the RFID system embedded with a unique ID inside the lighting system using an RFID chip built-in LED lamp, characterized in that to interlock with a wireless transmitting and receiving device installed inside the lamp casing. The illumination system using an RFID chip embedded LED lamp according to claim 1, wherein the unit microcomputer is configured to supply driving power to the LED lamp when the unique ID is set in advance. According to claim 1, The unit microcom, the user's ID input is possible to use the LED chip embedded LED lamp, characterized in that the user can input the ID for recognition of the LED lamp from the outside of the user's recognition. system The illumination system of claim 1, wherein the LED lamp further includes a submicrocom capable of inputting a unique ID. According to claim 1, The unit microcom or local microcom is a lighting system using an RFID chip embedded LED lamp, characterized in that the power line modem is connected to one side thereof so as to enable remote control through the power line. According to claim 1, wherein the unit microcomputer or local microcomputer, the illumination system using the LED chip embedded LED lamp, characterized in that the remote control is installed to enable the remote control.

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