KR20100018893A - Fluorescent LED Light and Fluorescent LED Light Control System with Control Function - Google Patents

Abstract

According to the present invention, a fluorescent lamp type LED lamp is provided with means for transmitting and receiving wirelessly with a fluorescent lamp type LED light control device installed at a remote location, and a power control signal or LED which can turn on or off an LED element in the fluorescent type LED light control device. By sending a brightness control signal to control the brightness of the device, not only can the LED light installed in a remote place be turned on or off, but also the brightness can be adjusted. The present invention provides a fluorescent LED lamp and a fluorescent LED lamp control system having a control function to control and monitor the status without checking.

Description

Fluorescent LED Light and Fluorescent LED Light Control System with Control Function {.}

The present invention relates to a fluorescent lamp type LED lamp and a fluorescent lamp type LED control system having a control function.

More specifically, it is possible to remotely control the lighting or flickering state of the LED element used as the light source of the fluorescent LED light, so that when the fluorescent LED light is installed in an unmanned place, the administrator does not go directly to the site and check it. The present invention relates to a fluorescent lamp type LED lamp and a fluorescent lamp type LED light control system having a control function for controlling and monitoring the state.

Fluorescent lamps are not only easy to buy at supermarkets or radio companies, but are also cheap and easy to install for both sexes, making them the longest and most used light source in the lighting industry.

However, in the case of fluorescent lamps, they are frequently replaced due to black spot phenomenon and short lifespan, and there are limitations in design expression such as color and shape, and they are gradually replaced by other light sources because they are contrary to the trend of eco-friendly lighting market by using fluorescent materials. It is a trend.

LED (Light Emitting Diode) device that is attracting the most attention as other light sources, which began with the commercialization of red LED devices using GaAsP compound semiconductors in 1962, and with the GaP: N series green LED devices until now It has been used as a light source for the display of electronic devices including devices.

In addition, since the mid-1990s, GaN blue LED devices have been developed to enable a natural color display.

Typical applications include cell phone LCDs and backlights for keypads, as well as outdoor large billboards, traffic lights, car dashboards and taillights, ports, airports, skyscrapers, warnings and induction lamps.

In addition, the LED device is considered as a next-generation national strategic item because of its advantages such as high processing speed and low power consumption of the semiconductor, and environmentally friendly and high energy saving effect.

In addition, the advantages of the LED element is very small compared to the conventional light source, the power consumption is low, the lifespan is more than 10 times compared to the conventional light bulb, and shows a very excellent characteristics compared to the conventional light source with a fast reaction speed. In addition, there is no emission of harmful waves such as ultraviolet rays, and it is an environmentally friendly light source because no mercury and other discharge gas are used.

However, the LED element has a characteristic of easily becoming a high temperature because energy is emitted not only in the form of light but also in the form of heat. In order to cool the high temperature, there are some types of lamps that form a through hole outside the LED device lamp, but the efficiency of the LED device lamp is significantly reduced due to dust or other pests introduced through the hole. In addition, since the lifetime of the LED element is reduced by the high temperature, research to cool the heat of the LED element which has become a high temperature is continuously conducted.

In addition, since the light of the LED element is straight, it is considerably bright under the LED element but dark in the periphery. Therefore, in order to use as a general electric light, a separate device capable of diffusing the strong linearity of the LED element is required.

Accordingly, the present invention solves the problems of the prior art, and the object of the present invention is to provide a remote control of the lighting or extinction state of the LED element used as the light source of the fluorescent type LED lamp When fluorescent lamps are installed in unmanned places, they provide fluorescent LED lamps and fluorescent LED lamp control systems that have a control function that allows the administrator to control and monitor the status without the administrator going directly to the site. It is.

Another object of the present invention is to mount the LED driving device to the outside of the fluorescent lamp type LED lamp body, the fluorescent lamp type LED lamp and the fluorescent lamp type LED lamp having a control function to minimize the influence of the heat generated during operation of the LED drive device To provide a control system.

In addition, another object of the present invention is to provide a temperature control unit on the outside of the LED driving device for supplying DC power to the LED element so that the heat generation or endothermic function is performed in accordance with the temperature of the inside or outside the device of the LED drive device, The present invention provides a fluorescent lamp type LED lamp and a fluorescent lamp type LED control system having a control function for increasing or decreasing the device internal temperature or the device external temperature of the LED driving device.

In addition, another object of the present invention is further provided with a heat radiating member on the outside of the temperature control unit, a fluorescent lamp type LED lamp and a fluorescent lamp having a control function to make the temperature rise or temperature fall function made by the temperature control unit more efficiently To provide a type LED lighting control system.

In addition, another object of the present invention is to provide a separate diffusion plate or diffusion film by manufacturing a cover that can isolate the LED element used as a light source from the outside using a member made of a material containing a diffusion material. The present invention provides a fluorescent lamp type LED lamp and a fluorescent lamp type LED lighting control system having a control function to naturally remove light emitted from the LED element and to remove afterimages of the LED element.

Embodiment of the present invention for achieving the above object, a fluorescent lamp type LED lamp using the LED element as a light source; And a power converter for converting AC power into DC power, a wireless transmitter and receiver receiving a remote control signal from an external remote controller, and a controller for outputting a power control signal in response to a remote control signal received through the wireless transmitter and receiver. And an LED driving device including a switching unit configured to supply or cut off the DC power of the power conversion unit to the LED element in response to a power control signal of the control unit.

In addition, another embodiment of the present invention is a fluorescent lamp type LED lamp using the LED element as a light source; A power conversion unit for converting AC power into DC power, a wireless transmission and reception unit for receiving a remote control signal from the outside, a control unit for outputting a power control signal in response to the remote control signal received through the wireless transmission and reception unit, and An LED driving device including a switching unit configured to supply or cut off the DC power of the power conversion unit in response to a power control signal; And a fluorescent lamp type LED lamp monitoring device for transmitting a remote control signal to the LED driving device according to a manager's operation or according to a preset condition.

Therefore, the present invention enables to remotely control the lighting or blinking state of the LED element used as a light source of the fluorescent LED light, when the fluorescent LED light is installed in an unmanned place, the administrator does not go directly to the field to check It is effective to control and monitor the state.

The present invention has an effect that can be minimized by the heat generated during operation of the LED driving device by mounting the LED driving device outside the fluorescent lamp type LED body.

In addition, the present invention is provided by the temperature control unit on the outside of the LED driving device for supplying DC power to the LED element so that the heat generation or endothermic function is performed according to the temperature inside or outside the device of the LED drive device, There is an effect that the temperature inside or outside the device can be raised or lowered.

In addition, the present invention is further provided with a heat dissipation member on the outside of the temperature control unit, there is an effect that the temperature rise or temperature lowering function made by the temperature control unit can be made more efficiently.

In addition, the present invention is produced by using a member made of a material containing a diffusion material to isolate the LED element used as a light source from the outside, it is emitted from the LED element without having a separate diffusion plate or diffusion film Since the light is naturally diffused, there is an effect of removing the afterimage of the LED element.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The fluorescent lamp type LED lamp to which the present invention is applied has a semi-cylindrical shape by coupling the diffusion cover 30 to the upper cover 20, and the LED driving device 60 is mounted to the upper cover 20 by physical force. Or detachably provided, and provided with a semi-cylindrical heat dissipation member 70 on the upper cover 20, both ends of the fluorescent lamp LED lamp 100 has a tubular shape.

Accordingly, the fluorescent lamp type LED lamp to which the present invention is applied has the same shape as the conventional fluorescent lamp, and the power pins 51 and 52 of the fluorescent lamp type LED lamp 100 to which the present invention is applied to the existing fluorescent lamp connection terminals are used. By combining, it can be installed in the same manner as the conventional fluorescent lamp installation method.

Referring to Figures 1 to 6 with respect to the fluorescent lamp type LED lamp having the control function as follows.

(Fluorescent LED Lamp with Control Function)

1 is an exploded perspective view of a fluorescent lamp type LED lamp having a control function to which the present invention is applied.

As shown in FIG. 1, a fluorescent lamp type LED lamp 100 using the LED element 11 as a light source and an LED driving device 60 for supplying DC power to the LED element 11 are provided.

The LED driving device 60 includes a power conversion unit 67 for converting AC power into DC power, a wireless transmission and reception unit 69 for receiving a remote control signal from an external remote controller, and the wireless transmission and reception unit 69. Outputs a power control signal in response to a remote control signal received through the control panel, and determines whether the remote control signal is a brightness control signal, and in the case of a brightness control signal, a brightness control control signal corresponding to the remote control signal. A control unit 66 for outputting the control unit, a switching unit 68 for supplying or cutting off the DC power of the power conversion unit 67 to the LED element 11 in response to a power control signal of the control unit 66; In response to a light brightness control signal of the control unit 66, a power control unit 96 for adjusting output levels of power supplied to the plurality of LED elements 11 and illuminance around the fluorescent lamp type LED lamp are measured. It is composed of a brightness sensor (97).

At this time, the controller 66 checks an illumination measurement signal input from the illumination sensor 97, generates a lamp brightness control signal corresponding to the check result, and outputs the control signal to the power controller 96.

Here, the illuminance sensor 97 is attached to an outer surface of the LED driving device 60 to measure the peripheral illuminance of the LED driving device 60.

The LED driving device 60 is coupled to be detachable by a physical force applied to the fluorescent LED lamp 100.

As shown in FIG. 1, the fluorescent lamp type LED lamp 100 is fixed and arranged at predetermined intervals, and includes a plurality of AC power supply terminals 12 and 13 and a plurality of DC power supply terminals. (14) and (15), the circuit board 10, and the circuit board 10 is attached and fixed to the lower portion of the plurality of AC power supply terminals 12 (13) and a plurality of DC power supply terminals An upper cover 20 having a coupling hole 25 formed thereon so as to be exposed to the outside, and an upper side of the circuit board 10, which is coupled to the upper cover 20 and is connected to the LED element. 11 is fitted to both ends of the diffusion cover 30 for diffusing the light emitted from the diffusion cover, the diffusion cover 30 and the upper cover 20, and commercial power is supplied to the AC power supply terminal 12 ( 13 and an electrical connection portion 40 provided with an AC power supply line 41 to be supplied to the electrical connection portion 40 and coupled to an upper portion of the electrical connection portion 40. And a pair of power pins 51 and 52 electrically connected to each other, the closing cap 50 for separating the electrical connection portion 40 from the external environment, and a predetermined distance on both sides of the LED driving device. The heat dissipation member 70 is coupled to the upper cover by a coupling member in a spaced apart state.

The heat dissipation member 70 is formed with a plurality of heat dissipation fins 71, the shape of which is semi-cylindrical.

The waterproof member 26 is provided between the AC power supply terminals 12 and 13 or the DC power supply terminals 14 and 15 and the coupling hole 25, and the waterproof member 26 has an O-ring shape. It is made of insulating material.

The circuit board 10 is provided in a state spaced apart from both ends of the upper cover 20 by a predetermined interval, the AC power supply line 41 of the electrical connection portion 40 is the circuit board 10 and the upper cover ( 20) located inside the space formed between.

The waterproof member 80 is provided on the coupling surface of the upper cover 20 and the diffusion cover 30, wherein the waterproof member 80 is a waterproof tape.

The distance between the LED elements 11 fixed and arranged on the circuit board 10 is determined so that the light emitted from the LED elements 11 overlaps with each other by the light emission angle of the LED elements 11.

The diffusion cover 30 is preferably positioned to overlap the light emitted from the LED element 11 inside.

The diffusion cover 30 is preferably made of a material containing a diffusion material.

The operating voltage of the fluorescent lamp type LED lamp using the LED element 11 as a light source is 100 ~ 240V.

Referring to the operation of the fluorescent lamp type LED lamp having a control function configured as described above are as follows.

The AC power supply terminals 12 and 13 and the DC power supply terminals 14 and 15 of the circuit board 10 in which the plurality of LED elements 11 are spaced apart at predetermined intervals are arranged on the upper cover 20. The circuit board 10 is coupled to the upper cover 20 while being exposed to the outside through the formed coupling hole 25. In this case, the coupling method may use a fixing member such as a screw, or an adhesive member such as an adhesive.

In this case, the circuit board 10 is coupled to the upper cover 20 in a state where the circuit board 10 is spaced apart from the diffusion cover 30 so that the overlapping point of the light emitted from the LED element 11 is located inside the diffusion cover 30. The distance d to the overlapping point of light can be adjusted by adjusting the thickness of the circuit board 10.

As described above, the distance between the plurality of LED elements 11 and the distance from the circuit board 10 to the center point of the diffusion cover 30 are determined by using the overlapping and overlapping distances of the LEDs. When is turned on, the shape or afterimage of the LED element 11 does not appear on the outer surface of the diffusion cover 30.

As described above, after coupling the circuit board 10 to the upper cover 20, the diffusion cover 30 is coupled by pressing from the lower end of the upper cover 20. At this time, before the upper cover 20 and the diffusion cover 30 are combined, the waterproof tape 80 is attached to a surface in which the upper cover 20 and the diffusion cover 30 are in close contact with each other, so that moisture, such as steam, is inward. Do not infiltrate.

In the case of this bonding process is made by a bonding jig formed separately during the production process.

After the upper cover 20 and the diffusion cover 30 are combined as described above, the heat dissipation member 70 forming a semi-cylindrical shape is attached to both ends of the upper cover 20 by using an adhesive member such as an adhesive. Then both ends have a cylindrical shape in the form of a tube like a normal fluorescent lamp.

After attaching the heat dissipation member 70 to the upper cover 20, the electrical connection portion 40 is first inserted into both ends of the tube shape formed by the combination of the heat dissipation member 70 and the diffusion cover 30, and the electric A closing cap 50 is placed on the upper portion of the connecting portion 40 so that the electrical connecting portion 40 is isolated from the external environment. At this time, the closing cap 50 is electrically coupled with the electrical connection portion 40, and receives a commercial power supply AC power supply line 41 and the AC power supply terminal 12, 13 of the electrical connection portion 40 Power pins 51 and 52 for supplying to the LED driving device 60 through are provided.

As shown in FIG. 7, the LED driving device 60 outputs AC power input through an AC connector (not shown) to the power conversion unit 67, and the power conversion unit 67 outputs the AC power to the LED. The element 11 is converted into a DC power source capable of turning on, so that the element 11 is supplied to the LED element 11 through the DC power supply terminals 14 and 15 through a DC connector (not shown) to be turned on.

1.Light control mode

The lighting control mode can be applied in two ways. The first method is to allow the user to turn on or off the LED element 11 by using a remote controller from the outside, the second method is automatically turned on when the surroundings are dark by using the illumination sensor 97, It's a way to make it go extinct.

In more detail with respect to the first method, when the user transmits a light request signal, which is a remote control signal using a remote controller, the wireless transmitter / receiver 69 of the LED driving device 60 receives the light request signal. It outputs to the control part 66.

Then, the controller 66 controls the switching unit 68 to be turned on so that the DC power of the power conversion unit 67 is supplied to the LED element 11 and turned on. On the other hand, when the user transmits a remote control signal, the lamp light request signal using a remote controller, the wireless transmission and reception unit 69 of the LED driving device 60 receives the flashing light request signal and outputs it to the controller 66, the controller 66 controls the switching unit 68 to be turned off so that the DC power supplied to the LED element 11 is cut off.

In more detail about the second method, the illumination sensor 97 is provided at a predetermined position on the outer surface of the LED driving device 60, and the illuminance of the place where the fluorescent LED lamp 100 is installed is measured. The measured illuminance value is transmitted to the controller 66.

Then, the control unit 66 compares the input illuminance value with a reference illuminance value which is already set, and turns on the switching unit 68 to turn on the DC power of the power conversion unit 67 when it is determined that the surroundings are dark. 11) to be turned on. Meanwhile, even when the LED element 11 is turned on, the illuminance sensor 97 continuously measures illuminance and outputs the measured illuminance value to the controller 66.

Then, the controller 66 compares the illuminance value with the reference illuminance value and turns off the switching unit 68 to cut off the DC power supply of the power conversion unit 67 supplied to the LED element 11 when the ambient light is determined to be bright. The element 11 is turned off.

The second method may be implemented after being set to the automatic mode by the user, and the reference illuminance value is to determine whether to turn off the first illuminance value and the LED element to determine whether to turn on the LED element. For the second illuminance value.

On the other hand, when a plurality of fluorescent LED lights in one place in addition to the two lighting modes may be implemented to selectively light only the desired fluorescent LED lights of the plurality of fluorescent LED lights.

2. Brightness adjustment mode

Referring to the brightness control mode implemented by the present invention, when the user sends a brightness control request signal, which is a remote control signal using a remote controller, the wireless transmission and reception unit 69 of the LED driving device 60 is a remote control signal Receives the brightness control request signal and outputs it to the controller 66.

Then, the controller 66 checks the input brightness control request signal, recognizes the brightness level, and the controller 66 controls the brightness control signal so that the LED element 11 has only the brightness of the perceived brightness level. The power supply unit 96 outputs to the unit 96, and in response to the brightness control signal, the output level of the DC power output to the switching unit 68 is increased or decreased.

The switching unit 68 is turned on under the control of the control unit 66, and supplies the DC power whose output level is adjusted to the LED element 11, and the LED element 11 is as bright as the output level of the DC power supply. Lights up with.

The brightness control mode may also be implemented in the automatic mode. The method may store time and output level information in the internal memory of the controller 66 and switch the LED driving device 60 to the automatic brightness control mode.

Then, the controller 66 checks the time using a timer provided therein, and outputs the output level of the DC power output through the switching unit 68 through the power controller 96 when the specified time arrives. What is necessary is just to convert it to the level, and to supply it to the LED element 11.

(Fluorescent LED Light Control System)

The fluorescent lamp LED lighting control system according to the present invention is a fluorescent lamp LED lamp 100 using the LED element as a light source, the LED driving device 60 for supplying DC power to the LED element 11, and the manager The fluorescent lamp type LED lamp monitoring device 300 that transmits a remote control signal to the LED driving device 60 in accordance with the operation or in accordance with a predetermined condition.

The LED driving device 60 includes a power conversion unit 67 for converting AC power into DC power, a wireless transmission and reception unit 69 for receiving a remote control signal from an external remote controller, and the wireless transmission and reception unit 69. Outputs a power control signal in response to a remote control signal received through the control panel, and determines whether the remote control signal is a brightness control signal, and in the case of a brightness control signal, a brightness control control signal corresponding to the remote control signal. A control unit 66 for outputting the control unit, a switching unit 68 for supplying or cutting off the DC power of the power conversion unit 67 to the LED element 11 in response to a power control signal of the control unit 66; In response to a light brightness control signal of the control unit 66, the power control unit 96 for adjusting the output level of the power supplied to the plurality of LED elements 11 and the illuminance around the fluorescent lamp type LED lamp are measured. It is composed of a brightness sensor (97).

At this time, the controller 66 checks an illumination measurement signal input from the illumination sensor 97, generates a lamp brightness control signal corresponding to the check result, and outputs the control signal to the power controller 96.

Here, the illuminance sensor 97 is attached to an outer surface of the LED driving device 60 to measure the peripheral illuminance of the LED driving device 60.

The LED driving device 60 is coupled to be detachable by a physical force applied to the fluorescent LED lamp 100.

The controller 66 checks whether there is an abnormality of the plurality of LED elements 11, generates the check result as a fluorescent LED lamp monitoring signal, and transmits the fluorescent LED monitor through the wireless transmitter / receiver 69. 300, and the fluorescent LED lamp monitoring device 300 receives the fluorescent LED lamp monitoring signal, checks whether there is a fluorescent LED lamp 100 that operates abnormally, if there is abnormal By providing the information of the fluorescent LED lamps operating in the system, so that the administrator can know, it is possible to identify the abnormality of the fluorescent LED lamps without having to check them on the spot, and to quickly replace or repair them when they occur. Make sure

The LED driving device 60 is coupled to be detachable by a physical force applied to the fluorescent LED lamp 100.

As shown in FIG. 1, the fluorescent lamp type LED lamp 100 is fixed and arranged at predetermined intervals, and includes a plurality of AC power supply terminals 12 and 13 and a plurality of DC power supply terminals. (14) and (15), the circuit board 10, and the circuit board 10 is attached and fixed to the lower portion of the plurality of AC power supply terminals 12 (13) and a plurality of DC power supply terminals An upper cover 20 having a coupling hole 25 formed thereon so as to be exposed to the outside, and an upper side of the circuit board 10, which is coupled to the upper cover 20 and is connected to the LED element. 11 is fitted to both ends of the diffusion cover 30 for diffusing the light emitted from the diffusion cover, the diffusion cover 30 and the upper cover 20, and commercial power is supplied to the AC power supply terminal 12 ( 13 and an electrical connection portion 40 having an AC power supply line 41 to be supplied to the electrical connection portion 40, and coupled to an upper portion of the electrical connection portion 40. And a pair of power pins 51 and 52 electrically connected to each other, and a closing cap 50 for separating the electrical connection portion 40 from the external environment, and predetermined on both sides of the LED driving device. The heat dissipation member 70 is coupled to the upper cover by a coupling member in a spaced apart state.

The heat dissipation member 70 is formed with a plurality of heat dissipation fins 71, the shape of which is semi-cylindrical.

The waterproof member 26 is provided between the AC power supply terminals 12 and 13 or the DC power supply terminals 14 and 15 and the coupling hole 25, and the waterproof member 26 has an O-ring shape. It is made of insulating material.

The circuit board 10 is provided in a state spaced apart from both ends of the upper cover 20 by a predetermined interval, the AC power supply line 41 of the electrical connection portion 40 is the circuit board 10 and the upper cover ( 20) located inside the space formed between.

The waterproof member 80 is provided on the coupling surface of the upper cover 20 and the diffusion cover 30, wherein the waterproof member 80 is a waterproof tape.

The distance between the LED elements 11 fixed and arranged on the circuit board 10 is determined so that the light emitted from the LED elements 11 overlaps with each other by the light emission angle of the LED elements 11.

The diffusion cover 30 is preferably positioned to overlap the light emitted from the LED element 11 inside.

The diffusion cover 30 is preferably made of a material containing a diffusion material.

The operating voltage of the fluorescent lamp type LED lamp using the LED element 11 as a light source is 100 ~ 240V.

Referring to the operation of the fluorescent lamp type LED light control system configured as described above are as follows.

First, the fluorescent type LED light monitoring device 300 lights or turns on the fluorescent type LED light 100 in the field through two-way communication with the fluorescent type LED light 100 having the wireless transmitting and receiving unit 69 through a wireless communication network. By controlling the flashing state, and determines whether the fluorescent lamp type LED light 100 is operating normally, repair or replacement is made.

1. Lighting control mode

When the manager selects the fluorescent LED lamp 100 installed in the desired place through the fluorescent LED lamp monitoring device 300, and transmits a light request signal through a wireless communication network (not shown), the LED driving device (60) The wireless transmitter / receiver unit 69 receives the lighting request signal through the wireless communication network and outputs the signal to the controller 66.

Then, the controller 66 controls the switching unit 68 to be turned on so that the DC power of the power conversion unit 67 is supplied to the LED element 11 and turned on. On the other hand, when the manager sends out the flashing light request signal, which is a remote control signal through the fluorescent lamp type LED light monitoring device 300, the wireless transmission and reception unit 69 of the LED driving device 60 receives the flashing light request signal control unit 66 ), And the controller 66 controls the switching unit 68 to be turned off so that the DC power supplied to the LED element 11 is cut off.

Meanwhile, when a plurality of fluorescent LED lights are installed in one place such as a train or a train platform or a tunnel, it may be implemented to selectively light only a desired fluorescent LED light among a plurality of fluorescent LED lights.

2. Brightness Control Mode

When the manager transmits a brightness control request signal, which is a remote control signal, through the wireless communication network through the fluorescent lamp type LED monitoring device 300, the wireless transmission and reception unit 69 of the LED driving device 60 adjusts the brightness which is a remote control signal. The request signal is received and output to the control unit 66.

Then, the controller 66 checks the input brightness control request signal, recognizes the brightness level, and the controller 66 controls the brightness control signal so that the LED element 11 has only the brightness of the perceived brightness level. The power supply unit 96 outputs to the unit 96, and in response to the brightness control signal, the output level of the DC power output to the switching unit 68 is increased or decreased.

The switching unit 68 is turned on under the control of the control unit 66, and supplies the DC power whose output level is adjusted to the LED element 11, and the LED element 11 is as bright as the output level of the DC power supply. Lights up with.

Therefore, when there are not many users or vehicles used such as dawn, the brightness of the fluorescent LED lamp 100 may be reduced to save energy.

3. Check for abnormality

The fluorescent type LED light monitoring device 300 transmits a DC power supply by the LED driving device 60 to confirm the abnormality occurrence request signal to the LED driving device 60 while the fluorescent type LED light 100 is operating. .

Then, the wireless transmission and reception unit 69 of the LED driving device 60 receives the abnormality occurrence confirmation request signal and outputs it to the controller 66, and the controller 66 responds to the abnormality occurrence confirmation request signal. It is checked whether the LED element 11 of the fluorescent type LED lamp 100 is normally driven.

If an abnormality occurs as a result of the check, the control unit 66 transmits the abnormality occurrence signal together with the identification information of the fluorescent lamp type LED lamp 100 to the fluorescent lamp type LED monitoring device 300 through a wireless communication network.

The fluorescent type LED light monitoring device 300 outputs the identification information and the error occurrence message of the fluorescent type LED light 100 on the screen, or transmits the information using a pre-stored mobile communication terminal number. Make sure that you can respond quickly.

On the other hand, the control unit 66 transmits the normal confirmation signal with the identification information of the fluorescent lamp type LED light 100 even when no abnormality occurs, thereby causing the fluorescent lamp type LED light monitoring device 300 to drive the LED driving device 60. When the normal confirmation signal is not input from the LED drive device 60 can be recognized as not operating normally.

Therefore, it is possible to know in advance whether to replace the circuit board 10 equipped with the LED element 11 or the LED drive device 60 for the fluorescent lamp type LED lamp in which an abnormality occurs, so that it is necessary for replacement or repair. Make sure you have a tool or product ready.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . Therefore, the scope of the invention will be defined by the appended claims and equivalents thereof.

1 is a perspective view of a fluorescent lamp type LED lamp having a control function according to the present invention.

FIG. 2 is a front sectional view of FIG. 1.

3 is a side cross-sectional view of FIG. 1.

4 is a view for explaining the overlapping point of the light emitted from the LED element.

5 is a block diagram conceptually illustrating a fluorescent lamp type LED lamp having a control function according to the present invention.

6 is a view for explaining a fluorescent type LED light control system according to the present invention.

FIG. 7 is a block diagram illustrating a configuration of an LED driving device applied to FIGS. 5 and 6.

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

100: fluorescent LED lamp

10: circuit board

11: LED element

12, 13: AC power supply terminal

14, 15: DC power supply terminal

20: top cover

25: coupling hole

30: diffusion cover

40: electrical connection

41: AC power supply line

50: finishing cap

51, 52: power pin

60: LED drive device

70: heat dissipation member

80: waterproof member

Claims (30)

Fluorescent type LED lamp using an LED element as a light source; And A power conversion unit for converting AC power to DC power, a wireless transmission and reception unit for receiving a remote control signal from an external remote controller, a control unit for outputting a power control signal in response to the remote control signal received through the wireless transmission and reception unit; An LED driving device including a switching unit to supply or cut off DC power of the power conversion unit in response to a power control signal of the control unit; Fluorescent lamp LED lamp having a control function, characterized in that consisting of. The method of claim 1, The controller determines whether the remote control signal is a light brightness control signal, and outputs a light brightness control signal corresponding to the remote control signal when the light brightness control signal is used. And a power control unit for adjusting an output level of power supplied to the plurality of LED elements in response to a light brightness adjustment control signal of the control unit. 3. The method of claim 2, Fluorescent lamp type LED lamp having the control function, It further comprises an illuminance sensor for measuring the illuminance of the fluorescent lamp type LED light, The control unit checks an illuminance measurement signal input from the illuminance sensor, generates a lamp brightness control signal corresponding to the check result, and outputs the control lamp to the power control unit. The method of claim 1, The LED driving device, the fluorescent lamp type LED lamp having a control function, characterized in that coupled to the removable by the force applied to the fluorescent lamp type LED lamp. The method of claim 1, The fluorescent LED lamp, A circuit board on which the LED elements are fixed and arranged at regular intervals; An upper cover to which the circuit board is attached and fixed to a lower portion thereof, the upper cover having coupling holes formed to expose a plurality of AC power supply terminals and a plurality of DC power supply terminals to the outside; A diffusion cover provided on an upper side of the circuit board and coupled to the upper cover to diffuse light emitted from the LED element; An electrical connection part having an AC power supply line coupled to both ends of the combined diffusion cover and the upper cover to allow commercial power to be supplied to the AC power supply terminal; And A pair of power pins coupled to an upper portion of the electrical connection part and electrically connected to the electrical connection part, the closing cap allowing the electrical connection part to be separated from the external environment; Fluorescent lamp LED lamp having a control function characterized in that it is provided, including. The method of claim 5, The fluorescent LED lamp, And a heat dissipation member coupled to the upper cover by a coupling member in a state spaced apart at predetermined intervals on both sides of the LED driving device. The method of claim 6, The heat dissipation member, Fluorescent lamp type LED lamp having a control function, characterized in that a plurality of heat radiation fins are formed. The method of claim 7, wherein The heat dissipation member formed with the heat dissipation fin is a fluorescent lamp type LED lamp having a control function, characterized in that the semi-cylindrical shape. The method of claim 5, The upper cover is a fluorescent lamp type LED lamp having a control function, characterized in that consisting of "H" shape. The method of claim 5, LED lamp having a control function, characterized in that the waterproof member is provided between the AC power supply terminal or DC power supply terminal and the coupling hole. The method of claim 5, The circuit board is provided in a state spaced apart from a predetermined interval from both ends of the upper cover, the AC power supply line of the electrical connection portion having a control function, characterized in that provided in the space formed between the circuit board and the upper cover Fluorescent LED Light Fixture. The method of claim 10, The waterproof member is a fluorescent lamp type LED lamp having a control function, characterized in that made of an insulating material. The method of claim 12, The waterproof member is a fluorescent lamp type LED lamp having a control function, characterized in that the O-ring shape. The method of claim 5, Fluorescent lamp LED lamp having a control function, characterized in that the waterproof member is provided on the coupling surface of the upper cover and the diffusion cover. The method of claim 5, The spacing of the LED elements fixed and arranged on the circuit board, A fluorescent lamp type LED lamp having a control function, characterized in that the light emitted from the LED element is determined so that the light emitted from a certain number of LED elements overlap. The method of claim 5, The diffusion cover is a fluorescent lamp type LED lamp having a control function, characterized in that the light emitted from the LED element is positioned on the inner side. Fluorescent type LED lamp using an LED element as a light source; A power conversion unit for converting AC power into DC power, a wireless transmission and reception unit for receiving a remote control signal from the outside, a control unit for outputting a power control signal in response to the remote control signal received through the wireless transmission and reception unit, and An LED driving device including a switching unit to supply or cut off the DC power of the power conversion unit in response to a power control signal; And A fluorescent lamp type LED light monitoring device for transmitting a remote control signal to the LED driving device according to a manager's operation or a condition set in advance; Fluorescent lamp type LED light control system comprising a. The method of claim 17, The controller determines whether the remote control signal is a light brightness control signal, and outputs a light brightness control signal corresponding to the remote control signal when the light brightness control signal is used. And a power controller configured to adjust an output level of power supplied to the plurality of LED elements in response to a lamp brightness control signal of the controller. The method of claim 18, Fluorescent lamp type LED lamp having the control function, It further comprises an illuminance sensor for measuring the illuminance of the fluorescent lamp type LED light, The control unit checks the illuminance measurement signal input from the illuminance sensor, and generates a lamp brightness control signal corresponding to the check result to output to the power control unit fluorescent lamp type LED lamp control system. The method of claim 17, The controller checks whether there is an abnormality of a plurality of LED elements, generates the check result as a fluorescent LED lighting signal, and transmits the result to the fluorescent LED lighting apparatus through the wireless transmitting / receiving unit. The fluorescent type LED light monitoring device receives the fluorescent type LED light monitoring signal, checks whether there is a fluorescent type LED light that is abnormally operated, and provides information on the fluorescent type LED light that is abnormally operated when present. Fluorescent lamp type LED light control system, characterized in that. The method of claim 17, The fluorescent LED lamp, A circuit board on which the LED elements are fixed and arranged at regular intervals; An upper cover to which the circuit board is attached and fixed to a lower portion thereof, the upper cover having coupling holes formed to expose a plurality of AC power supply terminals and a plurality of DC power supply terminals to the outside; A diffusion cover provided on an upper side of the circuit board and coupled to the upper cover to diffuse light emitted from the LED element; An electrical connection part having an AC power supply line coupled to both ends of the combined diffusion cover and the upper cover to allow commercial power to be supplied to the AC power supply terminal; And A pair of power pins coupled to an upper portion of the electrical connection part and electrically connected to the electrical connection part, the closing cap allowing the electrical connection part to be separated from the external environment; Fluorescent lamp type LED light control system comprising a. The method of claim 21, The fluorescent LED lamp, And a heat dissipation member coupled to the upper cover by a coupling member on both sides of the LED driving device at predetermined intervals. 23. The method of claim 22, The heat dissipation member, Fluorescent type LED light control system, characterized in that a plurality of heat radiation fins are formed. The method of claim 23, wherein The heat dissipation member formed with the heat dissipation fin is a fluorescent lamp type LED lamp control system characterized in that the semi-cylindrical shape. The method of claim 24, The upper cover is a fluorescent lamp type LED light control system, characterized in that consisting of "H" shape. The method of claim 21, Fluorescent lamp type LED lamp control system characterized in that the waterproof member is provided between the AC power supply terminal or DC power supply terminal and the coupling hole. The method of claim 21, The circuit board is provided in a state spaced apart from a predetermined interval from both ends of the upper cover, the AC power supply line of the electrical connection portion is provided in the interior of the space formed between the circuit board and the upper cover fluorescent lamp LED lamp Control system. The method of claim 26, The waterproof member is a fluorescent lamp type LED light control system, characterized in that made of an insulating material. The method of claim 28, The waterproof member is a fluorescent lamp type LED light control system, characterized in that the O-ring shape. The method of claim 21, Fluorescent lamp type LED lighting control system characterized in that the waterproof member is provided on the coupling surface of the upper cover and the diffusion cover.

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