KR101218006B1 - Led bulb light - Google Patents

Abstract

The present invention relates to a light emitting diode light fixture, and more particularly, to a light emitting diode light fixture that senses an object and emits light, changes the lighting state according to illumination, and can wirelessly control lighting or brightness step by step. .
Accordingly, the light emitting diode light fixture of the present invention includes a light emitting diode unit; A converter unit converting alternating current into direct current; A switching element unit electrically connected between the converter unit and the light emitting diode unit to electrically connect or disconnect an electrical connection path between the light emitting diode unit and the converter unit; An infrared sensor unit which transmits infrared rays to determine a movement of an object and changes an internal resistance value when the movement of the object is determined; An infrared sensor monitoring unit which detects the internal resistance of the infrared sensor unit when the internal resistance increases by a predetermined value and transmits an electric signal; And the light emitting diode unit and the converter unit are electrically connected to the switching element unit, electrically connected to the infrared sensor monitoring unit, and receive the electrical signal transmitted from the infrared sensor. A control circuit unit electrically connected to each other and turning off the switching element unit to electrically disconnect the light emitting diode unit and the converter unit when an electric signal is not transmitted from the infrared sensor; It is formed to include.

Description

Light Emitting Diode Light Fixtures {LED BULB LIGHT}

The present invention relates to a light emitting diode light fixture, and more particularly, to a light emitting diode light fixture that senses an object and emits light, changes the lighting state according to illumination, and can wirelessly control lighting or brightness step by step. .

Currently, most of the luminaires installed inside buildings are fluorescent lights.

Fluorescent lamps are known to have a long initial lighting time, a separate ballast lamp, and low energy efficiency.

On the other hand, recently developed light emitting diode lamps have been developed as a substitute for fluorescent lamps because they do not require a ballast and have high energy efficiency.

However, in spite of these advantages, LEDs have the following problems.

Currently, there are many socket-type luminaires inside the building. Therefore, there is a problem that a light emitting diode lamp compatible with the current socket type luminaire must be used.

In addition, a light emitting diode, etc., has to be used in a state in which AC is converted into DC in order to be driven by commercial power of AC.

Therefore, the light emitting diodes and the like currently solve the above problems, and at the same time, it is necessary to add various functions in order to increase the market competitiveness, efficiency and compatibility.

The present invention has been made to solve the above problems, the technical problem to be solved is to provide a light emitting diode light fixture that can be used to replace only the bulb, without replacing the socket type luminaire.

Another technical problem of the present invention is to integrate each sensor with a light emitting diode lamp, to automatically detect the movement of the object, and to automatically turn on when the external illuminance is lower than a predetermined value, and to turn on and off the brightness level wirelessly. To provide a sensor-integrated light emitting diode light fixture that can control the.

Light emitting diode light fixture of the present invention for achieving the above technical problem is a light emitting diode unit; A converter unit converting alternating current into direct current; A switching element unit electrically connected between the converter unit and the light emitting diode unit to electrically connect or disconnect an electrical connection path between the light emitting diode unit and the converter unit; An infrared sensor unit which transmits infrared rays to determine a movement of an object and changes an internal resistance value when the movement of the object is determined; An infrared sensor monitoring unit which detects the internal resistance of the infrared sensor unit when the internal resistance increases by a predetermined value and transmits an electric signal; And the light emitting diode unit and the converter unit are electrically connected to the switching element unit, electrically connected to the infrared sensor monitoring unit, and receive the electrical signal transmitted from the infrared sensor. A control circuit unit electrically connected to each other and turning off the switching element unit to electrically disconnect the light emitting diode unit and the converter unit when an electric signal is not transmitted from the infrared sensor; It includes.

The present invention is to turn on the light emitting diode unit by detecting the movement of the object by using an infrared sensor, there is an effect that can reduce the power efficiency than conventional.

In addition, the present invention has an effect of increasing the power efficiency according to the ambient brightness by turning on the light emitting diode unit when the ambient brightness is lowered by a predetermined value or more by using the illuminance sensor.

In addition, the present invention can control the brightness level and the lighting and turn off of the light emitting diode unit through the wireless transmission, there is an effect that the user can adjust the brightness and lighting state of the light emitting diode unit according to the surrounding situation.

In addition, the present invention can be implemented without the installation of a separate additional device in the conventional incandescent bulb luminaires when implementing the functions such as lighting / off and brightness control and object detection of the light emitting diode unit, the diversity and effectiveness of the function It has the effect of maximizing.

In addition, the present invention is a place where the existing socket luminaire is installed can implement a sensor, such as a bulb replacement only without the installation of a separate device has an excellent power saving effect.

1 is a block diagram of a light emitting diode light fixture, according to one embodiment of the invention.
Figure 2a is a perspective view showing a state in which the light emitting diode light fixture according to an embodiment of the present invention is mounted on the glass case portion and the socket portion.
Figure 2b is a front view showing a state in which the light emitting diode light fixture according to an embodiment of the present invention is mounted on the glass case portion and the socket portion.
3 is a block diagram of a LED lighting fixture according to another embodiment of the present invention.
4 is a block diagram of a light emitting diode light fixture, according to another embodiment of the invention.

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

1 is a block diagram of a light emitting diode light fixture according to an embodiment of the present invention.

As shown in FIG. 1, a light emitting diode light fixture according to an exemplary embodiment of the present invention includes a light emitting diode unit 10, a converter unit 20, a switching element unit 30, an infrared sensor unit 40, and an infrared sensor. The monitoring part 50 and the control circuit part 60 are included.

The light emitting diode unit 10 includes a plurality of light emitting diodes in series or in parallel.

The converter unit 20 converts alternating current into direct current.

The switching device unit 30 is electrically connected between the converter unit 20 and the light emitting diode unit 10, and electrically connects an electrical connection path between the light emitting diode unit 10 and the converter unit 20. To be disconnected. Here, the switching device unit 30 may be made of a FET or a transistor.

The infrared sensor unit 40 transmits infrared rays to determine the movement of the object, and changes the internal resistance value when the movement of the object is determined.

The infrared sensor monitoring unit 50 detects when the internal resistance of the infrared sensor unit 40 increases by a predetermined value or more, and transmits an electric signal. The infrared sensor monitoring unit 50 may be configured as a comparator using an associative amplifier.

The control circuit unit 60 is electrically connected to the switching element unit 30, and is electrically connected to the infrared sensor monitoring unit 50. When the control circuit unit 60 receives an electric signal transmitted from the infrared sensor unit 40, the control circuit unit 60 turns on the switching element unit 30 to electrically connect the light emitting diode unit 10 to the converter unit 20. . Therefore, when the object is moving, the light emitting diode unit 10 is turned on by receiving power from the converter unit 20.

In addition, the control circuit unit 60 turns off the switching device unit 30 when the electric signal is not transmitted from the infrared sensor unit 40 to electrically disconnect the light emitting diode unit 10 and the converter unit 20. . Thus, when there is no movement of the object, the light emitting diode unit 10 is turned off by turning off power from the converter unit 20.

2A and 2B are perspective and front views illustrating a light emitting diode light fixture mounted on a glass case 70 and a socket 80 according to an embodiment of the present invention.

2A and 2B, the light emitting diode light fixture according to the exemplary embodiment may further include a glass case part 70 and a socket part 80.

The glass case 70 has a light emitting diode unit 10 mounted thereon.

The socket portion 80 is formed of a cylindrical metal cylinder in which the outer body and the lower central portion are insulated from each other to form different electric paths between each other. The socket portion 80 is mounted with a converter unit 20, switching element unit 30, infrared sensor unit 40, infrared sensor monitoring unit 50, and the control circuit unit 60, the thread on the outer periphery Is formed.

As described above, the light emitting diode light fixture according to the exemplary embodiment of the present invention has the light emitting diode unit 10 mounted on the glass case 70 to expose the light, while the converter unit 20, the switching element unit 30, By mounting the infrared sensor unit 40, the infrared sensor monitoring unit 50, and the control circuit unit 60 in the socket unit 80, the conventional incandescent lamp luminaires and socket type luminaires are connected without being replaced. Can be used.

In addition, the light emitting diode light fixture according to the embodiment of the present invention includes a converter unit 20, a switching device unit 30, an infrared sensor unit 40, an infrared sensor monitoring unit 50, and a control circuit unit 60. The socket portion 80 is formed integrally. Therefore, conventionally, in the case of a sensor of an emergency staircase, such as an existing apartment, since the sensor mechanism and the bulb are separated, inconveniences such as cost and installation are inconvenient, but the present invention is integrally formed with the bulb and the detailed configuration. It is possible to save power by simplifying the installation, and further reduce the power by the sensing operation.

In addition, the present invention can be replaced as long as the bulb socket is formed, it can be used as the entrance lamp, corridor lamp, staircase lamp, interior stand lamp and the like.

In addition, the LED lighting fixture according to an embodiment of the present invention may further include a heat sink (90).

The heat dissipation plate 90 is disposed to surround the glass case 70 and the socket 80, and a plurality of wings are formed in the direction of the socket 80 in the glass case 70. The heat sink 90 includes heat generated from the light emitting diode unit 10, the converter unit 20, the switching element unit 30, the infrared sensor unit 40, the infrared sensor monitoring unit 50, and the control circuit unit 60. By dissipating the heat generated by), the fatigue caused by the heat is reduced to improve durability.

On the other hand, the glass case 70 may be further provided with a convex portion 71 which is convex toward the center.

Here, the infrared sensor portion 40 is disposed inside the convex portion 71. In this case, the reason why the infrared sensor portion 40 is disposed inside the convex portion 71 is that, as illustrated in the present embodiment, when the bulb and the sensing function and the light emitting diode are integrally formed, the conventional sensor Unlike the case where the light bulb and the light bulb are separated from each other, the sensing function is difficult to operate, and thus, the light emitting diode unit 10 causes the light to be diffused. Therefore, when the convex portion 71 is formed in the center of the glass case portion 70 and the infrared sensor portion 40 is disposed inside the convex portion 71, the light diffusion of the light emitting diode portion 10 is prevented. You can detect things without disturbing them.

3 is a block diagram of a LED lighting fixture according to another embodiment of the present invention.

As shown in FIG. 3, a light emitting diode light fixture according to another exemplary embodiment of the present invention includes a light emitting diode unit 10, a converter unit 20, a switching device unit 30, an infrared sensor unit 40, and an infrared sensor. It includes a monitoring unit 50, and a control circuit unit 60, and further comprises an illuminance sensor unit 100, and the illuminance sensor monitor 110. Here, the light emitting diode unit 10, the converter unit 20, the switching element unit 30, the infrared sensor unit 40, the infrared sensor monitoring unit 50, and the control circuit unit 60 are different from the above-described embodiments. Similarly, in the present embodiment, duplicate descriptions will not be given, and differences will be mainly described.

The illuminance sensor unit 100 changes its internal resistance when the ambient brightness is lowered below a predetermined illuminance. Here, the illuminance sensor unit 100 may be made of a CDS sensor.

The illuminance sensor monitoring unit 110 detects the change in the internal resistance of the illuminance sensor unit 100 and transmits an electric signal. In this case, the illuminance sensor monitoring unit 110 may be configured using a comparator using an associative amplifier.

In this case, the control circuit unit 60 turns on the switching element unit 30 when an electric signal is transmitted from the illuminance sensor monitoring unit 110 to electrically connect the light emitting diode unit 10 to the converter unit 20. By doing so, the light emitting diode unit 10 is turned on. Therefore, when the ambient brightness is lower than the predetermined value, the light emitting diode unit 10 is turned on by receiving power from the converter unit 20.

In addition, the control circuit unit 60 turns off the switching device unit 30 when the electrical signal is not transmitted from the illuminance sensor monitor 110 to electrically disconnect the light emitting diode unit 10 and the converter unit 20. do. As a result, when the ambient brightness is brighter than a predetermined value, the light emitting diode unit 10 is powered off from the converter unit 20 and turned off.

On the other hand, the illuminance sensor unit 100 and the control circuit unit 60 of the present embodiment may be embedded inside the socket portion 80 of the above-described embodiment of course.

4 is a block diagram of a light emitting diode light fixture, according to another embodiment of the invention.

As shown in FIG. 4, a light emitting diode light fixture according to another exemplary embodiment of the present invention includes a light emitting diode unit 10, a converter unit 20, a switching device unit 30, an infrared sensor unit 40, and an infrared sensor. It includes a monitoring unit 50, the control circuit unit 60, the illumination sensor 100, and the illumination sensor monitoring unit 110, the light side radio transmission and reception unit 120 and the remote control side wireless transmission and reception unit 130 Include. Here, the light emitting diode unit 10, the converter unit 20, the switching element unit 30, the infrared sensor unit 40, the infrared sensor monitoring unit 50, and the control circuit unit 60 are different from the above-described embodiments. Similarly, in the present embodiment, duplicate descriptions will not be given, and differences will be mainly described.

The lamp side wireless transmission and reception unit 120 is electrically connected to the control circuit unit 60. The lamp side radio transmitter and receiver 120 performs RF communication.

The remote control side wireless transmitter and receiver 130 performs wireless communication using the RF communication with the lamp side wireless transmitter and receiver 120. The remote control side wireless transmitter and receiver 130 outputs a brightness level electric signal to the lamp side wireless transmitter and receiver according to the connection state of the brightness control switch, the light switch and the light off switch, and outputs the light state electric signal and the light off state electric signal. Done.

Here, the control circuit unit 60 is electrically connected to the lamp side wireless transmission and reception unit 120. When the user presses a remote control switch (not shown) for the brightness operation, the control circuit unit 60 receives a brightness level electric signal in steps from the lamp side wireless transmitter / receiver 120. In this case, the control circuit unit 60 determines how many stages the brightness stage electric signal is, and turns on the light emitting diode unit 10 at the brightness of the corresponding stage. In this case, the brightness control of the light emitting diode unit 10 may control the brightness by adjusting the amount of current flowing through the switching element unit 30.

In addition, the control circuit unit 60 turns on the light emitting diode unit 10 by turning on the switching element unit 30 by receiving an electric signal of a lighting state when the user presses a light switch to turn on the light emitting diode unit 10. On the contrary, when the light-off state electric signal is input, the light emitting diode unit 10 may be turned off by turning off the switching element unit 30.

In this case, the light-side radio transmitter and receiver 120 may be embedded inside the socket portion 80 of the above-described embodiment of course.

Since the light emitting diode light fixture of the present invention is integrally formed with a light bulb and an internal part, it can be installed and used in a conventional stand, and in this case, it can be used by wireless control with a remote controller.

The invention thus described is merely illustrative. It is therefore to be understood that the invention is not limited to the form set forth in the foregoing description. Therefore, the technical protection scope of the present invention will be defined by the technical spirit of the appended claims. That is, the technical protection scope of the present invention should be construed to include modifications, equivalents, and substitutes of the components described in the above embodiments.

10; Light emitting diode part 20; Converter section
30; Switching element section 40; Infrared sensor part
50; Infrared sensor monitoring unit 60; Control circuit
70; Glass case 80; Socket
90; Heat sink 100; Ambient light sensor
110; Illuminance sensor monitoring unit 120; Light transmitting and receiving unit
130; Remote Transmitter and Receiver

Claims (6)

A light emitting diode unit; A converter unit converting alternating current into direct current; A switching element unit electrically connected between the converter unit and the light emitting diode unit to electrically connect or disconnect an electrical connection path between the light emitting diode unit and the converter unit; An infrared sensor unit which transmits infrared rays to determine a movement of an object and changes an internal resistance value when the movement of the object is determined; An infrared sensor monitoring unit which detects the internal resistance of the infrared sensor unit when the internal resistance increases by a predetermined value and transmits an electric signal; The light emitting diode unit and the converter unit may be electrically connected to the switching element unit, and electrically connected to the infrared sensor monitoring unit. A control circuit unit electrically connected to the light emitting diode unit and the converter unit by turning off the switching element unit when the electric signal is not transmitted from the infrared sensor unit; A glass case unit in which the light emitting diode unit is mounted; And a socket part in which the converter part, the switching element part, the infrared sensor part, the infrared sensor monitoring part, and the control circuit part are mounted and a thread is formed on an outer circumference thereof. Including but not limited to:
The glass case portion has a convex portion which is convex toward the center; Is equipped with more,
The infrared sensor unit is disposed in the center inside the convex unit,
An illuminance sensor unit for changing an internal resistance value when the brightness of the surroundings is lowered below a predetermined illuminance; And an illuminance sensor monitoring unit which detects the internal resistance of the illuminance sensor unit and transmits an electric signal when it changes. Is equipped with more,
The control circuit unit turns on the switching element unit when the electric light signal is sent from the illuminance sensor monitoring unit to electrically connect the light emitting diode unit and the converter unit to light up the light emitting diode unit.
An electric lamp side wireless transmission and reception unit electrically connected to the control circuit unit; And performing wireless communication with the lamp side wireless transmitter / receiver, outputting a brightness level electric signal to the lamp side wireless transmitter / receiver step by step according to the connection state of the brightness control switch, the light switch and the light switch. A wireless transmission / reception unit for remote control which outputs an unlit state electric signal; Is equipped with more,
The control circuit unit is electrically connected to the lamp side wireless transmitter and receiver, and receives a brightness level electric signal, a light state electric signal, and a light state electric signal from the light side radio transmitter step by step to adjust the power output to the light emitting diode unit. Light emitting diode light fixture, characterized in that.
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