KR20160034750A - LED lightening apparatus with hybrid expansion structure - Google Patents

Abstract

The present invention relates to an LED illumination device having a hybrid expansion structure which comprises: at least one detachable LED lamp, which is attached to or detached from a variable LED lamp-embedded device, and an illumination control unit. Each detachable LED lamp comprises: a rotative pole stage which is divided into a pole body and a rotative body formed in an upper end of the pole body and which comprises a ground plate forming an uppermost surface of the rotative body, and a power supply and control terminal protruding from one side of the uppermost surface. The power supply and control terminal is inserted into a line hole formed in the variable LED lamp-embedded device. When the ground plate touches a lower surface of the variable LED lamp-embedded device, the power supply and control terminal is driven by recognition of the illumination control unit.

Description

[0001] The present invention relates to an LED lighting apparatus having a hybrid extension structure,

The present invention relates to an LED lighting apparatus having a hybrid extension structure, and more particularly, to an LED lighting apparatus having a hybrid extension structure, in which the LED lamp is automatically turned on through contact with an arbitrary point of a variable- And more particularly, to an LED lighting device having a hybrid extension structure for simple design.

2. Description of the Related Art Generally, a light emitting diode (LED) is a device in which electrons and holes meet at a PN junction by applying a current and emits light. Generally, a package structure is used in which an LED chip is mounted. It is called 'LED package'. The LED package is generally mounted on a printed circuit board (hereinafter, referred to as 'PCB'), and is configured to receive a current from an electrode formed on the printed circuit board and operate to emit light.

LED lamps using such LED devices generally require different ILLUMINATION values depending on locations, and even when the locations are the same, the required number of LED devices or LED lamps vary depending on time and applications . Accordingly, it has been attempted to control the partial LED element by lighting it. However, in this case, the operation is inconvenient, and when the number of each LED element or the LED lamp is increased, the operation is difficult.

[Related Technical Literature]

1. Adhered and separated LED lamp device which is easy to replace LED lamp on backplane board (Patent Application No. 10-2009-0046329)

2. LED display with control circuit (Patent Application No. 10-2010-7012169)

3. LED illumination system using polarized recirculation (Patent Application No. 10-2009-7001943) (LED ILLUMINATION SYSTEM WITH POLARIZATION RECYCLING)

4. LED package for efficient heat dissipation of LED lighting and lamp and its LED heat dissipation device and LED socket using same (LED package for Effective LED and Radiant Heat Device, LED Socket Having The same (Patent Application No. 10-2009-0031995)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a hybrid extension structure for easily designing an array of detachable LED lamps, The LED lighting device according to claim 1,

In addition, the present invention is not only capable of freely expanding the detachable LED lamp according to the required capacity, but also capable of relieving the glare due to the structural design of the detachable LED lamp, Device.

In addition, the present invention provides an LED lighting device having a hybrid expansion structure for maximizing a heat radiation function regardless of the height of the LED lighting device through heat dissipation design of each detachable LED lamp.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a LED lighting apparatus having a hybrid extension structure according to a first embodiment of the present invention includes a detachable LED lamp capable of attaching or detaching at least one LED lamp to a variable embedding mechanism, Wherein each of the detachable LED lamps includes a ground plate divided into a ground main body and a rotator formed at an upper end of the ground main body, the ground plate forming the upper end surface of the rotator, A power supply and a control terminal protruding from one side of the main body; Wherein when the power supply and control terminal is inserted in a line hole formed in the LED lamp variable embedding mechanism and the ground plate is in contact with a lower surface of the LED lamp variable embedding mechanism, .

In this case, the power supply and control terminal serves as a control terminal for transmitting and receiving a control signal and a (+) terminal inserted into the LED lamp variable embedding mechanism for receiving external power, And serves as a (-) terminal corresponding to the ground in contact with the lamp-variable embedding mechanism.

Each of the detachable LED lamps includes a sensor-integrated PCB substrate; And an LED package element array formed of a plurality of LED package elements (L) formed under the sensor-integrated PCB substrate; Wherein each of the LED package elements L includes a red LED element R, a green LED element G and a blue LED element B, And performs sensing and correction for white balance and illumination.

In addition, the ground plate and the power supply and control terminal perform power supply and control signal transmission / reception to the LED module through the first internal line w1, and the LED module and the cooling fan type Ionizer 2 power supply and control signal transmission / reception through the internal line w2.

The first internal line includes a first 1-1 internal line (w1-1) including a power supply line and a control signal line and in electrical contact with the power supply and control terminals, and a ground line, and electrically contacts the ground plate And the second internal line w1-2.

Each of the detachable LED lamps includes a lower case for sequentially coupling an air hole housing and a ventilation case to an upper portion thereof and irradiating a light source from the LED package element array of the LED module to a lower portion thereof; And further comprising:

In addition, the cooling fan type ionizer is formed in the ventilation case, and heat is radiated to the air holes h formed in the side surface of the air hole housing attached to the lower end of the ventilation case.

In addition, each of the detachable LED lamps may include a diffusion prevention film for preventing glare caused by the LED package element (L) when the LED module irradiates the light source through the lower end of the lower case A transparent window formed; Further comprising:

The LED lamp variable embedding mechanism is divided into a first buried portion formed on the outer side and a second buried portion formed on the inner peripheral surface of the first buried portion, the first buried portion being formed as a square frame as a whole, And a ground plane provided on the ground plate in contact with the ground plate, wherein the second land portion includes a line hole formed as many as the number of detachable LED lamps desired to be attached, and a power supply and control line (P1) extending from the lighting control unit is branched and inserted into an upper portion of the line hole (b1) so that the power supply and control terminal (a9) (b1), power supply and control signals can be transmitted and received.

In order to achieve the above object, a LED lighting apparatus having a hybrid extension structure according to a second embodiment of the present invention includes a first buried portion constituting the LED lamp variable embedding mechanism and a first detachable type Each of the detachable LED lamps includes an LED module and an LED module. The LED module includes an LED module and an LED module. The LED module includes an LED module and an illumination control part that performs power supply and control for an LED lamp to a n-type detachable LED lamp And a cooling fan type ionizer. The lighting control unit performs recognition by transmitting a wake-up signal to each of the LED modules of the detachable LED lamps and then supplies power to each of the LED modules, LED control means for controlling the drive interface to transmit individual control commands to the respective sensor-integrated PCB substrates of the plurality of sensor integrated PCBs; And a control unit.

In this case, each of the LED modules included in the first detachable LED lamp to the nth detachable LED lamp is supplied with power from the power supply unit by the PWM control method by the LED control unit.

In addition, the LED control unit may transmit a control command for each of the LED modules so that the power supply unit is controlled by each of the sensor-integrated PCBs formed in each of the LED modules, and the sensor integrated PCB substrate (DB) to a storage unit on the basis of power consumption preset for a plurality of LED package elements formed on the upper portion of the LED package device.

The LED lighting apparatus having the hybrid extension structure according to the embodiment of the present invention is designed to automatically turn on the LED lamps through contact with arbitrary points of the LED lamps to be attached and to easily arrange the LED lamps Provides a possible effect.

In addition, the LED lighting apparatus having the hybrid extension structure according to another embodiment of the present invention can further freely expand the detachable LED lamp according to the required capacity, and furthermore, due to the structural design of the detachable LED lamp, It is possible to mitigate the problem.

In addition, the LED lighting device having the hybrid extension structure according to another embodiment of the present invention can maximize the heat radiation function regardless of the height of the LED lighting device through the heat dissipation design of each detachable LED lamp do.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state in which an LED lighting apparatus having a hybrid extension structure according to an embodiment of the present invention is embedded in an attaching panel. FIG.
Fig. 2 is a view showing a state in which components constituting an LED lighting apparatus having the hybrid extension structure shown in Fig. 1 are separated. Fig.
Fig. 3 is a view for explaining a configuration of a detachable LED lamp A among LED lighting apparatuses having a hybrid extension structure in Fig. 1; Fig.
4 is a view for explaining a configuration of the LED lamp-variable embedding mechanism 20 in Fig.
5 is a diagram for explaining a configuration of a lighting control section 30 constituting an LED lighting apparatus having a hybrid extending structure in Fig.
FIG. 6 is a view of actually rendering a state in which an LED lighting apparatus having the hybrid expansion structure of FIG. 1 is embedded in an attaching panel; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

1 is a view showing a state in which an LED lighting apparatus having a hybrid extension structure according to an embodiment of the present invention is embedded in an attaching panel. FIG. 2 is a view showing a state in which components constituting the LED lighting apparatus having the hybrid extension structure in FIG. 1 are separated. FIG. 3 is a view for explaining a configuration of a detachable LED lamp A among LED lighting apparatuses having the hybrid extension structure shown in Fig. Fig. 4 is a view for explaining the configuration of the LED lamp-variable embedding mechanism 20 in Fig. Fig. 5 is a diagram for explaining the configuration of the illumination control unit 30 constituting the LED illumination device having the hybrid extension structure in Fig. FIG. 6 is a view showing a state where the LED lighting device having the hybrid extension structure of FIG. 1 is embedded in an attaching panel. FIG. Meanwhile, in the present invention, the attaching panel may be a ceiling panel, but in some cases it can be transformed into a pendant lighting form.

1 to 6, an LED lighting device having a hybrid extension structure includes an attachment panel 10, an LED lamp variable embedding mechanism 20, a detachable LED lamp A, and a lighting control unit 30 . 5, the first detachable LED lamp A-1 to the n-th detachable LED lamp An, n (n) may be attached to the detachable LED lamp A in the present invention, Is a natural number of 2 or more).

3, the detachable LED lamp A includes a transparent window a1, a lower case a2, an LED module a3, an air hole housing a4, a ventilation case a5, And includes a first inner line w1 and a second inner line w2. The first inner line w1 and the second inner line w2 are connected in series to each other.

When the LED module a3 irradiates the light source to the outside through the lower end of the lower case a2, the transparent window a1 is provided with a diffusion prevention film for preventing glare due to the straightness characteristic of the LED package element L And it is preferably formed to be attached to the inside.

The lower case a2 is sequentially joined with the air hole housing a4 and the air ventilation case a5 to form an appearance of the detachable LED lamp A as a whole.

On the other hand, the cooling fan type ionizer a6 is formed inside the ventilation case a5, and the air holes h formed in the side surfaces of the air hole housing a4 attached to the lower end of the ventilation case a5, . Here, although the number of air holes h is shown by 12 by 4 rows by 3 columns, the number of air holes h is not limited thereto, and it can be variably formed according to the area.

The rotating pillar a7 includes a ground plate a8 which is divided into a ground body and a rotating body formed at the upper end thereof and forms the upper end surface of the rotating body, and a power supply and control terminal a9).

The power supply and control terminal a9 is inserted into the LED lamp variable embedding mechanism 20 and functions as a control terminal for transmitting / receiving a control signal and a (+) terminal for receiving external power.

The ground plate a8 functions as a (-) terminal corresponding to the ground when the LED lamp is inserted into the variable embedding mechanism 20.

The ground plate a8 and the power supply and control terminal a9 perform power supply and control signal transmission to the LED module a3 via the first internal line w1.

The first internal line w1 connected to the LED module a3 is connected to the first internal line w1-1 including the power supply line and the control signal line and the first internal line w1-2 The first 1-1 internal line w1-1 is in electrical contact with the power supply and control terminal a9 and the 1-2 first internal line w1-2 is electrically connected to the ground plate a8 .

On the other hand, the cooling fan type ionizer (a6) includes a cooling fan and an ionizer, and the ionizer in the present invention provides an effect of neutralizing the release of formaldehyde and carbon dioxide. The heat dissipation effect is maximized by the air hole h and the cooling fan type ionizer a6, and the air purifying function can be performed.

And a second internal line w2 connected to the LED module a3 is formed to transmit and receive power supply and control signals to the cooling fan type ionizer a6.

The LED module a3 comprises a sensor-integrated PCB substrate and an LED package element array, and the LED package element array is formed of a plurality of LED package elements L. In the drawing, the LED package element array is shown as nine LED package elements L by three rows by three columns, but the number is not limited thereto and can be variably formed according to the area. 3B, one LED package element L includes the red LED element R, the green LED element G, and the blue LED element B, so that the LED package element L may include white LEDs And includes a function of performing sensing and correction for balance (Balance) and illumination.

Referring to FIG. 4, the LED lamp variable landing mechanism 20 can be divided into a first landfill portion 21 and a second landfill portion 22 based on the external and internal LED lamps. More specifically, the LED lamp-variable embedding mechanism 20 includes a first buried portion 21 formed on the outer side and a second buried portion 22 formed on the inner peripheral surface of the first buried portion 21, Respectively.

The first buried portion 21 is a rectangular frame formed by embedding a ground line P2 extending from the lighting control portion 30 on the lower surface so as to be in contact with the ground plate a8 of the detachable LED lamp A Provide a ground plane.

The second buried portion 22 is provided with a line hole b1 formed as many as the number of detachable LED lamps A desired to be attached thereto so that the power supply for extending the lighting control portion 30 from above the line hole b1, The control line P1 is branched and inserted so that power supply of the detachable LED lamp A and power supply and control signal transmission and reception are possible when the control terminal a9 is inserted into the lower portion of the line hole b1 .

5, when there are a plurality of detachable LED lamps A attached to the first buried portion 21 and the second buried portion 22 constituting the LED lamp variable embedding mechanism 20 The first detachable LED lamp (A-1) to the nth detachable LED lamp (An) can be distinguished. In this case, when the first detachable LED lamp A-1 is provided with the first LED module a3-1 and the first cooling fan type ionizer a6-1, the n-detachable LED lamp An The n-th LED module a3-n and the n-th cooling fan type ionizer a6-n. The illumination control unit 30 for sensing and controlling the attachment of the first detachable LED lamp A-1 to the n-detachable LED lamp An includes a driving interface 31, a power supply unit 32, (33) and a storage unit (34). The analysis control module 33 has LED control means 33a, power consumption measurement means 33b and ventilation control means 33c.

The driving interface 31 includes a sensor integrated PCB provided in each of the first LED module a3-1 to the nth LED module a3-n, and a first cooling fan type ionizer a6-1, n, a cooling fan type ionizer a6-n, supplies power, and transmits and receives signals and data, and transmits the received signals and data to the analysis control module 33. [

Hereinafter, the illumination control unit 30 will be described in detail based on the configuration of the analysis control module 33. [

The LED control means 33a performs recognition by transmitting a wakeup signal to the first LED module a3-1 to the nth LED module a3-n, (A3-1) to the n-th LED module (a3-n) so as to supply or cut off power to the n-th LED module (a3-n) (31).

Accordingly, the sensors included in the first LED module a3-1 to the nth LED module a3-n included in the first detachable LED lamp A-1 to the nth detachable LED lamp An, Each of the integrated PCBs is supplied with power from a power supply unit 32 using a PWM method.

That is, the LED control unit 33a transmits a control command for each of the first LED module a3-1 to the nth LED module a3-n, and controls the first LED module a3-1 through the nth LED module a3- a plurality of LED package elements L formed on each sensor-integrated PCB substrate by the sensor-integrated PCB substrate are respectively connected to the first LEDs (light emitting diode) (DB) to the storage unit 34 based on the power consumption preset for each of the modules (a3-1) to the n-th LED module (a3-n).

On the other hand, the LED control means 33a may include a first LED module a3-1 to an n-th LED module a3-n, Individual brightness control up to the last row formed in the n LED modules (a3-n) allows for gradual brightness reduction and control.

The power consumption measuring means 33b is provided to measure the power ON / OFF of the plurality of package LED elements L provided in the first LED module a3-1 to the nth LED module a3- The power consumption of the LED package element L for each of the first LED module a3-1 to the nth LED module a3-n is computed in real time based on the control command of the LED control means 33a for turning on / And stores the calculated power consumption in the storage unit 34 for each of the first LED module a3-1 through the nth LED module a3-n.

The ventilation control means 33c monitors the power consumption of each of the first LED module a3-1 to the nth LED module a3-n stored in the storage unit 34 in real time.

The ventilation control means 33c supplies the RPM information differentially set according to the range of power consumption for the first LED module a3-1 to the nth LED module a3-n to the first LED module a3-1, To the n-th LED module (a3-n). Then, the ventilation control means 33c includes first to n-th RPM information extracted for each of the first to n-th LED modules a3-1 to a3-n, Command. Then, the ventilation control means 33c controls the first to n-th RPM control commands 33a to 33n so that the respective cooling fans of the first to sixth cooling fan type ionizers a6-1 to a6- To the first cooling fan type ionizer (a6-1) to the nth cooling fan type ionizer (a6-n) through the driving interface 31, respectively.

Accordingly, the first cooling fan type Ionizers a6-1 to n6-th cooling fan type ionizers a6-n are respectively connected to the cooling fan 32a-n according to the first to nth RPM control commands received from the ventilation control means 33c, Lt; / RTI >

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Attachment panel
20: LED lamp variable landfill
21: First landfill
22: second embedding part
30:
31: Drive interface
32: Power supply
33: Analysis control module
34:
A:

Claims (12)

A LED lighting apparatus having an expanding structure including a detachable LED lamp capable of attaching or detaching at least one LED lamp to and from a variable embedding mechanism, and an illumination control unit,
Each of the detachable LED lamps
A grounding plate which is divided into a main body and a rotating body formed on the upper end of the ground body and forms a top end surface of the rotating body, a rotating strut having a power supply and control terminal protruded on one side of the top end; / RTI >
And the power supply and control terminal is driven in accordance with the recognition of the illumination control unit when the ground plate is inserted into the line hole formed in the LED lamp variable embedding mechanism and the ground plate is in contact with the lower surface of the LED lamp variable embedding mechanism. LED lighting device having a hybrid extension structure.
The power supply and control terminal according to claim 1,
The LED lamp is inserted into the variable embedding mechanism to serve as a control terminal for transmitting / receiving a control signal to a (+) terminal for receiving external power,
And the ground plate functions as a (-) terminal corresponding to the ground when the LED lamp is in contact with the variable embedding mechanism.
The LED lamp according to claim 2, wherein each of the detachable LED lamps comprises:
Sensor integrated PCB board; And
And an LED package element array formed of a plurality of LED package elements (L) formed under the sensor-integrated PCB substrate; / RTI >
Each of the LED package elements L includes a red LED element R, a green LED element G and a blue LED element B, And performs sensing and correction for illuminations by itself.
The method of claim 3,
Wherein the ground plate and the power supply and control terminals are connected,
Performs power supply and control signal transmission / reception to the LED module through a first internal line (w1)
The LED module and the cooling fan type Ionic
And the power supply and the control signal are transmitted / received through the second internal line (w2).
5. The semiconductor device according to claim 4,
A first 1-1 internal line (w1-1) including a power supply line and a control signal line and in electrical contact with the power supply and control terminals,
(W1-2) that provides a ground line and is in electrical contact with the ground plate. ≪ Desc / Clms Page number 13 >
The LED lamp according to claim 5, wherein each of the detachable LED lamps comprises:
A lower case for sequentially connecting the air hole housing and the ventilation case to the upper portion and irradiating the light source from the LED package element array of the LED module to the lower portion; Further comprising: a light emitting diode (LED) lighting device having a hybrid extension structure.
The method of claim 6,
The cooling fan type ionizer is formed inside the ventilation case,
And a heat dissipation is performed by an air hole (h) formed in a side surface of the air hole housing attached to a lower end of the ventilation case.
The LED lamp according to claim 7, wherein each of the detachable LED lamps comprises:
A transparent window formed with a diffusion prevention film to prevent glare caused by the LED package element L when the LED module illuminates the light source through the lower end of the lower case; The LED lighting device according to claim 1, further comprising:
The LED lamp according to claim 8,
A first buried portion formed on an outer side and a second buried portion formed on an inner circumferential surface of the first buried portion,
The first buried portion is formed by embedding a ground line (P2) extending from the illumination control portion on a lower surface, and provides a ground plane when in contact with the ground plate,
The second buried portion is provided with a line hole b1 formed by the number of detachable LED lamps desired to be attached and the power supply and control line P1 extended from the lighting control portion to the upper portion of the line hole b1 So that power supply and control signals can be transmitted and received when the power supply and control terminal a9 is inserted into the lower portion of the line hole b1. .
A first embedding section constituting the LED lamp variable embedding mechanism, and a lighting device for supplying and controlling power to the first detachable LED lamp to the n-th detachable LED lamp (n is a natural number of 2 or more) attached to the second embedding section In an LED lighting apparatus having an expansion structure including a control section,
Each of the detachable LED lamps includes an LED module and a cooling fan type ionizer,
The lighting control unit performs recognition by transmitting a wake-up signal to each of the LED modules of the detachable LED lamps, and then supplies or interrupts power to each of the LED modules, LED controlling means for controlling the driving interface to transmit individual control commands; And an LED lighting device having a hybrid extension structure.
The method of claim 10,
Wherein each LED module included in the first detachable LED lamp to the nth detachable LED lamp is supplied with power from a power supply unit by a PWM method by the LED control unit. Device.
11. The LED driving apparatus according to claim 10,
Integrated PCB boards formed on each of the LED modules to control the power supply unit by transmitting a control command for each of the LED modules, and a plurality of LEDs (DB) to the storage unit based on power consumption preset for each LED module with respect to the package device.

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