KR20150143993A - LED light - Google Patents

Abstract

An LED lighting device is disclosed. Provided is an LED lighting device operated by AC power, which includes an LED driving circuit part (20) which rectifies a current supplied through a power input part (21) and supplies the current; an LED arrangement part (24) which operates an LED by performing voltage drop on LEDs (L) connected in series corresponding to inputted power rectified by the LED driving circuit part (20).

Description

[0001] The present invention relates to an LED lighting device driven by an AC power source,

The present invention eliminates a separate structure for reducing the voltage of an AC power source of a plurality of commonly used voltages, and simplifies the rectifying circuit and the LED lighting that is driven by AC by adjusting the number of LEDs The present invention relates to an LED lighting device and an arraying method of a driving circuit that are driven by an AC power source so as to reduce the size of a product and reduce manufacturing costs.

The illumination devices applied to the interior space lighting of the building using the LED are mainly applied to a room or an office main stand, a desk stand, etc., and the street lighting and the underground parking can be exemplified in a further developed form.

In such an illumination device, a plurality of LED modules each having a plurality of LEDs mounted therein are arranged in a specific arrangement, and the LED module is installed on a ceiling, a wall surface, or the like of the space. Particularly, the LED module is accompanied by the A / D converter by the characteristic that the LED is driven by the DC current of an appropriate voltage.

 The A / D converter as described above includes a transformer for downsizing an alternating current. Since such a transformer is arranged in a considerable size in the LED module, there arises a problem that the product to which the transformer is applied is increased in size.

In order to solve the above problems, a power supply device called SMPS (Switching Mode Power Supply) is recently applied. For reference, the SMPS uses an alternating frequency (50 Hz ~ 60 Hz) converted to a high frequency (several tens of kHz to several hundred kHz) by converting it into a direct current, and a technique of high precision is required.

Particularly, in the conventional LED lighting apparatus, due to the characteristics of the LED, considerable heat is generated when the LED is driven. This heat adversely affects the circuit, and therefore, the heat radiation structure is accompanied.

Such a heat dissipation structure is generally realized by coupling a printed circuit board of the LED part and a printed circuit board of a driver circuit part to a heat sink of a metal material for performing heat exchange with the outside atmosphere.

In spite of the above advantages, the SMPS applied for power supply of the LED lighting apparatus has a very low frequency of application to the LED module requiring simple lighting because the price is very high. At this time, since the SMPS itself is considerably larger than the size of the LED module, the miniaturization of the LED module is limited, which makes it difficult to miniaturize the product itself.

 In addition, when manufacturing a single product in which a large amount of LEDs are required, the LED lighting device forms a group by connecting a certain number of LEDs in the product, and electrically connects the LED groups to each other in series, . When a failure occurs in any one of the LED groups, the LED group in which the failure occurs can be replaced to perform the LED driving. However, if a failure occurs in the driving circuit itself driving the LED groups, Since the LED group itself is not driven, instability occurs in use.

Also, since the SMD type LEDs, which are mainly applied to the LED lighting apparatus, are connected in parallel with the light emitting chips therein, it is very inconvenient to set the voltage drop value generated in each device even if the LED itself is connected in series. A large number of LEDs are required irrespective of the number of built-in light emitting chips, resulting in a problem that the size of the product is increased.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and has the following objectives.

A first object of the present invention is to provide an LED lighting device which can be driven by an AC by adjusting the number of LEDs and a simplified rectifying circuit for realizing LED lighting, It has its purpose.

A second object of the present invention is to provide an LED driver circuit in which a constant power source is always input regardless of an input voltage of a power source so that the LED driver circuit is driven more stably So that the LED lighting device can be easily operated.

A third object of the present invention is to provide a light emitting diode (LED) in the form of an SMD (Surface Mount Devices) in which a plurality of light emitting chips are connected in series and to apply the same to an LED driving circuit, And to provide an LED lighting device having excellent power factor and light efficiency required in lighting implementation.

 A fourth object of the present invention is to provide a driving circuit arrangement process of an LED lighting apparatus such that a plurality of LED driving circuits and arrangements of elements constituting these LED driving circuits are optimized when the LED lighting apparatus is implemented.

To achieve the above objects, the present invention has the following configuration. According to an aspect of the present invention, there is provided an LED driving apparatus comprising: an LED driving module for rectifying and supplying power inputted through a power input unit; An LED array unit for driving the LEDs by performing a voltage drop in the LEDs connected in series by the number corresponding to the power source rectified by the LED driving module; .

In this case, the power input unit includes a fuse for interrupting power input when an excessive AC power exceeding the rating is input from the outside.

In order to accomplish the second object, the present invention is characterized in that the LED driving module and the LED array part are connected to each other in a one-to-one correspondence to form a single block unit circuit, and a plurality of block unit circuits are connected in parallel And is composed of a single lighting product.

Here, the LED driving module includes a rectifying part composed of a bridge diode for rectifying a commercial power input from the outside, and the LED arranging part includes a rectifying part configured to perform a voltage drop corresponding to the number of serially connected LEDs A voltage drop device is configured in series with the LED.

In order to achieve the third object, the present invention is applied to an SMD type in which the LEDs have a plurality of light emitting chips therein, and the light emitting chips are connected to each other in series. At this time, the light emitting chip of the single LED or the SMD type LED among the LEDs is connected in series with 30 ~ 84 number of the commercial power source of 100V ~ 240V.

In order to achieve the fourth object, according to the present invention, the driving module includes a plurality of LEDs arranged on one surface of a printed circuit board, each element for driving LEDs on the back surface thereof is mounted in an SMT form, And a thermally conductive material layer is formed on the back surface.

Here, the thermally conductive material layer is formed by applying a composition having a heat conduction function by adding at least one of carbon, CNT, and graphite to synthetic resin. In particular, the thermally conductive material layer is configured to maintain a thermal conductivity of 0.001 W / m.k to 30 W / m.k.

As described above, according to the present invention, since the configuration for implementing the LED illumination does not require a configuration such as a transformer coil or a dedicated SMPS, the product can be further downsized, and the manufacturing cost can be reduced by a simpler circuit structure It is possible to improve the product satisfaction of the consumer and at the same time to increase the productivity by the rapid production of the product.

Further, since the LED driver circuit is divided into a plurality of blocks with respect to a single power source, the circuit is simplified and the weight of the product is reduced. The LED driver circuit and the arrangement of the elements constituting the LED driver circuit The LED driver circuit is driven more stably by always inputting a constant voltage regardless of the input voltage of the commercial power source, thereby improving the satisfaction of use of the product.

 Further, the present invention can further simplify the configuration of the product by the serial connection of the light emitting chips incorporated in the SMD type LEDs, and optimize the number of the LEDs and the light emitting chips so that the power factor and the light efficiency It is possible to produce an excellent product.

In addition, the present invention can expect excellent heat radiation efficiency due to the elements mounted by SMT on a printed circuit board and the constitution of these elements molded by a thermally conductive material. In particular, by molding of a material containing carbon as a main component The leakage current to the printed circuit board is minimized, thereby realizing a more stable LED driver circuit.

1 is a circuit diagram of an LED driving module of an LED lighting device according to the present invention.
2 is a configuration diagram of an LED lighting apparatus according to the present invention;
3 is a configuration diagram of an LED illumination device according to another embodiment of the present invention.
4 is a configuration diagram of a streetlight of the LED lighting device according to the present invention.
5 is a configuration diagram of the security lamp of the LED lighting apparatus according to the present invention.
6 is a view for explaining a communication method of the LED lighting apparatus according to the present invention;

Embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a circuit diagram of an LED driving module of an LED lighting device according to the present invention, FIG. 2 is a configuration diagram of an LED lighting device according to the present invention, FIG. 3 is a configuration diagram of an LED lighting device according to another embodiment of the present invention 5 is a configuration diagram of the security lamp of the LED lighting apparatus according to the present invention, and FIG. 6 is a diagram illustrating a communication method of the LED lighting apparatus according to the present invention. Fig.

Referring to the drawings, an LED lighting apparatus 100 according to the present invention has a basic structure including an LED driving module 20 and an LED array unit 24.

The LED driving module 20 includes a power input unit 21 and a rectifying unit 23 including a bridge diode 22 for rectifying a commercial power input through the power input unit 21. Here, it is revealed that the commercial power source is an AC power source of 100V to 240V used in general households and industrial sites.

Here, the power input unit 21 includes a fuse 26 for shutting off external power in a specific situation. Here, the specific situation refers to a situation where excessive AC power exceeding the rated value is input from outside due to unexpected factors such as short circuit.

The LED array unit 24 includes a plurality of LEDs and a voltage drop device such as a resistor connected in series corresponding to the power source of 220V. The LED array unit 24 is configured to receive a rectified power from the rectifying unit 23 and drive the LED to a desired voltage.

 For example, when the external AC voltage is 220V and the driving voltage of the LED is 3.2V, 60 LEDs are connected in series so that a voltage of 192V is divided and applied to the LEDs, If it is caught by the device, a stable circuit can be obtained.

In order to further increase the number of the LED array units 24, a plurality of LEDs and voltage drop devices may be connected in series by connecting the LED array units 24 and 24 in series. A plurality of unit block circuits may be connected in parallel by constituting one unit block circuit.

In addition, the LED driving module 20 includes a controller for controlling the brightness of the LED when the LED is driven. At this time, the controller is configured to control the amount of current input through PWM (Pulse Width Modulation) control to adjust the driving brightness of the LED.

As shown in FIG. 2, a plurality of LED driving modules 20 may be connected in parallel. A dimmer 30 may be coupled to the LED driving module 20. The control unit (MCU) 40 controls the dimming control to increase the illuminance when a person or object is captured, and to control the consumption of the current by lowering the illuminance after a certain period of time.

The ultrasonic sensor 50 senses a person or an object. The control unit 40 is capable of wireless communication with the outside using the communication module 6.

As shown in FIG. 3, the LED lighting device 200 having the dimmer 130, the controller 140, and the ultrasonic sensor 150 coupled to one LED driving module 120 can be configured.

As shown in the following figure, the life span of the capacitor in the SMPS used for a general LED light is less than 8,000 hours and the life of the LED is more than 50,000 hours. In addition, since the structure does not use SMPS, the height of the mechanism can be made 10 to 20 mm or less.

DP LED lights including DIMMING are 20% cheaper than LED lights that do not include general dimming.

In addition, the microwave motion sensor, which is excellent in performance, is used in place of the infrared sensor used in the conventional interior lamp, thereby overcoming the malfunction of the sensor.

As shown in FIG. 4, the present invention can be applied not only to a street light, but also to an LED system security light as shown in FIG.

In addition, the LED lighting apparatus of this embodiment is connected to a smart phone through a communication network by a communication module as shown in FIG. 6, and can be controlled as a terminal such as a smart phone.

LED driving module 20 power input part 21,
Bridge diode (22) rectification part (23)
L dimmer 30 control unit (MCU) 40,
Ultrasonic sensors (50)

Claims (4)

An LED driving circuit unit for rectifying and supplying the power inputted through the power input unit;
And an LED array unit for driving the LEDs by performing a voltage drop in the LEDs (L) connected in series by the number corresponding to the power source rectified by the LED driving circuit unit LED lighting device.
The method according to claim 1,
And the dimmer is further coupled to reduce the power consumed by the LED, wherein the LED lighting device is driven by an AC power source.
The method according to claim 1,
And an ultrasonic sensor is further coupled to the LED lighting device.
The method according to claim 1,
Wherein the LED lighting device is connected to a smart phone by a communication module and is connected to a communication network.

Images