KR101306021B1 - Driving device for led lighting operatable using low voltage battery in case of emergency - Google Patents

Abstract

PURPOSE: An LED lamp driving apparatus for being operable with a low-voltage battery at low costs in case of emergency is provided to use a battery with the output of a low voltage, thereby configuring easily the battery in a small space. CONSTITUTION: A switching unit (150) switches and supplies a direct current (DC) power source of a battery (135). A short prevention unit (160) prevents a short circuit among light emitting diode (LED) chains (15). The short prevention unit comprises a plurality of diode devices (161). One end of the plurality of diode devices is commonly connected to the switching unit. The other end of the plurality of diode devices is respectively connected to each LED chain. [Reference numerals] (110) AC/DC converter; (120) Dimming unit; (130) Battery charging unit; (135) Battery; (140) Emergency control unit; (150) Switching unit; (AA) AC input

Description

LED lighting drive device that can be operated with low voltage battery in an emergency {DRIVING DEVICE FOR LED LIGHTING OPERATABLE USING LOW VOLTAGE BATTERY IN CASE OF EMERGENCY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving apparatus for driving LED lighting, and more particularly, to an LED lighting driving apparatus that can operate with a low voltage battery in an emergency such as a power failure.

1 is a view showing an example of a conventional LED lamp 10 and the LED lighting driving device (30, 40).

When a commercial AC power source is used to supply power to the LED lamp 10, an AC / DC converter 30 is used to convert an AC voltage from the commercial AC power source into a DC voltage. To adjust the brightness of the dimming unit 40 may be used. And wall switch 50 is usually used on the wall so that the user can turn on / off the LED lamp 10.

However, the AC / DC converter 30 outputs a DC voltage much higher than this, instead of directly outputting a low voltage capable of directly driving the individual LED devices 11 from a commercial AC power source, and configuring the LED lamps. 11 may be connected to each group in series to be driven.

For example, when the output voltage of the AC / DC converter 30 is 24V, as shown in FIG. 1, the eight LED elements 11 are connected in series so that a voltage of 3V is applied to each LED element 11. The LED element 11 can be driven. In such a configuration, since the AC / DC converter 30 does not need to directly output a low voltage of 3V, the voltage conversion ratio may be small.

On the other hand, in order to drive the LED lamp 10 in an emergency, such as a power outage, it may be considered to have a separate battery and drive by using the power of the battery. However, in order to drive the LED lamp 10 as shown in Figure 1 requires a battery that outputs a voltage of 24V, the LED lamp 11 is used in the LED lamp (10) that constitutes an array in series There is a problem that is difficult to do.

The recognition of the problems and problems of the prior art is not obvious to a person having ordinary skill in the art, so that the inventive step of the present invention should not be judged based on the recognition based on such recognition I will reveal.

An object of the present invention is to provide an LED lighting driving apparatus which can be driven using a battery in an emergency even in the LED lighting lamp 10 in which the LED elements 11 form an array in series.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

LED lighting driving device according to an aspect of the present invention, the light is supplied by the AC / DC conversion power from the usual commercial AC power, and emits, the LED chain 15 connected at least two or more LED elements (12, 13) in series As an LED lighting driving device for driving a plurality of LED lighting 10 provided,

A battery 135 including rechargeable batteries or batteries; It is characterized in that it comprises a switching unit 150 for switching the DC power from the battery 135 to the LED lamp 10 in accordance with a control signal.

LED lighting driving device according to an aspect of the present invention, the light is supplied by the AC / DC conversion power from the usual commercial AC power, and emits, the LED chain 15 connected at least two or more LED elements (12, 13) in series As an LED lighting driving device for driving a plurality of LED lighting 10 provided,

A switching unit 150 for switching and supplying DC power from the battery 135 according to a control signal; In each LED chain 15 constituting the plurality of LED chain 15, the DC power from the switching unit 150 is transferred through a tap between two or more LED elements 12 and 13 connected in series. And a short prevention unit 160 for preventing short circuits between the LED chains 15, and when the control signal is turned on, among the LED elements 12 and 13 constituting the LED chains 15. Only a portion of the LED element 13 is characterized in that to drive the power of the battery 135.

LED lighting driving device according to an aspect of the present invention, the light is supplied by the AC / DC conversion power from the usual commercial AC power, and emits, the LED chain 15 connected at least two or more LED elements (12, 13) in series As an LED lighting driving device for driving a plurality of LED lighting 10 provided,

In each LED chain 15 constituting the plurality of LED chains 15 in accordance with a control signal, DC power from the battery 135 is transferred through a tap between the two or more LED elements 12 and 13 connected in series. Switching and supplying, each LED chain 15, the switching unit 150 is provided separately; is configured to include, when the control signal is turned on LED elements 12, 13 constituting the LED chain 15 Only some of the LED device 13 is characterized in that driven by the power of the battery 135.

According to an aspect of the present invention, there is an effect that it is possible to drive using a low-voltage battery even in the LED lamp 10 of the LED elements constituting an array in series. For example, when eight LED elements 11 are connected in series so as to be driven by receiving a DC voltage of 24V as shown in FIG. 1, according to the related art, a battery for outputting a voltage of 24V is required. According to one aspect of the present invention, since it is possible to drive only one LED element 13 with a 3V battery, there is an effect that it is possible to provide a light that can be fully utilized in an emergency such as power failure.

According to one aspect of the present invention, since a battery having a low voltage output is used, there is an effect that the battery for emergency lighting can be configured in a very low cost, small weight and small space. For example, constructing a 3V battery rather than constructing a 24V battery can be easily configured for lower cost, smaller weight, and smaller space. In general, since the LED lighting driving device is installed on the ceiling, a smaller weight and a smaller space as described above may have a great meaning.

1 is a view showing an example of a conventional LED lamp 10 and the LED lighting driving device (30, 40).
2 is a view showing the LED lamp 10 and the LED lighting driving device 100 according to the first embodiment of the present invention.
3 is a view showing the LED lamp 10 and the LED lighting driving device 100 ′ according to the second embodiment of the present invention.
4 is a diagram illustrating a circuit configuration of the emergency operation control unit 140 and the switching unit 150 according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: FIG. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention in the drawings, parts not related to the description are omitted, and similar names and reference numerals are used for similar parts throughout the specification.

2 is a view showing the LED lamp 10 and the LED lighting driving device 100 according to the first embodiment of the present invention.

The LED lamp 10 receives the AC / DC converted power from the usual commercial AC power and emits light, and includes an LED chain 15 having at least two LED elements 12 and 13 connected in series, and the LED chain 15 A plurality). Each LED chain 15 has two or more LED elements 12 and 13 connected in series in the same direction, DC power is applied to the anode of the first LED element and ground is connected to the cathode of the last LED element. The number of LED elements 12 and 13 constituting the LED chain 15 may be different depending on the specifications of the AC / DC converter 110 and the specifications of the LED elements 12 and 13.

The LED lighting driving apparatus 100 is for driving the LED lighting 10, the AC / DC converter 110, the dimming unit 120, the battery charging unit 130, the battery 135, and the emergency operation control unit 140. , The switching unit 150 and the short prevention unit 160 is configured.

The AC / DC converter 110 receives AC power from a commercial AC power source via the wall switch 50 and outputs DC power, and the voltage of the output DC may be, for example, 24V to 48V.

The dimming unit 120 adjusts the brightness of the LED lamp 10 and, for example, may adjust the output power by adjusting the output current of the DC supplied from the AC / DC converter 110.

The battery 135 is a rechargeable battery or a battery, and may be a low voltage battery of 9V or less. For example, the battery 135 may be composed of a 3.7V lithium ion battery or two 1.5V batteries. In addition, when the battery 135 is configured as a rechargeable battery, the LED lighting driving apparatus 100 may further include a battery charger 130 as shown, and the battery charger 130 may be AC / AC from commercial AC power. The battery 135 is charged by receiving the DC-converted power, and specifically, the battery 135 that is the rechargeable battery is charged by receiving the AC / DC-converted power from the AC / DC converter 110.

The emergency operation control unit 140 determines a situation in which the LED lamp 10 should be driven using the battery 135 instead of a commercial AC power source, and outputs a control signal for controlling the switching unit 150 based on the situation. Do this. In one embodiment, the emergency operation control unit 140 detects a power failure of commercial AC and outputs a control signal to turn on the switching unit 150 when the power failure occurs. At this time, even if a power failure is sensed, the control unit 150 turns on the switching unit 150 only when the user turns on the wall switch 50 or turns on the switching unit 150 regardless of whether the wall switch 50 is turned on or off. It can be configured by combining various control conditions such as day and night detection and fire detection. As another embodiment, the emergency operation control unit 140 may be connected to a remote server by wire or wireless to output a control signal using a server command as a single condition or an additional condition.

2 illustrates a configuration in which the emergency operation detection control unit 140 is configured to turn on the switching unit 150 in case of power failure regardless of whether the wall switch 50 is turned on or off.

The emergency operation control unit 140 outputs a control signal for turning on the switching unit 150 by determining whether the commercial AC power is out of power. In particular, as an embodiment, even when the wall switch 50 is turned off, It is configured to determine whether there is a power failure.

4 is a diagram illustrating a circuit configuration of the emergency operation control unit 140 and the switching unit 150 according to an embodiment of the present invention.

The emergency operation controller 140 may include a first resistor R1, a second resistor R2, a first diode D1, a second diode D2, a first zener diode ZD1, and a second zener diode ZD2. And a first capacitor C1 and a second capacitor C2.

The first resistor R1 and the first capacitor C1 constitute a current limiting unit for limiting current consumed while driving the relay K1 of the switching unit 150, and the first zener diode ZD1. ) And the second zener diode ZD2 perform a function of clipping and limiting the voltage of the commercial AC input to, for example, 24V, and constitute a voltage limiting unit to limit the voltage of the commercial AC input.

In addition, the first diode D1, the second diode D2, and the second capacitor C2 rectify the clipped AC input voltage to convert the DC voltage to a voltage approximating the DC voltage and output the rectifier. Configure

The switching unit 150 includes a relay K1 and supplies DC power from the battery 135 to the short prevention unit 160 or each of the switching units 171 to 174 to be described later.

When the commercial AC is not interrupted, the emergency operation control unit 140 drives the relay K1 using the DC voltage output from the rectifying unit and turns off the switching unit 150. When the commercial AC is out of power, the rectifier of the emergency operation control unit 140 does not output the DC voltage and does not drive the relay K1. 2 is discharged through the resistor R2. Accordingly, the contact point of the relay K1 is switched to output DC power from the battery 135 and turns on the switching unit 150.

2, the switching unit 150 switches the DC power from the battery 135 in accordance with a control signal from the emergency operation control unit 140 to supply to some LED elements 13 of the LED lamp 10, It supplies through the short prevention part 160. The switching unit 150 may be configured as a transistor, a FET, or a relay. For example, the switching unit 150 controls the gate of the FET as a control signal output from the emergency operation control unit 140 and controls the source and drain of the FET. It may be configured to be connected to the battery 135 and the short prevention unit 160, respectively.

The short preventer 160 may switch the switch 150 through a tab 14 between two or more LED elements 12 and 13 connected in series in each LED chain 15 constituting the plurality of LED chains 15. It delivers the DC power from, but performs a function to prevent short between each LED chain (15).

According to one aspect of the present invention, only some of the LED elements 13 are driven without driving all the LED elements 12 and 13 constituting the LED chain 15 in an emergency, for example, the last LED element in FIG. Only drive (13). For this purpose, a tap is made at a specific one of the connection points of all the LED elements 12 and 13 constituting the LED chain 15 and power is supplied from the battery 135 through the tap.

The short prevention unit 160 includes a plurality of diode elements 161, and the plurality of diode elements 161 are provided separately for each LED chain 15. One end of the plurality of diode elements 161 is commonly connected to the switching unit 150, and the other end thereof is connected to the tap of each LED chain 15, respectively. By arranging the plurality of diode elements 161 in this way, a short is prevented between the tabs in the middle of each LED chain 15.

Hereinafter, the operation of the LED lamp 10 and the LED lighting driving device 100 according to the first embodiment of the present invention will be described.

First, when the wall switch 50 is normally turned on, all of the LED elements 12 and 13 constituting the LED lamp 10 are driven through the AC / DC converter 110 and the dimming unit 120. 12 and 13 emit light.

On the other hand, in an emergency when a set control condition such as a power failure is established, the emergency operation control unit 140 outputs a control signal for turning on the switching unit 150. Accordingly, the power of the battery 135 causes the switching unit 150 to operate. It can be provided to the short prevention unit 160, and supplies power to some of the LED element 13 through the tab in the middle of the LED chain 15 via the short prevention unit 160. When the control signal of the emergency operation control unit 140 is turned on, only some of the LED elements 13 of the LED elements 12 and 13 constituting the LED chain 15 are driven by the power of the battery 135.

3 is a view showing the LED lamp 10 and the LED lighting driving device 100 ′ according to the second embodiment of the present invention.

Since the second embodiment of the present invention differs from the first embodiment in that the short prevention unit 160 is removed and the plurality of switching units 171 to 174 are different from each other, the plurality of switching units 171 It will be described in detail with reference to 174), the description of the same components as in the first embodiment will be omitted.

Each switching unit (171 to 174) is a battery through a tap between two or more LED elements (12, 13) connected in series in each LED chain (15) constituting a plurality of LED chain 15 in accordance with a control signal, DC power from 135 is switched and supplied, but is provided separately for each LED chain 15.

In the example of FIG. 3, the first switching unit 171 to the fourth switching unit 174 are respectively connected to the tap in the middle of the first LED chain 15 to the fourth LED chain 15, and the first switching unit ( When the 171 to 4th switching unit 174 is turned on, the DC power of the battery 135 is provided to the last LED element 13 of the first LED chain 15 to the fourth LED chain 15, respectively, so that the corresponding LED element ( 13).

Each of the switching units 171 to 174 may be configured as a transistor, a FET, or a relay. For example, the switching unit 171 to 174 controls the gate of the FET with a control signal output from the emergency operation control unit 140 when the FET is configured. The source and drain may be configured to be connected to the battery 135 and the tab of each LED chain 15, respectively.

Hereinafter, the operation of the LED lamp 10 and the LED lighting driving device 100 ′ according to the second embodiment of the present invention will be described.

First, when the wall switch 50 is normally turned on, all of the LED elements 12 and 13 constituting the LED lamp 10 are driven through the AC / DC converter 110 and the dimming unit 120. 12 and 13 emit light.

On the other hand, in an emergency when a set control condition such as a power failure is established, the emergency operation control unit 140 outputs a control signal for turning on each of the switching units 171 to 174, and accordingly, the power of the battery 135 is controlled by each switching unit. Power is supplied to some LED elements 13 through tabs in the middle of the LED chain 15 via 171-174. When the control signal of the emergency operation control unit 140 is turned on, only some of the LED elements 13 of the LED elements 12 and 13 constituting the LED chain 15 are driven by the power of the battery 135.

According to an aspect of the present invention, there is an effect that it is possible to drive using a low-voltage battery even in the LED lamp 10 of the LED elements constituting an array in series.

For example, when eight LED elements 11 are connected in series so as to be driven by receiving a DC voltage of 24V as shown in FIG. 1, according to the related art, a battery for outputting a voltage of 24V is required. According to one aspect of the present invention, since it is possible to drive only one LED element 13 with a 3V battery, there is an effect that it is possible to provide a light that can be fully utilized in an emergency such as power failure.

According to one aspect of the present invention, since a battery having a low voltage output is used, there is an effect that the battery for emergency lighting can be configured in a very low cost, small weight and small space. For example, constructing a 3V battery rather than constructing a 24V battery can be easily configured for lower cost, smaller weight, and smaller space. In general, since the LED lighting driving device is installed on the ceiling, a smaller weight and a smaller space as described above may have a great meaning.

10: LED light 12,13: LED element
15: LED chain 100: LED lighting drive
110: AC / DC converter 120: dimming unit
130: battery charging unit 135: battery
140: emergency operation control unit 150: switching unit
160: short prevention unit 171 to 174: first to fourth switching unit

Claims (9)

delete For driving the LED lamp 10 having a plurality of LED chains 15 connected in series by emitting light, which is supplied with AC / DC converted power from a commercial AC power. LED lighting driving device,
A switching unit 150 for switching and supplying DC power from the battery 135 according to a control signal;
In each LED chain 15 constituting the plurality of LED chain 15, the DC power from the switching unit 150 is transferred through a tap between two or more LED elements 12 and 13 connected in series. By including a; short prevention unit 160 for preventing a short between the LED chain 15 is configured to include,
When the control signal is turned on, only some of the LED elements 13 of the LED elements 12 and 13 constituting the LED chain 15 are driven by the power of the battery 135,
The short prevention unit 160 includes a plurality of diode elements 161,
One end of the plurality of diode elements (161) are all connected in common with the switching unit 150 and the other end is connected to each of the LED chain (15), LED lighting driving device, characterized in that.
delete For driving the LED lamp 10 having a plurality of LED chains 15 connected in series by emitting light, which is supplied with AC / DC converted power from a commercial AC power. LED lighting driving device,
In each LED chain 15 constituting the plurality of LED chains 15 in accordance with a control signal, DC power from the battery 135 is transferred through a tap between the two or more LED elements 12 and 13 connected in series. By switching and supplying, each LED chain 15 is provided with a switching unit 150 is provided separately;
When the control signal is turned on, only some of the LED elements 13 of the LED elements 12 and 13 constituting the LED chain 15 are driven by the power of the battery 135,
And an emergency operation control unit 140 for detecting the power failure of the commercial AC and outputting the control signal to turn on the switching unit 150 in the event of power failure.
The switching unit 150 includes a transistor, a FET or a relay,
The emergency operation control unit 140,
A first zener diode (ZD1) and a second zener diode (ZD2) clipping the voltage of the commercial AC; And
Rectifier (D1, D2, C2) for rectifying the commercial AC clipping the voltage by the first Zener diode (ZD1) and the second Zener diode (ZD2) and outputs DC;
When the commercial AC is not interrupted, the switching unit 150 is turned off by driving the transistor, the FET, or the relay by using the DC output from the rectifying units D1, D2, and C2.
LED switching device, characterized in that when the commercial AC is out of power, the switching unit 150 is turned on because it can not drive the transistor, FET or relay.
The method according to claim 2,
And an emergency operation control unit 140 for detecting the power failure of the commercial AC and outputting the control signal to turn on the switching unit 150 in the event of power failure.
The switching unit 150 includes a transistor, a FET or a relay,
The emergency operation control unit 140,
A first zener diode (ZD1) and a second zener diode (ZD2) clipping the voltage of the commercial AC; And
Rectifier (D1, D2, C2) for rectifying the commercial AC clipping the voltage by the first Zener diode (ZD1) and the second Zener diode (ZD2) and outputs DC;
When the commercial AC is not interrupted, the switching unit 150 is turned off by driving the transistor, the FET, or the relay by using the DC output from the rectifying units D1, D2, and C2.
LED switching device, characterized in that when the commercial AC is out of power, the switching unit 150 is turned on because it can not drive the transistor, FET or relay.
delete The method according to claim 2,
The switching unit 150,
LED lighting driving device, characterized in that consisting of a transistor, FET or relay.
The method according to claim 2 or 4,
The battery 135 is a low voltage battery of less than 9V LED lighting drive device.
The method according to claim 2 or 4,
A battery charger 130 which receives the AC / DC converted power from the commercial AC power and charges the battery 135;
LED lighting driving device further comprising.

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