KR20140102047A - Switch for emergency lamp and emergency LED lamp used with the switch - Google Patents

Abstract

The importance of a green industry for saving energy is recently emphasized. Especially, the supply of LED lamp is quickly increasing to make sure lamps like a traffic light and a general lighting are highly efficient. Existing lamps used at home such as fluorescent lamp, an incandescent light, and a halogen lamp are replaced by LED lamps. Under that trend, if one or two replaced lamps can function as emergency lamps, it can be of great help to take action promptly in case when an outage occurs due to natural disasters like an earthquake and a tsunami. The present invention provides a method for using the LED lamp as the emergency lamp. If the LED lamps, which can work as emergency lamps as well, can replace the existing lamp and if the switch, which supports emergency function as well, can replace the existing switch. The LED lamps would work as usual in normal times [non-outage]. However, in case of emergency, the LED lamps can receive power from the embedded chargeable batteries. Thus, the LED lamps presented in this invention can also work as emergency lamps.

Description

[0001] The present invention relates to an emergency light lamp switch and an emergency light LED lamp used together with the switch.

The present invention relates to an emergency lamp switch and an emergency LED lamp having a built-in rechargeable battery that can be used in combination with the switch and serves as an emergency lamp. In addition, an SMPS for LED driving power supply is not provided, LED lamps that drive LEDs are used as LED lights that can be controlled on / off [ON / OFF] in normal times, and LEDs that function as electric energy built in rechargeable batteries when power failure Lamp.

Conventional LEDs are composed of SMPS [so-called LED converters] for driving LED devices that are embedded in LED lamps outside the LED lamps [whichever is the luminaire]. In addition, in order to incorporate a rechargeable battery so as to serve as an emergency light during a power failure, a separate battery charger SMPS has to be constructed, which is expensive and complicated in the configuration of the product.

However, recently, when the LED lamp has been activated, an LED lamp having a function of an emergency light and a rechargeable battery is used as an illumination lamp by a light switch when the lamp is not in normal operation, ON, OFF] Regardless of the operating status of the switch, it has always been required to have an LED lamp that has such an emergency light function and is light and simple, which is always ON.

An object of the present invention is to provide a rechargeable battery built-in such as an emergency light switch and an LED driven by a commercial AC power source, so that the LED lamp is turned on and off according to a switch operation of the user The LED lamp is used together with the emergency light switch so that the LED lamp is driven by the electric energy charged in the battery built in the LED lamp regardless of the operation state of the user during a power failure. have.

The present invention relates to an LED lamp in which a plurality of LED elements are connected in series and in parallel to one another in an LED lamp

1. In normal operation [non-operation], it is driven by the AC power input according to the user's on-off switch operation

2. In case of power failure, in order to be driven by electric energy stored in built-in rechargeable battery,

1) Construction method of emergency light switch.

2) How to configure the LED array.

3) A method of driving an LED lamp according to a user's switch operation.

4) How to drive the LED lamp according to the phase of the input AC power.

5) charging electric energy to rechargeable battery.

6) How to drive the LED lamp with the electric energy charged in the battery in emergency [power failure].

.

The emergency light switch and the emergency light LED lamp to which the present invention is applied can be replaced by the emergency light switch of the present invention without replacing the existing switch with the emergency light switch of the present invention, When the LED lamp is normal [ON], the ON / OFF control is performed according to the user's operation. When an emergency [power failure] occurs, the battery is automatically switched to the electric energy charged in the battery, It is possible to activate the spread of emergency LED lamps for general households and also to prevent a large accident when a power failure due to a tsunami or an earthquake occurs.

1 is a circuit diagram showing an embodiment of the present invention
Description of the Related Art
AC: Input AC power
N: AC, N terminal
A: AC, terminal A
a: Emergency light switch
b: LED lamp
b _1: LED driving device
b _2: LED matrix array
1: Bridge rectifier circuit block]
2: Power failure and phase detection circuit block
3: Control circuit block
4: Rechargeable battery
LDA1 to LDA19: First to 19th LED arrays
PSW: Power switch
Zs: Impedance for fine current supply
SW1 to SW9: First to ninth switching elements
SWP: Phase control switching device
D1 to D4: First to fourth diodes
D11 to D19: Eleventh to D19 diodes
D21 to D28: Twenty-first to twenty-eighth diodes
RC: Resistance for limiting charging current

The operation principle of the emergency light switch of the present invention and the emergency light LED lamp incorporating the rechargeable battery will be described in detail with reference to the drawings. 1, when the switch [psw] of the emergency light switch [a] is turned on, the input alternating electric signal is rectified by the bridge rectifier circuit block [1] and then the uppermost LED of the LED matrix array [b2] Is supplied to the anode terminal of the array [LDA1]. The current path at this time is

or

. This is because the input AC voltage is directly applied to the input terminal of the bridge rectifier circuit block [1] in such a state that the power switch [PSW] of the user is turned on. If the user's power switch [PSW] is not turned on, fine current is supplied to the blackout and phase detection circuit block [2] through the impedance for fine current supply [Zs]. If the microcurrent is not detected, the power failure and phase detection circuit block [2] determines that the power failure has occurred and transfers this state to the control circuit block [3]. The control circuit block [3] converts the lamp into electrical energy stored in the rechargeable battery . The electrostatic and phase detection circuit block [2] judges that the microcurrent is in the non-operating state when the micro current is detected. The control circuit block [3] turns on all the switching elements of the first to ninth switching devices [SW1] to [SW9] when an electrostatic signal is transmitted from the electrostatic and phase detection circuit block [2] Allow the lamp to be driven by electrical energy stored in a rechargeable battery. During normal operation [non-operation], all of the switching elements are maintained in the OFF state so that the LED lamp is driven by the input AC electric signal according to the user's switch [PSW] operation. In the case of power failure [emergency], the current path when driving with the electric energy charged in the battery is

.........

The current flows through nine paths as shown in Fig. The configuration of the eleventh diode [D11] to the nineteenth diode [D19] is such that when the LED lamp is driven by the input ac electric signal at normal operation [non-operation], the input ac electric signal is prevented from flowing into the rechargeable battery, This may be configured using a P-type transistor. The configuration of the twenty-first diode [D21] to the twenty-eighth diode [D28] allows the LED arrays LDA1 to LDA9 to LDA19 to be driven in series when the normal AC drive is performed, To [LDA9 + LDA19] are connected in parallel so that all the LED arrays are connected in parallel to prevent a collision (short circuit) between the battery + terminal and the - terminal. The control circuit block 3 monitors the battery voltage and turns off all the switching elements SW1 to SW9 when the battery voltage falls below the lower limit voltage [8.75 V], thereby preventing the battery from being overdischarged.

If the battery voltage drops below about 85% [11.3V] of the rated capacity, the control circuit block [3] keeps the ninth switching device [SW9] [ON] to enter the charging state. When the battery voltage is charged to the rated voltage [12.6 V], the ninth switching device SW9 is turned off to terminate the charging.

The current flow in the charge mode

And the charging current is limited by the resistance [Rc] for limiting the charging current. In addition, the control circuit block [3] turns on all the switching elements [SW1 to SW9] when the battery voltage exceeds the battery upper limit voltage [12.75 V] for some reason, thereby lowering the battery voltage and causing the battery voltage to rise excessively The problem is being eliminated. In the present invention, a voltage including a voltage appearing in the lowest-order LED matrix array [LDA9] of an LED matrix array constituted by series-parallel connection is used as a charging voltage because the lowest-order LED array has the most time It is because it is continuing. In the embodiment of Fig. 1, the number of LED arrays is divided into 15 equal parts. The total number of LED arrays connected in series is 9, because the number of upper LED arrays connected in series is 3, the number of lower-level LED arrays connected in series and parallel is 12, and the lower LED arrays are connected in 2 parallel lines in 6 arrays. If all of the lower LED arrays are connected in series, the upper LED arrays are darker than the lower LED arrays because the upper LED arrays have a shorter conduction time than the lower LED arrays. Therefore, the sub-LED arrays must be configured in series and parallel so that the same average current can flow through all the LED arrays. Various experimental results.

Number of upper LED array serial number * 2 ≒ Sub LED array number of serial connection.

Is most preferable for all the LED arrays to have the same brightness. In the embodiment of Figure 1

The top LED array consists of three serial,

The sub-LED arrays are 6 serial, 2 parallel

, And the control circuit block [3] receives the phase signal from the phase and electrostatic detection circuit block [2]

와 위상

Phase

And phase

The phase control switching element SWP is turned ON and only the LED arrays LDA4 + LDA14 to LDA9 + LDA19 are conducted. In the phase 41.8 DEG to 131.8 DEG range, the phase control switching element SWP is turned ON, Of the LED arrays LDA1 to LDA19 when driven by the input ac electric signal in such a manner that all the LED arrays LDA1 to LDA19 are turned on so that the average currents flowing through all the LED arrays are the same The brightness is controlled to be the same. The LED array of the upper section is connected only in series, and the LED array of the lower section is additionally constituted by the LED arrays [LDA14 to LDA19] connected in parallel to the LED arrays [LDA4 to LDA9] connected in series. As described above. 1, the total number of LEDs connected in series to the upper LED arrays [LDA1 to LDA3] is 12 and the total number of LEDs connected in series to the lower LED arrays [LDA4 to LDA9, LDA14 The total number of LEDs connected in series to [LDA19] is 24. This is because it is most preferable that the total number of series-connected LEDs is 36 to 40 when the input ac electric signal is 100 V _AC .

Claims (8)

In the light switch,
When the switch is turned ON, the switch is short-circuited to cause a large current to flow through the lamp, and when the switch is OFF, the impedance [Zs] for supplying the microcurrent to both ends of the switching element [PSW] Connected in parallel
Emergency light switch In an emergency LED lamp including a bridge rectifying circuit block [1], an electrostatic and phase sensing circuit block [2], a control circuit block [3], a rechargeable battery [4] and an LED matrix array [b] N [n is a natural number] LED arrays LDA1 to LDA9, LDA14 to LDA19 having the same forward voltage [VF] capable of driving all of the LEDs connected in series in parallel connected to the bridge rectifying circuit block 1 The n LED arrays are connected in series or in series and connected in series to be driven by an input alternating electric signal, and when the LED is in an emergency state, all of the n LED arrays are connected in parallel, Powered by electric energy charged in one rechargeable battery
LED lamp. 3. The LED lighting device according to claim 2, wherein, among the n LED arrays, a short-circuit prevention diode m-1 (n) is connected between each series- connected m [m is a natural number, m < n] LED arrays LDA1 to LDA9 in parallel driving by a rechargeable battery Further comprising [D21-D28]
LED lamp. 3. The method of claim 2,
An anode terminal of each diode is connected to the + terminal side of the rechargeable battery between each anode terminal of the m LED arrays LDA1 to LDA9 connected in series and the + terminal of the rechargeable battery. On the anode terminal side of each LED array, Further comprising m pieces of m electric-current-signal-interrupting diodes m [D11 to D19]
LED lamp. 3. The method of claim 2,
Further comprising one m switching elements SW1 to SW9 between the cathode terminals of the m LED arrays LDA1 to LDA9 connected in series and the negative terminals of the rechargeable battery
LED lamp. 3. The method of claim 2,
Further comprising configuring and charging a battery charging current limiting resistor [RC] between the cathode terminal of any LED array that is higher than the lowest LED array [LDA9] and the + terminal of the rechargeable battery among the series connected LED arrays
LED lamp. The method according to claim 2 or 5,
The control circuit block 3 turns on all the m switching elements SW1 to SW9 to turn on the LED lamps to the rechargeable battery [3] Powered by built-in electrical energy
LED lamp. In an LED lamp including a bridge rectification circuit block [1], an electrostatic and phase sensing circuit block [2], a control circuit block [3] and an LED matrix array [b2], the input AC electric signal is input to the bridge rectifier circuit block [1] LEDs LDA1 to LDA3, LDA4 to LDA9, and LDA14 to LDA19), and then the lower LED operation period is divided into three LED arrays connected in parallel Two LED arrays LDA4 to LDA9 and LDA14 to LDA19 are connected in parallel and only the two LED arrays connected in parallel are conducted. In the upper LED operation period, the two LED arrays connected in parallel and the remainder One LED array is connected in series to control all the three LED arrays to conduct
LED lamp.

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