JPH0439897A - Discharge lamp flashing device - Google Patents

Abstract

PURPOSE:To have a down-sized, light-weighed and low-cost device by providing with a construction of a discharge lamp, connected to voltage doubler rectifier circuit, a switch for flashing, connected to the discharge lamp in series, and a lamp flashing operation control circuit, which controls to turn off the switch. CONSTITUTION:When alternative current is supplied from an alternative power source 1 to a voltage doubler rectifier circuit 4, high direct voltage can be obtained by diodes D1, D2, and capacitors C1, C2. When a switch for flashing 5 is turned on, by control signal from a lamp flashing operation control circuit 16, high direct voltage is applied to a discharge lamp L, and the lamp is lighted. When a switch 15 is turned off, high direct voltage is charged to the voltage doubler rectifier circuit 4, so as to prepare for the next discharge lamp lightening. Thus, down-sized, lightweight, and low-cost device can be achieved by using the voltage doubler rectifier circuit 4, constructed by the diodes D1, D2, and the capacitors C1, C2.

Description

[Detailed description of the invention] [Industrial application field] This invention relates to a flashing device for a discharge lamp.

[Conventional technology]

Conventionally, as an operation control device for blinking a discharge lamp, there are 1
A transformer and a switch for obtaining a high voltage necessary for starting discharge are connected in series to an AC power supply of 00V, a discharge lamp is connected to this transformer, and the switch is controlled by a lamp blinking operation control circuit. The discharge lamp was supposed to blink.

[Problem to be solved by the invention]

However, in the above-described discharge lamp flashing device, a transformer must be connected to each discharge lamp, which causes the device to be large and heavy, and it is not possible to reduce costs.

An object of the present invention is to provide a compact, lightweight, and inexpensive discharge lamp flashing device.

[Means to solve the problem]

In order to achieve the above object, the present invention includes a voltage doubler rectifier circuit connected to an AC power source and configured of a diode and a capacitor for converting alternating current into direct current, and a discharge lamp connected to the voltage doubler rectifier circuit. , a blinking switch connected in series to the discharge lamp, and a lamp blinking operation control circuit that turns off the switch.

[For production]

When an alternating current is supplied from an alternating current power supply to a voltage doubler rectifier circuit, a high direct current voltage is obtained by the diode and capacitor. When the blinking switch is turned on by a control signal from the lamp blinking operation control circuit, a high DC voltage is applied to the discharge lamp and the lamp is lit. Further, when the switch is turned off, the voltage doubler rectifier circuit is charged with a high DC voltage and is prepared for the next lighting of the discharge lamp.

Since this invention uses a voltage doubler rectifier circuit composed of diodes and capacitors, the device can be made smaller and lighter.

〔Example〕

A first embodiment embodying the present invention will be described below with reference to FIGS. 1 and 2.

A voltage doubler rectifier circuit 4 consisting of a stable voltage supply circuit 2 and a discharge starting voltage supply circuit 3 is connected to the 100V AC power supply 1. The discharge starting voltage supply circuit 3 is connected in series corresponding to each discharge lamp LL.

Further, field effect type FET transistors 5 as switches are connected in series to each of the discharge lamps LL, and each transistor 5 is connected to a lamp blinking operation control circuit 6.
The ON-OFF operation is performed by the ON-OFF operation signal from the OFF switch. Reference numeral 7 denotes a DC constant voltage supply circuit for supplying a DC constant voltage to the operation control circuit 6, and is capable of rectifying the AC voltage of the AC power supply 1 to supply a DC constant voltage.

The stable voltage supply circuit 2 has an AC power terminal 1a.

It is composed of diodes DI and D2 connected to 1b and capacitors C1 and C2. Then, when a current flows from the AC power terminal 1a to the diode D1, this current charges the capacitor C1, and conversely, the current flows into the diode D1 from the AC power terminal 1a.
When current is supplied from b, this current flows through capacitor C2
The current flows through the diode D2 to the power supply terminal 1a, and at this time, the capacitor C2 is charged. Therefore, a voltage of, for example, 280V, which is higher than the 100V AC power supply, can be generated in both capacitors CI and C2.

The discharge starting voltage supply circuit 3 includes capacitors 03 to C.
6 and diodes D3 to D6, and the capacitances of the capacitors 03 to C6 are set so as to temporarily obtain the necessary voltage V1 at the start of discharge, as shown in FIG. Further, the capacitor C of the stable voltage supply circuit 2
1 and C2 are set so as to obtain the voltage V2 necessary to stably sustain the discharge, as shown in FIG. When the transistor 5 is turned on, the combined voltage of the capacitors C1, C2 and C3 to C6 (
V 1 +V 2) is supplied to the discharge lamp L via the voltage drop resistor R1, so that the discharge lamp L is turned on.

Also, when the discharge lamp L is supplied with a DC voltage and discharged, the ions inside the discharge lamp L are biased towards one pole, so when the discharge of the discharge lamp is turned off, the resistors R2 and R3 prevent the discharge. By short-circuiting the discharge tube of the lamp L, ion deviation is prevented. In order to prevent this ion bias, a new voltage doubler rectifier circuit is connected to the AC power supply I, resistors R2 and R3 are omitted, and the newly installed voltage doubler rectifier circuit is connected to the negative side of the discharge lamp L via the resistor. Ion bias may be prevented by applying a voltage having a polarity opposite to that of the discharge lamp L to the electrode.

Next, a second embodiment of the present invention will be explained with reference to FIG.

In the first embodiment, the discharge starting voltage supply circuits 3 to 3 are connected to each of the discharge lamps L-L, but in the second embodiment, high resistance R4 is connected to each lamp L to L. , the discharge starting voltage supply circuit 3 is connected to each discharge lamp L.
- It is also used for L. Further, a starting capacitor C7 is connected in parallel to each high resistance R4. A diode D7 is connected to each of the lamps L to L, and a voltage v2 required to sustain discharge from the stable voltage supply circuit 2 is provided.
are being supplied. Furthermore, the resistor R2,
In addition to replacing R3 with one resistor R5, a high voltage transistor 8 is used in place of the FET transistor 5.

When the high voltage transistor 8 is turned on by the operation signal of the operation control circuit 6, the combined voltage (V
l+V2) is supplied to the discharge lamp L through the high resistance R4 and the resistor R1, and the discharge lamp L is turned on.Then, the voltage 2 is supplied from the stable voltage supply circuit 2 through the diode D7 and the resistor R1, and the discharge lamp L is turned on. L is lit stably.

In this second embodiment, the stable voltage supply circuit 2 and the discharge starting voltage supply circuit 3 only need to be provided in one place, so the number of parts is reduced and the size and weight are reduced compared to the first embodiment. It can be manufactured at low cost.

Note that the present invention is not limited to the above-mentioned embodiments; for example, the stable voltage supply circuit 2 and the discharge starting supply voltage circuit 3 may not be separated, or the capacitance and number of the capacitors 01 to C6 may be changed depending on the discharge lamp L. It is also possible to change the rated discharge voltage as appropriate depending on the number of batteries.

〔Effect of the invention〕

As detailed above, this invention uses a small, lightweight, and inexpensive voltage doubler rectifier circuit, so there is no need to use a transformer as in the past, making the entire device smaller and lighter, thereby reducing costs. There is an effect that can be done.

[Brief explanation of drawings]

Fig. 1 is an electric circuit diagram showing a first embodiment of a flashing device for a discharge lamp according to the present invention, Fig. 2 is a graph showing the voltage required for discharging a discharge lamp, and Fig. 3 is a second embodiment of the invention. FIG. 1... AC power supply, 2... stable voltage supply circuit, 3...
・Discharge starting voltage supply circuit, 4...voltage doubler rectifier circuit,
5... FET transistor as a switch, 6...
・Lamp blinking operation control circuit, 8... High voltage transistor as a switch, D1 to D7... Diode, 0
1-C6... Capacitor, R1-R5... Resistor, L
~L...Discharge lamp. S@

Claims (1)

[Scope of Claims] 1. A voltage doubler rectifier circuit connected to an AC power source and composed of a diode and a capacitor for converting AC current into DC current; a discharge lamp connected to the voltage doubler rectifier circuit; A discharge lamp blinking device comprising: a blinking switch connected in series to the discharge lamp; and a lamp blinking operation control circuit that turns off the switch.