RU2120705C1 - Starting device for gaseous-discharge lamps - Google Patents

Abstract

FIELD: lighting engineering. SUBSTANCE: device has glow-discharge starter connected in series with current-limiting resistor which is, essentially, posistor whose resistance in temperature range of 40-60 C is 300-400 Ohms. EFFECT: improved starting reliability, simplified design. 1 dwg

Description

 The invention relates to electrical engineering and can be used to ignite discharge lamps.

 Known discharge lamp with an ignition device / patent US N 4897576, Jan 30. 1990 /, consisting of series-connected wires, from a material with a high melting point wound on a discharge tube, and a capacitor. In normal operating mode, a wire whose resistance increases when the discharge tube is heated limits the current flowing through the capacitor.

 However, the maximum rate of change in wire resistance does not exceed 3 - 5 even when the wire reaches a temperature of 3000 K.

 Also known is a discharge lamp with an ignitor / Iwasaki Electric Catalog, Jwasaki lightin Catalog N EYE 1.87, p. 6. 18 /, consisting of a gas discharge starter connected in series, a thermosensitive switch and a resistor connected in parallel with the discharge lamp.

 This device is mainly used for igniting high pressure lamps in circuits with L and L - C ballast. In this case, the resistor limits the short circuit current when the starter is in contact.

 However, during the ignition of the lamp, the power released on the current-limiting resistance / resistor / heats it to a high temperature, especially if the ignition process is delayed in time.

 The average power output in this case exceeds tens of watts. Therefore, such an ignition device is installed inside the outer bulb of the lamp, in an inert gas atmosphere.

 The proposed device for igniting discharge lamps, contains a stator glow discharge, connected in series with it current-limiting resistance, which is used as a posistor.

 The problem, which consists in creating a device for ignition of gas discharge lamps, is solved by technical means, which are the combination of the above essential features of the alleged invention. These essential features are necessary and sufficient to achieve a new technical result, which consists in increasing the reliability of the ignition device and simplifying its design.

 The claimed invention allows to position the ignition device outside the outer bulb of the discharge lamp, eliminates the heat-sensitive switch, and therefore, to increase the reliability of the ignition device and simplify its design.

 The drawing shows the proposed ignition device.

 The ignition device for discharge lamps comprises a glow discharge starter 1, a ceramic resistor 2 connected in series with it.

 The ignition device operates as follows. When the ignition device is connected to the network parallel to the discharge lamp and sequentially with a throttle (not shown), a glow discharge occurs in the starter of the glow discharge 1. This leads to heating of the bimetal and shorts the starter of the glow discharge 1. The discharge in the starter of the glow discharge 1 stops and, as soon as the bimetal it cools, the current is interrupted, which causes the appearance of a voltage pulse between the electrodes of the discharge lamp. With a sufficient amplitude of the pulse, an arc discharge is established in the lamp with a voltage drop less than the ignition voltage of the glow starter 1.

 Due to the specific heat capacity, the posistor 2 does not have time to significantly change its temperature during the contact time of the starter of the glow discharge 1 and the short circuit current is limited by the resistance of the "cold" resistor. In an emergency situation, with a faulty lamp, after several contacts of the glow discharge starter 1, the resistor 2 heats up and its resistance increases hundreds of times compared to the "cold" state. The glow discharge current flowing through the stator of the glow discharge 1 is insufficient for its contact, which protects the inductor from possible breakdown by high-voltage pulses, and the ignition device from overheating.

 In some cases, to improve the ignition characteristics, it is advisable to include an active resistance in series with the ignition device.

 The proposed ignition device is much smaller in comparison with similar devices, and it can itself be located in the air.

This ignition device was tested when igniting lamps of the DNAT - 400 type. A gas discharge starter was used in the ignition device, providing an amplitude of the generated pulse of 3000 V, the resistor in the temperature range 40-60 ^o C had a resistance of 300-400 Ohms.

When the ignition device was turned on, a glow discharge current of ~ 40 mA flowed through the starter, while the power of no more than 0.5 W was released on the posistor and its temperature did not exceed 40 ^o C. When the bimetal was heated and the starter was closed, the current through the resistor reached 1 A . When the current was interrupted due to cooling of the starter bimetal, a voltage pulse appeared, igniting the lamp. However, during one contact, the posistor did not have time to warm up to the phase transition temperature, i.e. the resistance of the posistor did not increase. The posistor temperature reached the phase transition temperature only after 5-8 contacts. At a temperature of 150 ^o C, the resistance of the posistor increased to 30 kOhm. Further contacting the starter ceased. Ignition could be repeated only after cooling the posistor.

 The proposed ignition device can be used to ignite discharge lamps of high and low pressure.

Claims (1)

An ignition device for a high-pressure gas discharge lamp, comprising a glow discharge starter, a current-limiting resistance connected in series with it, characterized in that a posistor having a resistance of 300 - 400 Ohms in the temperature range of 40-60 ^° C is used.