RU2026587C1 - Process of use of gaseous-discharge lamp for horizontal position of lighting - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: in compliance with process of use of gaseous-discharge lamp for horizontal position of lighting it is transferred into vertical position 2.0-5.0 min before disconnection of lamp from power supply source. When high-voltage pulse is fed lamp firing for its successive ignition it is to electrode positioned on top with vertical position of lamp. EFFECT: enhanced efficiency of process. 2 cl, 1 tbl

Description

 The invention relates to the electrical industry, in particular, improves the method of operation of a gas discharge lighting lamp.

 Known methods of operating a gas discharge lamp for a horizontal combustion position, according to which the ignition and maintenance of the discharge are carried out, followed by disconnecting the lamps from the power source [1].

 The described method involves only horizontal burning of the lamp, otherwise the lamp prematurely fails due to overheating of the upper part of the burner, in particular the melt of the upper electrode.

 The disadvantage of this method is the low lamp life.

 This happens because each subsequent ignition of the lamp occurs under conditions of condensation of the bulk of the filling components on the electrodes of the lamps. This increases the electron work function of the electrodes and naturally impairs lamp ignition. In metal halide lamps, the negative effect of condensate on the electrodes increases, since there are many electronegative halogen compounds in the composition of the filling components.

 The closest in technical essence is the method of operation of gas discharge lamps of an arbitrary position of combustion, according to which, to ensure re-ignition of the lamp, forced cooling of individual zones of the burners is performed to condense the filling components on them [2].

 In the indicated method, before the next switching on of the lamp, the electrodes are devoid of condensation of the filling components, which facilitates the ignition of the lamp.

 The disadvantage of this method is the high cost of its implementation, since for forced condensation it is necessary to use directed air flow, and lighting devices for the most part do not have forced cooling. Therefore, it is necessary to extremely complicate the design of the lighting device.

 The aim of the invention is to simplify the method.

 The essence of the invention lies in the fact that they carry out ignition and maintenance of the discharge, followed by disconnecting the lamp from the power source, and before switching it on again, it is forced to cool the surface of the burner.

 The difference between the method in accordance with the invention is that it is transferred from the power source to the vertical combustion position.

In the proposed method, the lamp before disconnecting from the power source (for 2.0-5.0 min) is translated into the vertical combustion position. During this time the lamp is stabilized to a new thermal mode, wherein the temperature at the top of the burner in lamps 100-150 ^o C exceeds the lower portion of the burner temperature. When the lamp is turned off, the upper part of the burner naturally cools more slowly and, as shown by the results of experiments, the bulk of the filling components condenses on the lower electrode and the lower part of the burner. In this case, the upper electrode remains practically devoid of condensate. That is why subsequent ignition of the lamp is greatly facilitated. Improved ignition reduces atomization of the electrodes, and therefore increases the service life.

 The same nature of the phenomena is preserved for the operation of metal halide lamps - only here ignition is carried out not by a supply voltage, but by a high-voltage electric pulse (VEI). In this case, it becomes possible to optimize the next ignition. To do this, it is necessary to supply the VEI to the electrode, which was at the top when the lamp was burning in the vertical position, i.e. to an electrode in a more favorable position. As practice shows, the ignition of the lamp is further improved.

 The burning time of the lamp in a vertical position is determined experimentally. It should be within 2-5 minutes. With shorter times, the thermal operating mode of the lamp changes slightly and does not prevent the condensation of the filling components on the upper electrode.

 When the lamp burns in the vertical position for more than 5 minutes, condensation is prevented, however, there is a danger of lamp failure due to overheating of the upper part of the lamp burner, in particular the upper electrode.

 A device for implementing the method according to the invention is a light device having a device for orienting the lamp in a vertical position. By the way, a significant part of existing lighting devices (especially on television and cinema) have such devices. The electrical circuit of the device for implementing the method includes a ballast resistance Rb, which can be active, inductive, capacitive or combined. In series with the ballast resistance Rb, an EL lamp is connected. If necessary, an ignition device G is connected in parallel with the EL lamp, while the high-voltage wire of the ignition device is connected to the electrode located upright during combustion.

 The introduction of the proposed method of operation will allow, with a slight complication of the nature of the operation of the lamp to increase the lamp life.

Claims (2)

 1. METHOD OF OPERATION OF A GAS DISCHARGE LAMP FOR HORIZONTAL POSITION OF COMBUSTION, according to which ignition and maintenance of the discharge are carried out, followed by disconnection of the burner from the power source, and to ensure the re-inclusion of the burner, its surface is forced to cool on the condensation of the filling components, characterized in that the forced cooling the burner is carried out by translating it into a vertical combustion position for 2 to 5 minutes before disconnecting the burner from the power source.  2. The method according to claim 1, characterized in that the ignition of the discharge is carried out by applying a high-voltage electric pulse to the electrode, which, in the vertical position of the burner, was in its upper part.

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