RU2040066C1 - Lighting device - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: lighting device has torch 1 mounted in external bulb 6 and filled with inert gas and radiating dopes; electrode 2 is mounted on one end of torch and two electrodes 3 and 4, on its other end; each of electrodes is connected in series with ballast 5. Novelty is that radiating dopes are introduced in lamp torch in following composition, mcm. mol/cu.cm: indium halide 0.15-5.0; thallium halides 0.1-4.0; sodium halides - 0.5-10.0; inert gas pressure is between 1.33 and 80.0 kPa. Lamp torch is also filled with mercury in quantity of 0.5 to 60.0 mcm. mol/cu. cm. Electrical characteristics of ballasts are chosen from equation given in description of invention. EFFECT: improved design. 1 dwg, 1 tbl

Description

 The invention relates to the electrical industry, in particular, improves a lighting device with gas discharge lamps.

 A lighting device is known comprising a burner installed in an external bulb filled with an inert gas and mercury, at one end of which one electrode is installed.

 In said lighting device, widely known DRL lamps are used. Device parameters: power and luminous flux are constant.

 However, the inability to change the lamp power and luminous flux reduces the functionality of the light fixture.

 The closest in technical essence is a lighting device containing a burner installed in an external bulb filled with inert gas and emitting additives, an electrode is installed at one end and two electrodes are located at the other end, each of which is connected in series with the ballast.

 In the described lighting device, three modes are possible in terms of power level, i.e. the device can provide three levels of application of the device.

 In this device, the inability to vary the color of the lamp radiation reduces the operational capabilities of the light device.

 The aim of the invention is to expand the functionality of the lighting device.

1,2 1,4 где Р₁ и Р₂ мощности разрядных промежутков, образованных противоположными электродами.This is achieved by the fact that in a lighting device containing a burner installed in an external bulb filled with an inert gas and emitting additives, an electrode is installed at one end and two electrodes are located at the other, each of them connected to ballast resistance, the radiating additives are introduced into burner in the following composition, mk ^. mol / cm ³ . Indium halides 0.15-5.0 Thallium halides 0.1-4.0 Sodium halides 0.5-10.0, and the inert gas pressure is selected in the range 1.33-80.0 KPa. In the lighting device in the burner, mercury in an amount of 0.5-60.0 microns can be used ^. mol / cm ³ and the electrical parameters of the ballasts can be selected from the conditions of the following ratio:

1.2 1.4 where P ₁ and P _{2 are the} power of the discharge gaps formed by the opposite electrodes.

 In the lighting device according to the invention, the composition of the burner filling, selected experimentally, in combination with the ability to change the lamp power allows you to generate radiation of different colors of blue, green and red, which significantly increases the functionality of the light device.

 The drawing shows a schematic diagram of the connection of the lamp in the lighting device.

The burner 1 of an optically transparent material has one electrode 2 at one end, two electrodes 3, 4 are located at its other end, each of the electrodes 3, 4 being connected in series with a ballast (5), which can be inductive, capacitive, active or combined . Burner 1 is hermetically fixed in the outer glass bottle (6). When connecting the electrodes 2 and 3, the lamp develops a certain power P ₂ . Finally, when both ballasts are connected, the lamp power acquires a third P ₃ value.

The composition of the filling is experimentally selected so that at a power of P _{1 it} emits mainly indium halides and the color of the radiation of the lamp is blue. When the power is increased to a value of P ₂ (when electrodes 2 and 4 are connected), thallium radiation prevails and the lamp turns green. With a further increase in power to a value of P ₃ (with the simultaneous operation of all electrodes), sodium halides are mainly emitted and the lamp emits an orange color.

The number of filling components is determined experimentally and selected for indium, thallium and sodium halides in the range, respectively, 0.15 5.0, 0.1-4.0 and 0.5-10.0 microns ^. mol / cm ³ .

 With smaller amounts of these components, they are not enough to work throughout the entire service life, since halides leave the discharge in the processes of adsorption, absorption, chemisorption, etc.

 With large quantities without achieving additional positive effects, the costs of acquiring, processing and introducing components into the lamp burner increase.

When using mercury, its amount is selected from the conditions for ensuring the ignition of the lamp and the optimal voltage on the lamp. It is determined experimentally and selected in the range from 0.5 to 60.0 microns ^. mol / cm ³ .

1,2-1,4.The preferred ratio of power P ₁ and P ₂ determined experimentally and is

1.2-1.4.

 When the power ratio is less than 1.2, the difference in the color of the radiation is not so distinct.

With a power ratio greater than 1.4, with a power value of P _{2, the} lamp does not emit green, but orange, with the combined operation of all the electrodes, the color of the radiation becomes not orange, but close to white, i.e. the purpose of the invention is not achieved.

 Examples of specific performance are given in the table.

 The implementation of the invention will significantly expand the functionality of the lighting device due to the possibility of generating radiation in three different colors. In this case, the manufacturing cost of the device is practically unchanged.

Claims (3)

LIGHTING DEVICE containing a burner installed in an external bulb filled with inert gas and emitting additives, one electrode at one end and two electrodes at the other end, each of which is connected in series with the ballast, characterized in that the radiating additives are introduced into lamp burner in the following qualitative and quantitative composition, μmol / cm ³ :
Indium halides 0.15 5.0
Thallium halides 0.1 4.0
Sodium halides 0.5 10.0
and the inert gas pressure is selected in the range of 1.33 to 80.0 kPa. 2. The device according to claim 1, characterized in that mercury is additionally introduced into the lamp burner in an amount of 0.5 to 60.0 μmol / cm ³ . 3. The device according to claims 1 and 2, characterized in that the electrical parameters of the ballasts are selected as follows: P ₁ / P ₂ 1.2 1.4, where P ₁ P _{2 is the} power of the discharge gaps formed by the opposite electrodes.

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