RU2028693C1 - Metal halogen lamp - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: metal halogen lamp has torch made of optical clear material with electrodes installed air-tight and filled with inert gas with additives to provide torch with halogenides of radiating metals. Halogenides of indium in the amount of 0.5-9.0 μmole/cm³ of volume of torch are used as additives. Inert gas pressure amounts to 66.5-200.0 kPa. EFFECT: increased efficiency of metal halogen lamp. 1 dwg, 1 tbl

Description

 The invention relates to the electrical industry, in particular, improves metal halide lamps to attract fish.

Known metal halide lamp containing a quartz burner with hermetically sealed electrodes filled with inert gas, mercury and indium halides (1). In this lamp, due to radiation from the visible triplet of mercury (435, 546, 579 nm) and two indium lines 410 and 451 nm, a spectrum with T _color , ≈ 1000-11000 K and a blue tint is achieved. Such radiation is used for special purposes, for example, to create a blue-blue background when transmitting color television. The disadvantage of these lamps is their extremely low environmental friendliness due to the use of extremely toxic mercury in the filling composition.

 The closest in technical essence is a metal halide lamp containing a burner of optically transparent material with hermetically sealed electrodes, filled with an inert gas and additives to provide the burner with halides of emitting metals (2). As part of the filling of this lamp, scandium and sodium halides were used, which gives high light output of radiation. The disadvantage of this lamp when using it to attract individual fish (for example, hamsa, horse mackerel, mullet) is the low radiation efficiency. This is explained by the fact that in these fish the spectral sensitivity of the eyes is shifted towards short wavelengths of 350-450 nm (in most fish, the maximum falls on wavelengths of 450-500 nm). Therefore, the use of the described lamp to attract these very important commercial fish becomes ineffective.

 The aim of the invention is to increase the radiation efficiency of the lamp to attract fish.

This is achieved by the fact that in a metal halide lamp containing a burner of optically transparent material with hermetically sealed electrodes, filled with an inert gas and additives to provide the burner with emitting metal halides, additives were used in the filling composition to provide the burner with indium halides in an amount of 0.5 to 9 , 0 μmol / cm ³ of the burner volume, and the inert gas pressure is 66.5-200.0 kPA.

In the lamp according to the invention, the experimentally selected composition of the filling allows you to generate a radiation spectrum that increases the radiation efficiency of the lamp to attract fish. By design, the proposed lamp does not differ from the known MGL. The lamp may be made with an external bulb, or may be stripped of it. In most cases, the lamp design is spotty, which is determined by the fact that a pulse of 10-15 kV is needed to ignite the lamp. The principle of operation of the lamp according to the invention is also identical to the corresponding for conventional MGL. After connecting the lamp in series with the ballast to the power circuit, a high-voltage pulse is supplied to the lamp burner, which provides ignition of the arc discharge. As the discharge accelerates, the burner heats up to 750-900 ^о С. This heating leads to the evaporation of the filling components, which enter the discharge channel, where the processes of excitation and emission of indium atoms occur.

 The radiation spectrum of the proposed lamp is shown in the drawing. Against the background of a quasicontinuous spectrum of an inert gas, indium emission lines of -410 and 451 nm are clearly manifested. The dashed line in the figure shows the sensitivity spectrum (averaged) for a group of fish - anchovy, horse mackerel, mullet, etc.

 As can be seen, a good occupancy of the sensitivity spectrum of fish radiation of the proposed lamp is achieved. This allows you to increase the radiation efficiency of the lamp according to the invention to attract the specified group of fish.

The amount of additives to provide the burner with indium halides is determined experimentally and should be in the range of 0.5-9.0 μmol / cm ³ . With smaller amounts of additives, they are not enough in the burner throughout the entire service life. With quantities greater than 9 μmol / cm ³ , with an increase in the cost of acquisition, storage and processing of additives to provide the burner with indium halides, an increase in lamp radiation in the transparency region of ocean water is no longer achieved.

In the amount of additives to provide the burner with indium halides, the following can be used:
1. Directly indium halides.

2. Metallic indium and tin halides. In this case, the formation of indium halides is as follows
I _n + S _n X ₂ Jn + SnX ₂ _ → J _n X + Sn I _n X + S _n (1)
3. Indium oxide, tin halides and aluminum. In this case, indium halide is formed as follows
In ₂ O ₃ + SnX ₂ + Al Jn ₂ O ₃ + SnX ₂ + Al _ → JnX + Al ₂ O ₃ + Sn InX + Al ₂ O ₃ + S _n (2)
Argon, krypton and xenon can be used as an inert gas. It is preferable to use krypton and xenon as gases having the greatest potential gradient in an arc discharge. This allows you to reduce the size of the lamp.

 The inert gas pressure level is determined experimentally. It ranges from 66.5 to 200.0 kPa. At lower pressures, the voltage on the lamp decreases and the dimensions of the lamp increase excessively. At a pressure greater than 200.0 kPa, the lamp becomes explosive.

 Examples of specific performance are presented in table form.

 The application of the invention allows to increase the radiation efficiency to attract certain types of fish (anchovy, horse mackerel, tiles, etc.) and thus increase, under equal conditions, the fish catch.

Claims (1)

METAL HALOGEN LAMP, containing a burner made of optically transparent material with hermetically sealed electrodes, filled with an inert gas and additives to provide the burner with halides of emitting metals, characterized in that, in order to increase the radiation efficiency of the lamp to attract fish, additives used to provide the burner with halides were used as part of the filling indium in the amount of 0.5 - 9.0 μmol / cm ^{3 the} volume of the burner, and the inert gas pressure is 66.5 - 200.0 KPa.

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