RU2201009C2 - Gas-discharge lamp - Google Patents

Abstract

FIELD: electrical engineering; general- illumination lamps. SUBSTANCE: gas-discharge lamp has discharge torch made of optically transparent material and enclosed in glass bulb filled with metal-halide dopes and/or mercury and inert-gas containing compound with main and starting electrodes, as well as lamp-pin current leads installed at each of its ends; current leads of discharge-torch main electrodes are secured to current leads of lamp pin at certain angle to discharge-torch axis chosen from expression 40≤a≤70^°, discharge torch mass, length of main-electrode to point of fixation and its diameter connected by relation

Description

 The invention relates to the field of electrical engineering, in particular, improves gas discharge lamps serving for general lighting purposes.

 Known discharge lamps containing quartz burners with hermetically sealed electrodes, filled with an inert gas and a mercury-containing composition [1].

 Known discharge lamp containing a burner of optically transparent material, filled with at least mercury and inert gas, at each end of which is hermetically installed one main and igniting electrode, electrically connected to each other through limiting resistance, and fixed in an external glass cylinder [2 ].

 The closest in technical essence is a gas discharge lamp containing a burner mounted in an external cylinder of an optically transparent material, filled with metal halide additives and / or a composition containing mercury and inert gas, at each end of which the main and igniting electrodes are sealed, and the ignition electrodes are electrically electrically connected to opposite main electrodes through limiting resistance (resistors) and current inputs of the lamp legs [3].

 A disadvantage of the known designs of discharge lamps is the high cost and insufficient mechanical strength of the electrical connection (mounting of the burners) of the current inputs of the burner with current inputs of the legs.

 The objective of the invention is to reduce costs and increase mechanical strength.

где m - масса разрядной горелки, г;
l - длина токовых вводов основного электрода разрядной горелки до места закрепления к токовому вводу ножки лампы;
d - диаметр токового ввода электрода разрядной горелки;
α - угол между токовым вводом основных электродов и осью разрядной горелки в направлении к цоколю лампы.The problem is achieved in that in a gas discharge lamp containing a discharge burner made of an optically transparent material enclosed in an external glass cylinder, filled with metal halide additives and / or a composition containing mercury and inert gas, in each of which the main and igniting electrodes are hermetically mounted, and ignition electrodes are electrically connected to opposite main electrodes through limiting resistances (resistors) and current inputs of the lamp foot, while current input The main electrodes of the discharge torch are fixed to the current inputs of the lamp leg at an angle to the axis of the discharge torch in the direction of the lamp base, and selected from the relation
40 ^° ≤ a ≤ 70 ^°
moreover, the mass of the discharge burner, the length of the current input to the fixing point and its diameter are related by the relations

where m is the mass of the discharge burner, g;
l is the length of the current inputs of the main electrode of the discharge torch to the point of attachment to the current input of the lamp legs;
d is the diameter of the current input of the discharge burner electrode;
α is the angle between the current input of the main electrodes and the axis of the discharge torch towards the lamp base.

 The fulfillment of the above ratios provides the necessary mechanical strength and sufficient compensation for the thermal expansion of the mounting parts during lamp operation.

и α>70^o не обеспечивается необходимая механическая прочность, что может привести к разрушению монтажа при транспортировке ламп.When the relation

and α> 70 ^o does not provide the necessary mechanical strength, which can lead to destruction of the installation during transportation of lamps.

и α<40^o конструкция монтажа получается чрезмерно жесткой, что приводит к деформации деталей в результате их теплового расширения.At

and α <40 ^o the installation design is excessively rigid, which leads to deformation of the parts as a result of their thermal expansion.

 The essence of the invention is illustrated by drawings.

 Figure 1 shows the design of the discharge lamp, figure 2 shows the assembly drawing of the mounted legs.

 The main design elements of the discharge lamp are a discharge burner 1 made of optically transparent glass, an outer bulb 2. The current inputs of the legs 3 are used to fix and electrically turn on the burner 1 using a cap 4. The light source is a discharge ignited between the two main electrodes 5. The outer bulb 2 plays the role of a burner insulation and ensures the independence of its thermal regime from external temperature, protects the burner from damage and contamination, and in some cases serves to apply a layer of phosphor a.

где m - масса разрядной горелки, г;
l - длина токовых вводов основного электрода разрядной горелки до места закрепления к токовому вводу ножки лампы;
d - диаметр токового ввода основного электрода разрядной горелки;
α - угол между токовым вводом основных электродов и осью разрядной горелки в направлении к цоколю лампы.The burner 1 has two main 5 and two ignition electrodes 6, located at a small distance from the main electrodes 5. Ignition electrodes 6 through resistors 7 are connected to the opposite main electrodes 5. The current inputs of the legs 3 are connected to the socle 4. The current inputs 8 of the main electrode 5 are fixed to the current inputs of the lamp legs at an angle to the axis of the discharge torch and which is selected from the ratio
40 ^o ≤α≤70 ^o ,
moreover, the mass of the discharge burner, the length of the current input of the main electrode to the fixing point and its diameter are related by the relations

where m is the mass of the discharge burner, g;
l is the length of the current inputs of the main electrode of the discharge torch to the point of attachment to the current input of the lamp legs;
d is the diameter of the current input of the main electrode of the discharge burner;
α is the angle between the current input of the main electrodes and the axis of the discharge torch towards the lamp base.

 When the lamp is operating, a glow discharge initially arises between the main 5 and the ignition electrode 6, which subsequently leads to a breakdown of the gap between the main electrodes and the occurrence of a discharge between them.

 The current inputs of the main and ignition electrodes are selected from the following conditions.

1. To withstand the temperature of sealing electrodes in an optically transparent material (usually quartz) of the order of 1500-2000 ^o C;
2. Provide a vacuum tight connection. Examples of specific performance are given in the table.

 The use of the invention provides a significant economic effect, since the introduction of this technical solution into production reduces the cost of manufacturing gas discharge lamps and improves their quality by increasing their mechanical strength.

Sources of information
1. Rokhlin G.N. Gas discharge lamps. M .: Energoatomizdat, 1991, p. 503-518.

 2. Reference book on lighting engineering / Ed. Yu.B. Eisenberg. M., 1995.

 3. RF patent 2037908, BI 17, 1995 (prototype).

Claims (1)

A gas discharge lamp containing a discharge burner made of an optically transparent material enclosed in an external glass cylinder and located along the axis of the lamp, filled with metal halide additives and / or a composition containing mercury and inert gas, at each end of which the main and ignition electrodes are sealed, and current inputs lamp legs, characterized in that the current inputs of the main electrodes of the discharge torch are fixed to the current inputs of the lamp legs at an angle to the axis of the discharge torch, selected from a ratio of 40≤a≤7 0, and the mass of the discharge burner, the length of the current input to the fixing point and its diameter are related by the relations

where m is the mass of the discharge burner, g;
1 - the length of the current inputs of the main electrode of the discharge torch to the point of attachment to the current input of the lamp legs;
d is the diameter of the current input of the discharge burner electrode;
α is the angle between the current input of the main electrodes and the axis of the discharge burner.

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