SU951480A1 - Spark source of light - Google Patents

Description

one

The invention relates to light sources used, in particular, in measurement technology, especially for illuminating photographs of objects.

Closest to the present invention are spark sources of light, containing a hollow electrode, a grounded firing electrode mounted coaxially with it, these electrodes are connected to corresponding conductors made in the form of flat plates with a hole in which a sleeve is installed made of insulating material. Inside the igniter electrode along it. axis installed, additional isopirovanny electrode. A hollow electrode is connected to an argon source. However, in the known spark light, it is impossible to observe a spark in the direction of its axis, which prevents the use of a source in shadow instruments for visualizing gas-dynamic flows based on the light-

good point because of: a large visible light of the low light area.

In this case, the light source should have small linear dimensions of the luminous-g from the zone, since, in the opposite case, it is impossible to obtain sufficient npov spatial resolution.

The purpose of the invention is to reduce. the size of the light of the region is at the same time increasing the light output and the efficiency of argon.

To achieve this goal, in a spark source cBefa containing a hollow electrode mounted coaxially with

15, a grounded igniter, two conductors, each of KOTOI UX is connected to the corresponding of the indicated electrodes and made in the form of a flat plate with a hole, in which an insulating material sleeve is installed, the additional electrode installed inside the igniter and coaxially with it separated from the first insulating tube, and the source of argon, the additional electrode is made in the form of a tube connected to an source of argon, and the inner diameter of the tube is smaller than the diameter of the output channel, hollow ektroda.

The drawing shows the proposed light source.

The light source contains a hollow insulating sleeve 1 having a through hole provided with a peripheral part in the form of an insulating cup 2, the bottom of which is integral with the end parts of the sleeve so that recesses 3 for installing capacitors 4 are formed. The recesses 3 are covered with a flat insulating plate 5, Capacitors 4 are connected by screws 6 to conductors in the form of flat plates with a central hole: high-voltage 7 and grounded 8. Electrodes are located on the head sleeve. The hollow electrode 9 has an opening 10 and is connected to a high-voltage conductor 7. The ignition electrode 11 contains inside an additional electrode 12 made in the form of a metal tube and an insulating tube 13 and connected to the conductor 8 by a conductor 14 passing through an opening in the sleeve 1. Hole 10 hollow electrode 9 is located coaxially with the outlet of the channel of the electrode 12 in place of its exit to the surface of the electrode

11. The diameter of the hole 10 exceeds the output diameter of the channel of the electrode tube

12. The electrode tube 12 is connected by a dielectric conduit to an argon source (not shown).

The light source includes a discharge between the electrode-tube 12 and the grounded electrode 11 when a high-voltage pulse is applied from a starting circuit (not shown). The discharge formed between the electrodes 11. and 12 is transferred through an argon jet to the electrode 9.

Since the diameter of the hole 10 is larger than the diameter of the channel of the electrode tube 12,

the argon jet entirely passes inside the hole Y. The spark discharge therefore closes to the electrode 9 on the side surface of the hole 10, which increases

There is a solid angle in which the radiation propagates from the end of the spark, and therefore the total intensity of the radiation. The apparent size of the light area is bounded by the diameter of the hole 10,

which allows the spark source to be used for shadow photography using the luminous point method.

If the light source is oriented in such a way that the axis of the argon jet in its center is perpendicular to the optical axis of the shadow device, the light source can be used for shadow studies using the schline-method.

Claims (1)

1. USSR author's certificate No. 546040, cl. H 01 J 61/80, 1975.