DE3037434C2 - Large area counter tube open on one surface - Google Patents

Description

The invention relates to a large area counter tube open to a large area according to the Preamble of claim 1.

It is the object of the invention to provide a large-area counter tube of this type which has a very small Has background effect, enables a detection of radiation particles with a very short range, a Has relatively low gas consumption and the counting volume is very insensitive to movement caused by the counter tube; Influences on the counting gas surrounding the anode wires.

This object is achieved by the means which are in the characterizing part of claim 1 and in one advantageous embodiment of claim 2 are specified.

The invention is described below with the aid of an exemplary embodiment which is illustrated somewhat schematically in the drawing explained.

The housing 1 of the counter tube is open in terms of flow on its lower large surface 2. For feeding and A large-mesh wire grid 3 is used to form the cathode potential in a manner known per se.

Opposite the large open area 2 is the wall 4. Between it and the wire mesh 3 are in on known way anode wires 5 isolated in the housing 1 tensioned, electrically connected to one another and are at the positive direct voltage potential. The wall 4 and the wire mesh 3, however, lie on negative potential. As can be seen, the wire mesh 3 and the wall 4 delimit the counting volume 6 of a Large area counter tube.

The wall 4 consists of commercially available sintered metal and has, for example, an area of 75 times 75 mm a thickness of 3 mm. Above it is a space 7 into which a gas supply pipe 8 opens.

When the counter tube is in operation, counting gas flows out of tube 8, collects in space 7 and flows through the Large number of pores in the sintered metal wall 4 in the counting volume 6. By the result of the sintering effect The very large number of pores in the wall 4 is inherent in that the viscous gas is already forms a homogeneous layer immediately after exiting the wall 4, in contrast to one conceivable large number of small bores in the wall 4, through which the counting gas in the form of gas jets would emerge, which would first have to mix according to the laws of gas kinetics.

As a result of this homogeneous layer, the anode wires 5 can be attached so close to the wall 4 as this is just possible from other points of view. This allows a very low Reach the height of the counting volume of, for example, 6 mm. This has the consequence that also the background effect a counter tube according to the invention is very low.

As a result of the homogeneous gas layer around the anode wires 5, there is also a significant degree of insensitivity given when moving the counter tube in contrast to a large number of exiting bores Gas jets. There, when moving, there would be a great risk of detachment of the gas jets and the Turbulence with the ambient air exist, so that the counting process on the anode wires is impaired would.

Because the counting volume can be made very flat, radiation particles can also be present very short range, for example of tritium, can be detected.

Advantageously, for the wall 4, the commercially available offer becomes as fine-pored as possible Sintered material selected, for example the material SIKA B 8 from the company Sintermetall Krebsöge GmbH .. Radevormwald. The fine pores allow that with a relatively small amount of gas in space 7 a certain pressure of approx. 27 kPa builds up, the one causes even distribution of the counting gas in space 7. To further support this, in In an advantageous embodiment, the feed pipe 8 extends into the middle of the space 7.

Due to the fact that a homogeneous gas layer forms directly under the wall 4, a is required inventive counter tube for operation only a very small amount of counting gas in comparison with others conceivable methods for feeding the counting gas into the counting room 6.

With all of this, the counter tube according to the invention can be produced with very little effort, since it is for the wall 4 inherently no mechanical processing, such as drilling, is required.

Instead of sintered metal, porous, electrically conductive plastic can be used, for example if that Weight plays a role or other reasons prevent the use of a purely metallic wall 4.

1 sheet of drawings

Claims (2)

Patent claims: 1. Flow open in a large area Large area counter tube for the detection of radioactive surface contamination, with a range of Anode wires in a counting room which can be charged with counting gas and which is delimited on two sides by the large open area and a wall opposite the same, characterized in that that the wall (4) consists of sintered metal or electrically conductive porous plastic and above it a gas collecting space (7) is arranged, into which a feed pipe (8) for the counting gas opens. 2. Large area counter tube according to claim 1, characterized in that the feed pipe (8) to in the middle of the gas collecting space (7) is sufficient