SE454463B - ITHONIZATION SENSOR BY A HALOGEN LICK SOCKET - Google Patents

Description

15 20 25 30 35 40 454. 465 a low efficiency for the surface of the platinum anode - not more than 50%.

Inside the pores of the holder are alkali metal salts, the presence of which causes the emergence of a significant emission background current in the surface ionizer, and, consequently, a decrease in its sensitivity, which can be expressed as the ratio between a useful signal and a background current. BACKGROUND OF THE INVENTION The main object of the present invention is to provide a surface ionization sensor for a halogen leak detector, the holder of which is designed in such a way that its service life can be increased, its thermal inertia reduced and its sensitivity improved.

This object is achieved in that within said surface ionization sensor, which comprises a holder attached inside the body, to which a platinum anode and a platinum cathode are coaxially located, said holder according to the invention is made of a monocrystalline leukosphere.

Such an embodiment of the sensor increases, according to the invention, its service life, lowers its thermal inertia and allows an increase in the sensitivity of the sensor during halogen leak detection.

Brief description of the drawing figures The invention is described in more detail below with reference to concrete examples of its embodiment and the accompanying drawings, in which: Fig. 1 shows a surface ionization sensor at a halogen leak detector, in longitudinal section; Fig. 2 shows another embodiment of a surface ionization sensor, in longitudinal section.

Preferred examples of the invention A surface ionization sensor in a halogen leak detector comprises a holder 2 placed inside a body 1 (Fig. 1), in which a platinum anode 3 and a platinum cathode 4 are coaxially arranged.

In the embodiment described, the holder 2 in the surface ionization sensor is made in the form of a cylinder fi k ° 5 of monocrystalline leukosafir. The body 1 of the surface ionization sensor consists of a jacket 6, a lid 7 with a pipe section 8 for gas intake in the direction according to the arrow A via its inlet hole 9, and a lid 10 with an outlet hole for gas .

The platinum anode 3 is located at the inner surface of the tube 5 along a spiral line and made of a wire, pre-wound in the form of a spiral of small diameter. Coaxial to the anode 3 is the cathode 4 placed therein, made in the form of a platinum wire section and attached to the holder 2 by means of adjustable elements 12 and 13. The adjustable element 13 is made biased by means of a spring 14, which is attached to a bracket 15, soldered to the connection 16 of the cat 4. The holder 2 is attached to the lids 7 and 10 by means of damping means, for example asbestos gaskets 17 and 18.

The anode has connections 19 and 20.

This embodiment of the proposed surface ionization sensor should be used when minimum thermal inertia is required, since said anode 3 ensures a minimal contact between the spiral of the anode 3 and the heated surface of the holder 2.

The surface ionization sensor according to Fig. 2 is designed in a similar way to the surface ionization sensor in Fig. 1 and is characterized in that the holder 2 consists of two elements - a cylinder tube 5 and a rod 21, both of single-crystalline leukosis sapphire.

At the holder 2, a platinum anode 22 and a cathode 23 are coaxially mounted. The anode 22 is placed on the outer surface of the rod 21, while the cathode 23, made in the form of a platinum cylinder, is placed on the inner surface of the tube 5. The rod 21 is attached to the adjustable elements 12 resp. 13 by means of fixing elements 24 and 25 and wire sections 26 and 27.

This embodiment of the surface ionization sensor is advantageous to use in the operation of the anode 2 at high temperatures and when replacement of the anode 22 is required comparatively often. The surface ionization sensor of the halogen leak detector operates as follows: The examined gas, which comprises halogen-organic compounds, for example freon, enters the sensor body 1 (Fig. 1 or 2) via the inlet hole 9 of the pipe section 8 in the direction shown by arrow A. - the direction.

During the passage of the examined gas within the space between the anode 3 or 22 and the cathode 4 or 23, the halogen-organic compounds cause a change in the emission current of the positive ions from the surface of the anode 3 or 22 to the cathode 4 or 23. The emission current is registered. change.

The surface ionization sensor proposed according to the invention for a halogen leak detector has a long service life, extended at least 4-5 times, since its holder, which is made of a very pure material, does not cause erosion of the platinum anode. This sensor's emission background current is equal to 0.001-0.01 pA, as a result of which the sensor's sensitivity is increased. In addition, the present sensor possesses a slight thermal inertia, and the reduction of the emission current after removal from the free space between the anode and the cathode is 10-20 times faster. In Industrial application Surface ionization sensors for halogen leak detectors according to the invention can be used in negative pressure and cooling technology in leak detection in negative pressure and gas-filled systems.

Claims (1)

A surface ionization sensor in a halogen leak detector, comprising a holder (2) attached inside a body (1), to which a platinum anode (3, 22) and a cathode (4, 23) are coaxially located, k characterized in that the holder (2) is made of monocrystalline leukosafir.