CS198640B1 - Ionic detector of gaseous products of fire - Google Patents

Description

(54) Ionization fire detector

The object of the invention is an ionization fire detector in which the design of the holder of the radioactive preparation, which simultaneously serves as the electrode of the ionization chamber, is solved.

We know ionization detectors in which a radioactive preparation is placed. At the same time, the holder of this preparation serves as one electrode of the ionization chamber and must therefore be perfectly insulated from the other electrode and hence the base plate. A screw connection or soldering is used to attach the electrode with the radioactive preparation. However, each connection must be provided with a resilient element to compensate for the thermal expansion of the insulator and the radiator holder. The installation of such electrodes takes a long time and the worker is endangered by radioactive radiation throughout the assembly.

The above drawbacks are overcome by the ionization fire detector according to the invention, characterized in that the upper radioactive carrier is connected to the lower radioactive carrier inserted into the lower insulator, through the outlet of the transistor across the plate by spring tension, which rests on one end against the upper the radioactive preparation carrier and the other end with an upper insulator placed on the plate.

Another feature of the invention is that the upper carrier of the radioactive preparation is connected to the lower insulator.

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Another feature of the invention is that the upper carrier of the radioactive preparation is pin-connected to the lower carrier of the radioactive preparation or the lower insulator.

The connection of the radioactive agent carriers by the spring voltage and the transistor outlet allows reliable electrical and mechanical connection of the assembly, while the assembly is simplified and shortened in time.

The drawing shows an exemplary embodiment of an ionisation fire detector, in which, in FIG. Fig. 2 is a cross-sectional view of an ionization chamber with a radioactive preparation carrier having a connecting pin and plate.

The ionization chamber 2 is formed by a mesh or perforated sheet and forms one of the electrodes of the ionization sensor. The second electrode consists of the upper carrier 1, which passes through the upper insulator 6 and is connected through the outlet of the evaluation transistor 4 to the lower carrier 2 by the spring 9, which bears one end on the upper carrier 1 and the other on the upper insulator 6. The lower carrier of the radioactive preparation 2 is insulated from. the plate 2 with a bottom insulator 3 and with a third electrode 8, which is in the form of a closed lid and forms a compensation chamber. The connection of the upper carrier 1 to the lower carrier 2 or to the lower insulator 10 can be made by means of a pin 11, as shown in FIG. 2.

The assembly is performed by inserting the insulator 3 into the plate 5, sliding the top insulator 6 so that the transverse holes are aligned and facing the evaluation transistors. Insert the lower radioactive carrier 2 and the upper radioactive carrier 1 with the spring 9 inserted into the insulators 2 and 6, the transverse holes of both carriers 1 and 2 having the same direction as the holes in the insulators 2 and 6. an opening passing through the insulators 3 and 6 and the carriers 1 and 2. The outlet of the evaluation transistor 6 or the pin 11 are inserted into this opening, whereby the assembly is mechanically secured and the two radioactive preparation carriers are electrically connected.

By connecting the two transducer carriers to each other, both mechanically and electrically, with a constant mechanical voltage, a perfect and permanent electrical connection of the transducer carriers to the evaluation transistor is ensured. The length of the line to the radioactive agent carrier is reduced to a minimum, thereby guaranteeing stability and substantially improving the parameters of the ionization current sensing circuit.

Claims (3)

SUBJECT OF THE INVENTION An ionisation fire detector comprising one or two ionization chambers of a transistor, a radioactive carrier and an insulator plate, characterized in that the upper carrier of the radioactive preparation (1) is connected to the lower carrier of the radioactive preparation (2) inserted into the the lower insulator (3) through the transistor outlet (4) through the plate (5) under the tension of a spring (9) which bears on one end against the upper carrier of the radioactive agent (1) and the other end against the upper insulator (6). Ionization detector according to claim 1, characterized in that the upper carrier of the radioactive preparation (1) is connected to the lower insulator (10). 3. The ionisation detector according to claim 1, characterized in that the upper carrier of the radioactive preparation (1) is connected to the lower carrier of the radioactive preparation (2) or to the lower carrier. ·. the insulator (10) with the pin (11).