CS253142B1 - Equipment for handling the ionization chamber - Google Patents

Abstract

The solution concerns a device for manipulating an ionization chamber for measuring neutron flux, especially in experimental nuclear reactors. It consists of an ionization channel with an ionization chamber, a support ring of an axial and radial bearing, a sleeve, a worm gear and an electric motor. The ionization chamber is loosely placed in the ionization channel and is supported on its bottom and firmly connected to a cable. The ionization channel is deflected from the vertical axis in the lower part and a support ring is firmly connected to it in the upper part, which supports an axial bearing, mounted in the sleeve. The sleeve is attached to the reactor lid, a radial bearing is mounted in the sleeve, which supports a worm wheel firmly connected to the ionization channel.

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for manipulating an ionization chamber for measuring neutron flux, in particular experimental nuclear reactors.

When starting a nuclear reactor, the neutron flux is relatively small and would not be detected by normal measuring chambers. A separate trigger ionization channel is used to measure low neutron flux. If the neutron flux increases after the reactor has been started, this fine ionisation channel would be degraded and must be removed from the core.

Until now, an ionization channel having the shape of a straight tube has been used to measure the neutron flux and has moved completely either horizontally or tilted completely, or the ionization chamber located at the end inside the channel has moved upward from the core.

A disadvantage of the prior art solutions is the complex winches that either moved the ionization chamber or the measuring channel or diverted it. In the first case, the solution required twisting the cable into the springs to allow the pull-out ionization chamber up. All existing solutions are technically more demanding because they require complex rewinding gears, complex operation and assembly. It is also necessary to shield the ionization chamber against direct neutron flux.

These disadvantages are overcome by the ionization chamber handling device according to the invention, which consists of an ionization channel in which the ionization chamber is arranged, a support ring, an axial and radial bearing, a sleeve, a worm gear and an electric motor. The ionization chamber is freely housed in the ionization channel and is supported on its bottom and is connected firmly to the cable. The ionization channel is in the lower part diverted from the vertical axis and in the upper part there is firmly attached to the supporting ring, which bears on the thrust bearing mounted in the sleeve. The sleeve is mounted on the reactor lid and a radial bearing bed is formed at the bottom of the sleeve and is supported by a worm wheel that is fixedly connected to the ionization channel.

The advantage of the device according to the invention is that there is no complicated device for winding cables and traction ropes used to move the ionization chamber, the shielding is solved, the closest space around the core for mounting of other experimental components is free.

The device according to the invention is schematically shown in the drawing.

In the ionization channel 2 the ionization chamber 10 is loosely supported so that it rests in the lower part against its bottom. The ionization chamber 10 is rigidly connected to a cable 10 which passes through the interior of the ionization channel 2, the upper part of which is rigidly connected to a thrust ring 3 which rests on an axial bearing 6 which is loosely received in the sleeve 5. The sleeve 5 is fixed to In the lower part of the sleeve 2 ίθ, a radial bearing bed 6 is formed which is supported by a worm gear 7 which is fixedly connected to the ionization channel 2. The worm gear 2 fits into a worm 2 connected to the shaft of an electric motor 2 mounted on the reactor cover. 12.

When the reactor is started, the neutron flux is measured by rotating the worm wheel 7 and thus the ionization channel by means of the electric motor 2, by moving the ionization chamber 10 into the core 11. After the reactor has started up, when the neutron flux is increased, Channel 2 moves the ionization chamber 10 to a safe distance from the core 11.

Claims (1)

Ionization chamber handling device comprising an ionization chamber with an ionization chamber, a thrust ring with axial and radial bearing, supported by a sleeve and rotated by a worm gear and an electric motor, characterized in that the ionization chamber (10) is firmly connected to the cable (1). ) and loosely inserted and supported on the bottom of the ionization channel (2), which in its lower part is inclined from the vertical axis and in its upper part is firmly attached to the supporting ring (3), which bears against the thrust bearing (4) a sleeve (5), which is attached to the reactor cover (12), and in the lower part of the sleeve (5) is formed a bed for a radial bearing (6) that rests on a worm wheel (7) firmly connected to the ionization channel (2) . 1 drawing