DE1104235B - Measuring device for counting bodies made of electrically conductive material - Google Patents

Description

Measuring device for counting bodies made of electrically conductive material With many devices that are under vacuum or high pressure, it is necessary to to count the supplied parts, mostly bodies made of electrically conductive material and also to check whether they really got to the places which they are intended to achieve. Nuclear physics apparatus, nuclear reactors as well as storage facilities for radioactive preparations are examples of this Apparatus. Counting and control devices are difficult to design, than these apparatuses are usually sealed gas-tight from the outside by a metal jacket are.

Counters are known in which there is a change in inductance or a change in self-induction for counting electrically conductive ones Body is used. The bodies to be counted move on the counting device, a coil, which changes its inductance.

There are also counting devices known in which two counting stations are arranged at a distance from each other, with both counting positions on the counter act. The two measuring coils acting as counting points are different Branches of a bridge circuit laid. 50-period alternating current is used for the measurement used.

Counters are also known in which the change -the Capacity by passing the count itself through the electric field of a Capacitor is used to generate counting pulses.

These known measuring devices are only under considerable technical Effort or not at all suitable to count electrically conductive bodies that in a gas-tight, vacuum or high pressure Move device with metal jacket, as on the one hand the body to be counted the pass through inhomogeneous part of the magnetic field, on the other hand it is not possible to build up an electric field in the space enclosed by the metal jacket, if .the Capacitor plates are arranged outside of the metal jacket, around bushings to be avoided by the pressure-loaded wall of the metal jacket.

It is proposed a measuring device for counting bodies to create from electrically conductive material that as a counting coil around the gas-tight space in which the bodies are conveyed individually, a coil is arranged whose self-induction is changed by the individually passing body will. At the conveyor, which also simultaneously test equipment, for example for the density of the body or its content of radioactive material can, in a manner known per se, one counting coil each at the input and output to be able to check whether everyone got inside Bodies have left this facility and reached their destination. Preferably such coils are in the same bridge circuit, and in different branches built in, so that the sign of the entry and exit pulse as a control can be used. To operate such systems, it is proposed in itself known way to use alternating current of lower frequency, especially alternating current an electrical supply network, for example with a frequency of 50 Hz.

An exemplary embodiment of the invention is shown in the drawing.

It is assumed here that the bodies are spherical in the sluice device 1 and conveyed further through a pipe 2 into a room 3 should. On their way they can go through any test facilities 4.

According to the invention there is now a coil 5 and a coil around the tube 2 6 .laid, the various branches of a bridge circuit 7 belong to the Alternating current of about 50 Hz or a slightly higher low frequency is operated. she contains in a known manner any adjustment members 8 through which the bridge is matched. The bridge voltage is fed to a device 9, one of the known amplifiers with counting devices and other devices containing, for example a time delay measuring device for measuring the time interval between the pulses, coming from the coils 5 and 6 etc. The spherical bodies are made by the Device 10 brought into the tube 2 and give when passing through the coil 5 a Display pulse in the device 9, for example, a positive sign Has. The bodies now pass through the testing device 4 and then the coil 6. When passing through the coil 6 they result in a pulse which in this case has a negative sign and results in the final registration of a body going to its destination, namely the room 3. In the device 9 can now still through a delay relay the time that elapses between the traversing of the coils 5 and 6 is measured and, if this time exceeds a certain level, a warning device, z. B. an acoustic signal can be operated. This makes it possible to determine that also all bodies that are from the device 10 in the transport device and Test facility have been brought, including their destination, namely the volume 3, have achieved.

All bodies that are in their mantle or core can be registered Have a sufficient: amount of electrically conductive material, graphite body, Uranium rods, radioactive preparations, and the like. All of these bodies are contained within one to the outside fully closed, preferably gas-tight space by a filling device 1, 10 and should now be at certain intervals and in certain numbers be delivered to their destination.

The same device can of course also serve to control the discharge to control such body from one system, so that with two such devices an exact balance can be drawn up on how many bodies leave the system or got into it, how many bodies are there within the system.

The proposed setup is surprisingly simple and has proven itself has proven to be extremely reliable in the company, so that it is an essential represents technical progress.

Claims (7)

PATENT CLAIMS: 1. Measuring device for counting bodies from electrical conductive material that move in gas-tight spaces, by changing the Self-induction of coils through the body to be counted using a Bridge circuit for evaluating the counting pulses, characterized in that as A counting coil around the gas-tight space in which the bodies are conveyed individually Coil is arranged, the self-induction in each case by the individually passing through Body is changed. 2. Measuring device according to claim 1, characterized in that that, in a known manner, low frequency, preferably mains frequency, is used for the measurement will. 3. Measuring device according to claims 1 and 2, characterized in that two measuring devices are provided in a manner known per se, of which one at the entrance and the other at the exit of the conveyor or testing facility and which register the bodies entering and exiting the facility. 4. Measuring device according to claim 3, characterized in that in a known manner both coils are in different branches of the same bridge circuit and that Sign of the entry and exit pulse is used for control. Documents considered: German Auslegeschrift No. 1000 426; USA. Patent Nos 1,743,175, 2,731,204, 2,293,933. A. C. r a m b e r g: Technical measurements, 7th edition, 1953, Springer-Verlag.