CS209129B1 - Apparatus for determining and controlling the density of hollow carriers, in particular deposited uranium oxide particles - Google Patents

Abstract

The invention provides a device for determining and checking the density of the content of hollow carriers, in particular of deposited uranium dioxide particles. The hollow carrier is slidably mounted in a control head, in which a detection unit is also located. The movement of the hollow carrier is ensured by a drive unit connected to the control block. The device can also be used for checking ceramic particles in hollow carriers, or for checking pipes made of ceramic materials.

Description

(54) Equipment for the determination and control of the density of the contents of hollow carriers, in particular deposited uranium dioxide particles

The invention provides a device for determining and controlling the density of the contents of hollow carriers, in particular of deposited uranium dioxide particles. The hollow support is slidably mounted in the control head, in which the detection unit is also located. The movement of the hollow carrier is provided by the drive unit connected to the control block. The device can furthermore be used for checking ceramic particles in hollow carriers or for checking pipes made of ceramic materials.

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The invention provides a device for determining and controlling the density of the contents of hollow carriers, in particular of deposited uranium dioxide particles. The device uses detection units consisting of a radiator and a detector.

Only static defectoecopic radiation was used to control the density of uranium oxide-filled elements. This method gave only rough indicative results. No other appropriate method has been developed for this specific measurement.

These drawbacks are overcome by a device for determining and controlling the density of the contents of the hollow carriers, in particular of the uranium dioxide particles deposited, using the detection unit consisting of a radiator and a detector according to the invention. The principle is that the hollow support is slidably mounted in a control head, in which a radiator and a detector are also arranged, between which a channel is provided. The deho axis perpendicularly intersects the displacement axis of the hollow support. Driving elements of the hollow carrier are located outside the control head.

The output of the detection unit is connected to the evaluation block, while the driving unit of the driving elements is connected to the control block. An electrical coupling can be made between the control block and the evaluation block. A registration block can be connected to the output of the evaluation block.

The device according to the invention serves to determine and control the density of uranium dioxide particles in hollow carriers in the preparation of fuel elements by vibration compaction.

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The device makes it possible to measure over 10 g / cm @ 2 with a measured element diameter of from 6 to 10 mm. In addition to the fully automated measurement, the device also enables the control of the carrier carrier by manual control, whereby the carrier can be freely reversed to any measuring position and the measurement repeated. The device may further be used to inspect ceramic particles in hollow carriers or to inspect solid pipes of ceramic materials.

In the accompanying drawing, an exemplary arrangement of the device according to the invention is shown schematically in side view with a partial section of the control head.

The hollow support 10 is slidably mounted in the control head 20, in which the detection unit 30 is also mounted. The detection unit 30 consists of a radiator 31a of the detector 32, between which a channel 33 is arranged whose axis intersects perpendicularly. Driving elements 40 are located outside the control head 20. The output of the detection unit 30 is connected to the evaluation block 50. The driving unit 41 of the driving elements 40 is connected to the control block 60. An electrical coupling is made between the control block 60 and the evaluation block 50. A register block 70 is connected to the output of the evaluation block 50. The radiator 31 may be, for example, a radioisotope 137 Ce, the detector 32 an ecintillation detection probe. The driving unit 41 of the driving elements 40 in a particular embodiment is a stepper motor. The control block 60 consists of an electric commutator and power amplifiers. A delay element and a de2 of the detection circuit are used to adjust the signal. The evaluation block 50 comprises a linear amplifier, a counter, a time base, a high voltage source, and a stabilized voltage source. The registration block 70 comprises a recorder and a recorder. The fuel element or hollow carrier 10 is filled with uranium dioxide particles which are vibration-densified. The hollow support 10 is inserted into the control head 20 and supported on the entrainment elements 40. The control head 20 serves to collide the radiation beam and reproducibly limits the position of the hollow support 10. the hollow support 10 moves continuously or in steps in the collimated beam of emitter 31, and the intensity of transmitted radiation, the change of which is measured by the detector 32, is a function of the density of the material in the hollow support 10. To read the steps, reproducible. operation and memory setting serve a complex of elements and parts of control block 60. A delay element and a derivative circuit are used to adjust the signal. The drive unit 41 with the control block 60 automatically adjusts the hollow carrier 10 to a preselected measuring position precisely at frequency and with a waiting time for frequency evaluation. The measurement can be reversed to any measuring position and repeated.

The device for determining and controlling the density of the contents of the hollow carriers according to the invention is primarily intended for determining and controlling the density of the filling of fuel elements with uranium dioxide particles. The device may be used, for example, in the ceramic industry.

Claims (3)

SUBJECT OF THE INVENTION Apparatus for determining and controlling the density of the contents of hollow carriers, in particular deposited uranium dioxide particles, using detection units consisting of a radiator and a detector, characterized in that the hollow carrier (10) is slidably mounted in a control head (20) in which a radiator (31) and a detector (32) are arranged between which a channel (33) is arranged, the axis of which perpendicularly intersects the axis of displacement of the hollow support (10), the driving elements (40) of the hollow support (10) ), wherein the output of the detection unit (30) is connected to the evaluation block (50), while the drive unit (41) of the driving elements (40) is connected to the control block (60). Device for determining and checking the density of the contents of the hollow carriers according to claim 1, characterized in that an electrical coupling is provided between the control block (60) and the evaluation block (50), f. Device according to Claim 1 or 2, characterized in that a registration block (70) is connected to the output of the evaluation block (50).