RU200719U1 - A device for measuring the physical and mechanical characteristics of the elements of the core of a nuclear reactor - Google Patents

Abstract

The utility model relates to nuclear technology, and more specifically to devices for measuring the physical and mechanical characteristics of the elements of the core of a nuclear reactor. The specified technical result is achieved by the fact that in a known device for measuring physical and mechanical characteristics, containing tubular measuring rods, heights, sensors are installed, connected by cables with control and measuring equipment, equipped with a sealed container for placing control and measuring equipment, while holes for the passage of cables are made in the container. In addition, the insulated cover is equipped with a portable eyebolt. The technical result of this utility model is to provide an opportunity to measure the physical and mechanical characteristics in any cell for placing a fuel assembly in the core, for example, with a heavy liquid metal coolant. 1 wp f-ly, 2 dwg

Description

The utility model relates to nuclear technology, and more specifically to devices for measuring the physical and mechanical characteristics of the elements of the core of a nuclear reactor.

The closest in terms of the set of essential features to the claimed utility model is a device for measuring the physical and mechanical characteristics of fuel elements, containing tubular measuring rods equipped with sensors located at different heights of the rod and placed in a cassette. Tubular measuring rods with geometrical dimensions, linear mass and fixing conditions in the cassette correspond to full-scale fuel cells. The sensor cables are led out of the axial hole of the measuring rods in one of the threaded shanks. (Technological part. Technology of vibration testing of VVER-1000 reactor plant fuel assemblies, Information resource "arthic.ru", http://arthic.ru/vver1000/bezopas13 (18.10.2019)).

The disadvantage of this device is the impossibility of using it in a liquid metal nuclear reactor.

The length of the cables makes it impossible to quickly remove them from the measuring rods, and during the operation of the rotary plug of a nuclear reactor, cables break.

The static nature of the cable allows measurements to be carried out only in a single cell where the fuel assembly is located.

The objective of the claimed utility model is to create a device for measuring physical and mechanical characteristics, capable of operating along the entire perimeter of the core in a high-temperature working environment, such as liquid metal.

The technical result of this utility model is to provide an opportunity to measure the physical and mechanical characteristics in any cell for placing a fuel assembly in the core, for example, with a heavy liquid metal coolant.

The device for measuring the physical and mechanical characteristics is attached to the head of the simulator of the fuel assembly, and the tubular measuring rods pass through the spacer grids. The eyebolt allows the device to be quickly removed from the fuel assembly simulator and moved.

The specified technical result is achieved by the fact that in a known device for measuring physical and mechanical characteristics, containing tubular measuring rods, inside which sensors are installed, connected by cables with control and measuring equipment, equipped with a sealed container for placing control and measuring equipment, while the container is made holes for the passage of cables.

In addition, the heat-insulated cover is equipped with a portable eyebolt.

The essence of the utility model is illustrated by drawings:

FIG. 1 shows a general view of a device for measuring physical and mechanical characteristics.

FIG. 2 shows the placement of a device for measuring physical and mechanical characteristics in a simulator of a fuel assembly.

The device for measuring physical and mechanical characteristics contains a portable container consisting of a sealed housing 1 with thermal insulation 2, inside which batteries 3 are fixed, a signal processing module 4 and a data carrier 5. In the upper part of the container there is a heat-insulated cover 6 equipped with a sealing element 7 ( rubber gasket), as well as radially spaced nuts 8 and an eyebolt 9 located in the central part. Tubular measuring rods 10 are welded to the holes on the bottom of the container in the required number, which are fuel pipes with a bottom plug 11. Vibration sensors 12 and cables 13 are located inside the probes.

A device for measuring physical and mechanical characteristics works as follows.

During operation, the signal from the sensors 12 located in the tubular measuring rods 10 is sent through cables 13 to the signal processing module 4 and is recorded on the data carrier 5 fixed in the container. After carrying out measurements, the device for measuring physical and mechanical characteristics together with the simulator of the fuel assembly 14 (Fig. 2) is removed from the simulated core, the insulated cover 6 is opened and the data carrier is removed. Data from the data carrier 5 is processed on a personal computer, at this time you can place a new data carrier 5 and load the device for measuring physical and mechanical characteristics together with a simulator of a fuel assembly to a new location.

Claims (2)

1. A device for measuring the physical and mechanical characteristics of the elements of the core of a nuclear reactor, containing tubular measuring rods, inside which sensors are installed, connected by cables with instrumentation, characterized in that the device is equipped with a sealed container with a thermally insulated cover for placing the instrumentation and holes for the passage of cables are made in the container. 2. The device according to claim 1, characterized in that the heat-insulated cover is equipped with a portable eyebolt.

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