DE3118235A1 - Measuring device on a high-temperature nuclear reactor having sensors - Google Patents

Abstract

Measuring device on a high-temperature nuclear reactor or its individual components, in particular having non-replaceable sensors or thermocouples. A plurality of juxtaposed sensors of a spatial measuring region are combined to form a group and arranged at the measurement sites, and the transmission lines of the sensors of in each case one measurement group are led out, united to form a bundle of lines, from the reactor and to a measurement display unit.

Description

Measuring device on a high-temperature nuclear reactor with

Measuring sensors The invention relates to a measuring device on a high-temperature nuclear reactor or its individual components, especially with non-exchangeable sensors or thermocouples.

For safety reasons, all components and parts of the Reactor core especially in the reactor cavern and especially in the initial or the start-up phase of reactor operation through appropriate instrumentation monitors and the behavior of the reactor during the various operational and Incidents are continuously and permanently registered. Suitable for this purpose themselves especially non-replaceable transducers that are used in the case of temperature measurement Thermocouples are. However, these must be installed in such a way that they are free of interference work and guarantee unadulterated measurement results.

Accordingly, the object of the invention is to provide a measuring device to create the genus mentioned with simple means, with the help of this accurate and reliable readings are continuously obtained.

According to the invention this object is achieved in that several together arranged sensors of a spatial measurement area combined into a group and are arranged at the measuring locations and that the transmission lines of the measuring sensors one measuring group in each case combined to form a bundle of lines out of the reactor and are led to a measuring display device.

In advantageous refinements of the subject matter of the invention, provision can be made be that this has the features of the features mentioned in the dependent claims 2 to 7 having.

With this group-wise and precisely specified arrangement of the transducers at the measuring points and the progressive summary of their guided measuring conductors or transmission lines to line bundles can be both extensively equipped of the components with transducers and thus a complete and precise recording the measured values at the measuring points of all spatial areas of the reactor of interest, as well as a significantly simplified assembly of the measuring line can be achieved. Further can thus damage the transducers and their transmission lines to a large extent be excluded.

The following are exemplary embodiments of the subject matter of the invention stands described in more detail using the accompanying drawing.

1 shows a section through a reactor core along I-I in Fig. 2, Fig. 2 in the upper half a section along II-II and in the lower half Half a section along III-III in Fig. 1, Fig. 3 is an enlarged view of a section of the bottom reflector of the reactor core with built-in sensors and arrangement of the measuring line guide, Fig. the mounting and fastening of the transducers 4- F or their transmission conductors in different versions, Figs. 1 to 3 show an overview of an installation example of a line bundle 12 with branches 14 on the bottom reflector 10 of a reactor core. The transducers or thermocouples 16 are arranged at fixed measuring points in the floor reflector 10. These measuring points are located on or in the cooling gas ducts 18 of the sectors 20 according to FIG. 3 of the floor reflector 10. The of the individual measuring points of a spatial measuring area Coming line branches 14 are successively in this way to form a line bundle 12 summarized that the latter is laid as straight as possible over or in a Number of segments allowed. At the edge of the cavern, the bundle 12 penetrates the side reflector 22 and the thermal side plate, not shown, and is through the in the prestressed concrete container built-in armored pipes led to appropriate measuring display instruments. The bundle of cables 12 is guided in grooves 15 of the sectors 20.

The bundle of lines 13 can, depending on the location of the measuring points, also the dividing line 30 between the upper and lower floor reflector 10, 11 or at the Separation line 32 between the upper and lower bottom shield 34, 36 in grooves 40, 42, 46, 48 be performed. When the measuring points are arranged in the direction of cooling or hot gas of the arrows A flow through rooms or channels 18, 19, the sensors 50 hang after down into the channels 19, with the transmission lines 52 in grooves 42, 48 are fastened by means of plugs 54 or by means of heat-resistant cement 56. When ordered the measuring points in the material, on the other hand, the measuring sensors 60 are inserted into bores 61 and the transmission lines 62 are fastened in the groove 40 by means of plugs 63. Of the The sensor 64 can, however, also be inserted in a hole filled with heat-resistant cement 65 be held (Fig. 4 to 9).

Depending on the thickness of the cable bundle 12, 13 and about lateral expansion movements To be able to absorb due to the action of heat, the grooves 15, 40, 42, 46, 48 be made correspondingly wide.

Claims (7)

Claims measuring device on a high-temperature nuclear reactor or its individual components, in particular with non-interchangeable sensors or Thermocouples, characterized in that several measuring sensors arranged next to one another (16, 50, 60, 64) of a spatial measurement area combined into a group and are arranged at the measuring locations and that the transmission lines (14, 52, 62) the sensor of one measuring group is combined to form a bundle (12, 13) are led out of the reactor and to a measuring display device. 2. Measuring device according to claim 1, characterized in that the Measuring lines (52, 62) are attached by means of holding plugs (54, 63). 3. Measuring device according to claim 1, characterized in that the Measuring line (52) are attached by means of heat-resistant cement (56). 4. Measuring device according to claim 1, characterized in that the Sensors (64) are attached by means of heat-resistant cement (65). 5. Measuring device according to at least one of claims 1 to 4, characterized characterized in that the transmission lines (14) and the bundle of lines (12, 13) are guided transversely movably in grooves (15, 40, 42, 46, 48). 6. Measuring device according to at least one of claims 1 to 5, characterized characterized in that the measuring sensors (60) in bores (61) of the material to be measured are used. 7. Measuring device according to at least one of claims 1 to 6, characterized characterized in that the measuring sensors (50) are in the hot or cooling gas flow to be measured are arranged freely protruding.