RU2540420C2 - Method of bend indication of reactor channel and device for its implementation - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: indication device contains multisection probe installed in the reactor channel. The probe is in form of connected with each other hollow cylindrical sections, in them the electrode passing through all sections is installed on the electric insulators. The electrode is mechanically weakened at places selected for bend monitoring between the electric insulators. The multisection probe is inserted in the reactor channel for the operation period. During operation the fact of the reactor channel distortion is determined by short circuit of the electrode inside the probe sections against the internal surface of one or several sections.

EFFECT: improvement of channel bend indication.

6 cl, 4 dwg

Description

The group of inventions relates to means of technological control of the reactor channel, which is in limited access conditions, and in particular to means for indicating the bending of the technological channel of a RBMK high-power reactor during its operation.

During the operation of reactors, various loads arise on the elements of their design, which leads to the need to control the mechanical processes in the reactor. For trouble-free operation of the reactor, it is necessary to control the bending of its technological channels during operation. The following methods and devices are known for technological control of the bending of the channel of a working reactor.

A known method of indicating the bending of the reactor channel from the description of the invention under the name "Device for controlling the curvature of the technological channels of a nuclear reactor" [RF Patent No. 2361173, G01B 5/20, G21C 17/017, Pub. 07/10/2009]. According to the method, for the duration of operation, a multi-section probe is introduced into the reactor channel and a change in the relative position of the probe sections and the channel wall is used to judge the bending that has occurred.

During operation of the reactor, the gap between the probe sections made in the form of cylindrical bushings changes, as a result of which the multi-section probe bends, taking the shape of a channel, which leads to a change in the position of the core in the displacement sensor. The recording of the displacement sensor readings is performed continuously using secondary equipment, for example, a recorder.

This method is the closest analogue to the claimed method and is selected as a prototype, as it has the largest number of common essential features.

The disadvantage of this method can be considered low sensitivity to the curvature of technological channels. Also, the method does not allow to obtain information about bends at different levels along the height of the technological channels.

A device for indicating a bend of a reactor channel from the description of the invention is known as: “A device for controlling the curvature of technological channels of a nuclear reactor” [RF Patent No. 2361173, G01B 5/20, G21C 17/017, Pub. 07/10/2009]. It contains a multi-section probe installed in the reactor channel.

The probe is made in the form of a rod element assembled from bushings connected by fasteners by means of pins to provide a gap between the ends, and interacts with a displacement sensor, which is installed in the upper part of the reactor channel. A weighting material is provided in the upper part of the rod element, and the support sleeve is made in the form of a glass with a hole in the bottom.

This device is the closest analogue to the claimed device and is selected as a prototype, as it has the largest number of common essential features.

The disadvantage of this device can be considered limited by the place and time of monitoring a working reactor, due to the control using a reloading machine. In addition, it is difficult to use the device with lateral bends of the technological channels by an amount greater than the radius of the technological channel.

Analysis of the known methods and devices for indication allows us to conclude that the prior art does not provide the means to display the channel of the reactor for a long time with high sensitivity to lateral bends and in conditions of limited access to the reactor.

The objective of the invention is to provide a method and device that allows under conditions of limited access to provide a reliable and more informative indication of the bending of the reactor channel.

The technical result of the claimed group of inventions is to increase the information content of the bend of the reactor channel during its operation.

To obtain the indicated technical result, in the method for indicating the bending of the reactor channel, a multi-section probe is introduced into the channel during the operation of the reactor, and bending is judged by changing the relative positions of the probe sections and the channel walls, according to the invention, during operation, the fact that the reactor channel is bent by closing the electrode located inside the sections of the probe, with the inner surface of one or more sections, caused by the curvature of the reactor channel in the circuit.

The specified technical result is achieved by the fact that the device for indicating the bending of the reactor channel contains a multi-section probe installed in the reactor channel, according to the invention, the probe is made in the form of hollow cylindrical sections conjugated to each other, inside of which an electrode passing through all sections and mechanically weakened is installed in places chosen to control bending between electrical insulators.

The hollow cylindrical sections in places of interfacing with each other can be made mechanically weakened and displaced in the axial direction relative to the mechanically weakened place of the electrode, while the electrode will not have electrical insulators in the area between the interface of the sections and the place of mechanical weakening of the electrode.

In places where the bending of the reactor channel is controlled, the mechanical weakening of the electrode can be performed in the form of a stretched metal string, on one side of which metal strings are electrically connected, stretched parallel to the string between two additional electrical insulators and electrically closed to the inner surface of the hollow cylindrical section when bending the reactor channel.

The electrode is mounted on insulators with the possibility of closing with the inner surface of the hollow cylindrical section, which can be implemented through individual resistances.

Individual resistances can be selected from the series R ⁿ , where n is the number of resistances, and R is the resistance, much larger than the spread of the electrical contact of the electrode with the inner surface of the section.

The presence in the claimed group of inventions of features that distinguish them from the closest analogues, allows us to consider them appropriate to the condition of "novelty."

New features that contain the distinctive parts of the independent claims are not identified in technical solutions for a similar purpose. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

Figure 1 schematically shows a display device installed in the operating position for indicating the channel of the reactor.

Figure 2 shows a design variant of the probe with a flexible section of the cylindrical section.

Figure 3 shows a design variant of the probe with metal strings installed on the insulator and connected through resistance to the electrode.

Figure 4 shows the design of the probe of the device for indicating when bending the channel of the reactor

A device for indicating the bending of the reactor channel (Fig. 1) contains a multi-section probe 1 located in the channel 2 of the reactor 3. The probe 1 is made in the form of interconnected hollow cylindrical sections 4, inside of which an electrode 6 is installed on the electrical insulators 5. The electrode 6 passes through all sections 4 and mechanically weakened in the places selected for monitoring 7. The probe 1 is connected using electric cables 8, output through the radiation protection sealing unit 9, to an electric current source 10 and an ohmmeter 11, which are located at the required at a distance from reactor 3.

The hollow cylindrical sections 4 at the points of interfacing 12 with each other can be made (Fig. 2) mechanically weakened and displaced in the axial direction relative to the mechanically weakened place 7 of the electrode 6, while the electrode 6 will not have electrical insulators 5 in the area between the place 12 of the interface sections 4 and place 7 of the mechanical weakening of the electrode 6.

In places 7 of the control of the bending of the channel 2 of the reactor 3, the mechanical weakening of the electrode 6 can be performed (Fig. 3) in the form of a stretched metal string 13, on one side of which metal strings 14 are electrically connected through individual resistances 16, stretched parallel to the string 13 between two additional electrical insulators 15 and electrically closed with the inner surface 17 of section 4 when bending the channel 2 of the reactor 3. In this embodiment, in addition to determining the section 4, in which the electrode 6 was shorted to the internal surface 17 of the hollow cylindrical portion 4 through the string 13 and is electrically connected with it through the individual resistance of 16 string 14 can determine the direction of the bending resistances of the difference, for the ohmmeter 11.

The electrode 6 is mounted on electrical insulators 5 with the possibility of closing with the inner surface 17 of the hollow cylindrical section 4, which can be implemented through individual resistances 16. With this embodiment, the closure through individual resistances 16 makes it possible to indicate the portion and / or direction of bending of channel 2 of reactor 3.

Individual resistances 16 can be selected from the series R ⁿ , where n is the number of resistances, and R is the resistance, much larger than the spread of the electrical contact of the electrode 6 with the inner surface 17 of section 4.

To implement the method of indicating the bending of channel 2 of the reactor 3, a multi-section probe 1 is introduced into it for the duration of operation and, by changing the relative position of the sections 4 of the probe 1, the bending has occurred. In the process of operation, the fact of curvature (Fig. 4) of channel 2 of reactor 1 is recorded by shorting the electrode 6 located inside sections 4 of the probe 1 with the inner surface 17 of one or more sections 4 caused by the curvature of channel 2 of reactor 3 in the circuit 18.

Thus, the above information indicates that when using the claimed group of inventions the following set of conditions:

- a method and an indication device embodying the claimed invention in their implementation, are intended to indicate the bending of the technological channel of the RBMK high power reactor during its operation;

- for the claimed group of inventions, as described in the independent claims, the possibility of their implementation using the means and methods described in the application or known prior to the priority date is confirmed;

- the method and display device embodying the claimed invention in their implementation, are able to provide increased information content indication of the bend of the reactor channel during its operation.

Therefore, the claimed group of inventions meets the patentability criterion of "industrial applicability".

Claims (6)

1. A method for indicating the bend of the reactor channel, which consists in introducing a multi-section probe into the channel during the operation of the reactor and judging the bending occurring by changing the relative position of the probe sections and the channel wall, characterized in that during operation the fact that the reactor channel is bent is recorded by the closure of the electrode located inside the sections of the probe, with the inner surface of one or more sections, caused by the curvature of the reactor channel in the circuit. 2. A device for indicating the bending of the reactor channel, containing a multi-section probe located in the reactor channel, characterized in that the probe is made in the form of hollow cylindrical sections mated with each other, inside of which an electrode is installed on electrical insulators, passing through all sections and mechanically weakened in Selected to control bending locations between electrical insulators. 3. The display device according to claim 2, characterized in that the interface between the hollow cylindrical sections is mechanically weakened and displaced in the axial direction relative to the mechanically weakened location of the electrode, while the electrode does not have electrical insulators in the area between the interface of the sections and the place mechanical weakening of the electrode. 4. The device according to claim 2, characterized in that in the places where the bend of the pipe is controlled, the mechanical weakening of the electrode is made in the form of a stretched metal string, on one side of which metal strings are electrically connected, stretched parallel to the string between two additional electrical insulators and electrically closed from the inside the surface of the hollow cylindrical section when bending the channel of the reactor. 5. The device for indication according to claims 2-4, characterized in that the electrode is mounted on electrical insulators with the possibility of short circuiting with the inner surface of the hollow cylindrical section through individual resistances during bending of the reactor channel. 6. The display device according to claim 5, characterized in that the individual resistance is selected from the series R ⁿ , where n is the number of resistances, and R is the resistance much larger than the spread of the electrical contact of the electrode with the inner surface of the section.

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