JPH09243784A - Wide area neutron flux measurement device - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To protect a neutron detector and prevent deterioration of sensitivity, and to prevent the output of the device from decreasing. A neutron detector for detecting neutrons in a nuclear reactor, an amplifier for amplifying a small signal proportional to a reactor output from the neutron detector, a signal processing circuit for processing and outputting a signal from the amplifier, and a neutron A high-voltage power supply that supplies the operating voltage to the detector, a current limiting circuit that limits the load current of the high-voltage power supply that supplies the neutron detector, and an output that is proportional to the reactor output input from other measuring equipment are preset. Compared with the reactor output measurement range of the self-measuring device, if the input level is within the reactor output measurement range, the output from the signal processing circuit, and if it exceeds the reactor output measurement range, the reactor An output switching circuit that supplies an output exceeding the output measurement range in place of the output from the signal processing circuit to the outside and drives the current limiting circuit to limit the load current of the high-voltage power supply.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a neutron flux measuring apparatus used in, for example, a test and research reactor facility, a nuclear reactor power plant, and the like, and particularly to protect a neutron detector and prevent sensitivity deterioration, The present invention relates to a wide area neutron flux measurement device that does not reduce the output of the device.

[0002]

2. Description of the Related Art Generally, for example, a test and research reactor facility,
A neutron flux measuring device used in a nuclear power plant and the like is composed of several kinds of neutron detectors and a neutron flux measuring device in order to measure a reactor output from a starting region to an output region.

On the other hand, in recent years, the number of plants comprising a wide area neutron flux measuring apparatus for measuring the reactor output from the start-up area to the intermediate area with a single apparatus and an output area neutron flux measuring apparatus has increased. There is.

FIG. 4 is a block diagram showing a structural example of a conventional wide area neutron flux measuring apparatus of this type. That is, as shown in FIG. 4, a conventional wide-area neutron flux measurement apparatus is installed inside or outside the reactor and outputs from the neutron detector 1 that detects neutrons in the reactor and the neutron detector 1. An amplifier (hereinafter referred to as a preamplifier) 2 for amplifying a minute signal proportional to the nuclear reactor output, a signal processing circuit 31 for processing a signal output from the preamplifier 2 and outputting the signal to the outside, and a neutron detector 1 and a high-voltage power supply 32 that supplies an operating voltage to the power supply 1.

The signal processing circuit 31 and the high voltage current 32
Are stored in the wide area measuring circuit 30. FIG. 5 (a)
(B) and (c) are diagrams showing various output characteristics of the output current of the high-voltage power supply 32 versus the output current.

FIG. 6 shows the neutron flux level (Φ _1-
It is a figure which shows the output characteristic of the applied voltage versus output current of a neutron detector by (PHI) ₅ ). As shown in FIG. 6, if the applied voltage is within the plateau range of the neutron detector, the neutron flux level rises, and the output current increases in proportion thereto.

By the way, in such a wide area neutron flux measuring apparatus, when the reactor output rises to a level exceeding the reactor output measuring range of the wide area neutron flux measuring apparatus, the neutron detector In order to protect 1 and prevent sensitivity deterioration, (a) the neutron detector 1 is pulled out to a position where the neutron flux level decreases (b) the output voltage of the high-voltage power supply 32 is, for example, as shown in FIG. In addition, we have implemented a fold-back characteristic to reduce it.

In the case of (a), however, a drive mechanism (not shown) for extracting and inserting the neutron detector 1 and a drive mechanism control device (not shown) for controlling the drive mechanism depending on the reactor output level. Is required. Then, these drive mechanism and drive mechanism control device must be operated frequently corresponding to the operating region of the nuclear reactor.

In the case of (b) above, the high voltage power source 3
The output characteristic of the wide-area neutron flux measurement device is decreased by the fold-shaped characteristic of the high-voltage power source 32, and the output of the neutron detector 1 is decreased in addition to the output characteristic of No. Therefore, even if the reactor power exceeds the reactor power measurement range of the wide area neutron flux measurement device, the output will decrease, which is an irrational state.

As an example of this measure, there is also an apparatus that detects a decrease in the output of the high voltage power source 32 and outputs to the outside that the wide area neutron flux measuring apparatus is in an inoperable state.

As described above, when the reactor output reaches a level exceeding the reactor output measurement range of the wide area neutron flux measuring device, the drive for extracting the neutron detector 1 to a position where the neutron flux level decreases. The mechanism and its drive mechanism controller, and the drive mechanism for inserting the neutron detector 1 into a predetermined position when the reactor output is within the reactor output measurement range of the wide area neutron flux measurement device. , And its drive mechanism control device are required respectively.

In this case, since the drive mechanism has a drive mechanism section for extracting / inserting the neutron detector 1, it needs to be installed near the reactor in addition to being large in size.
In addition, since it requires a large amount of power during driving, it is an unnecessary noise source for a wide-area neutron flux measurement device that measures a minute signal.

On the other hand, without providing a drive mechanism for extracting / inserting the neutron detector 1 and this drive mechanism control device,
In order to protect the neutron detector 1 and prevent the sensitivity from deteriorating, it is necessary for the high-voltage power supply 32 to have a foldback characteristic as shown in FIG. The type of high-voltage power supply 32 used in the device is restricted.

When the reactor output exceeds the reactor output measurement range of the wide area neutron flux measurement device, the output of the wide area neutron flux measurement device is reduced as the output of the high-voltage power source 32 decreases. Since it also decreases, it is necessary to output to the outside that the wide-area neutron flux measurement device is inoperable.

[0015]

As described above, in the conventional wide area neutron flux measuring apparatus, in order to protect the neutron detector and prevent sensitivity deterioration when the reactor output exceeds the measurement range of the apparatus. In addition, there is a problem that it is necessary to provide a drive mechanism and a drive mechanism control device or to give a fold-back characteristic to the output characteristic of the high-voltage power source to output to the outside that the device is inoperable.

It is an object of the present invention to protect a neutron detector and prevent sensitivity deterioration without providing a drive mechanism and a drive mechanism control device when the reactor output exceeds the reactor output measurement range of the wide area neutron flux measurement device. The output characteristics of the high-voltage power supply can be of any type, and it is possible to reduce the output of the equipment by eliminating the need to output the output of the equipment to the outside. It is to provide a wide-area neutron flux measurement device that can keep the output above the measurement range without the need.

[0017]

In order to achieve the above object, in a wide area neutron flux measuring apparatus for measuring a reactor output from a starting region to an intermediate region, in the invention corresponding to claim 1, the reactor is Installed inside or outside the reactor, a neutron detector that detects neutrons in the reactor, an amplifier that amplifies a small signal proportional to the reactor output output from the neutron detector, and a signal output from the amplifier Signal processing circuit to process and output the neutron detector, a high-voltage power supply that supplies the operating voltage to the neutron detector, a current limiting circuit that limits the load current of the high-voltage power supply that supplies the neutron detector, and input from other measuring devices The output proportional to the reactor output is compared with the preset reactor output measurement range of the self-measuring device, and if the level of the input is within the reactor output measuring range of the self-measuring device, the signal is output. To supply the output from the physical circuit to the outside,
When the input level exceeds the reactor output measurement range of the self-measuring device, output above the reactor output measurement range of the self-measuring device is supplied to the outside instead of the output from the signal processing circuit. An output switching circuit that switches the output of the self-measuring device and drives the current limiting circuit to limit the load current of the high-voltage power supply.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 1, when the output from another measuring apparatus is input and the output exceeds the reactor output measuring range of the wide area neutron flux measuring apparatus. Protects the neutron detector by supplying an output above the reactor output measurement range by the operation of the output switching circuit, and issuing a current limiting drive signal from the output switching circuit to the current limiting circuit to limit the load current of the high voltage power supply. In addition, it is possible to prevent the sensitivity from deteriorating and prevent the output of the device from decreasing.

On the other hand, in the invention corresponding to claim 2, a neutron detector installed in the reactor or outside the reactor for detecting neutrons of the reactor and a reactor output output from the neutron detector are provided. An amplifier that amplifies a proportional small signal,
A signal processing circuit that processes and outputs the signal output from the amplifier, a high-voltage power supply that supplies an operating voltage to the neutron detector, a current limiting circuit that limits the load current of the high-voltage power supply that supplies the neutron detector, and others. When the output proportional to the reactor output input from the measuring device is compared with the preset reactor output measuring range of the own measuring device, and the level of the input is within the reactor output measuring range of the own measuring device The output from the signal processing circuit is supplied to the outside, and when the input level exceeds the reactor output measurement range of the self-measuring device, the output above the reactor output measurement range of the self-measuring device is output. The output of the self-measuring device is switched so that the output from the signal processing circuit is supplied to the outside instead of the output, and the output switching circuit that drives the current limiting circuit to cut off the load current of the high-voltage power supply is provided.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 2, when the output from another measuring apparatus is input and the output exceeds the reactor output measuring range of the wide area neutron flux measuring apparatus. Protects the neutron detector by supplying an output above the reactor output measurement range by the operation of the output switching circuit, and sending a current interruption drive signal from the output switching circuit to the current limiting circuit to interrupt the load current of the high voltage power supply. In addition, it is possible to prevent the sensitivity from deteriorating and prevent the output of the device from decreasing.

Here, particularly, as the output from the other measuring device, for example, as described in claim 3, from the output region neutron flux measuring device for measuring a region above the reactor output measuring range of the own measuring device. It is preferable to input the neutron flux output of.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 3, the output from the output area neutron flux measuring apparatus for measuring a region above the reactor output measurement range of the wide area neutron flux measuring apparatus Input, and when the output exceeds the reactor output measurement range of the wide area neutron flux measurement device,
The output of the reactor output measurement range is supplied by the operation of the output switching circuit, and the output switching circuit issues a current limiting drive signal to the current limiting circuit to limit the load current of the high voltage power supply.
It is possible to protect the neutron detector and prevent the sensitivity from deteriorating, and prevent the output of the device from decreasing.

As the output from the other measuring device, for example, as described in claim 4, it is preferable to input the reactor heat output from the reactor heat output measurement for measuring the reactor heat output.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 4, the output from the reactor thermal power measuring apparatus is input, and the reactor output measuring range of the wide area neutron flux measuring apparatus exceeds the range. In this case, the output switching circuit operates to supply an output above the measurement range, and the output switching circuit issues a current limiting drive signal to the current limiting circuit to limit the load current of the high voltage power supply and protect the neutron detector. In addition, it is possible to prevent the sensitivity from deteriorating and prevent the output of the device from decreasing.

Further, as the output from the other measuring device, for example, as described in claim 5, the neutron from the output region neutron flux measuring device for measuring a region above the reactor output measuring range of the own measuring device It is preferable to input the bundle output.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 5, the output from the output area neutron flux measuring apparatus for measuring an area above the reactor output measurement range of the wide area neutron flux measuring apparatus Input, and when the output exceeds the reactor output measurement range of the wide area neutron flux measurement device,
The output switching circuit operates to supply an output exceeding the measurement range, and the output switching circuit issues a current cutoff drive signal to the current limiting circuit to cut off the load current of the high-voltage power supply, protecting the neutron detector and preventing sensitivity deterioration. It is possible to prevent the output of the device from decreasing.

Furthermore, as the output from the other measuring device, for example, as described in claim 6, it is preferable to input the reactor heat output from the reactor heat output measurement for measuring the reactor heat output. .

Therefore, in the wide area neutron flux measuring apparatus of the invention corresponding to claim 6, the output from the reactor thermal power measuring apparatus is input, and the reactor output measuring range of the wide area neutron flux measuring apparatus becomes greater than or equal to the range. In this case, the output switching circuit operates to supply an output above the reactor output measurement range, and the output switching circuit issues a current interruption drive signal to the current limiting circuit to interrupt the load current of the high-voltage power supply and detect neutrons. It is possible to protect the device and prevent the sensitivity from deteriorating, and to prevent the output of the device from decreasing.

On the other hand, the neutron flux output from the output region neutron flux measuring device is preferably an average value output of all channels of the output region neutron flux measuring device as described in claim 7, for example.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 7, the average output of all channels of the output area neutron flux measuring apparatus is input and the reactor output measuring range of the wide area neutron flux measuring apparatus is input. If the above is reached,
The output of the reactor output measurement range is supplied by the operation of the output switching circuit, and the output switching circuit issues a current limiting drive signal to the current limiting circuit to limit the load current of the high voltage power supply.
It is possible to protect the neutron detector and prevent the sensitivity from deteriorating, and prevent the output of the device from decreasing.

As the output from the output region neutron flux measuring device, for example, as described in claim 8, the output region neutron flux measuring device channel arranged at the position closest to the neutron detector of the self measuring device. Is preferably output.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 8, the output of the output area neutron flux measuring apparatus channel which is arranged closest to the neutron detector of the self measuring apparatus is used as an input. , When the reactor output measurement range of the wide area neutron flux measurement device exceeds the measurement range, the output switching circuit operates to supply the output above the measurement range, and the output switching circuit sends the current limit drive signal to the current limit circuit. It is possible to limit the load current of the high-voltage power supply to protect the neutron detector and prevent the sensitivity from deteriorating, and to prevent the output of the device from decreasing.

Further, as the neutron flux output from the output region neutron flux measuring device, it is preferable to use an average value output of all channels of the output region neutron flux measuring device as described in claim 9, for example.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 9, the average output of all channels of the output area neutron flux measuring apparatus is input, and the reactor output measuring range of the wide area neutron flux measuring apparatus is input. If the above is reached,
The output switching circuit operates to supply an output exceeding the reactor output measurement range, and the output switching circuit issues a current cutoff drive signal to the current limiting circuit to cut off the load current of the high-voltage power supply, protecting the neutron detector and sensitivity. It is possible to prevent the deterioration and prevent the output of the device from decreasing.

Furthermore, as the output from the output region neutron flux measuring device, for example, as described in claim 10, the output region neutron flux measuring device arranged at the position closest to the neutron detector of the self measuring device. The output of the channel is preferable.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 10, the output of the output area neutron flux measuring apparatus channel arranged at the position closest to the neutron detector of the self wide area neutron flux measuring apparatus. When the input exceeds the reactor output measurement range of the wide-area neutron flux measurement device, the output switching circuit operates to supply the output above the reactor output measurement range and the current switching drive from the output switching circuit. The signal can be sent to the current limiting circuit to cut off the load current of the high-voltage power supply to protect the neutron detector and prevent the sensitivity from deteriorating, and prevent the output of the device from decreasing.

On the other hand, as the output switching circuit, for example, as described in claim 11, a switching point setting circuit for setting a switching point level higher than the reactor output measurement range of the own measuring device, and another measuring device A comparison circuit that compares the output with the output from the switching point setting circuit, a clamp level setting circuit that sets the level above the upper limit of the reactor output measurement range of the self-measuring device, the result of comparison by the comparison circuit, and other measurements When the output level from the device does not exceed the switching point level, the output from the signal processing circuit is supplied to the outside, and when the output level from another measuring device exceeds the switching point level,
As a result of comparison by the switching circuit that switches the output from the clamp level setting circuit to supply it to the outside instead of the output from the signal processing circuit and the comparison circuit, the level of the output from the other measuring device becomes the switching point level. It is preferable to be configured with a current limiting drive circuit that outputs a drive signal to the current limiting circuit when the current exceeds the limit.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 11, the output from the other measuring apparatus is input to the output switching circuit, and the input and the reactor output measurement of the wide area neutron flux measuring apparatus are performed. The output of the switching point setting circuit that is set to a level above the range is compared by the comparison circuit.If the output from another measuring device exceeds the switching point level, the comparison circuit supplies a switching signal to the switching circuit and By clamping the output of the area neutron flux measurement device to a level above the reactor power measurement range, it is possible to prevent the output of the wide area neutron flux measurement device from decreasing. Further, the output from the comparison circuit is also supplied to the current limiting drive circuit, and by sending a drive signal for limiting or cutting off the current to the current limiting circuit to limit or cut off the load current of the high voltage power supply, the neutron detector It is possible to protect and prevent deterioration of sensitivity and prevent the output of the device from being lowered.

The input of the reactor thermal output to the self-measuring device is, for example, as described in claim 12, the reactor thermal output state and its output trend, the output of the neutron flux measuring device, etc. It is preferable that the operator confirms various output information related to the output, and inputs the information to the own measuring device through the operation of the operator.

Therefore, in the wide area neutron flux measuring apparatus of the invention according to claim 12, in the wide area neutron flux measuring apparatus of the invention according to claim 4 or 6, the wide area neutron flux measuring apparatus is Since it belongs to the safety protection system of the plant, the operator can confirm the output from the reactor heat output measurement device and input it to the wide area neutron flux measurement device by the operator's operation. Output can be made even more reliable.

[0041]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a block diagram showing a configuration example of the wide area neutron flux measurement apparatus of the present embodiment, and the same elements as those in FIG. 4 are denoted by the same reference numerals.

That is, the wide area neutron flux measuring apparatus of this embodiment, as shown in FIG. 1, includes a neutron detector 1, a preamplifier 2, a signal processing circuit 31, a high voltage power supply 32, and a current limiting circuit 33. , And an output switching circuit 34.

The signal processing circuit 31, the high voltage power supply 32,
The current limiting circuit 33 and the output switching circuit 34 are housed in the wide area measuring circuit 3. Here, the neutron detector 1 is installed inside or outside the nuclear reactor and detects neutrons in the nuclear reactor.

The preamplifier 2 amplifies a minute signal proportional to the reactor output output from the neutron detector 1. On the other hand, the signal processing circuit 31 includes the preamplifier 2
It processes and outputs the signal output from the.

The high voltage power supply 32 supplies an operating voltage to the neutron detector 1. Further, the current limiting circuit 33 limits the load current of the high voltage power supply 32 supplied to the neutron detector 1.

Furthermore, the output switching circuit 34 compares the output proportional to the reactor output input from another measuring device with a preset reactor output measuring range of the own measuring device, and the level of this input is When it is within the reactor output measurement range of the self-measuring device, the output from the signal processing circuit 31 is supplied to the outside, and when the input level exceeds the reactor output measurement range of the self-measuring device, The output of the self-measuring device is switched so that the output exceeding the reactor output measurement range of the self-measuring device is supplied to the outside instead of the output from the signal processing circuit 31, and the current limiting circuit 33 is driven to drive the high-voltage power supply 32. It limits or cuts off the load current.

In the above, the output from the other measuring device is, for example, the neutron flux output from the output region neutron flux measuring device for measuring the region above the reactor output measuring range of the own measuring device, or the reactor heat. It is possible to input the reactor heat output from the reactor heat output measurement for measuring the output.

FIG. 2 is a block diagram showing a configuration example of the output switching circuit 34. That is, the output switching circuit 34 is
As shown in FIG. 2, the switching point setting circuit 341, the comparison circuit 342, the clamp level setting circuit 343, the switching circuit 344, and the current limiting drive circuit 345 are included.

Here, the switching point setting circuit 341 sets the switching point level above the reactor output measurement range of the own measuring device. The comparison circuit 342 compares the output from the other measuring device with the output from the switching point setting circuit 341.

Further, the clamp level setting circuit 343.
Is set to a level above the upper limit of the reactor output measurement range of the self-measuring device. Further, the switching circuit 344 is
As a result of comparison by the comparison circuit, if the level of the output from the other measuring device does not exceed the switching point level, the output from the signal processing circuit 31 is supplied to the outside and the level of the output from the other measuring device is switched. When the point level is exceeded, the output from the clamp level setting circuit 343 is set to the signal processing circuit 31.
The output is switched so that the output is supplied to the outside instead of the output from.

Further, the current limiting drive circuit 345, if the level of the output from another measuring device exceeds the switching point level as a result of the comparison by the comparison circuit 342, the current limiting circuit 3
The drive signal is output to the No. 3.

FIG. 3 is a block diagram showing a configuration example of the current limiting circuit 33. That is, the current limiting circuit 33 is
As shown in FIG. 3, it comprises a limiting resistor R, a switch S1 provided in series with the limiting resistor R, and a switch S2 provided in parallel with the limiting resistor R.

Here, the limiting resistor R limits the load current of the high voltage power source 32. On the other hand, the output switching circuit 34
When the current limiting drive signal 346 is input from the switch S2, the switch S2 is opened and the switch S1 is closed.

When the current cutoff drive signal 346 is input from the output switching circuit 34, the switch S1 is opened and the switch S2 is closed. Further, when the current limiting (cutting) drive signal 346 is not input from the output switching circuit 34, both the switch S1 and the switch S2 are closed.

Next, the operation of the wide area neutron flux measuring apparatus of the present embodiment having the above-described configuration will be described. FIG.
At, the neutron detector 1 detects neutrons from the nuclear reactor, and a small signal proportional to the reactor output is amplified by the preamplifier 2 and input to the signal processing circuit 31 housed in the wide area measurement circuit 3.

On the other hand, in the signal processing circuit 31, the minute pulse signal from the preamplifier 2 is input, signal processing such as amplification and conversion is performed, and the output is input to the output switching circuit 34 in the subsequent stage.

Further, in the output switching circuit 34, when the output from the other measuring device and the output from the signal processing circuit 31 are input and the output exceeds the reactor output measuring range of the wide area neutron flux measuring device, Is supplied to the outside with an output exceeding the reactor output measurement range of the wide area neutron flux measurement device, and the current limiting (cutting) drive signal 346 is supplied to the current limiting circuit 33.

Furthermore, in the current limiting circuit 33, the load current of the high-voltage power supply 32 supplied to the neutron detector 1 via the preamplifier 2 is limited or cut off by the current limiting (cutoff) drive signal 346, and the neutron detector 1 is protected and sensitivity deterioration is prevented.

In the above, in the output switching circuit 34, the comparison circuit 342 causes the switching point setting circuit 341 to set the output from the other measuring device and the level higher than the reactor output measuring range of the wide area neutron flux measuring device. Is compared with the output of the other measuring device, and when the output from the other measuring device exceeds the switching point level, the switching circuit 344 and the current limiting drive circuit 345.
, And the operation signal is sent to each.

Then, in the switching circuit 344, the output from the signal processing circuit 31 is supplied to the outside within the reactor output measurement range of the present wide area neutron flux measuring apparatus, but the operation signal is input from the comparison circuit 342. Then, the output is switched to the output from the clamp level setting circuit 343, and it is output to the outside that the output of the wide area neutron flux measurement device is at a level higher than the reactor output measurement range.

In the clamp level setting circuit 343, the level (for example, 40% or 50% of the reactor output) above the upper limit (for example, 30% of the reactor output) of the reactor output measurement range of the wide area neutron flux measuring apparatus is used. When it is set to, and the reactor power measurement range of the wide area neutron flux measurement device is exceeded, it is clamped to the set level until it enters the reactor output measurement range of the wide area neutron flux measurement device.

On the other hand, in the above, in the current limiting circuit 33, when the current limiting drive signal 346 is inputted from the output switching circuit 34, the switch S2 is opened and the switch S2 is opened.
1 is closed. As a result, the load current of the high voltage power supply 32 is limited by the limiting resistor R.

When the current cutoff drive signal 346 is input from the output switching circuit 34, the switch S1 is opened and the switch S2 is closed. As a result, the high voltage power source 3
The load current of 2 is cut off by the switch S1.

Further, when the current limiting (cutting) drive signal 346 is not input from the output switching circuit 34, both the switch S1 and the switch S2 are closed. This allows
The load current of the high voltage power supply 32 is supplied to the neutron detector as it is without being limited or cut off.

As described above, the wide-area neutron flux measurement apparatus of this embodiment is installed inside or outside the nuclear reactor, and the neutron detector 1 for detecting the neutrons of the nuclear reactor,
A preamplifier 2 that amplifies a minute signal proportional to the reactor output output from the neutron detector 1, and a signal processing circuit 31 that processes and outputs the signal output from the preamplifier 2,
A high-voltage power supply 32 that supplies an operating voltage to the neutron detector 1,
A current limiting circuit 33 for limiting the load current of the high-voltage power supply 32 supplied to the neutron detector 1 and an output proportional to the reactor output input from another measuring device, and measuring the reactor output of the preset own measuring device. In comparison with the range, if the level of this input is within the reactor output measurement range of the self-measuring device, the output from the signal processing circuit 31 is supplied to the outside, and the input level is the reactor of the self-measuring device. If the output measurement range is exceeded, the output of the self-measurement device is switched so that the output of the self-measurement device over the reactor output measurement range is supplied to the outside instead of the output from the signal processing circuit 31, and the current limit is set. The output switching circuit 34 drives the circuit 33 to limit or cut off the load current of the high-voltage power supply 32.

Therefore, in order to protect the neutron detector 1 and prevent the sensitivity from deteriorating when the measurement range of the wide area neutron flux measuring apparatus is exceeded, a drive mechanism for extracting / inserting the neutron detector and its drive have been conventionally used. While the mechanism control device is provided or the output characteristic of the high-voltage power supply 32 is provided with a foldback characteristic, it is output to the outside that the wide-area neutron flux measurement device is inoperable. According to this, the following various effects can be exhibited.

(A) A drive mechanism for pulling out / inserting the neutron detector 1 and a drive mechanism control device for the same are unnecessary, and the neutron detector 1 is protected and the sensitivity is deteriorated without providing the drive mechanism and the drive mechanism control device. Can be prevented.

As a result, the cost of the plant is reduced, the operability of the plant is improved, the reliability of the neutron flux measuring device is improved,
The maintainability can be improved. (B) High-voltage power supply 32 used for wide-area neutron flux measurement device
The type of output characteristic of is not limited, and the high-voltage power supply 32 having any characteristic can be used.

As a result, the cost of the wide area neutron flux measuring apparatus can be reduced. (C) When the reactor output exceeds the reactor output measurement range of the wide area neutron flux measurement device, it is not necessary to output the output decrease of the wide area neutron flux measurement device to the outside, and the wide area neutron flux measurement is performed. It is possible to supply the output beyond the reactor power measurement range to the outside without reducing the output of the device.

This makes it possible to maintain a rational measurement state in plant operation. The present invention is not limited to the above embodiment, and can be implemented in the same manner as described below.

(Other Embodiment 1) In the above embodiment, when the device to be input to the wide area neutron flux measurement device does not belong to the safety protection system of the plant, the output from the device is isolated. Alternatively, the input may be input to the wide area neutron flux measuring device.

(Other Embodiment 2) In the above embodiment, when the neutron flux output from the output region neutron flux measurement device is input, the average value output of all channels of the output region neutron flux measurement device may be input. preferable.

When inputting the average value output of all channels of this output region neutron flux measuring device, the average value output of each channel may be performed based on the system separation specification of the plant safety protection system.

As a result, even if, for example, a failure occurs in one channel, the signal is reliably output to the wide area neutron flux measuring device. (Other Embodiment 3) In the above embodiment, the output from the output region neutron flux measurement device is the output of the output region neutron flux measurement device channel arranged at the position closest to the neutron detector 1 of the own measurement device. Preferably.

(Other Embodiment 4) In the above embodiment, the reactor heat output is input to the self-measuring device as the reactor heat output state and its output trend, the neutron flux measuring device output, etc. It is preferable that the operator confirms various output information regarding the information and inputs the output information to the self-measuring device through the operation of the operator.

As a result, since the wide area neutron flux measuring device belongs to the safety protection system of the plant, the output from the reactor thermal power measuring device can be made more reliable.

(Other Embodiment 5) In the above embodiment, the current limiting circuit 33 shown in FIG.
1 and the switch S2 are provided, the switch S1 may be omitted when the current is limited.

When cutting off the current, the switch S2 and the limiting resistor R may be omitted. Further, as the switches S1 and S2, mechanical switches such as relays or semiconductor switches may be used.

[0079]

As described above, according to the invention corresponding to claim 1, a neutron detector installed inside or outside a nuclear reactor for detecting neutrons in the nuclear reactor, and a neutron detector An amplifier that amplifies a very small signal proportional to the reactor output, a signal processing circuit that processes and outputs the signal output from the amplifier, a high-voltage power supply that supplies an operating voltage to the neutron detector, and neutron detection Current limiting circuit that limits the load current of the high-voltage power supply supplied to the reactor, and the output proportional to the reactor output input from other measuring equipment, is compared with the preset reactor output measuring range of the self-measuring equipment, If the input level is within the reactor output measurement range of the self-measuring device, the output from the signal processing circuit is supplied to the outside, and the input level exceeds the reactor output measurement range of the self-measuring device. In case , The output of the self-measuring device is switched so that the output exceeding the reactor output measurement range of the self-measuring device is supplied to the outside instead of the output from the signal processing circuit, and the current limiting circuit is driven to load the high-voltage power supply. Since the output switching circuit for limiting the current is provided, when the reactor output exceeds the reactor output measurement range of the wide area neutron flux measurement device, the neutron detector without the drive mechanism and the drive mechanism control device is provided. Protection and prevention of sensitivity deterioration, the output characteristics of the high-voltage power supply can be of any type, and it is not necessary to output the output drop of the equipment to the outside. It is possible to provide a wide-area neutron flux measuring device capable of keeping the output above the measurement range without lowering the output.

On the other hand, according to the invention corresponding to claim 2,
Installed inside or outside the reactor, a neutron detector that detects neutrons in the reactor, an amplifier that amplifies a small signal proportional to the reactor output output from the neutron detector, and an output from the amplifier Signal processing circuit that processes and outputs the signal, high-voltage power supply that supplies the operating voltage to the neutron detector, current limiting circuit that limits the load current of the high-voltage power supply that supplies the neutron detector, and input from other measurement equipment The output proportional to the reactor output is compared with the preset reactor output measurement range of the self-measuring device, and if the level of the input is within the reactor output measuring range of the self-measuring device,
When the output from the signal processing circuit is supplied to the outside and the input level exceeds the reactor output measurement range of the self-measuring device, the signal processing circuit outputs the output that is higher than the reactor output measurement range of the self-measuring device. The output of the self-measuring device is switched so as to be supplied to the outside instead of the output from the reactor, and the output switching circuit that drives the current limiting circuit to cut off the load current of the high-voltage power supply is provided. If the output exceeds the reactor output measurement range of the wide-area neutron flux measurement device, it is possible to protect the neutron detector and prevent sensitivity deterioration without installing a drive mechanism and drive mechanism control device. Any type of characteristic can be used, and it is not necessary to output the output of the device to the outside, and the output of the device can be increased beyond the measurement range without reducing the output. And keep it available wide area neutron flux measuring device can be provided.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a wide area neutron flux measurement apparatus according to the present invention.

FIG. 2 is a block diagram showing a configuration example of an output switching circuit in the wide area neutron flux measurement apparatus of the same embodiment.

FIG. 3 is a block diagram showing a configuration example of a current limiting circuit in the wide area neutron flux measurement apparatus of the same embodiment.

FIG. 4 is a block diagram showing a configuration example of a conventional wide area neutron flux measurement apparatus.

FIG. 5 is a diagram showing various output characteristics of a high voltage power supply.

FIG. 6 is a diagram showing an output characteristic of a neutron detector according to a neutron flux level of a nuclear reactor.

[Explanation of symbols]

 1 ... Neutron detector, 2 ... Preamplifier, 3 ... Wide area measurement circuit, 31 ... Signal processing circuit, 32 ... High voltage power supply, 33 ... Current limiting circuit, 34 ... Output switching circuit, 341 ... Switching point setting circuit, 342 ... Comparison Circuit, 343 ... Clamp level setting circuit, 344 ... Switching circuit, 345 ... Current limiting drive circuit, 346 ... Current limiting (cutoff) drive signal, S1 ... Switch, S2 ... Switch, R ... Limiting resistor.

Claims (12)

[Claims] 1. A wide-area neutron flux measuring device for measuring a reactor output from a starting region to an intermediate region, wherein the neutron detector is installed inside or outside the reactor and detects neutrons of the reactor. An amplifier that amplifies a minute signal proportional to the reactor output output from the neutron detector, a signal processing circuit that processes and outputs a signal output from the amplifier, and supplies an operating voltage to the neutron detector High-voltage power supply, a current limiting circuit that limits the load current of the high-voltage power supply supplied to the neutron detector, and an output proportional to the reactor output that is input from another measurement device. In comparison with the reactor output measurement range, if the level of the input is within the reactor output measurement range of the self-measuring device, the output from the signal processing circuit is supplied to the outside, and the input When the level exceeds the reactor output measurement range of the self-measuring device, self-measurement is performed so that the output above the reactor output measuring range of the self-measuring device is supplied to the outside instead of the output from the signal processing circuit. A wide-area neutron flux measurement device comprising: an output switching circuit that switches the output of the device and drives the current limiting circuit to limit the load current of the high-voltage power supply. 2. A wide-area neutron flux measuring device for measuring a reactor output from a starting region to an intermediate region, wherein the neutron detector is installed inside or outside the reactor and detects neutrons of the reactor. An amplifier that amplifies a minute signal proportional to the reactor output output from the neutron detector, a signal processing circuit that processes and outputs a signal output from the amplifier, and supplies an operating voltage to the neutron detector High-voltage power supply, a current limiting circuit that limits the load current of the high-voltage power supply supplied to the neutron detector, and an output proportional to the reactor output that is input from another measurement device. In comparison with the reactor output measurement range, if the level of the input is within the reactor output measurement range of the self-measuring device, the output from the signal processing circuit is supplied to the outside, and the input When the level exceeds the reactor output measurement range of the self-measuring device, self-measurement is performed so that the output above the reactor output measuring range of the self-measuring device is supplied to the outside instead of the output from the signal processing circuit. A wide-area neutron flux measurement apparatus comprising: an output switching circuit that switches the output of the apparatus and drives the current limiting circuit to cut off the load current of the high-voltage power supply. 3. As the output from the other measuring device, a neutron flux output from an output region neutron flux measuring device for measuring a region above the reactor output measuring range of the own measuring device is inputted. The wide area neutron flux measurement device according to claim 1. 4. The reactor heat output from the reactor heat output measurement for measuring the reactor heat output is input as the output from the other measuring device. Wide area neutron flux measurement system. 5. The neutron flux output from the output region neutron flux measuring device for measuring a region above the reactor output measurement range of the own measuring device is input as the output from the other measuring device. The wide-area neutron flux measurement apparatus according to claim 2, which is characterized. 6. The reactor thermal output from the nuclear reactor thermal output measurement for measuring the nuclear reactor thermal output is input as the output from the other measuring device. Wide area neutron flux measurement system. 7. The wide region according to claim 3, wherein the neutron flux output from the output region neutron flux measurement device is an average value output of all channels of the output region neutron flux measurement device. Neutron flux measurement device. 8. The output from the output region neutron flux measurement device is set to be an output of an output region neutron flux measurement device channel arranged at a position closest to the neutron detector of the own measurement device. The wide area neutron flux measurement device according to claim 3. 9. The wide region according to claim 5, wherein the neutron flux output from the output region neutron flux measurement device is an average value output of all channels of the output region neutron flux measurement device. Neutron flux measurement device. 10. The output from the output region neutron flux measurement device is set to be an output of an output region neutron flux measurement device channel arranged at a position closest to the neutron detector of the own measurement device. The wide area neutron flux measurement device according to claim 5. 11. The output switching circuit includes a switching point setting circuit for setting a switching point level higher than a reactor output measurement range of its own measuring device, an output from another measuring device and an output from the switching point setting circuit. And a clamp level setting circuit that sets the level above the upper limit of the reactor output measurement range of the self-measuring device, and the output level from other measuring devices as a result of comparison by the comparison circuit. If the level does not exceed the point level, the output from the signal processing circuit is supplied to the outside, and if the level of the output from another measuring device exceeds the switching point level, the output from the clamp level setting circuit Is switched to an output so as to be supplied to the outside instead of the output from the signal processing circuit, and as a result of the comparison by the comparison circuit, the level of the output from the other measuring device is the switching point level. 11. The wide area neutron flux according to claim 1, further comprising: a current limiting drive circuit that outputs a drive signal to the current limiting circuit. Measuring device. 12. The operator confirms various output information relating to the reactor output such as the reactor heat output state and its output trend, the output of the neutron flux measurement device, etc. as an input to the self-measurement device of the reactor thermal output. The wide-area neutron flux measurement apparatus according to claim 4 or 6, wherein the input is made to the self-measurement apparatus through the operation of the operator.