JPH03181890A - Monitoring device of reactor - Google Patents

Abstract

PURPOSE:To prevent a malfunction of a monitoring device due to earth noise by filtering a neutron flux signal when an earth current flows. CONSTITUTION:An output monitoring device 12 amplifies a neutron flux signal inputted from a neutron flux detector 11, and delivers a trip signal from a trip circuit 17 when the neutron flux signal is larger than a set value. When a temporary potential difference occurs between the earth potential of the detector 11 and that of the device 12 and an earth current flows through an earth conductor of a coaxial cable 13, on the occasion, this current is amplified 18 and supplied to a switch 19 to switch over a contact, and an output signal of the detector 11 which is amplified 15 is supplied to the circuit 17 through a filter circuit 20. Thereby earth noise contained in the output signal of the detector 11 is removed. When no earth current flows through the cable 13, on the other side, the output signal of the detector 11 amplified 15 is supplied directly to the circuit 17, and therefore a malfunction due to the earth noise can be prevented without lowering the function of the monitoring device.

Description

[Detailed Description of the Invention] [Objective of the Invention] (Industrial Application Field) The present invention detects neutron flux in a nuclear reactor in a nuclear power plant, and detects the detected ψ tron flux to a preset setting value. This relates to a nuclear reactor monitoring device that sends a trip signal when the limit is exceeded.

(Prior art) Conventionally, this type of reactor monitoring device has the following features, as shown in Figure 2:
It consists of a neutron flux detector 1 installed inside the reactor and an output monitoring device 2 installed outside the reactor, and the neutron flux detector 1 and the output monitoring device 2 are connected via a coaxial cable 3. There is.

The output monitoring device 2 is composed of a DC high power source 4, an amplifier 5, an indicator 6, a trip circuit 7, etc., and the neutron flux signal from the neutron flux detector 1 input to the output monitoring device W2 is transmitted to the amplifier 5. It is now amplified by Further, the neutron flux signal amplified by the amplifier 5 is supplied to the trip circuit 7, where it is compared with a set value. The trip circuit 7 sends out a trip signal when the signal from the amplifier 5 is larger than a set value, and this trip signal causes the reactor to scram.

By the way, in the reactor monitoring device configured in this way,
Since the neutron flux signal output from the neutron flux detector 1 is very weak, the coaxial cable 3 is housed in a metal conduit to prevent it from being affected by external noise. Also, for ground noise, set the ground point of the circuit to 1.
This prevents noise caused by loop current.

(The problem that the invention seeks to solve IJIj) However,
Conventional reactor monitoring equipment is grounded at one point for direct current, but multi-point grounded for alternating current due to stray capacitance. A temporary potential difference occurs. Therefore, a grounding current flows through the grounding conductor (outer conductor) of the coaxial cable 3, and this grounding current causes the trip circuit 7 to
There were problems such as "but not working". Furthermore, if the signal amplified by the amplifier 5 is supplied to the trip circuit 7 through a filter circuit in order to remove the noise component caused by the earth current, the detection of neutron flux will be delayed in time, and the function as a reactor monitoring device will deteriorate. There was a problem.

The present invention was made in view of the above circumstances, and its purpose is to prevent malfunctions caused by ground noise without degrading the original function when a ground current flows through the ground conductor of a coaxial cable. Our goal is to provide a nuclear reactor monitoring device that can.

[Structure of the Invention] (Means for Solving the Problems) In order to solve the above problems, a nuclear reactor monitoring device according to the present invention includes: a neutron flux detector that detects neutron flux in a nuclear reactor;
an amplifier connected to the neutron flux detector via a coaxial cable; a trip circuit that compares the signal amplified by the amplifier with a preset value and sends a trip signal when the set value is exceeded; a filter circuit for removing noise components included in the output signal of the neutron flux detector; It is equipped with a switching device that supplies power to the trip circuit.

(Function) In other words, in the present invention, when a ground current flows through the ground conductor of the coaxial cable, the switch operates to supply the signal from the amplifier to the trip circuit through the filter circuit, and also causes the ground current to flow through the ground conductor of the coaxial cable. Since the signal from the amplifier is directly supplied to the trip circuit when no current is flowing, it is possible to prevent malfunctions due to ground noise when ground current flows through the ground conductor of the coaxial cable without degrading the original function.

(Example) An embodiment of the present invention will be described below with reference to FIG.

FIG. 1 is a diagram showing the configuration of a nuclear reactor monitoring device according to the present invention, in which a neutron flux detector 11 is connected to an output monitoring device 12 via a coaxial cable 13. This output monitoring device 12 is composed of a DC high power source 14, an amplifier 15, an indicator 16, a trip circuit 17, etc.
The neutron flux signal input from the neutron flux detector 11 is amplified by an amplifier 15 and supplied to a trip circuit 17. This trip circuit 17 is configured to compare the signal from the amplifier 15 with a set value and send out a trip signal when the output of the neutron flux detector 11 is larger than the set value.

Further, the earth conductor (outer conductor) of the sympathy cable 13
An amplifier 18 is connected to. This amplifier 18 is for amplifying the ground current flowing through the ground conductor of the coaxial cable 13, and the ground current amplified by the amplifier 18 is supplied to one switch. This switch 19 is for supplying the signal from the amplifier 15 to the trip circuit 17 through the filter circuit 20 when a ground current flows through the ground conductor of the coaxial cable 13, and is activated when the output from the amplifier 18 is zero. It is designed to operate when the value is not zero and is not zero. Further, the filter circuit 20 is for removing noise components contained in the output signal of the neutron flux detector 11.

In such a configuration, the neutron flux signal output from the neutron east detector 11 is input to the output monitoring device 12 via the coaxial cable 13. At this time, the neutron flux detector 1
When a temporary potential difference occurs between the ground potential of the coaxial cable 13 and the ground potential of the output monitoring device 12, a ground current flows through the ground conductor of the coaxial cable 13. This ground current is amplified by an amplifier 18 and supplied to one switching device, and the switching contact of one switching device is switched from the trip circuit 17 side to the filter low path 20 side. As a result, the output signal of the neutron flux detector 11 amplified by the amplifier 15 is transferred to the filter circuit 20.
Since the neutron flux is supplied to the trip circuit 17 through the filter circuit 20, the ground noise included in the output signal of the neutron flux detector 11 can be removed by the filter circuit 20.

Furthermore, if the ground potential of the neutron flux detector 11 and the ground potential of the output monitoring device 12 are at the same potential, the switch 19 will not operate, so the output of the neutron flux detector 11 input to the output monitoring device]2 After the signal is amplified by the amplifier 15,
It is directly input to the tri-tub circuit 17.

In the above embodiment, when a ground current flows through the ground conductor of the coaxial cable 13, the switch 19 operates and supplies the signal from the amplifier 15 to the trip circuit 17 through the filter circuit 20. Noise components included in the output signal can be removed. Furthermore, when no ground current is flowing through the ground conductor of the coaxial cable 13, the output signal of the ψ flux detector 11 amplified by the amplifier 15 is directly supplied to the trip circuit 17, so that the reactor monitoring system functions Substitution can be prevented.

Note that the present invention is not limited to the above embodiments,
Various modifications can be made without departing from the spirit of the invention.

[Effects of the Invention] As explained above, the nuclear reactor monitoring device according to the present invention includes a neutron flux detector that detects neutron flux in a nuclear reactor, and an amplifier connected to this neutron flux detector via a coaxial cable. , a trip circuit that compares the signal amplified by this amplifier with a preset setting value and sends a trip signal when the above set value is exceeded, and removes noise components included in the output signal of the neutron flux detector. and a switching device that is connected to the ground conductor of the coaxial cable and supplies a signal from the amplifier to the trip circuit through the filter circuit when a ground current flows through the ground conductor. Therefore, when a ground current flows through the ground conductor of the coaxial cable, malfunctions due to ground noise can be prevented without degrading the original function, and the reliability of the reactor monitoring device can be improved.

[Brief explanation of drawings]

FIG. 1 shows the structure of a reactor monitoring device showing one embodiment of the present invention.
Figure 2 is a block diagram of a conventional reactor monitoring system. 11... Neutron flux detector, 12... Output monitoring device,
13...Coaxial cable, 14...DC high power supply, 15
...Amplifier, 16...Indicator, 17...Trip circuit, 18...Amplifier, 19...Switcher, 20...
...74117 circuit.

Claims (1)

[Claims] A neutron flux detector detects the neutron flux inside the reactor, an amplifier is connected to this neutron flux detector via a coaxial cable, and the signal amplified by this amplifier is compared with a preset setting value. a trip circuit that sends out a trip signal when a set value is exceeded; a filter circuit that removes noise components included in the output signal of the neutron flux detector; a switching device that supplies a signal from the amplifier to the trip circuit through the filter circuit when the signal is flowing.