CN113077914A - Reactivity meter field experiment data display and processing method and system - Google Patents

Abstract

The invention discloses a method and a system for displaying and processing field experiment data of a reactivity meter. The method comprises the following steps: accessing a local area network; starting reactivity meter application software on the host and starting data sharing setting; starting the reactivity meter application software client-side slave software at the slave and establishing data sharing with the host; and a plurality of slave machines read the data collected by the master machine. By the method, the host arranged in the main control room can obtain the current representing the neutron flux level of the reactor core or other reactor core state parameter signals from the reactivity instrument device and realize data sharing through the local area network; a plurality of slave machines arranged outside the master control room can acquire real-time data acquired by the host machine by adding a local area network, so that synchronous acquisition of the data is realized. More experimenters outside the master control room can acquire experimental data of the reactor starting physical experiment process in real time through a plurality of slave machines and analyze and process the acquired data in real time outside the field, so that the experimental efficiency is improved.

Description

Reactivity meter field experiment data display and processing method and system

Technical Field

The invention relates to the technical field of nuclear data measurement of reactors, in particular to a method and a system for displaying and processing field experimental data of a reactivity meter.

Background

In the process of starting physical experiments of the reactor, a digital reactivity meter is required to assist in carrying out starting physical experiments, such as control rod value measurement, temperature reactivity coefficient measurement, nuclear heating point measurement and the like, and the experimental process is usually completed in a main control room. However, because the experiment window period is short and the master control room has a control requirement on the number of personnel, only a few personnel can participate in each experiment, and the number of detectors for experiments is limited, and only one reactivity instrument device can be accessed, so that the experiment data acquisition is single, the number of personnel participating in the experiment is limited, and the experiment efficiency is low.

Disclosure of Invention

The invention mainly aims to provide a method and a system for displaying and processing field experiment data of a reactivity meter, which can enable more experimenters to acquire the experiment data of a reactor starting physical experiment process in real time and analyze and process the acquired data in real time outside the field so as to improve the experiment efficiency.

In order to achieve the above object, the present invention provides a data display and processing system for field experiment of a reactivity meter, comprising:

a reactivity meter device;

the network connection equipment is used for establishing a local area network covering the main control room and partial area outside the main control room;

a host machine disposed in the main control room and connected to the reactivity instrument device;

and the plurality of slave machines are arranged outside the main control room, positioned in the coverage area of the local area network and connected with the master machine.

In one embodiment, the network connection device includes a router disposed in a master control room.

In one embodiment, the host includes:

a first display module;

a first communication module for establishing communication with the reactivity meter device and obtaining a current or other core state parameter signal from the reactivity meter device representative of a neutron flux level in the core;

the first processing module is used for receiving and processing the acquired current or other core state parameter signals representing the neutron flux level in the reactor core and sending the acquired current or other core state parameter signals representing the neutron flux level in the reactor core to the slave through the first communication module;

a first input module;

the first starting module is used for starting the client host software of the reactivity meter application software and starting data sharing setting.

In one embodiment, the slave includes:

a second display module;

the second communication module is used for establishing communication connection with the first communication module of the host and exchanging data;

the second processing module is used for receiving and processing the current or other core state parameter signals representing the neutron flux level in the reactor core, which are acquired from the host computer, and processing and analyzing the acquired current or other core state parameter signals representing the neutron flux level in the reactor core;

a second input module;

and the second starting module is used for starting the client slave software of the reactivity meter application software and establishing data sharing with the host.

In one embodiment, the first processing module is a processor; the second processing module is a processor.

In one embodiment, the host is a computer having installed thereon reactivity meter application client host software; the slave is a computer provided with a reactivity meter application software client slave software.

The invention provides a method for displaying and processing field experiment data of a reactivity meter, which comprises the following steps:

accessing a local area network;

starting reactivity meter application software on the host and starting data sharing setting;

starting the reactivity meter application software client-side slave software at the slave and establishing data sharing with the host;

and a plurality of slave machines read the data collected by the master machine.

In one embodiment, the access lan includes: the host computer arranged in the master control room (and a plurality of slave computers arranged outside the master control room are connected to the local area network.

In an embodiment, before accessing the local area network, the method further includes: and establishing a local area network covering the main control room and partial area outside the main control room by using the network connection equipment.

In one embodiment, said launching a reactivity meter application and opening a data sharing setting at said host comprises: starting the client host software of the reactivity instrument application software through a first starting module of the host, so that a first display module of the host displays the input of the Internet protocol address of the host and whether a network port is opened; and inputting a host internet protocol address through a first input module of the host and opening a network port.

In one embodiment, said initiating a reactivity meter application guest slave software at said slave and establishing data sharing with said master comprises: starting the client-side slave software of the reactivity meter application software through a second starting module of the slave, so that a second display module of the slave displays the input of a host internet protocol address and opens the setting of a connection host; and inputting a host Internet protocol address through a second input module of the slave and opening the setting of the connected host.

As described above, in the method and system for displaying and processing data of a reactivity meter field experiment provided by the present invention, a host installed in a main control room can obtain a current representing a neutron flux level in a reactor core or other reactor core state parameter signals from a reactivity meter device and implement data sharing through a local area network; a plurality of slave machines arranged outside the master control room can acquire real-time data acquired by the host machine by adding a local area network, so that synchronous acquisition of the data is realized. Therefore, more experimenters outside the master control room can acquire experimental data of the reactor starting physical experiment process in real time through the plurality of slave machines and analyze and process the acquired data in real time outside the field, and the experimental efficiency is greatly improved.

Drawings

Other objects and advantages of the present invention will become apparent from the following description of the invention which refers to the accompanying drawings, and may assist in a comprehensive understanding of the invention.

FIG. 1 is a schematic diagram of a reactivity meter field experimental data display and processing system according to some embodiments of the present invention;

FIG. 2 is a schematic diagram of a host in a reactivity meter field experiment data display and processing system, according to some embodiments of the present invention;

FIG. 3 is a schematic diagram of a slave in a reactivity meter field experiment data display and processing system according to some embodiments of the present invention;

FIG. 4 is a schematic flow diagram of a reactivity meter field experimental data display and processing method according to some embodiments of the present invention;

FIG. 5 is a schematic flow diagram of a reactivity meter field experimental data display and processing method according to some embodiments of the present invention;

it is noted that the drawings are not necessarily to scale and are merely illustrative in nature and not intended to obscure the reader.

Description of reference numerals:

100. a reactivity meter field experiment data display and processing system; 110. a reactivity meter device; 130. a network connection device; 150. a host; 152. a first display module; 154. a first communication module; 156. a first processing module; 158. a first input module; 159. a first starting module; 170. a slave; 172. a second display module; 174. a second communication module; 176. a second processing module; 178. a second input module; 179. and a second starting module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention. It should be apparent that the described embodiment is one embodiment of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

It is to be noted that technical terms or scientific terms used herein should have the ordinary meaning as understood by those having ordinary skill in the art to which the present invention belongs, unless otherwise defined. If the description "first", "second", etc. is referred to throughout, the description of "first", "second", etc. is used only for distinguishing similar objects, and is not to be construed as indicating or implying a relative importance, order or number of technical features indicated, it being understood that the data described in "first", "second", etc. may be interchanged where appropriate. If "and/or" is presented throughout, it is meant to include three juxtapositions, exemplified by "A and/or B" and including either scheme A, or scheme B, or schemes in which both A and B are satisfied. Furthermore, spatially relative terms, such as "above," "below," "top," "bottom," and the like, may be used herein for ease of description to describe one element or feature's spatial relationship to another element or feature as illustrated in the figures, and should be understood to encompass different orientations in use or operation in addition to the orientation depicted in the figures.

FIG. 1 is a schematic diagram of a reactivity meter field experimental data display and processing system according to some embodiments of the present invention. As shown in fig. 1, the reactivity meter field experiment data display and processing system 100 includes a reactivity meter apparatus 110, a network connection device 130, a master 150, and a plurality of slaves 170. The master 150 is connected to the reactivity meter apparatus 110, and the plurality of slaves 170 are connected to the master 150 through the network connection device 130.

Specifically, the reactivity meter apparatus 110 is a meter controlled device that accurately measures reactor reactivity. In one embodiment, the reactivity meter apparatus 110 can be a digital reactivity meter apparatus.

The network connection device 130 is used to establish a local area network. In one embodiment, the network connection device 130 includes a wired or wireless router disposed in the main control room, and the wired or wireless router disposed in the main control room establishes a local area network covering the main control room and a certain area outside the main control room. It should be noted that the main control room in the present application refers to a laboratory for performing a reactor startup physical experiment.

The mainframe 150 is disposed in the main control room and connected to the reactivity meter device 110. Meanwhile, the master 150 may be communicatively connected with a plurality of slaves 170 outside the master room through a local area network established by the network connection device 130.

In one embodiment, as shown in FIG. 2, the host 150 includes a first display module 152, a first communication module 154, a first processing module 156, a first input module 158, and a first activation module 159.

The first display module 152 may include, but is not limited to, a Liquid Crystal Display (LCD), a Light Emitting Diode (LED) display, and a plasma display.

The first communication module 154 is used for establishing a communication connection with the reactivity meter device 110, acquiring a current or other core state parameter signal representing the neutron flux level in the core from a signal collector in the reactivity meter device 110, and establishing a communication connection with the slave 170 and exchanging data.

The first processing module 156 may be a processor for processing instructions executed within the master, including receiving and processing the acquired current or other core state parameter signals representative of the neutron flux level in the core, and transmitting the acquired current or other core state parameter signals representative of the neutron flux level in the core, etc., to the slave 170 via the first communication module 154.

The first input module 158 may receive input numeric or character information and generate key signal inputs related to user settings and function control of the host. For example, the first input module 158 may employ an input device such as a touch screen, a keypad, a mouse, a track pad, a touch pad, a pointing stick, one or more mouse buttons, a track ball, a joystick, or the like.

The first start module 159 is used to start the reactivity meter application client host software and start the data sharing settings.

The above is a specific structure of the host 150. In one embodiment, the host 150 may be a laptop computer, desktop computer, workstation, personal digital assistant, server, blade server, mainframe computer, and other suitable computer having reactivity meter application client host software installed thereon.

In one embodiment, as shown in FIG. 3, the slave 170 includes a second display module 172, a second communication module 174, a second processing module 176, a second input module 178, and a second activation module 179.

The second display module 172 may include, but is not limited to, a Liquid Crystal Display (LCD), a Light Emitting Diode (LED) display, and a plasma display.

The second communication module 174 is used for establishing a communication connection with the first communication module 154 of the host 150 and interacting data.

The second processing module 176 may be a processor for processing instructions executed from within the core, including receiving and processing the current or other core state parameter signals representing the neutron flux level in the core obtained from the host 150, and processing and analyzing the obtained current or other core state parameter signals representing the neutron flux level in the core, etc.

The second input module 178 may receive input numeric or character information and generate key signal inputs related to user settings and function control of the slave. For example, the second input module 178 may employ a touch screen, a keypad, a mouse, a track pad, a touch pad, a pointing stick, one or more mouse buttons, a track ball, a joystick, or other input device.

The second startup module 179 is used to start the reactivity meter application client slave software and establish data sharing with the host 150.

The above is a specific configuration of the slave 170. In one embodiment, the slave 170 may be a laptop, desktop, workstation, personal digital assistant, server, blade server, mainframe, and other suitable computer having installed the reactivity meter application client slave software.

The above is a specific structure of the reactivity meter field experiment data display and processing system 100 according to an embodiment of the present invention, and the following is a brief description of the reactivity meter field experiment data display and processing method using the reactivity meter field experiment data display and processing system 100.

FIG. 4 is a schematic flow diagram of a reactivity meter field experimental data display and processing method according to some embodiments of the present invention. As shown in fig. 4, the method for displaying and processing the field experimental data of the reactivity meter comprises the following steps:

step S210: accessing a local area network;

step S230: starting reactivity meter application software on a host and starting data sharing setting;

step S250: starting the software of the reactivity instrument application software client-side slave machine at the slave machine, and establishing data sharing with the host machine;

step S270: and the slave machine reads the data collected by the host machine.

The accessing the local area network in step S210 specifically includes:

the master 150 disposed in the master room and the plurality of slaves 170 disposed outside the master room are accessed to the local area network.

It should be noted that the main control room in the present application refers to a laboratory for performing a reactor startup physical experiment.

Before accessing the local area network, step S210 further includes:

establishing a local area network covering the main control room and a certain area outside the main control room by using the network connection equipment 130 such as a wired or wireless router;

at this time, the accessing the local area network in step S210 specifically includes:

the master 150 disposed in the master room and a plurality of slaves 170 disposed outside the master room and located within the coverage area of the local area network access the local area network.

The host 150 can access the local area network through the first communication module 154; the slave 170 may access the local area network through the second communication module 174.

In step S230, the reactivity meter application client host software can be started by the first start-up module 159 and the data sharing settings are turned on. Specifically, the first launch module 159 may be caused to launch the reactivity meter application client host software by clicking on the reactivity meter application client host software displayed on the first display module 152.

After the reactivity meter application software client host software is started in the host 150, the first display module 152 may display settings such as a host Internet Protocol Address (IP) input, whether a network port is opened, and the like. The data sharing mode of the host 150 may be established by entering a host internet protocol address and opening a network port through the first input module 158.

In step S250, the reactivity meter application software client slave software may be started by the second startup module 179. Specifically, the second launch module 179 may cause the reactivity meter application client slave software to be launched by clicking on the reactivity meter application client slave software displayed on the second display module 172.

After the reactivity meter application software client-side slave software is started in the slave 170, the second display module 172 may display settings such as host internet protocol address input, connection host open, and the like. The second input module 159 inputs the internet protocol address of the host and opens the setting of the connection host, so that the data sharing of the host and the slave through the local area network can be realized.

After the sharing of the data between the master and slave devices through the local area network is achieved in step S250, in step S270, the slave device 170 may read the current or other core state parameter signals representing the neutron flux level in the core, which are obtained by the master device 150 from the reactivity meter device 110.

In this way, the host 150 disposed in the main control room can obtain current or other core state parameter signals representing the neutron flux level in the core from the reactivity meter device 110 and implement data sharing through the local area network; the plurality of slave machines 170 arranged outside the master control room can acquire the real-time data acquired by the master machine 170 by adding a local area network, thereby realizing synchronous acquisition of the data. Therefore, more experimenters outside the master control room can acquire experimental data of the reactor starting physical experiment process in real time through the plurality of slave machines 170 and analyze and process the acquired data in real time outside the field, and the experimental efficiency is greatly improved.

In addition, in order to further improve the experimental efficiency, the experimenter in the main control room and the experimenter outside the main control room may respectively perform real-time analysis on the acquired data, and then give the data to the experimenter in the main control room for integrated analysis, so as shown in fig. 5, after step S270, the method for displaying and processing the field experimental data of the reactivity meter further includes:

step S290: and the host receives the experimental data processing result sent by the slave and performs integrated analysis with the experimental data processing result of the host.

As described above, in the reactivity meter field experiment data display and processing method and system provided by the present invention, the host 150 disposed in the main control room can obtain the current representing the neutron flux level in the reactor core or other reactor core state parameter signals from the reactivity meter device 110 and implement data sharing through the local area network; the plurality of slave machines 170 arranged outside the master control room can acquire the real-time data acquired by the master machine 170 by adding a local area network, thereby realizing synchronous acquisition of the data. Therefore, more experimenters outside the master control room can acquire experimental data of the reactor starting physical experiment process in real time through the plurality of slave machines 170 and analyze and process the acquired data in real time outside the field, and the experimental efficiency is greatly improved.

It should also be noted that, in the case of the embodiments of the present invention, features of the embodiments and examples may be combined with each other to obtain a new embodiment without conflict.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and the scope of the present invention is subject to the scope of the claims.

Claims (11)

1. A reactivity meter field experiment data display and processing system (100), comprising:

a reactivity meter device (110);

a network connection device (130) for establishing a local area network covering the main control room and a partial area outside the main control room;

a main unit (150) disposed in the main control room and connected to the reactivity instrument device (110);

and a plurality of slaves (170) which are arranged outside the master control room and positioned in the coverage area of the local area network and are connected with the master (150).

2. The reactivity meter field experiment data display and processing system (100) according to claim 1, wherein: the network connection device (130) includes a router disposed in a master room.

3. The reactivity meter field experiment data display and processing system (100) according to claim 1, wherein: the host (150) includes:

a first display module (152);

a first communication module (154) for establishing a communication connection with the reactivity meter device (110) and obtaining a current or other core state parameter signal from the reactivity meter device (110) representative of a neutron flux level in the core;

a first processing module (156) for receiving and processing the acquired current or other core state parameter signal representative of the core neutron flux level and transmitting the acquired current or other core state parameter signal representative of the core neutron flux level to the slave (170) via the first communication module (154);

a first input module (158);

a first startup module (159) to start the reactivity meter application client host software and to start the data sharing settings.

4. The reactivity meter field experiment data display and processing system (100) according to claim 3, wherein: the slave (170) comprises:

a second display module (172);

a second communication module (174) for establishing a communication connection with the first communication module (154) of the host (150) and interacting data;

a second processing module (176) for receiving and processing the current or other core state parameter signal representative of the core neutron flux level obtained from the host (150) and for processing and analyzing the obtained current or other core state parameter signal representative of the core neutron flux level;

a second input module (178);

a second startup module (179) for starting the reactivity meter application client slave software and establishing data sharing with the master (150).

5. The reactivity meter field experiment data display and processing system (100) according to claim 4, wherein: the first processing module (156) is a processor; the second processing module (176) is a processor.

6. The reactivity meter field experiment data display and processing system (100) according to claim 1, wherein: the host (150) is a computer provided with reactivity meter application software client host software; the slave (170) is a computer with reactivity meter application software client slave software installed.

7. A method for displaying and processing data for a site experiment of a reactivity meter using the system (100) for displaying and processing data for a site experiment of a reactivity meter according to any one of claims 1 to 5, comprising:

accessing a local area network;

launching a reactivity meter application at the host (150) and starting a data sharing setting;

launching a reactivity meter application guest slave software at the slave (170) and establishing data sharing with the master (150);

and a plurality of slave machines (170) read the data collected by the master machine (150).

8. The reactivity meter field experiment data display and processing method according to claim 7, wherein: the access local area network comprises:

the master machine (150) disposed in the master control room and the plurality of slave machines (170) disposed outside the master control room are accessed to a local area network.

9. The reactivity meter field experiment data display and processing method according to claim 8, wherein: before the accessing the local area network, the method further comprises:

a local area network covering the main control room and a partial area outside the main control room is established by means of the network connection device (130).

10. The reactivity meter field experiment data display and processing method according to claim 9, wherein: said launching a reactivity meter application and opening a data sharing setting at said host (150), comprising:

launching, by a first launch module (159) of the host (150), a reactivity meter application client host software such that a first display module (152) of the host (150) displays a host internet protocol address input, whether a network port is open;

entering a host internet protocol address and opening a network port through a first input module (158) of the host (150).

11. The reactivity meter field experiment data display and processing method according to claim 10, wherein: said initiating a reactivity meter application guest slave software at said slave (170) and establishing a data share with said master (150), comprising:

starting the reactivity meter application software client slave software by a second starting module (179) of the slave (170) such that a second display module (172) of the slave (170) displays a master internet protocol address input, opens a connected master setting;

-entering a master internet protocol address and opening a connected master setting via a second input module (159) of the slave (170).

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