JP2017173290A - Real time remote monitoring method of x-ray security inspection machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a real time remote monitoring method of an X-ray security inspection machine.SOLUTION: A position, an operating state, and a name of an X ray safety inspection machine are displayed on a map and a color shows presence of operation and an operation state of the X ray safety inspection machine. When the name of the X ray safety inspection machine on the map is clicked, a client displays all the related operation state parameters of the X ray safety inspection machine. The client can perform remote reference of the operating state of the X ray safety inspection machine. When abnormalities occur in the X ray safety inspection machine, an abnormality position is shown directly by color display, allowing a repair staff to quickly take measures, improving repair efficiency, and reducing a down time from an abnormal state until recovery of a normal state of the X ray safety inspection machine.SELECTED DRAWING: Figure 1

Description

  The present invention relates to the technical field of security inspection machine monitoring, and more particularly to a real-time remote monitoring method for an X-ray security inspection machine.

  Conventionally, the monitoring process for X-ray security inspection machines has been appointed by the using agency to conduct full-time inspections and periodic inspections for the X-ray security inspection machines. If it becomes impossible, abnormal operation of X-ray security inspection machine-abnormal condition feedback by related persons-analysis of cause of abnormality by repairman of X-ray security inspection machine-repair process of X-ray security inspection machine by repairman-process of fault removal , Thereby restoring the X-ray security checker to normal operation. However, the monitoring method of the X-ray security inspection machine has the following defects.

  1. The user of the X-ray security inspection machine is different from the expert who has repair knowledge of the related equipment of the manufacturer of the X-ray security inspection machine, and the explanation of the abnormal state that occurs in the X-ray security inspection machine does not match the actual state. Therefore, the repairman of the X-ray security inspection machine cannot quickly check and remove the failure of the X-ray security inspection machine, and the repairman confirms the failure that occurred in the X-ray security inspection machine. The repair cycle from when the user discovers an abnormality in the X-ray security inspection device until the repair staff arrives at the site and repairs the device to restore normal operation. Is long. 2. The operating state information of the X-ray security inspection machine cannot be confirmed in real time. 3. It is impossible to perform centralized remote monitoring on X-ray security inspection machines in various places, and the level of intelligence is low.

  An object of the present invention is to provide a real-time remote monitoring method for an X-ray security inspection machine in order to solve the problems described in the background art.

In order to achieve this object, the technical solution of the present invention is as follows.
A real-time remote monitoring method for an X-ray security inspection machine,
S101, acquiring in real time the relevant operating state parameters of all monitored X-ray security inspection machines;
S102, uploading relevant operational state parameters of the X-ray security inspection machine to be monitored to a cloud server;
S103, the client requesting remote monitoring to the target X-ray security checker;
S104, the cloud pushing the relevant operating state parameters of the target X-ray security checker to the client;
S105, the client displaying the operation state of the target X-ray security inspection machine.

  In particular, in step S101, the relevant operation state parameters of the X-ray security inspection machine to be monitored are the X-ray security inspection machine number, name, number of inspected packages, operation time, X-ray tube voltage, X-ray tube current. , Environmental temperature, environmental humidity, X-ray tube status, detector status, control panel status, start-up time, stop time, location longitude and location latitude.

  In particular, the step S101 specifically includes a step of acquiring the relevant operation state parameter of the X-ray security inspection machine in real time by the industrial computer of the X-ray security inspection machine to be monitored.

  In particular, the step S102 specifically includes a step of uploading the acquired relevant operation state parameter of the X-ray security inspection machine to the cloud server by the industrial computer of the X-ray security inspection machine to be monitored.

  In particular, the step S103 is specifically, S1031, a step in which an unregistered user registers and logs in to the client, and a registered user logs in directly to the client; and S1032, the number and name of the target X-ray security inspection machine Adding.

  In particular, in step S105, specifically, the client displays the position, operation state, and name of the target X-ray security inspection machine on the map based on the longitude and latitude of the target X-ray security inspection machine. Includes steps.

  In particular, in step S105, the client indicates the operation state of the X-ray security inspection machine by color, gray indicates the offline state of the X-ray security inspection machine, and green indicates the normal operation state of the X-ray security inspection machine, that is, the X-ray. The tube, detector, and control panel are all normal. Yellow indicates a minor failure of the X-ray security inspection machine, that is, any of the X-ray tube, detector, or control panel is abnormal. Red indicates a major failure, that is, at least two of the X-ray tube, detector, and control panel are in an abnormal state. When a failure occurs in the X-ray security inspection machine, The faulty X-ray security checker specifically determines which of the X-ray tube, detector, or control panel has failed, and then based on the location information of the X-ray security checker displayed on the map Provide repair services.

  In particular, the step S105 further includes the step of the client displaying all relevant operational status parameters of the X-ray security checker when clicking on the name of the X-ray security checker on the map.

  In particular, in the real-time remote monitoring method for the X-ray security inspection machine, in S106, when the X-ray security inspection machine fails, the cloud server pushes a we chat message to the repair person, and the repair person is in trouble with the X-ray security inspection machine. The method further includes a step of notifying the cause and its position information.

  According to the real-time remote monitoring method of the X-ray security inspection machine according to the present invention, the position, operation state and name of the X-ray security inspection machine are displayed on the map, and the presence or absence of the operation of the X-ray security inspection machine and its operation by color. Click on the name of the X-ray security inspection machine on the map to indicate the status, and the client will display all relevant operational status parameters of the X-ray security inspection machine, and the client can remotely query the operational status of the X-ray security inspection machine When an X-ray security inspection machine malfunctions, the color display indicates the abnormal position directly, so that repair personnel can respond quickly, improve repair efficiency, and restore the normal state from the abnormal state of the X-ray security inspection machine The stop time until is shortened.

It is a flowchart of the real-time remote monitoring method of the X-ray security inspection machine based on the Example of this invention. It is a networking schematic diagram of the real-time remote monitoring method of the X-ray security inspection machine which concerns on the Example of this invention.

  In order to facilitate understanding of the present invention, the present invention will be described below in more detail with reference to the related drawings. The drawings illustrate a preferred embodiment of the invention. It should be noted that the present invention can be realized in various forms and is not limited to the embodiments described in this specification. On the other hand, these examples are for a clear and complete understanding of the present disclosure. Unless defined otherwise, all technical and scientific terms used herein are as defined by those skilled in the art. The terminology used herein is for the purpose of describing specific embodiments and is not intended to limit the invention. As used herein, the term “and / or” includes any and all combinations of one or more of the associated elements.

  As shown in FIG. 1, FIG. 1 shows a flowchart of a real-time remote monitoring method of an X-ray security inspection machine according to an embodiment of the present invention.

  In the present embodiment, the X-ray security inspection machine real-time remote monitoring method specifically includes the following steps.

  S101, acquiring the relevant operation state parameters of all X-ray security inspection machines to be monitored in real time.

  The related operation state parameters of the X-ray security inspection machine are acquired in real time by the industrial computer of the X-ray security inspection machine to be monitored. The relevant operation state parameters of the X-ray security inspection machine to be monitored are the X-ray security inspection machine number, name, number of inspected packages, operation time, X-ray tube voltage, X-ray tube current, environmental temperature, environmental humidity. , X-ray tube status, detector status, control panel status, start-up time, stop time, location longitude and location latitude. Since the method of acquiring the relevant operating state parameters by the industrial computer of the X-ray security inspection machine is conventional technology, duplicate explanation is omitted here. For example, X-ray tube voltage and X-ray tube current are realized by voltage current sensors. Environmental temperature and humidity are realized by conventional temperature sensor and humidity sensor, start time and stop time are recorded by system software of industrial computer, and longitude and latitude information are stored by built-in GPS positioning chip, Hokuto positioning chip, etc. Realized.

  S102, uploading related operational state parameters of the X-ray security inspection machine to be monitored to the cloud server.

  The related operation state parameter of the acquired X-ray security inspection machine is uploaded to the cloud server by the industrial computer of the X-ray security inspection machine to be monitored. When the industrial computer of the X-ray security inspection machine accesses the network, the related information of the X-ray security inspection machine can be uploaded to the cloud server and processed in real time. In addition, X-ray security inspection machine number, name, number of inspected luggage, operation time, X-ray tube voltage, X-ray tube current, environmental temperature, environmental humidity, X-ray tube state, detector state, control panel state, Information on the start time and stop time is uploaded to the cloud server by the mqtt protocol of the standard ubiquitous network protocol, and the information on the longitude and the latitude of the location of the X-ray security inspection machine uses the gprs + gps of the comway. , The location information parameter is transmitted to the cloud server by the mobile network using the tcp protocol. The cloud server analyzes the two sets of data and finds a correspondence between them, thereby integrating the two sets of data and storing them in the cloud server.

S103, the client requests remote monitoring of the target X-ray security inspection machine.
When a user needs to remotely inquire about the operating status of a specific target X-ray security inspection machine, an unregistered user registers with the client (mobile phone or PC) and logs in to the client, and a registered user logs in directly to the client Then, after logging in, operations such as subsequent inquiries can be performed simply by adding the number and name of the target X-ray security inspection machine.

  S104, the cloud pushes the relevant operating state parameters of the target X-ray security checker to the client.

  S105, the client displays the operating state of the target X-ray security inspection machine.

  The client displays the position, operation state, and name of the target X-ray security inspection machine on the map based on the longitude and latitude of the target X-ray security inspection machine. Clicking on the name of an X-ray security inspection machine on the map will cause the client to display all relevant operational status parameters for that X-ray security inspection machine. In this embodiment, the client indicates the operation state of the X-ray security inspection machine by color, gray indicates the offline state of the X-ray security inspection machine, and green indicates the normal operation state of the X-ray security inspection machine, that is, the X-ray tube, The detector and control panel are both in a normal state, and yellow indicates a minor failure of the X-ray security inspection machine, that is, one of the X-ray tube, detector and control panel is in an abnormal state. , Red indicates a major failure, that is, at least two of the X-ray tube, detector, and control panel are in an abnormal state. When a failure occurs in the X-ray security inspection machine, Specifically, the X-ray security inspection machine determines which of the X-ray tube, detector, or control panel has failed, and then repairs based on the location information of the X-ray security inspection machine displayed on the map. Provide service.

  In S106, when the X-ray security inspection machine breaks down, the cloud server pushes a we chat message to the repair person, and notifies the repair person of the cause of the X-ray security check machine failure and its position information.

  As shown in FIG. 2, FIG. 2 is a networking schematic diagram of a real-time remote monitoring method for an X-ray security inspection machine according to an embodiment of the present invention. In the figure, 201 is a client, 202 is a cloud server, and 203 is an X-ray security inspection machine to be monitored.

  According to the technical solution of the present invention, the position, operation state, and name of an X-ray security inspection machine are displayed on a map, and the presence / absence of the operation of the X-ray security inspection machine and the operation state thereof are indicated by colors. Clicking on the name of the inspection machine will allow the client to display all relevant operational status parameters of the X-ray security inspection machine and allow legitimate users to remotely query the operational status of the X-ray security inspection machine by the client, When an abnormality occurs, the color display indicates the abnormal position directly, so that repair personnel can respond quickly, improve repair efficiency, and shorten the stop time from the abnormal state of the X-ray security inspection machine to the normal state recovery. Let

  A person skilled in the art can execute part or all of the processes of the method of the above-described embodiment by instructing the relevant hardware by a computer program, and the program is stored in a computer-readable storage medium and the program is executed. Sometimes, it will be understood to include the processes of the embodiments of the above methods. Examples of the storage medium include a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM), and a random access memory (Random Access Memory, RAM).

  The preferred embodiments of the present invention and the technical principles thereof have been described above. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described above, and that various changes, readjustments and substitutions can be made without departing from the protection scope of the present invention. Let's go. Therefore, although the present invention has been described in detail with the above embodiments, the present invention is not limited to the above embodiments, and many other equivalent embodiments can be conceived without departing from the idea of the present invention. The scope of the present invention is defined in the appended claims.

Claims (9)

A step (S101) of acquiring in real time the relevant operation state parameters of all monitored X-ray security inspection machines;
Uploading relevant operational state parameters of the X-ray security inspection machine to be monitored to a cloud server (S102);
The client requesting remote monitoring of the target X-ray security inspection machine (S103);
The cloud pushing the relevant operating state parameters of the target X-ray security checker to the client (S104);
A client displaying the operation state of the target X-ray security inspection machine (S105), and a real-time remote monitoring method for the X-ray security inspection machine.   In the obtaining step (S101), the related operation state parameters of the X-ray security inspection machine to be monitored are the number of the X-ray security inspection machine, the name, the number of inspected packages, the operation time, the X-ray tube voltage, and the X-ray. Claims include, but are not limited to, tube current, ambient temperature, ambient humidity, x-ray tube status, detector status, control panel status, startup time, shutdown time, location longitude and location latitude. 2. A real-time remote monitoring method for the X-ray security inspection machine according to 1.   The acquiring step (S101) includes a step of acquiring, in real time, an associated operation state parameter of the X-ray security inspection machine by an industrial computer of the X-ray security inspection machine to be monitored. A real-time remote monitoring method for the described X-ray security inspection machine.   The uploading step (S102) includes a step of uploading an acquired related operation state parameter of an X-ray security inspection machine to a cloud server by an industrial computer of the X-ray security inspection machine to be monitored. Item 6. A real-time remote monitoring method for an X-ray security inspection machine according to Item 3.   In the requesting step (S103), an unregistered user registers and logs in to the client, and a registered user logs in directly to the client (S1031), and a step of adding the number and name of the target X-ray security inspection machine The real-time remote monitoring method for an X-ray security inspection machine according to claim 4, comprising: (S 1032).   The displaying step (S105) includes a step in which a client displays a position, an operating state, and a name of the target X-ray security inspection machine on a map based on a longitude and a latitude of the target X-ray security inspection machine. The real-time remote monitoring method for an X-ray security inspection machine according to claim 5.   In the displaying step (S105), the client indicates the operation state of the X-ray security inspection machine by color, gray indicates the offline state of the X-ray security inspection machine, and green indicates the normal operation state of the X-ray security inspection machine, that is, X-ray tube, detector, and control panel all indicate normal status, yellow indicates minor failure of X-ray security inspection machine, that is, X-ray tube, detector, or control panel is abnormal Red indicates that there is a major failure, that is, at least two of the X-ray tube, detector, or control panel are in an abnormal state. When a failure occurs in the X-ray security checker, First, determine which X-ray tube, detector, or control panel has failed in the failed X-ray security inspection machine, and then the location information of the X-ray security inspection machine displayed on the map Provide repair service based on Real-time remote monitoring method of X-ray security inspection machine according to claim 6, wherein Rukoto.   The displaying step (S105) further includes a step of displaying all relevant operation state parameters of the X-ray security inspection machine when the client clicks on the name of the X-ray security inspection machine on the map. Item 8. A real-time remote monitoring method for an X-ray security inspection machine according to Item 7.   When the X-ray security inspection machine breaks down, the cloud server further includes a step (S106) of pushing a Wechat message to a repair person and notifying the repair person of the cause of the X-ray security inspection machine failure and its location information. The real-time remote monitoring method for an X-ray security inspection machine according to claim 7, wherein the X-ray security inspection machine is a real-time remote monitoring method.

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