CN115273269A - New energy station non-inductive intelligent patrol inspection management system and method - Google Patents

Abstract

The invention belongs to the technical field of inspection systems, and relates to a new energy station non-inductive intelligent inspection management system, which comprises: the system comprises an RFID tag, a patrol terminal and a server; the inspection terminal comprises a UHF-RFID reader-writer, a memory and a wireless network communication module; the system comprises image acquisition and identification equipment and a data processing unit; the UHF-RFID reader-writer, the memory and the wireless network communication module are respectively connected with the data processing unit through electric signals. The RFID tag is adopted for remote identity recognition, and an inspection person can generate inspection records without contacting an inspection terminal and return the inspection records to the server; the RFID label is adopted to record the polling position information, and polling task nodes and polling tasks are updated remotely, so that remote polling management is realized; the RFID label is adopted to record the polling position information, so that polling record in an off-line state is realized; and associating the image inspection task node with the inspection image to realize the automatic updating of the inspection task.

Description

New energy station non-inductive intelligent inspection management system and method

Technical Field

The invention relates to the technical field of inspection systems, in particular to a new energy station non-inductive intelligent inspection management system and method.

Background

The application of the existing inspection system in the new energy industry has the following two problems: firstly, the patrol personnel are required to actively use the device, such as scanning a two-dimensional code, pressing a point inspection button and the like, the operation is complex, and the risk exists when the patrol personnel directly contact the equipment under special weather conditions, so that the patrol personnel is not in line with the actual situation of a new energy field; and secondly, the simple inspection device cannot identify and record the identity of a person, has no behavior management and is not suitable for the inspection work management requirement of the power equipment area.

Disclosure of Invention

In order to solve the technical problems, the invention provides a new energy station non-inductive intelligent inspection management system and a new energy station non-inductive intelligent inspection management method.

In a first aspect, the present disclosure provides a new energy station non-inductive intelligent patrol management system, including:

the RFID tag is used for storing the identity information and the inspection position information of the inspection personnel;

a polling terminal; the system comprises a server, a data processing module and a data transmission module, wherein the data processing module is used for receiving patrol task data distributed by the server, acquiring and storing patrol position information and patrol time information and uploading the patrol position information and the patrol time information to the server;

the server is used for distributing the inspection task data to each inspection terminal, updating and summarizing task nodes of the inspection task data, the identification information of the inspection personnel, the inspection position information and the inspection time information on the RFID label, and associating inspection images according to the task nodes of the inspection task data;

wherein, patrol and examine the terminal and include:

the UHF-RFID reader-writer is used for reading the RFID label and acquiring the identity information of the patrol personnel and the patrol position information;

the storage is used for storing the patrol personnel identity information database, the patrol task data, the patrol personnel patrol record data and the patrol equipment information to the patrol terminal;

a wireless network communication module;

the image acquisition and identification equipment is used for acquiring the inspection field image and uploading the inspection field image to the server through the wireless network communication module; and

the data processing unit is used for identifying and verifying the identity of the patrol personnel according to the patrol personnel identity information read by the RFID tag and the patrol personnel identity information database;

the UHF-RFID reader-writer, the memory and the wireless network communication module are respectively connected with the data processing unit through electric signals.

In a second aspect, the invention provides a new energy station non-inductive intelligent patrol management method, which comprises the following steps:

the polling personnel carries the RFID label to enter a polling site;

an inspection terminal arranged on an inspection site reads the address of the RFID label through a UHF-RFID reader-writer, and determines the identity information and the inspection position information of an inspector according to the address of the RFID label;

the polling terminal sends a task request to a server according to the polling personnel identity information and the task node of the polling task data;

the server searches inspection task data according to the identity information of the inspection personnel and sends the inspection task data to the inspection terminal;

the inspection terminal acquires an inspection image and uploads the inspection image to the server;

the server marks the task node of the inspection task data by using the address of the RFID label, associates the inspection image, and records inspection position information and inspection time information;

and the UHF-RFID reader-writer writes in the task node of the inspection task data, the identification information of the inspection personnel and the inspection position information to the RFID tag, and updates the inspection progress, the inspection position information and the inspection time information of the inspection task data to the server.

The invention has the beneficial effects that:

(1) The RFID tag is adopted for remote identity recognition, so that an inspection worker can directly generate inspection records without contacting an inspection terminal and return the inspection records to a server in a wireless network data transmission mode;

(2) The RFID label is adopted to record the polling position information, and the polling task node and the polling task are remotely updated through wireless network data, so that the remote polling management of polling personnel in the polling task process is realized;

(3) The RFID label is adopted to record the polling position information, so that the polling record in an off-line state is realized, and the influence of a network environment is avoided;

(4) And associating the image inspection task node with the inspection image to realize the automatic updating of the inspection task.

On the basis of the technical scheme, the invention can be further improved as follows.

Furthermore, the inspection terminal also comprises an infrared induction sensor; the infrared induction sensor is in electric signal connection with the data processing unit.

Further, the image acquisition and identification equipment comprises a camera, an image identification processor, an image characteristic database and a display; the image recognition processor is used for image feature extraction and image feature association analysis; the characteristic database is used for storing image characteristic data; the camera of the feature database is in electric signal connection with the image recognition processor; the image recognition processor is respectively connected with the image characteristic database and the display through electric signals.

Furthermore, the image acquisition and identification device also comprises an infrared light supplement module and a power supply; the camera is in electrical signal connection with the image recognition processor; the power supply is in electric signal connection with the image processor and the infrared light supplementing module.

Furthermore, the inspection terminal also comprises a timer module; the timer module is in electric signal connection with the data processing module.

Further, the wireless network communication module is a 4G module or a WiFi module.

Furthermore, the polling personnel carry the RFID label to enter a polling site, cannot send a task request to the server under the condition that network communication is invalid, the UHF-RFID reader-writer of each polling station writes the identity information of the polling personnel and the polling position information into the RFID label, and when the network communication is valid, the polling position information and the polling time information of each station are uploaded again.

Drawings

Fig. 1 is a system schematic diagram of a new energy station non-inductive intelligent inspection management system according to embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of an inspection terminal in embodiment 1 of the present invention;

FIG. 3 is a flow chart of a new energy station sensorless intelligent patrol inspection management method;

FIG. 4 is a flowchart of the operation of the inspection terminal in the embodiment of the present invention;

FIG. 5 is a flow chart of a specific process of associating patrol photos;

FIG. 6 is a flow chart of night work of the inspection terminal;

fig. 7 is a schematic diagram of a communication network in which each patrol station communicates with a server through a base station.

Icon: 1-an RFID tag; 2, routing inspection terminal; 201-UHF-RFID reader; 202-a memory; 203-a wireless network communication module; 204-image acquisition recognition equipment; 205-a data processing unit; 3-a server; 4-infrared light supplementing lamp panel; 5-infrared induction probe; 6-a camera; 7-light sensing probe; 8-4G/Wifi antenna; 9-MCU chip; 10-a card slot; 11-mounting a bracket.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Example 1

As an embodiment, as shown in fig. 1, to solve the above technical problem, the embodiment provides a new energy station sensorless intelligent patrol inspection management system, which includes:

the RFID tag is used for storing the identity information and the inspection position information of the inspection personnel;

a polling terminal; the system comprises a server, a data processing module and a data processing module, wherein the data processing module is used for receiving polling task data distributed by the server, acquiring and storing polling position information and polling time information and uploading the polling position information and the polling time information to the server;

the server is used for distributing the inspection task data to each inspection terminal, updating and summarizing task nodes of the inspection task data on the RFID labels, the identity information of inspection personnel, the inspection position information and the inspection time information, and associating inspection images according to the task nodes of the inspection task data;

wherein, patrol and examine the terminal and include:

the UHF-RFID reader-writer is used for reading the RFID label and acquiring the identity information and the inspection position information of the inspection personnel;

the storage is used for storing the patrol personnel identity information database, the patrol task data, the patrol personnel patrol record data and the patrol equipment information to the patrol terminal;

a wireless network communication module;

the image acquisition and identification equipment is used for acquiring the inspection field image and uploading the inspection field image to the server through the wireless network communication module; and

the data processing unit is used for identifying and verifying the identity of the inspection personnel according to the inspection personnel identity information read by the RFID label and the inspection personnel identity information database;

the UHF-RFID reader-writer, the memory and the wireless network communication module are respectively connected with the data processing unit through electric signals.

The RFID label is adopted for remote identity recognition, the patrol personnel can directly generate patrol records without contacting the patrol terminal, and the patrol records are returned to the server in a wireless network data transmission mode.

The RFID label is adopted to record the polling position information, and the polling task node and the polling task are remotely updated through wireless network data, so that the remote polling management of polling personnel in the polling task process is realized.

The RFID label is adopted to record the patrol position information, so that the patrol record in an off-line state is realized, and the influence of a network environment is avoided.

And associating the image inspection task node with the inspection image to realize the automatic updating of the inspection task.

On the basis of the technical scheme, the invention can be further improved as follows.

Optionally, the inspection terminal further comprises an infrared induction sensor; the infrared induction sensor is in electric signal connection with the data processing unit.

Optionally, the image acquisition and recognition device includes a camera, an image recognition processor, an image feature database, and a display; the image recognition processor is used for image feature extraction and image feature correlation analysis; the characteristic database is used for storing image characteristic data; the characteristic database camera is in electric signal connection with the image recognition processor; the image recognition processor is respectively connected with the image characteristic database and the display through electric signals.

Optionally, the image acquisition and recognition device further includes an infrared light supplement module and a power supply; the camera is in electric signal connection with the image recognition processor; the power supply is in electric signal connection with the image processor and the infrared light supplementing module.

Optionally, the inspection terminal further includes a timer module; the timer module is in electric signal connection with the data processing module.

Optionally, the wireless network communication module is a 4G module or a WiFi module.

As an alternative embodiment, as shown in fig. 2, the inspection terminal includes a main body support a and an auxiliary support B; the main body bracket A and the auxiliary bracket B are fixedly arranged or independently arranged; a UHF-RFID reader-writer 201 is arranged in the main body bracket A; one end of the main body bracket A is provided with an infrared light supplementing lamp plate 4, an infrared induction probe 5, a camera 6 and a light sensation probe 7; a 4G/Wifi antenna 8, an MCU chip 9 and a card slot 10 are arranged in the auxiliary bracket B; and one side of the auxiliary bracket is provided with a mounting bracket 11 for mounting and fixing the auxiliary bracket B. The UHF-RFID reader-writer 201, the infrared light supplementing lamp panel 4, the infrared induction probe 5, the camera 6, the light sensing probe 7 and the card slot 10 are connected with the MCU chip 9 through wires.

Example 2

Based on the same principle as the system described in embodiment 1 of the present invention, as shown in fig. 3, the present invention further provides a new energy station non-inductive intelligent patrol management method, which includes the steps of:

the polling personnel carries the RFID label to enter a polling site;

the inspection terminal arranged on the inspection site reads the address of the RFID label through the UHF-RFID reader-writer, and determines the identity information and the inspection position information of the inspection personnel according to the address of the RFID label;

the inspection terminal sends a task request to the server according to the identity information of the inspection personnel and the task node of the inspection task data;

the server searches the inspection task data according to the identity information of the inspection personnel and sends the inspection task data to the inspection terminal;

the inspection terminal acquires an inspection image and uploads the inspection image to the server;

the server marks task nodes of the inspection task data by using the address of the RFID label, associates an inspection image, and records inspection position information and inspection time information;

and the UHF-RFID reader writes the task node, the inspection position information and the inspection time information of the inspection task data into the RFID label, and updates the inspection progress, the inspection position information and the inspection time information of the inspection task data to the server.

In the practical application process, as shown in the attached figure 4, the inspection terminal is provided with an infrared sensing probe to detect that an inspector enters the site; when the inspection personnel enter the site, the system starts a UHF-RFID reader-writer to read and write the RFID tag carried by the inspection personnel; the method comprises the steps that inspection personnel identity information and inspection position information are determined according to an address of an RFID label; when the wireless network communication is effective, the polling terminal sends a task request, the server issues a new polling task according to the polling personnel identity information and the polling position information, the task node corresponding to the address of the RFID label is marked, if the polling task of the task node is completed, the task node is marked as an effective value 1, if the polling task of the task node is not completed, the task node is marked as a 0, the polling position information and the polling time information of the current task node are recorded, and polling photos are associated. When the wireless network communication is effective, the server cannot receive the task request sent by the inspection terminal, and the UHF-RFID reader reads and writes the RFID tag carried by the inspection personnel.

Optionally, the specific process of associating the inspection photo is as follows: as shown in fig. 5, images of each inspection task node are collected, feature extraction and identification are carried out, and an image feature database is established; and acquiring an image of the current inspection task node, extracting and identifying the characteristics of the image, matching the image with the image of the characteristic database, and determining the inspection task node corresponding to the image.

Optionally, the polling personnel enters a polling site by carrying an RFID tag, and cannot send a task request to the server under the condition that network communication is invalid, the UHF-RFID reader of each polling station writes in the identity information of the polling personnel and the polling position information to the RFID tag, and when the network communication is valid, the polling position information and the polling time information of each station are uploaded again. The RFID label records the identity information and the inspection position information of the inspection personnel in the inspection process, so that the offline recording of the inspection process is realized.

Optionally, as shown in fig. 6, the inspection terminal is provided with a light sensing probe, detects the illumination intensity, determines whether the environment is at night, turns on the infrared light supplement lamp to take a picture if the environment is at night, and does not turn on the infrared light supplement lamp to take a picture if the environment is at night; and the inspection terminal uploads the inspection photo to the server under the condition that the communication network is effective, or else, the inspection photo is uploaded to the server after the communication network is effective. Fig. 7 shows a schematic diagram of a communication network in which the inspection stations communicate with the server via the base station.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a management system is patrolled and examined to new forms of energy station noninductive formula intelligence which characterized in that includes:

the RFID tag is used for storing the identity information and the inspection position information of the inspection personnel;

a polling terminal; the system comprises a server, a data processing module and a data processing module, wherein the data processing module is used for receiving polling task data distributed by the server, acquiring and storing polling position information and polling time information and uploading the polling position information and the polling time information to the server;

the server is used for distributing the inspection task data to each inspection terminal, updating and summarizing task nodes of the inspection task data, the identification information of the inspection personnel, the inspection position information and the inspection time information on the RFID label, and associating inspection images according to the task nodes of the inspection task data;

wherein, patrol and examine the terminal and include:

the UHF-RFID reader-writer is used for reading the RFID label and acquiring the identity information of the patrol personnel and the patrol position information;

the storage is used for storing the inspection personnel identity information database, the inspection task data, the inspection personnel inspection record data and the inspection equipment information to the inspection terminal;

a wireless network communication module;

the image acquisition and identification equipment is used for acquiring the inspection field image and uploading the inspection field image to the server through the wireless network communication module; and

the data processing unit is used for identifying and verifying the identity of the patrol personnel according to the patrol personnel identity information read by the RFID tag and the patrol personnel identity information database;

the UHF-RFID reader-writer, the memory and the wireless network communication module are respectively connected with the data processing unit through electric signals.

2. The new energy station sensorless intelligent patrol inspection management system according to claim 1, wherein the patrol inspection terminal further comprises an infrared induction sensor; the infrared induction sensor is in electric signal connection with the data processing unit.

3. The new energy station sensorless intelligent inspection management system according to claim 1, wherein the image acquisition and recognition device comprises a camera, an image recognition processor, an image feature database and a display; the image recognition processor is used for image feature extraction and image feature correlation analysis; the characteristic database is used for storing image characteristic data; the camera of the characteristic database is in electrical signal connection with the image recognition processor; the image recognition processor is respectively connected with the image characteristic database and the display through electric signals.

4. The new energy station sensorless intelligent inspection management system according to claim 3, wherein the image acquisition and identification device further comprises an infrared light supplement module and a power supply; the camera is in electric signal connection with the image recognition processor; the power supply is in electric signal connection with the image processor and the infrared light supplementing module.

5. The new energy station sensorless intelligent inspection management system according to claim 1, wherein the inspection terminal further comprises a timer module; the timer module is in electric signal connection with the data processing module.

6. The new energy station sensorless intelligent patrol inspection management system according to claim 1, wherein the wireless network communication module is a 4G module or a WiFi module.

7. A new energy station non-inductive intelligent patrol inspection management method is characterized by comprising the following steps:

the polling personnel carries the RFID label to enter a polling site;

the method comprises the following steps that an inspection terminal arranged on an inspection site reads the address of an RFID label through an UHF-RFID reader-writer, and determines the identity information and the inspection position information of an inspector according to the address of the RFID label;

the polling terminal sends a task request to a server according to the polling personnel identity information and the task node of the polling task data;

the server searches inspection task data according to the identity information of the inspection personnel and sends the inspection task data to the inspection terminal;

the inspection terminal acquires an inspection image and uploads the inspection image to the server;

the server marks the task node of the inspection task data by using the address of the RFID label, associates the inspection image, and records inspection position information and inspection time information;

and the UHF-RFID reader-writer writes in the task node of the inspection task data, the identification information of the inspection personnel and the inspection position information to the RFID tag, and updates the inspection progress, the inspection position information and the inspection time information of the inspection task data to the server.

8. The new energy field station sensorless intelligent patrol inspection management method according to claim 7, wherein patrol inspectors carry the RFID tags to enter patrol inspection sites, a task request cannot be sent to the server under the condition that network communication is invalid, UHF-RFID readers of all patrol inspection stations write the identity information of the patrol inspectors and the patrol inspection position information into the RFID tags, and when the network communication is valid, the patrol inspection position information and the patrol inspection time information of all stations are uploaded again.

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