CN110648422A - Standardized inspection method, system and platform - Google Patents

Abstract

The invention aims to provide a standardized inspection method, a standardized inspection system and a standardized inspection platform, wherein the direct connection between an information system and field equipment is realized by constructing the Internet of things of electric equipment, so that the problem of the splitting of the field equipment and the information system is fundamentally solved, the integration and the lifelong integration of the equipment and an electronic tag are realized, and the whole life cycle of the asset is run through; the power equipment Internet of things establishes a brand-new management platform for realizing intelligent operation and inspection, and a brand-new management and control mechanism is established for a series of core services such as operation and inspection resource allocation, operation and inspection service management and the like; by an informatization means, the patrol project task is directly obtained by obtaining the electronic form of the equipment, the field work management process is directly solidified in the mobile terminal, the field work standard is thoroughly unified technically, and the field operation standardization is realized; the operation of operators is more standard and standard, and the control capability of managers on the progress and quality of field work is greatly improved.

Description

Standardized inspection method, system and platform

Technical Field

The invention belongs to inspection systems, and particularly relates to a standardized inspection method, a standardized inspection system and a standardized inspection platform.

Background

The power distribution network directly faces to terminal users, is a key link for guaranteeing 'falling, distribution and use of electric energy', and is an important infrastructure for power grid enterprises to fulfill social responsibility and serve the development of civilian life and local economy. The company has difficult tasks of improving quality, reducing cost and increasing efficiency; the reform of the power system marks that the power management is in a marketized era, the requirements of customers are increasingly improved, the situation of high-quality service is more severe, and a first-class power distribution network is built, which is the necessary requirement for adapting to the current situation, bearing the global energy Internet and comprehensively building a well-being society.

Distribution network inspection is an important content for the construction of a first-class power distribution network, and the distribution network inspection quality directly determines the operation and maintenance level and the power supply reliability of the power distribution network. In a traditional distribution network inspection management mode, on the aspect of service routine management, field operators have different technical levels, working experiences, working habits and responsibility centers, and inspection results are greatly influenced by personnel; with the rapid increase of the scale of the distribution network equipment, the inspection workload is increased more and more, and the contradiction between the control of the actual working quality and the actual working progress on site is increasingly prominent; data are acquired on the live-line detection site, and need to be returned to an office by operators for sorting and storage, and particularly, a large number of live-line detection maps need to be renamed and sorted manually. The low working efficiency seriously restricts the maintenance effect of the distribution network state.

In order to solve the problems existing in distribution network inspection, based on the production informatization management function, the management mode and the implementation mode of distribution inspection are improved through informatization means, the distribution inspection standardization is realized, and the working target that each field distribution operator can be dry, completely dry and well dry is achieved.

The influence of human factors on the power distribution inspection work can be eliminated. Through an informatization means, operation and maintenance personnel are intelligently prompted to the operation standards of various power distribution equipment, and the condition that the equipment is diagnosed by the personnel with different skill levels according to the same standard is ensured; through the application of the charged detection standardized atlas, the situation that people at different levels collect charged detection data and a standard library have no difference is achieved.

After the inspection is finished, according to the standardized inspection requirement, all the power distribution equipment is ensured to be in place by the supervision function of the electronic tag identifier, the execution of the inspection task is effectively supervised, and the inspection progress is ensured; by getting through the communication barriers of the live-line detection instrument and the mobile terminal, the field detection atlas is synchronized to the mobile terminal and the master station system in real time, and managers can control the live-line detection working quality in real time.

Good-dry-lifting the power distribution inspection management level. By the construction of a power distribution standardized inspection system, an operation and maintenance worker can have evidence for inspection in the inspection process, and the capability of finding equipment defects and operation hidden dangers is obviously enhanced; through the combination of the real-time synchronous live-line detection instrument of the mobile terminal and the electronic tag, the live-line detection atlas is automatically stored according to equipment, the live-line detection data utilization efficiency is greatly improved, and the manual workload is eliminated.

Disclosure of Invention

The invention aims to provide a standardized inspection method, a standardized inspection system and a standardized inspection platform, and solves the problems that the working standards are not unified and manpower and material resources are wasted in the conventional power grid inspection process.

The technical scheme adopted by the invention is as follows:

the standardized inspection method comprises the following steps:

s1, acquiring an electronic form of the current inspection field device;

s2, acquiring equipment parameters according to the electronic form of the equipment;

s3, inquiring a pre-stored operation instruction book according to each equipment parameter;

s4, displaying patrol items to a user interaction interface according to the operation instruction;

s5, receiving patrol information specified in the patrol project;

and S6, confirming that the patrol information is completely collected, and finishing the patrol task at the current position.

By acquiring the electronic form of the equipment, the patrol project task is directly acquired, the field work standard is technically completely unified, and the field operation standardization is realized; the operation of operators is more standard and standard, and the control capability of managers on the progress and quality of field work is greatly improved.

According to the above scheme, preferably, the method for acquiring the electronic form of the current inspection field device in step S1 is: and reading the unique identification RFID label pre-installed on the equipment by adopting an RFID read-write module. The RFID tag is adopted to construct the power equipment Internet of things information system, so that the direct contact between the information system and the field equipment is realized, the problem of the splitting between the field equipment and the information system is fundamentally solved, the integration and lifelong of the equipment and the electronic tag are realized, and the whole life cycle of the asset is run through; the power equipment Internet of things builds a brand-new management platform for realizing intelligent operation and inspection, and a brand-new management and control mechanism is built for a series of core services such as operation and inspection resource allocation and operation and inspection service management.

According to the above-described aspect, the patrol information defined in step S5 preferably includes a visible light photograph, an infrared spectrum photograph, and a defective equipment photograph of the equipment item to be patrolled. Through the application of collecting the visible light photo, the infrared atlas photo and the defect equipment photo of the inspection equipment project, the standardization of the data collection of the live-line detection field is realized, after the data collection is carried out for a long time, the infrared atlases in different periods can be effectively compared and evaluated, and powerful support is provided for the analysis and evaluation of the running state of the equipment.

According to the above scheme, after the patrol task of the current position is completed in step S6, the patrol information acquired in step S5 is uploaded to the server.

The standardized inspection system comprises a handheld terminal adopting the inspection method, RFID tags arranged on various devices, a server A, an inspection PC terminal, a server B and a local area gateway, wherein,

the handheld terminal is used for reading RFID label information on the field equipment and acquiring an operation instruction book pre-stored in the server A according to the label information to generate a patrol project task; meanwhile, the system is used for entering inspection information specified in the inspection project task by a worker and then uploading the information to the server A;

the server A is used for storing parameters of equipment to be patrolled and examined, and the parameters correspond to the patrolling and examining standards of the equipment; meanwhile, the system is used for receiving and storing the routing inspection information transmitted by the handheld terminal;

the inspection PC side obtains the parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information from the server A through the network to perform inspection, then generates inspection notes according to the inspected parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information, and stores the inspection notes into the server B through the local area gateway.

The server A which is specially used for storing the parameters of the equipment and the polling project tasks of the equipment corresponding to the parameters is arranged, so that the equipment polling tasks can be edited and acquired in a unified manner conveniently, and polling records can be inquired conveniently by storing polling original data through the server; the original inspection information is inspected by the inspection PC end, so that the inspection task is confirmed and sorted again, the faults occurring in the inspection process are conveniently and effectively analyzed, the data after the inspection and analysis are stored in the special local area network server B, and the sorted data can be stored, called and researched in a standardized manner more efficiently; and a number data base is made for the progress of the inspection work.

According to the preferable scheme, the handheld terminal machine comprises a central processing unit, a touch display screen, an infrared camera module, a visible light camera module, an RFID read-write module, a positioning module, a wireless network module, a power management module and a storage unit; the infrared camera module is used for collecting an infrared spectrum photo of the inspection equipment and transmitting the infrared spectrum photo to the storage unit for temporary storage; the visible light camera module is used for collecting a visible light photo of the equipment and transmitting the visible light photo to the storage unit for temporary storage; the positioning module is used for acquiring the geographical position information of the current inspection position and transmitting the information to the central processing unit; the touch display screen is used for man-machine interaction; and the central processing unit receives the control information transmitted by the touch display screen and carries out work commands on the infrared camera module, the visible light camera module, the RFID read-write module, the positioning module and the wireless network module. The module for collecting the infrared map photos and the module for collecting the visible light photos are respectively arranged, so that the visual information collection of the environmental factors of the inspection equipment is facilitated, the inspection location is subjected to position identification through the positioning module, the regional inspection task standard is conveniently established according to the geographic position information, and the regional inspection task is identified according to the position information; fine management is achieved; enhancing the practicability of the system.

According to the above scheme, preferably, the wireless network module comprises a 4G module and/or a wifi module and/or a LoRa module.

According to the above scheme, preferably, the power management module includes a storage battery and a charging management circuit.

The inspection platform adopting the standardized inspection system comprises a radio frequency code scanning unit, a geographical positioning unit, a planning task unit, a temperature measuring unit, a two-dimensional code scanning unit, an equipment positioning unit and a statistical query unit; the radio frequency code scanning unit is used for receiving and starting the RFID read-write module and acquiring an equipment form of the current position; the geographic positioning unit is used for confirming the current positioning information; the planning task unit is used for acquiring an inspection task; the temperature measuring unit is used for measuring the temperature of the equipment to be inspected; the two-dimensional code scanning unit is used for reading a two-dimensional code of a field inspection position to sign in; the equipment positioning unit is used for acquiring infrared spectrum pictures and visible light pictures of the current inspection point location equipment; and the statistical query unit is used for acquiring the polling record of the current polling equipment. The special inspection platform is arranged, the inspection work is subjected to unitized work classification in the inspection platform, and a more simplified work flow is provided for workers, so that the unified deployment of the work flow is performed, and the practicability of the inspection system is enhanced; wherein sign in is discerned through the two-dimensional code, conveniently carries out the attendance to the staff.

According to the above scheme, preferably, the two-dimensional code scanning unit is also used for reading the two-dimensional code on the device for device identification. Through setting up two-dimensional code identification equipment information, prevent that the RFID label from damaging still can acquire the equipment form when unable discernment, improved the practicality of system of patrolling and examining.

The invention has the following advantages and beneficial effects:

1. the standardized inspection method realizes direct contact between an information system and field equipment by constructing the Internet of things of the power equipment, fundamentally solves the problem of splitting between the field equipment and the information system, realizes integration and lifelong of the equipment and an electronic tag, and runs through the whole life cycle of assets; the power equipment Internet of things establishes a brand-new management platform for realizing intelligent operation and inspection, and a brand-new management and control mechanism is established for a series of core services such as operation and inspection resource allocation, operation and inspection service management and the like; by an informatization means, the patrol project task is directly obtained by obtaining the electronic form of the equipment, the field work management process is directly solidified in the mobile terminal, the field work standard is thoroughly unified technically, and the field operation standardization is realized; the operation of operators is more standard and standard, and the control capability of managers on the progress and quality of field work is greatly improved;

2. the standardized inspection system is convenient for uniformly editing and acquiring the inspection task of the equipment by setting a server A which is specially used for storing equipment parameters and inspection project tasks of the equipment corresponding to the parameters, and is convenient for inquiring inspection records by storing the original data of inspection through the server; the original inspection information is inspected by the inspection PC end, so that the inspection task is confirmed and sorted again, the faults occurring in the inspection process are conveniently and effectively analyzed, the data after the inspection and analysis are stored in the special local area network server B, and the sorted data can be stored, called and researched in a standardized manner more efficiently; making a number data base for the progress of the inspection work;

3. the standardized inspection platform is used for performing unitized work classification on inspection work in the inspection platform by arranging a special inspection platform, so that a simpler work flow is provided for workers, the unified deployment of the work flow is performed, and the practicability of the inspection system is enhanced; wherein sign in is discerned through the two-dimensional code, conveniently carries out the attendance to the staff.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a flow chart of the standardized inspection method of the present invention.

FIG. 2 is a diagram of a standardized inspection system architecture of the present invention.

Fig. 3 is a schematic diagram of a modular structure of the handheld terminal of the standardized inspection system of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

It should be understood that the term "and/or" herein is merely one type of association relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, B exists alone, and A and B exist at the same time, and the term "/and" is used herein to describe another association object relationship, which means that two relationships may exist, for example, A/and B, may mean: a alone, and both a and B alone, and further, the character "/" in this document generally means that the former and latter associated objects are in an "or" relationship.

It is to be understood that in the description of the present invention, the terms "upper", "vertical", "inside", "outside", and the like, refer to an orientation or positional relationship that is conventionally used for placing the product of the present invention, or that is conventionally understood by those skilled in the art, and are used merely for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be considered as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments of the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes," and/or "including," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, numbers, steps, operations, elements, components, and/or groups thereof.

Example 1:

as shown in fig. 1, the present embodiment provides a standardized inspection method, including the following steps:

s1, acquiring an electronic form of the current inspection field device;

s2, acquiring equipment parameters according to the electronic form of the equipment;

s3, inquiring a pre-stored operation instruction book according to each equipment parameter;

s4, displaying patrol items to a user interaction interface according to the operation instruction;

s5, receiving patrol information specified in the patrol project;

and S6, confirming that the patrol information is completely collected, and finishing the patrol task at the current position.

In specific implementation, the method for acquiring the electronic form of the current inspection field device in step S1 is as follows: and reading the unique identification RFID label pre-installed on the equipment by adopting an RFID read-write module.

In specific implementation, the patrol information defined in step S5 includes a visible light photograph, an infrared spectrum photograph, and a defective equipment photograph of the patrolled equipment item.

In specific implementation, after the patrol task of the current position is completed in step S6, the patrol information acquired in step S5 is uploaded to the server.

The standardized inspection requirements are implemented by applying the informatization concept of large, cloud, object and moving. The large data refers to large data acquisition and large data analysis of multiple inspection and live detection service data by depending on a PMS2.0 system. The cloud refers to a huge equipment foundation ledger system, a business application system and a state evaluation aid decision system of the PMS2.0 system. The 'object' refers to the method of combining field equipment and an information system by taking an electronic tag as a means to establish the power equipment internet of things. The 'moving' refers to that the business application and the equipment internet of things are combined through the mobile terminal to realize standardized operation.

Example 2

The standardized inspection system, as shown in fig. 2, comprises a hand-held terminal using the inspection method of embodiment 1, RFID tags installed on various devices, a server a, a verification PC, a server B, and a local area gateway, wherein,

the handheld terminal is used for reading RFID label information on the field equipment and acquiring an operation instruction book pre-stored in the server A according to the label information to generate a patrol project task; meanwhile, the system is used for entering inspection information specified in the inspection project task by a worker and then uploading the information to the server A;

the server A is used for storing parameters of equipment to be patrolled and examined, and the parameters correspond to the patrolling and examining standards of the equipment; meanwhile, the system is used for receiving and storing the routing inspection information transmitted by the handheld terminal;

the inspection PC side obtains the parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information from the server A through the network to perform inspection, then generates inspection notes according to the inspected parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information, and stores the inspection notes into the server B through the local area gateway.

In specific implementation, an electronic tag is arranged on the equipment, and the electronic tag is related to the equipment account of the PMS2.0 system. The electronic tag is used as the unique identity of the equipment, so that one-to-one correlation between the field equipment and the equipment ledger in the PMS2.0 is realized; by applying the electronic identity tag of the equipment, the account information and the running state information in the whole life cycle of the equipment are timely, accurately and comprehensively acquired, the equipment is accurately identified and managed in the whole life cycle, and the distribution network management foundation is deeply tamped.

And (3) patrol aspect: the method comprises the steps of fulfilling the requirements of power distribution network operation regulations and equipment state overhaul operation inspection standard, formulating distribution network equipment operation inspection work specifications, defining inspection period and work content, combining the above content with a PMS2.0 system inspection module, and automatically generating an inspection task work order. The mobile patrol terminal is applied to download a work order, a patrol worker scans the electronic tag of the equipment point by point on site, collects a visible light photo, patrols according to a standardized patrol project, and content confirmation is directly realized through point selection.

In the aspect of charged detection: according to the distribution network state overhaul work requirement, a standardized patrol system is combined, and live-line detection operation is carried out after patrol of key equipment types. An equipment standardized infrared spectrum file is established and configured in the mobile terminal, and field operators need to strictly acquire a field spectrum according to the standardized infrared spectrum. And (4) communicating the live-line detection instrument with a data interface of the mobile terminal, and realizing real-time synchronous uploading of the field live-line detection acquisition map to the mobile terminal.

When the system is implemented specifically, the server A is specially used for storing equipment parameters and the parameters of the server A correspond to the polling project tasks of the equipment, a manager edits the equipment polling tasks in a unified mode and workers acquire the polling tasks in a unified mode, so that the management of the standardized polling tasks is facilitated, and polling records are queried conveniently by storing original polling data through the server; the original routing inspection information is verified by setting the verification PC end, so that the routing inspection task is confirmed and sorted again, the faults occurring in the routing inspection process are conveniently and effectively analyzed, the data after verification and analysis are stored in a special local area network server B,

in specific implementation, as shown in fig. 3, the handheld terminal includes a central processing unit, a touch display screen, an infrared camera module, a visible light camera module, an RFID read-write module, a positioning module, a wireless network module, a power management module, and a storage unit; the infrared camera module is used for collecting an infrared spectrum photo of the inspection equipment and transmitting the infrared spectrum photo to the storage unit for temporary storage; the visible light camera module is used for collecting a visible light photo of the equipment and transmitting the visible light photo to the storage unit for temporary storage; the positioning module is used for acquiring the geographical position information of the current inspection position and transmitting the information to the central processing unit; the touch display screen is used for man-machine interaction; and the central processing unit receives the control information transmitted by the touch display screen and carries out work commands on the infrared camera module, the visible light camera module, the RFID read-write module, the positioning module and the wireless network module.

During specific implementation, the wireless network module comprises a 4G module and/or a wifi module and/or a LoRa module.

In specific implementation, the power management module comprises a storage battery and a charging management circuit.

Example 3

The inspection platform adopting the standardized inspection system in the embodiment 2 comprises a radio frequency code scanning unit, a geographical positioning unit, a planned task unit, a temperature measuring unit, a two-dimensional code scanning unit, an equipment positioning unit and a statistic query unit; the radio frequency code scanning unit is used for receiving and starting the RFID read-write module and acquiring an equipment form of the current position; the geographic positioning unit is used for confirming the current positioning information; the planning task unit is used for acquiring an inspection task; the temperature measuring unit is used for measuring the temperature of the equipment to be inspected; the two-dimensional code scanning unit is used for reading a two-dimensional code of a field inspection position to sign in; the equipment positioning unit is used for acquiring infrared spectrum pictures and visible light pictures of the current inspection point location equipment; and the statistical query unit is used for acquiring the polling record of the current polling equipment.

During specific implementation, the two-dimension code scanning unit is also used for reading the two-dimension code on the equipment to identify the equipment.

In conclusion, the standardized inspection method, the standardized inspection system and the standardized inspection platform disclosed by the invention realize direct contact between the information system and the field device by constructing the power equipment internet of things, fundamentally solve the problem of splitting between the field device and the information system, realize the integration and lifelong integration of the equipment and the electronic tag, and run through the whole life cycle of the asset. The power equipment Internet of things builds a brand-new management platform for realizing intelligent operation and inspection, and a brand-new management and control mechanism is built for a series of core services such as operation and inspection resource allocation and operation and inspection service management.

The service flow standardization based on the mobile terminal is developed: the method comprises the steps of developing a business application APP based on PMS2.0 on the mobile terminal, directly solidifying a field work management flow in the mobile terminal through an informatization means, technically and thoroughly unifying field work standards, and realizing field operation standardization. The operation of operators is more standard and standard, and the control capability of managers on the progress and quality of field work is greatly improved.

The distribution network live detection management realizes breakthrough:

firstly, construction of a live-line detection standardized system, namely standardized overall process management and control of live-line detection field operation are realized through standardized detection points, standardized detection instruments and standardized detection results; the application of the standard atlas realizes the standardization of data acquisition of the live-line detection field, and after the standard atlas is developed for a long time, the infrared atlases in different periods can be effectively compared and evaluated, thereby providing powerful support for the analysis and evaluation of the running state of the equipment.

And secondly, the mobile terminal is communicated with a network of the live-line detection instrument, so that the field live-line detection acquisition atlas can be synchronized to the mobile terminal in real time and then uploaded to a PMS master station system. Meanwhile, the mobile terminal inspection program and the Internet of things are organically combined, the field detection map can be automatically stored according to equipment, the mode that massive detection data need to be manually arranged in a traditional management mode is thoroughly changed, and the manual workload is greatly reduced.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The standardized inspection method is characterized by comprising the following steps:

s1, acquiring an electronic form of the current inspection field device;

s2, acquiring equipment parameters according to the electronic form of the equipment;

s3, inquiring a pre-stored operation instruction book according to each equipment parameter;

s4, displaying the work task of the patrol project to a user interaction interface according to the operation instruction;

s5, receiving patrol information specified in the patrol project work task;

and S6, confirming that the patrol information is completely collected, and finishing the patrol task at the current position.

2. The standardized inspection method according to claim 1, wherein the method of obtaining the electronic form of the current inspection field device in the step S1 is: and reading the RFID label of the unique identity mark pre-installed on the equipment by adopting an RFID read-write module.

3. The standardized inspection method according to claim 1, wherein the inspection information specified in the step S5 includes a visible light photograph and an infrared spectrum photograph of the inspected equipment item, and a defective equipment photograph.

4. The standardized inspection method according to claim 1, wherein the inspection information acquired in the step S5 is uploaded to the server after the inspection task of the current position is completed in the step S6.

5. The standardized inspection system is characterized by comprising a handheld terminal adopting the standardized inspection method of claim 1, RFID tags arranged on various devices, a server A, a verification PC terminal, a server B and a local area gateway, wherein,

the handheld terminal is used for reading RFID label information on the field equipment and acquiring an operation instruction book pre-stored in the server A according to the label information to generate a patrol project task; meanwhile, the system is used for entering inspection information specified in the inspection project task by a worker and then uploading the information to the server A;

the server A is used for storing parameters of equipment to be patrolled and examined, and the parameters correspond to the patrolling and examining standards of the equipment; meanwhile, the system is used for receiving and storing the routing inspection information transmitted by the handheld terminal;

the inspection PC side obtains the parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information from the server A through the network to perform inspection, then generates inspection notes according to the inspected parameters of the inspection equipment, the inspection standards of the equipment corresponding to the parameters and the inspection information, and stores the inspection notes into the server B through the local area gateway.

6. The standardized inspection system according to claim 5, wherein the hand-held terminal machine includes a central processing unit, a touch display screen, an infrared camera module, a visible light camera module, an RFID read-write module, a positioning module, a wireless network module, a power management module and a storage unit; the infrared camera module is used for collecting an infrared spectrum photo of the inspection equipment and transmitting the infrared spectrum photo to the storage unit for temporary storage; the visible light camera module is used for collecting a visible light photo of the equipment and transmitting the visible light photo to the storage unit for temporary storage; the positioning module is used for acquiring the geographical position information of the current inspection position and transmitting the information to the central processing unit; the touch display screen is used for man-machine interaction; and the central processing unit receives the control information transmitted by the touch display screen and carries out work commands on the infrared camera module, the visible light camera module, the RFID read-write module, the positioning module and the wireless network module.

7. The standardized inspection system according to claim 6, wherein: the wireless network module comprises a 4G module, a WiFi module and/or a LoRa module.

8. The standardized inspection system according to claim 6, wherein: the power management module comprises a storage battery and a charging management circuit.

9. The inspection platform adopting the standardized inspection system according to any one of claims 5 to 8, characterized by comprising a radio frequency code scanning unit, a geographical positioning unit, a planning task unit, a temperature measuring unit, a two-dimension code scanning unit, an equipment positioning unit and a statistic query unit; the radio frequency code scanning unit is used for receiving and starting the RFID read-write module and acquiring an equipment form of the current position; the geographic positioning unit is used for confirming the current positioning information; the planning task unit is used for acquiring an inspection task; the temperature measuring unit is used for measuring the temperature of the equipment to be inspected; the two-dimensional code scanning unit is used for reading a two-dimensional code of a field inspection position to sign in; the equipment positioning unit is used for acquiring infrared spectrum pictures and visible light pictures of the current inspection point location equipment; and the statistical query unit is used for acquiring the polling record of the current polling equipment.

10. The inspection platform of claim 9, wherein: the two-dimensional code scanning unit is also used for reading the two-dimensional code on the equipment to perform equipment identification.

Images