CN113033739A - Port equipment safety confirmation system and method - Google Patents

Abstract

The invention provides a port equipment safety confirmation system and a port equipment safety confirmation method, which comprise the following steps: two-dimensional code label, intelligent terminal equipment, central server. Look over green sign indicating number, yellow code, orange sign indicating number, red sign indicating number correspond available, wait to examine, stop using, scrap four-color state code on intelligent terminal through scanning two-dimensional code label, directly perceived present equipment reliability and further operation "normal", "trouble", "condemned" safety affirmation, report the repairment in trouble, effectively avoid leading to the production incident because of misuse the trouble or the equipment that has the defect. And identifying the four-color state code on the intelligent terminal to check information, detect, maintain, repair and confirm operations and input information. The intelligent, standardized, systematized and convenient equipment safety management is realized, and the management efficiency is improved.

Description

Port equipment safety confirmation system and method

Technical Field

The invention relates to a management system and a method for carrying out safety confirmation on receiving, sending, using, detecting, maintaining and repairing of equipment and tools by adopting electronic equipment and technologies such as a computer, an intelligent terminal and the like when port loading and unloading enterprises carry out man-machine cooperative operation.

Background

The equipment maintenance, detection and use safety confirmation play an extremely important role in the safety production of enterprises and are indispensable essential links of safety production management and equipment management. At present, man-machine cooperation operation of port loading and unloading enterprises is frequent, the use frequency of equipment is high, a safety confirmation mode is mainly that a receiving and dispatching person and a user check and confirm the operation and then record the operation on a paper notebook or an office computer, and reliability cannot be visually embodied on the equipment.

Self-check to confirm existing problems:

(1) in order to improve the production efficiency, the workload of workers is relatively saturated, mutual supervision is lacked during equipment handover, and safety confirmation flows in the form.

(2) Leakage detection is easy to leak due to human factors.

(3) The reliability of the equipment cannot be visually checked on site because the records of receiving, sending, using and the like are not timely or are missed to remember.

(4) The failure repair information feedback channel is not smooth, information receiving personnel are not clear, the information feedback period is long, and failure processing is not timely.

(5) The fault description is not clear, not specific, and the fault condition can not be visually shown by using a picture.

(6) The management factor is that the field maintenance and repair cannot be immediately returned to the office to update the maintenance and repair record, so that the time for putting equipment into use is delayed or the management regulation is violated in order to improve the production efficiency.

Therefore, how to apply the popular intelligent terminal and the popular APP to intelligently, standardize, systematize and facilitate the safety confirmation work of the device is a problem to be solved urgently.

Disclosure of Invention

The invention provides a port equipment safety confirmation system and a port equipment safety confirmation method, which can visually present the reliable state of equipment, automatically record the whole safety confirmation process, clearly, specifically, conveniently and visually perform fault repair, accurately send fault information, obviously improve the working efficiency, eliminate management loopholes and effectively avoid production safety accidents caused by using fault equipment by enterprises.

The system comprises: two-dimensional code label, intelligent terminal and central server. The functional module includes: the device comprises a user management module, an equipment information module, a safety confirmation module, a four-color state module, a fault repair module, a maintenance repair module, a data management module, a control panel display module and an information transceiving module.

The application method of the system comprises the following steps: and according to the user authority, using two-dimension code labels corresponding to the intelligent terminal scanning equipment one by one, checking the available, detected, stopped and scrapped states corresponding to the green, yellow, orange and red state codes respectively, and selecting function keys to perform safety confirmation operation and fault repair. The intelligent terminal identifies the four-color state code in the page, and checks basic information, safety confirmation history, detection information, repair information, maintenance repair information and scrap information; and carrying out periodical detection, maintenance, repair confirmation operation and information input.

Drawings

In order to illustrate the invention more clearly, the drawings used in the description of the embodiments will be briefly presented below, the drawings described below being only some embodiments of the invention, and other drawings may be derived from these drawings by a person skilled in the art without inventive effort.

FIG. 1 control block diagram

FIG. 2 flow chart of warehousing confirmation

FIG. 3 flow chart for warehouse-out confirmation

FIG. 4 uses a check validation flow chart

FIG. 5 is a flowchart of periodic maintenance validation

FIG. 6 periodic test validation flow chart

FIG. 7 is a flow chart of defect repair verification

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

The invention provides a safety confirmation system and a safety confirmation method for port equipment. The system comprises: two-dimensional code label, intelligent terminal and central server. The functional module includes: the device comprises a user management module, an equipment information module, a safety confirmation module, a four-color state module, a fault information module, a maintenance repair module, a data management module, a control panel display module and an information transceiving module.

Two-dimensional code label: and the two-dimension code labels are manufactured in one-to-one correspondence with the equipment.

The intelligent terminal: the smart phone or the tablet computer can be used for surfing the internet, recording voice, characters, photographing and/or GPS positioning.

A central server: the intelligent terminal management system is provided with an information receiving module and an operation module, is connected with a database, and provides calculation and application services for the intelligent terminal and the management system in a network.

A user management module: the system is used for storing user information and has an identity recognition function, and user information and authority management is carried out on enterprise managers, supervision and inspection personnel, equipment tool receiving and sending and using personnel, maintenance and repair personnel, other internal workers and external visitors.

Further, an external visitor scans a code by using a smartphone WeChat APP, automatically reads a WeChat nickname, and only checks the permission but does not safely confirm the operation permission.

An equipment information module: the system is used for storing and managing basic information, safety confirmation standards and comparison pictures of the equipment so as to realize intelligent comparison for users.

A security confirmation module: the function of confirming the operation of 'normal' or 'failure' after providing the code scanning for the user. After the 'failure' confirmation operation is carried out, the function of reporting and repairing the failure information by voice, characters and/or shooting and uploading is provided, the function of automatically converting the characters into the character input part is realized while the voice is saved, and the converted characters have the function of manually editing and repairing.

A four-color status code module: the system is used for visually presenting the reliability of the equipment and automatically realizing four-color switching according to the comparison of the safety confirmation result, the maintenance and repair result and the maintenance and inspection plan time. The intelligent terminal can also identify the four-color state codes in the page, and further check basic information, historical safety confirmation information, detection information, fault information and maintenance repair information of the equipment.

Further, the four-color status code is an intuitive display of the reliable status of the device after the code is scanned by the intelligent terminal, and is a green, yellow, orange and red four-color two-dimensional code generated according to the safety confirmation result and respectively corresponds to four statuses of available, to-be-detected, disabled and scrapped.

Further explaining, the green code: can be used. Means that the equipment is regularly checked and maintained and is in a perfect and defect-free state. When the system is on line, the first green code is uniformly compiled by related personnel in the background of the system.

Further explaining, the yellow code: and (5) checking to be detected. The device has no intrinsic defects, and the state to be detected which exceeds maintenance or detection planning time can be immediately organized for maintenance and use after detection, and can be used in a cautious state in a buffer period without maintenance conditions. Through the time comparison function, the device is used for automatically converting to 'yellow code' after exceeding the maintenance and detection planning time, the 'yellow code' state determines the buffer period according to different devices, the device is used cautiously, and the device is automatically converted to 'orange code' after exceeding the buffer period.

Further explaining, the orange code: and (4) stopping the use. It has been found that defects in use are affected and need to be repaired to a post-use condition.

Further explaining, the red code: and (7) discarding. And is identified as a state of disability by a technical department or a transceiver department.

Further, the four-color state codes are provided with text prompts of 'available', 'to-be-detected', 'disabled' and 'scrapped' at the eye-catching positions, and the person in the authority range can recognize the four-color state codes through a mobile phone to further check information, report faults and repair maintenance.

The fault repair module: and the fault repair reporting function is used for recording fault information uploaded by code scanning operation, identifying the fault information and sending the fault information to relevant maintenance repair personnel and technical management personnel through the information receiving and sending module.

And a maintenance and repair module: the method is used for safety confirmation after maintenance and repair of maintenance and repair personnel and technical management personnel. After the maintenance repair confirmation operation, the functions of voice or character input and photographing uploading of the maintenance repair information are provided, and the maintenance repair information is sent to the transceiving personnel and the repair reporting personnel through the information transceiving module.

A data management module: the system is used for collecting and storing data, automatically recording and manually editing code scanning time, code scanning personnel and operation information into a database, and is used for counting, analyzing, inquiring, deleting, backing up and generating reports.

The control panel display module: the function of displaying the information of each module on the office computer display is used for the manager.

An information receiving and transmitting module: for receiving and sending repair information and scrap details.

Further, under the condition that specific information is not input, the default prompt information containing date and time, equipment number, position information and information of a repairer or a scrapper is sent so that the repairer or the transceiver can contact timely.

Further, the specific location information is sent by using a GPS signal and a factory electronic map.

Further, the receiving and sending module realizes the functions of receiving and reporting repair information and scrapping details among internal personnel.

Intelligent terminal display

And the intelligent terminal scans the two-dimensional code label to enter.

1. The upper left side displays the information of the code scanning person, the inside person displays the post and the name, and the outside person displays the nickname of the WeChat and the corresponding function key. The outside person does not display any function keys other than "exit".

2. And a 'return' function key is arranged at the upper right part, and the program is returned or quitted after selection. The system has an automatic save confirmation operation function, and even if a 'return' function key is not used, the program can automatically quit by setting default time.

3. The four-color state code has characters of 'available', 'to-be-detected', 'disabled' and 'scrapped' at the eye-catching position for prompting.

4. And the date and time is displayed above the four-color status code and is accurate to seconds.

5. The four-color status code is provided with a normal safety confirmation function key and a fault safety confirmation function key. Selecting a ' normal ' green code keeping ' state, jumping out of a prompt box ' successful completion confirmation ', jumping back to the first layer, and keeping a ' green code ' state by the four-color state code; and (3) selecting a page for turning from 'failure' to 'failure repair', automatically switching the four-color state code to 'orange code', generating voice, characters and/or photographing failure description function keys, confirming uploading after information is input, jumping out of a prompt box 'information input success', and jumping back to the first layer. And meanwhile, fault information is sent to relevant maintenance repair personnel.

The intelligent terminal identifies the four-color state code in the page to enter.

1. The upper left side displays the information of the code scanning person, the inside person displays the post and the name, and the outside person displays the nickname of the WeChat and the corresponding function key. The outsider only displays the "inquire" and "return" function keys.

2. And a 'return' function key is arranged at the upper right part, and the program is returned or quitted after selection. The system has an automatic save confirmation operation function, and even if a 'return' function key is not used, the program can automatically quit by setting default time.

3. And after the four-color state code is identified, jumping to a viewing page, selecting basic information, safety confirmation history records, detection information, repair information, maintenance repair information and scrap information function keys, and looking up information.

4. After identifying the four-color state code, the maintenance repair personnel skips to query, except the query function key, the maintenance, detection and repair function keys appear according to specific conditions, and the corresponding four-color state code is automatically switched to a green code state after operation.

5. The technical personnel and the receiving and sending personnel who distribute the relevant posts according to the authority identify the four-color status code, a 'scrap' function key is provided, after the 'scrap' function key is selected, the four-color status code is automatically switched to a 'red code', the voice, text and/or photographing fault description function key appears, and scrap details are recorded.

Further, considering the principle of safety priority, once the function key of 'failure' or 'abandonment' is selected, even if the function key is not input with information, the 'return' or program interruption is selected, the 'green code' can be automatically switched to the corresponding 'orange code' or 'red code' state, and the default repair or abandonment information is automatically sent to the transceiving personnel and the technical management personnel, so that the production safety accident caused by the fact that unsafe equipment is mistakenly used due to the process factor is avoided.

The security validation classification is implemented as follows.

First, receiving and transmitting confirmation

(I) warehousing confirmation:

1. new spare parts (including tools): checking before warehousing by a transceiver, scanning codes without finding problems, selecting 'normal', inputting basic information in a background, generating a 'green code', manufacturing a two-dimensional code label, pasting the two-dimensional code label at a striking position of a spare part, and warehousing in a subarea manner; the problem is found to be returned to the supplier.

2. Old spare parts (including tools): checking and confirming before warehousing by a transceiver, scanning codes to check the use history safety confirmation condition, selecting 'normal' if no problem is found, and keeping a 'green code' state; when a problem is found, a 'fault' is selected, and a 'green code' is automatically switched to an 'orange code' state, and fault information is recorded; when the scrapping standard is reached, the scrapping is automatically switched to the red code state, and after scrapping information is input, classification and partition are carried out for proper storage.

3. Consumable product (b): and checking and confirming before warehousing, selecting 'normal' code scanning if no problem is found, and recording basic information in a background to generate 'green' codes. The green code is automatically switched to the red code state through the time comparison function when the product has the quality guarantee period, and the scrapping treatment is carried out. The problem is found to be returned to the supplier.

(II) warehouse-out confirmation

1. According to the receiving instruction, the receiving person checks and confirms the received spare parts, no problem is found, the code scanning checks whether the four-color state code is in a 'green code' state, the 'normal' state is selected after the four-color state code is confirmed to be correct, and the 'green code' state is kept for receiving and using.

2. The person of leading finds that the spare part has problems, choose "trouble", "green yard" is switched over into the state of "orange yard" automatically, after recording pronunciation, characters, photo information and reporting and repairing, send the trouble information to the person who receives and dispatches and maintenance repair automatically, the person who receives and dispatches gives and changes, the maintenance repair personnel overhauls; the four-color status code is in a non-green status, and informs the transceiver to replace.

Second, checking and confirming the use

1. Before use: before use, safety confirmation is carried out, all normal code scanning is selected to be normal, and the state of green codes is kept. Starting and unlocking automatically by the equipment starting and unlocking function; the four-color status code is in a non-green status and informs the user to replace the code; when a problem is found, a fault is selected, the green code is automatically switched to an orange code state, voice, character and photo information is recorded, repair information is automatically sent to a receiving and sending person and a maintenance repair person, and equipment starting and unlocking functions cannot be achieved.

Further, the operation of receiving and using the security check is performed by the same person, and only once.

2. In use: when a problem is found, a code is scanned to select a fault, and a green code is automatically switched to an orange code state, voice, character and photo information is recorded, repair information is automatically sent to a receiving and sending person and a maintenance repair person, the equipment has a starting and unlocking function, and the equipment cannot be started and unlocked after being stopped.

Further, this operation was not performed without finding a problem in use.

3. After use: if no problem is found, the 'normal' state is selected and the 'green code' state is kept. The delivery to the receiving and dispatching personnel for warehousing confirms, and the 'exit' function key is selected without warehousing completion.

Periodic maintenance, detection and repair

1. Periodic maintenance validation

When a maintenance repair worker finds that the problem can not be solved temporarily in the maintenance process, a code scanning function key selects a 'fault' function key, the four-color state code is automatically switched to an 'orange code' state, fault information is input, and the 'orange code' is identified for periodic maintenance confirmation after the problem is solved; and after no problem is found or the problem is solved, identifying the four-color state code, selecting 'maintained', inputting maintenance information, and automatically switching the four-color state code into a 'green code' state.

(1) And after the maintenance schedule time node is not exceeded, identifying the four-color state code, selecting 'maintained' and recording maintenance information. The system keeps the 'green code' state to the next scheduled time node according to the time judgment.

(2) And when the maintenance schedule time node is exceeded and the maintenance is carried out in the buffer period, identifying the four-color state code, selecting the 'maintained state', automatically switching the 'yellow code' into the 'green code' state, and recording the maintenance information. The system keeps the 'green code' state to the next scheduled time node according to the time judgment.

(3) And (4) exceeding the maintenance buffer period, identifying the four-color state code, selecting 'maintained' after maintenance, automatically switching the 'orange code' into 'green code', and recording maintenance information. The system keeps the 'green code' state to the next scheduled time node according to the time judgment. The 'orange code' is automatically switched to 'green code', and a deactivation enabling program inside the enterprise is defaulted.

2. Periodic detection

Detecting personnel find problems in the detection process and can not solve the problems temporarily, code scanning selects a 'fault' function key, a four-color state code is automatically switched to an 'orange code' state, fault information is input, and the 'orange code' is identified for detection and confirmation after the problems are solved; if no problem is found or the problem is solved, the four-color status code is identified, the detected status code is selected, the detection information is recorded, and the four-color status code is automatically switched to the green status code.

(1) And after the detection plan time node is not exceeded, identifying the four-color state code, selecting a 'detected' function key, inputting detection information, and automatically keeping and delaying the 'green code' state to the next plan time node according to the time judgment by the system.

(2) And when the detection time exceeds the detection planned time node and in the buffer period, after detection is carried out, the four-color state code is identified, the 'detected' state is selected, the 'yellow code' is automatically switched to the 'green code' state, detection information is recorded, and the system judges according to time and keeps the 'green code' state to the next planned time node.

(3) And when the detection buffer period is exceeded, after detection is carried out, the code scanning four-color state code is selected to be detected, the 'orange code' is automatically switched to be 'green code', detection information is recorded, and the system judges according to time and keeps the 'green code' state to the next scheduled time node.

3. Defect repair validation

A maintenance repair worker finds a problem in the repair process and can not solve the problem temporarily, a fault function key is selected by scanning the code, the four-color state code is automatically switched to an orange code state, fault information is input, and the orange code is identified for detection and confirmation after the problem is solved; and after the problem is not found or the problem is solved, the four-color state code is identified, the detected state is selected, the repair information is input, and the four-color state code is automatically switched to the green state.

(1) And completing a repairing task according to the repairing instruction, identifying the four-color state code, selecting 'repaired' and automatically switching 'orange code' into 'green code' after repairing, recording repairing information, and starting the process when the machine is not used.

(2) When the scrap standard is met or the repair significance is not met, the code scanning selects scrap, the state is automatically switched to a red code state, and scrap letters are recorded.

Claims (10)

1. A safety confirmation system of port equipment, the safety confirmation system is interlocked with an equipment starting unlocking function, is linked with the equipment and a tool using behavior thereof, and the equipment cannot be started and/or cannot be started under the state that safety confirmation is not carried out and green codes are not generated, and is characterized by comprising: the system comprises a two-dimension code label, an intelligent terminal and a central server; the functional module includes: the system comprises a user management module, an equipment information module, a safety confirmation module, a four-color state code module, a fault repair module, a maintenance repair module, a data management module, a control panel display module and an information transceiving module.

Two-dimensional code label: and the two-dimension code labels are manufactured in one-to-one correspondence with the equipment.

The intelligent terminal: the smart phone or the tablet computer can be used for surfing the internet, recording voice, characters, photographing and/or GPS positioning.

A central server: the intelligent terminal management system is provided with an information receiving module and an operation module, is connected with a database, and provides calculation and application services for the intelligent terminal and the management system in a network.

The user management module stores user information and has an identity recognition function, and authority management is performed on different users.

The equipment information module stores and manages basic information, safety confirmation standards and comparison pictures of the equipment so as to realize intelligent comparison for users.

The safety confirmation module comprises a function of confirming normal and fault, and provides voice, text and/or photo repair of fault information when confirming that the fault exists.

The four-color state code is a two-dimensional code capable of being identified and scanned in the page of the intelligent terminal, different colors of the four-color state code are provided with different text prompt messages, the red state code is provided with 'scrap', the orange state code is provided with 'stop', the yellow state code is provided with 'wait to check', and the green state code is provided with 'available'.

The fault repair module: and the fault repair reporting function is used for recording fault information uploaded by code scanning operation, identifying the fault information and sending the fault information to relevant maintenance repair personnel and technical management personnel through the information receiving and sending module.

And a maintenance and repair module: the method is used for safety confirmation after maintenance and repair of maintenance and repair personnel and technical management personnel. After the maintenance repair confirmation operation, the functions of voice or character input and photographing uploading of the maintenance repair information are provided, and the maintenance repair information is sent to the transceiving personnel and the repair reporting personnel through the information transceiving module.

The data management module is used for collecting and storing data, automatically recording and manually editing code scanning time, code scanning personnel and operation information into a database, and is used for counting, analyzing, inquiring, deleting, backing up and generating reports.

The information receiving and sending module is used for receiving and sending repair information and scrapping details.

The control panel display module is used for displaying the information of the modules on a display.

2. The safety validation system of claim 1, wherein the intelligent terminal is a mobile phone or a tablet computer.

3. The safety certification system for port facilities of claim 1, wherein the user management module performs user right management according to enterprise managers, supervision and inspection personnel, equipment tool transceiving and using personnel, maintenance repair personnel, interior working personnel and exterior visitors; the external visitor only has the viewing permission and does not have the safety confirmation operation permission.

4. The safety confirmation system of port facilities as claimed in claim 1, wherein when the system is on-line, the first "green code" is uniformly programmed by the staff in the background of the system, and when the port facilities regularly check and maintain, the code scanning display is the green code; the port equipment does not find essential defects, but exceeds maintenance or detection planning time, maintenance can be immediately organized and detected for use, or the port equipment can be used in a cautious state in the equipment buffering period without maintenance conditions, and code scanning display is yellow code; when the buffer period is exceeded, the orange code is automatically switched to the code, or the defect influencing the use is found, the code scanning display is the orange code, and the code scanning display is the red code after the state is identified as being scrapped by a technical department or a transceiving department.

5. The safety confirmation system of port facilities as claimed in claim 1, wherein the intelligent terminal displays post and name of the person scanning the code after scanning the two-dimensional code label, the safety confirmation function keys of "normal" and "failure" are provided under the four-color status code, the state of "normal" and "green" is kept is selected, the prompt box is popped out to "successfully complete confirmation", the initial page is returned, and the state of "green" is kept by the four-color status code; and if the fault is selected, jumping to a fault repair page, automatically switching the four-color state code to an orange code, displaying a voice, character and/or photographing fault description function key, confirming uploading after information is input, jumping out of a prompt box, and jumping back to the initial page, wherein the information is successfully input.

6. The safety confirmation system of port facilities as claimed in claim 5, wherein the intelligent terminal scans the two-dimensional code and then recognizes that the four-color status code in the page enters the system and jumps to the viewing page, and refers to the basic information, the safety confirmation history, the detection information, the repair information, the maintenance repair information, and the scrapping information.

7. The safety verification system for port facilities as claimed in claim 6, wherein the maintenance repair personnel can select the "maintained", "detected" and "repaired" function keys, and after clicking the function keys, the four-color status code is automatically switched to the "green" status, and voice, text and/or photo information is entered.

8. A method of use of the security validation system of a harbour site according to claim 1 for transceiving validation, comprising the steps of:

the method comprises the steps of warehousing confirmation, checking by a transceiver before warehousing a new spare part, scanning codes without problems, selecting 'normal', inputting basic information in a background to generate a 'green code', manufacturing a two-dimensional code label, adhering the two-dimensional code label to a striking position of the spare part, and warehousing in a subarea manner; returning the found problems to the supplier; the method comprises the following steps that a transceiver checks the safety confirmation status of the used historical safety before the old spare parts are put in storage, the normal state is selected when no problem is found, and the green state is kept; when a problem is found, a 'fault' is selected, and a 'green code' is automatically switched to an 'orange code' state, and fault information is recorded; when the scrapping standard is reached, the 'scrapping' state is automatically switched to the 'red code' state, and after scrapping information is input, classified and partitioned for proper storage;

checking and confirming the spare parts for receiving according to the receiving instruction, wherein the receiving person checks and confirms the received spare parts, the problem is not found, the code scanning is carried out to check whether the four-color state code is in the 'green code' state, the 'normal' state is selected after the four-color state code is confirmed to be correct, the 'green code' state is kept, and the spare parts are received and used; the person of leading finds that the spare part has a problem, selects "trouble", "green sign indicating number" automatic switch is "orange sign indicating number" state, inputs pronunciation, characters, photo information and reports the back of repairment, sends trouble information for receiving and dispatching people and dimension guarantor repairment automatically, and the receiving and dispatching people give the change, and dimension guarantor repairment overhauls.

9. A method of use of the security validation system of a harbour site according to claim 1 for checking validation, comprising the steps of:

before use: before use, safety confirmation is carried out, all normal code scanning is selected to be normal, a green code state is kept, and automatic starting unlocking with an equipment starting unlocking function is carried out; the four-color status code is in a non-green status and informs the user to replace the code; when a problem is found, a fault is selected, the green code is automatically switched to an orange code state, voice, character and/or photo information is recorded, repair information is automatically sent to a receiving and sending person and a maintenance repair person, and starting and unlocking cannot be performed when an equipment starting and unlocking function is available;

in use: when a fault is found, the code scanning is selected, the green code is automatically switched to the orange code state, voice, character and photo information is recorded, repair information is automatically sent to a receiving and sending person and a maintenance repair person, the equipment has a function of starting unlocking, and starting unlocking cannot be carried out after shutdown;

after use: if no problem is found, the 'normal' state is selected and the 'green code' state is kept. The delivery to the receiving and dispatching personnel for storage is confirmed.

10. A method of use of the security validation system of a harbour site as claimed in claim 1, for periodic maintenance, inspection and defect repair validation, comprising the steps of:

when a maintenance repair worker finds that the problem can not be solved temporarily in the maintenance process, a code scanning function key selects a 'fault' function key, the four-color state code is automatically switched to an 'orange code' state, fault information is input, and the 'orange code' is identified for periodic maintenance confirmation after the problem is solved; after no problem is found or the problem is found to be solved, the four-color status code is identified, the 'maintained' status is selected, the maintenance information is recorded, and the four-color status code is automatically switched to the 'green code' status;

(1) and after the maintenance schedule time node is not exceeded, identifying the four-color state code, selecting 'maintained' and recording maintenance information. The system judges and keeps the 'green code' state to the next scheduled time node according to the time;

(2) and when the maintenance schedule time node is exceeded and the maintenance is carried out in the buffer period, identifying the four-color state code, selecting the 'maintained state', automatically switching the 'yellow code' into the 'green code' state, and recording the maintenance information. The system judges according to the time, keep "green code" state to the next planning time node;

(3) and (4) exceeding the maintenance buffer period, identifying the four-color state code, selecting 'maintained' after maintenance, automatically switching the 'orange code' into 'green code', and recording maintenance information. The system judges according to the time, keeps the 'green code' state to the next scheduled time node, and the 'orange code' is automatically switched to the 'green code', and enters a deactivation and reactivation process.

(4) When the scrap standard is met or the repair significance is not met, the code scanning selects scrap, the state is automatically switched to a red code state, and scrap information is input.

Images