CN116308260A - Equipment maintenance assistance method, equipment maintenance assistance device, electronic equipment and computer readable medium - Google Patents

Abstract

The invention provides an equipment maintenance auxiliary method, a device, electronic equipment and a computer readable medium, wherein the method comprises the following steps: acquiring basic information of target equipment input by a user in a target application through a first input module; displaying an equipment model diagram corresponding to the target equipment on a pattern user interface, wherein a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment; responding to an input unpick information instruction of a target identifier input by a user through a first input module, and displaying a device unpick form corresponding to the target identifier on a graphical user interface; responding to a device unpick instruction input by a user in a device unpick form through a first input module, and generating device unpick information; displaying equipment disassembling information in an equipment disassembling table; and responding to the equipment disassembly report generation instruction, and generating and storing an equipment disassembly report according to an equipment disassembly table containing equipment disassembly information. The invention can record maintenance data, guide maintenance, improve maintenance quality and efficiency and reduce labor cost.

Description

Equipment maintenance assistance method, equipment maintenance assistance device, electronic equipment and computer readable medium

Technical Field

The present invention relates to the field of computer applications, and in particular, to an apparatus maintenance assistance method, apparatus, electronic device, and computer readable medium.

Background

At present, large-scale equipment for offshore oilfield operations needs to be transported to land for factory return overhaul. In overhaul operation, the equipment needs to be disassembled and inspected, and various parameters of the equipment are measured. However, in practice, due to uneven levels of major repair technology, paper maintenance operation instructions are inconvenient to review, so that maintenance quality is difficult to control, measurement and recording of numerical values in an assembly process are complicated, maintenance efficiency is low, maintenance reports are slow to write, and data errors which are difficult to perceive easily occur.

Disclosure of Invention

The invention provides an equipment maintenance auxiliary method, an equipment maintenance auxiliary device, electronic equipment and a computer readable medium, which can record maintenance data, guide maintenance, improve maintenance quality, improve maintenance efficiency and reduce labor cost.

In a first aspect, the present invention provides an equipment maintenance assistance method, applied to a server, where the server is provided with a target application, and the server is connected with a field input/output device, and the field input/output device includes at least one display module and at least one first input module, where the display module is respectively connected with the server and is used for displaying a graphical user interface of the target application; the method comprises the following steps:

acquiring basic information of target equipment input by a user in a target application through the first input module;

displaying an equipment model diagram corresponding to the target equipment on a graphical user interface according to the basic information of the target equipment, wherein a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment;

responding to an input unpick information instruction of a target identifier input by a user through the first input module, and displaying a device unpick form corresponding to the target identifier on a graphical user interface;

responding to a device unpacking instruction input by a user in the device unpacking form through the first input module, and generating device unpacking information; displaying the equipment disassembling information in the equipment disassembling table;

and responding to a device disassembly report generation instruction input by a user through the first input module, and generating and storing a device disassembly report according to a device disassembly form containing the device disassembly information.

In an alternative embodiment, equipment dismantling information is generated in response to equipment dismantling instructions input by a user through the first input module in the equipment dismantling form; displaying the equipment disassembling information in the equipment disassembling table, wherein the equipment disassembling information comprises the following steps:

analyzing the equipment dismantling instruction to obtain a target dismantling item and an item value;

judging whether the project value meets a preset qualification range threshold corresponding to the target unpick project; if yes, recording and displaying the item value in the equipment dismantling table; if not, executing the next step;

judging whether the project value meets a preset fault range threshold corresponding to the target unpick project; if yes, recording and displaying the item value in the equipment dismantling table; if not, the target application prompts information re-input.

In an alternative embodiment, the first input module is a voice input module and/or a keyboard input module; analyzing the equipment unpick instruction to obtain a target unpick project and a project value, including:

and carrying out voice recognition on the equipment dismantling instruction and/or carrying out key value extraction on the equipment dismantling instruction to obtain a target dismantling item and an item value.

In an alternative embodiment, the field i/o device further includes a photographing module connected to the service module, and the method further includes:

responding to a fault photo shooting instruction of the target equipment, which is input by a user in the equipment dismantling form through the first input module, and calling the shooting module to shoot a fault photo;

and displaying the fault photo in the equipment dismantling table and storing the fault photo.

In an alternative embodiment, in response to a device disassembly report generating instruction input by a user through the first input module, after generating and storing a device disassembly report according to a device disassembly table containing the device disassembly information, the method further includes:

and responding to the device installation instruction input by the user through the first input module in the device dismantling table, and displaying a target device installation guide file uploaded in advance on a graphical user interface, wherein the installation guide file comprises a historical maintenance record.

In an alternative embodiment, the device model diagram is divided into a plurality of stages according to the device structure, and each stage of the device model diagram is provided with at least one identifier according to the conventional fault position of the device.

In a second aspect, the present invention provides an equipment maintenance auxiliary device, configured to a server, where the server is installed with a target application, and the server is connected with a field input/output device, where the field input/output device includes at least one display module and at least one first input module, where the display module is connected with the server, and the at least one first input module is used for displaying a graphical user interface of the target application; the device comprises:

the acquisition module is used for acquiring basic information of target equipment, which is input by a user in the target application through the first input module;

the equipment model diagram module is used for displaying an equipment model diagram corresponding to the target equipment on a graphic user interface according to the basic information of the target equipment, and a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment;

the device inspection removal form module is used for responding to an input inspection removal information instruction of a target identifier input by a user through the first input module and displaying a device inspection removal form corresponding to the target identifier on a graphical user interface;

the equipment disassembling module is used for responding to the equipment disassembling instruction input by the user in the equipment disassembling form through the first input module to generate equipment disassembling information; displaying the equipment disassembling information in the equipment disassembling table;

and the equipment disassembling report module is used for responding to an equipment disassembling report generating instruction input by a user through the first input module, generating an equipment disassembling report according to an equipment disassembling form containing the equipment disassembling information and storing the equipment disassembling report.

In an alternative embodiment, the device unpacking module includes:

the analysis module is used for analyzing the equipment dismantling instruction to obtain a target dismantling item and an item value;

the first judging module is used for judging whether the project value meets a preset qualified range threshold corresponding to the target unpick project, if so, recording and displaying the project value in a device unpick form; if not, executing the next step;

the second judging module is used for judging whether the project value meets a preset fault range threshold corresponding to the target unpick project, if so, recording and displaying the project value in a device unpick form; if not, the target application prompts information re-input.

In an alternative embodiment, the first input module is a voice input module and/or a keyboard input module; the parsing module includes: and carrying out voice recognition on the equipment dismantling instruction and/or carrying out key value extraction on the equipment dismantling instruction to obtain a target dismantling item and an item value.

In an alternative embodiment, the field input output device further includes a photographing module connected to the service module, and the apparatus further includes:

the fault photographing module is used for responding to a fault photo taking instruction of the target equipment, which is input by a user in the equipment dismantling form through the first input module, and calling the photographing module to take a fault photo;

and the fault photo storage module is used for displaying and storing the fault photo in the equipment dismantling table.

In an alternative embodiment, the apparatus further comprises:

and the guide file module is used for responding to the device installation instruction input by the user through the first input module in the device disassembly table, displaying a target device installation guide file uploaded in advance on a graphical user interface, wherein the installation guide file comprises a historical maintenance record.

In an alternative embodiment, the device model diagram is divided into a plurality of stages according to the device structure, and each stage of the device model diagram is provided with at least one identifier according to the conventional fault position of the device.

In a third aspect, the present invention provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any of the preceding embodiments when the computer program is executed.

In a fourth aspect, the present invention provides a computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any of the preceding embodiments.

The beneficial effects of the invention are as follows: the equipment maintenance auxiliary method, the equipment maintenance auxiliary device, the electronic equipment and the computer readable medium can intuitively display the conventional fault positions by the equipment model diagram, thereby assisting in guiding maintenance; the equipment disassembling instruction is further used for generating equipment disassembling information, the equipment disassembling information is recorded in the equipment disassembling form, and finally the equipment disassembling form containing the equipment disassembling information is generated, so that the recording work of maintenance data is realized through a computer, the maintenance efficiency and quality are improved, and the labor cost is reduced.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flow chart of an apparatus maintenance assistance method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a system of an auxiliary method for equipment maintenance according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an apparatus for assisting in maintenance of a device in accordance with an embodiment of the present invention;

fig. 4 is a schematic hardware diagram of an electronic device according to an embodiment of the present invention.

In the figure: 201-Bluetooth headset; 202-main repair; 203-a display of a repair site; 204-a server; 205-remote user; 301-an acquisition module; 302-an equipment model graph module; 303-a device unpacking form module; 304-an equipment dismantling and checking module; 305-a device unpacking report module; 400-an electronic device; 401-a communication interface; 402-a processor; 403-memory; 404-bus.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to facilitate understanding of the present embodiment, a method, an apparatus, an electronic device, and a computer-readable medium for assisting in maintenance of equipment disclosed in the present invention are described in detail below by way of embodiments.

Referring to fig. 1, the present embodiment provides an equipment maintenance assisting method, including the following steps:

step S110: acquiring basic information of target equipment input by a user in a target application through a first input module;

in particular, the present embodiment is described by taking pump maintenance as an example, that is, the target device is a pump. The embodiment is applied to a server, and the server is provided with a target application. The target application is used mainly for storing, retrieving and analyzing data.

The server is connected with field input/output equipment, and the field input/output equipment comprises a display module and two first input modules, wherein the display module is respectively connected with the server and used for displaying a target application graphical user interface. One first input module is a voice input module, and the other first input module is a keyboard input module. The voice input module may be a bluetooth headset worn by the user, the bluetooth headset having a function of receiving the voice of the user. In addition, the field input/output device further comprises a voice broadcasting module, wherein the voice broadcasting module can be integrated on the Bluetooth headset, and can also be simultaneously integrated on the display module for external playing, namely the Bluetooth headset can also have the function of playing voice response sent by the server.

In the target application, the basic information of the pump comprises the number of the offshore platform where the pump is located, the name of the offshore platform where the pump is located, the number of the pump, the model number of the pump, the lift of the pump, the flow rate of the pump, the power of the pump and the like.

Step S120: and displaying an equipment model diagram corresponding to the target equipment on a graphical user interface according to the basic information of the target equipment, wherein a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment.

Here, the server retrieves the model information of the pump in the pump basic information, displays the device model diagram of the model on the graphical user interface, and may also call the archived history data. The plant model diagram may be a two-dimensional cross-sectional view of the pump or a three-dimensional perspective view of the pump.

The plant model diagram is divided into multiple levels by plant structure, i.e. the pump overall diagram is first displayed. And a plurality of marks are respectively arranged on each level of equipment model diagram according to the conventional fault position of the pump, and each mark is provided with an attribute of recorded disassembling information. I.e. clicking the identification of a conventional fault location in the pump overall graph of the home page, and displaying the sub-level part model graph corresponding to the conventional fault location on a graphical user interface.

Step S130: responding to an input unpick information instruction of a target identifier input by a user through a first input module, and displaying a device unpick form corresponding to the target identifier on a graphical user interface;

specifically, the user inputs the input of the inspection information command (or clicks the input of the inspection information attribute of the mark in the sub-level part model diagram by using a mouse) through voice or a keyboard, and the server analyzes the input of the inspection information command and then displays the inspection form on the graphical user interface.

Step S140: responding to a device unpick instruction input by a user in a device unpick form through a first input module, and generating device unpick information; displaying equipment disassembling information in an equipment disassembling table;

specifically, when the user overhauls the pump, the user can check and measure the surface abrasion condition of each overhauling point (corresponding to the identification point) in the pump, and measure the current size of the part. Accordingly, the user enters a device inspection order, for example, a certain part size difference of 1cm. The server analyzes the equipment dismantling inspection instruction, judges the instruction, namely judges whether the 1cm numerical value meets the requirement or not, so as to avoid data errors, records the required project numerical value to obtain equipment dismantling inspection information, and stores the obtained equipment dismantling inspection information into an equipment dismantling inspection form. When the equipment dismantling command is input, voice input can be performed through the Bluetooth headset, the input is performed according to the sequence from top to bottom in the equipment dismantling form, and the input is performed from left to right in a plurality of columns of forms.

Step S150: and responding to a device disassembly report generation instruction input by a user through the first input module, and generating and storing a device disassembly report according to a device disassembly table containing device disassembly information.

Specifically, after finishing the disassembling work of all the parts, the user issues a device disassembling report generating instruction, the server calls a pre-stored word template, and the device disassembling table and the stored information thereof generate a device disassembling report through the word template. The generated inspection includes a basic information table, an inspection data table, an appearance inspection table and an inspection conclusion. The inspection-removal conclusion can be that the data are screened, and the data which are not qualified (disqualified) are screened.

In particular, before step S110, a startup interface may be displayed. For example: in response to a start new repair instruction entered by a user in the target application through the first input module, a device base information form is displayed in the graphical user interface.

According to the method, the project value of the target inspection project is judged, namely, recording, judging and recording work is handed to a computer, errors possibly caused by repeated copying are reduced, a database is built by using a large number of maintenance records, reasonable range data and fault range data are built for different data points of different pump types, the data recorded by measurement are compared with the reasonable range data in the database, the data are recorded in a reasonable range, the fault range data are compared, whether faults exist or not is judged, the faults are recorded in a report, and the time for personnel to judge and write the report is reduced. According to the embodiment, an acquaintance with maintenance experience can provide auxiliary record and judgment by means of the system, so that maintenance efficiency is improved.

Preferably, the step S140 specifically includes:

analyzing the equipment dismantling instruction to obtain a target dismantling item and an item value;

judging whether the item value meets a preset qualified range threshold corresponding to the target unpacking item, if so, recording and displaying the item value in the equipment unpacking table; if not, executing the next step;

judging whether the item value meets a preset fault range threshold corresponding to the target unpick item, if so, recording and displaying the item value in the equipment unpick table; if not, the information is prompted to be input again in the target application.

Here, parsing the device unpacking instruction includes: and carrying out voice recognition on the equipment dismantling instruction, or carrying out key value extraction on the equipment dismantling instruction. Specifically, when a device disassembly instruction is acquired when a voice input device is used, voice recognition is performed on the device disassembly instruction; and when the equipment disassembling instruction is acquired by using the keyboard, the equipment disassembling instruction is extracted.

Further, the project value is judged, and whether the project value meets a preset qualified range threshold or a preset fault range threshold is determined. If the project value is qualified, a qualified mark can be displayed on a target inspection-removal project in a graphical user interface; if the item value falls within the fault range threshold, a fault identification may be displayed on the target tamper item. If the item values fall into the two preset thresholds, prompting the user to re-input the target unpacking item and the item value.

Further, the field input/output device further includes a photographing module connected to the service module, and the device maintenance assisting method of the embodiment further includes:

responding to a fault photo shooting instruction of the target equipment, which is input by a user in the equipment dismantling form through the first input module, and calling a photo shooting module to shoot a fault photo;

and displaying and storing the fault photo in the equipment dismantling table.

Specifically, the embodiment may also take a photograph of the fault condition. For example, in the machine seal project, a user inputs an instruction for shooting a fault photo of the target equipment, the system calls a shooting module to shoot the fault photo of the machine seal, and the server stores the uploaded fault photo into the machine seal project of the equipment dismantling table so as to prove the fault condition of the machine seal. In a specific implementation, the photographing module of the embodiment may be integrated with the bluetooth headset into one device.

Preferably, step S150 further comprises:

and responding to the device installation instruction input by the user through the first input module in the device dismantling form, and displaying a target device installation guide file uploaded in advance on a graphical user interface, wherein the installation guide file comprises a historical maintenance record.

Specifically, after the pump is disassembled and inspected, and parts and components are maintained and replaced, the pump is installed. The installation sequence of the pump, the size of the oil gap of a certain part, the installation position of a certain part and how to avoid collision during installation are all required to be described through installation instruction files. The installation instruction file can be described in various forms such as text, pictures and videos. Wherein the video may call a pre-stored historical repair record.

Optionally, in response to a device installation instruction input by a user through the first input module in the device disassembly table, after the graphical user interface displays the target device installation instruction file uploaded in advance, the device maintenance assistance method of the embodiment further includes:

acquiring a device performance test result;

judging whether the pump performance test is qualified according to the equipment performance test result, if so, generating a pump performance test report, and if not, returning to the previous step.

Optionally, the method of the present embodiment further includes:

responding to a maintenance continuing task instruction input by a user in a target application through a first input module, and displaying an unfinished task list on a graphical user interface;

and responding to the target incomplete task entering instruction input by the user in the target application through the first input module, and displaying a pre-stored target incomplete task on a graphical user interface.

When the incomplete task list is displayed on the graphical user interface, the incomplete items can be displayed according to the time sequence, one of the latest time is recommended through voice in the Bluetooth headset is identified, and selection and confirmation are performed through voice in the Bluetooth headset. When selecting through recognizing the voice in the Bluetooth headset, the voice flip-down function can be set, and the function of returning to the upper menu through the voice is set.

Optionally, the method of the present embodiment further includes:

responding to a historical data reading instruction input by a user in a target application through a first input module, and displaying historical data on a graphical user interface;

displaying target data on a graphical user interface in response to a target data display instruction input by a user in a target application through a first input module;

and displaying the modified target data on the graphical user interface in response to the user making the data modification instruction in the target data.

Specifically, the history data displayed on the graphical user interface may be a device number (a corresponding maintenance report is searched for by using the device number), and a voice is input by using the bluetooth headset to select which item of history data to read.

Optionally, the method of the present embodiment further includes:

responding to a video teaching instruction input by a user in a target application through a first input module, and displaying video teaching contents on a graphical user interface;

the target video is displayed in the graphical user interface in response to the user displaying the target video entered in the target application through the first input module.

Specifically, the names of the videos can be displayed and annotated in the form of thumbnails on the graphical user interface, and the basic functions of a general player such as fast forward, fast backward and pause can be realized by playing in the form of voice selection sequence numbers and file names.

In addition, the embodiment can also display the startup interface or the shutdown interface (while maintaining data) on the graphical user interface in response to the user inputting the startup instruction or the shutdown instruction through the bluetooth headset in the target application.

At the server side, the target application can be clicked by using a mouse, and a unified maintenance report can be generated according to each uploaded report. The files of basic information table, dynamic balance report, performance test report and the like of the pump can be uploaded from the server. The server only shares the overhauling maintenance report folder, and other files can be edited by the manager only through the permission of the manager. The format of the report is PDF format, the uploading form is Excel, and the uploading form is MP4 format.

The present embodiment is described by taking pump maintenance as an example, and besides pump maintenance, the present embodiment may also be fault maintenance or routine maintenance of other motor-driven devices such as motor maintenance and compressor maintenance. As shown in fig. 2, in the application scenario of this embodiment, a main repair 202 (user) obtains an operation guide through a display 203 of a maintenance site and an output module such as a bluetooth headset 201, and the main repair uploads maintenance data to a server 204 through the input module such as the bluetooth headset, and the server 204 judges and records the maintenance data and generates a report for a remote user 205 to download and review so as to check the maintenance data and monitor maintenance progress.

The display of the maintenance site of the embodiment can be provided with a voice output module to realize man-machine communication. The remote user of the embodiment can perform quality inspection on the key nodes and enter the next procedure after the quality inspection is qualified. In the implementation, the data is input in the graphical user interface to prompt and save, and the server should set the automatic timing save function. The server may configure the voice assistant application for voice recognition using which the user wakes up via the bluetooth headset. When the data is recorded, the image user interface needs to prompt the recording position, and when the user has repeated recording contents, the server needs to identify the repeated contents, and the user finally records after confirmation. The aforementioned bluetooth headset may be other forms of wireless voice input devices, such as a wifi remote microphone.

According to the equipment maintenance auxiliary method, step decomposition is carried out on equipment maintenance auxiliary by concentrated thinking, voice input can be carried out on all required data, single person measurement and voice recognition recording can be carried out when the equipment maintenance auxiliary method is used, main maintenance can be focused on measurement, and meanwhile data loss caused by personnel negligence is reduced; the electronic operation instruction (equipment installation instruction file) and the video instruction are used for standardizing the maintenance of maintenance personnel during the maintenance; the automatic generation of the inspection removal report is free from editing, the unified report format is standardized, the inspection is convenient, meanwhile, the report is stored in a server, and a remote user can directly call and inspect; the rationality of the data is judged by accumulating the intelligent judgment data through long-term experience, the obviously unreasonable data is judged and prompted, and errors caused by misseeing are reduced; the data in the history maintenance record can be called as learning data, so that the constructor can learn at the same time, and the level of maintenance personnel is improved; the system is universal, based on interaction and use logic of the system, and is suitable for maintaining different types of equipment by modifying the content of the maintenance database.

According to the equipment maintenance auxiliary method, for a novice with insufficient maintenance experience, maintenance can be performed according to a maintenance flow set up by the system, each step is prepared with an electronic operation instruction book (equipment installation instruction file) and a maintenance technical video, and the novice can perform maintenance according to instructions of the instruction book and the video, so that the function of guiding the novice is finally achieved, and the growth of the novice is accelerated; compared with the original mode of 1 person measuring 1 person recording and then computer input, the single person measuring voice recognition recording improves public efficiency, and the computer has complete data types, so that the problem of data missing caused by negligence is solved; electronic operation instruction and video instruction, and searching data by means of a memory searching manual; the automatic generation of the disassembly report does not need editing, so that the rationality of the data can be intelligently judged; the learning module is provided, so that constructors can learn at the same time.

As shown in fig. 3, the embodiment of the invention further provides an equipment maintenance auxiliary device, which is configured in a server, wherein the server is provided with a target application, the server is connected with a field input/output device, and the field input/output device comprises at least one display module and at least one first input module, wherein the display module is respectively connected with the server and is used for displaying a graphical user interface of the target application; the equipment maintenance support device of the present embodiment includes:

the acquiring module 301 is configured to acquire target device basic information input by a user through the first input module in a target application;

the device model diagram module 302 is configured to display a device model diagram corresponding to the target device on the graphical user interface according to the basic information of the target device, where multiple identifiers are set according to the conventional fault location of the device;

the device inspection removal form module 303 is configured to display a device inspection removal form corresponding to the target identifier on the graphical user interface in response to an input inspection removal information instruction of the target identifier input by the user through the first input module;

the device unpick module 304 is configured to generate device unpick information in response to a device unpick instruction input by a user through the first input module in the device unpick form; displaying equipment disassembling information in an equipment disassembling table;

the device inspection report module 305 is configured to generate and store a device inspection report according to a device inspection form containing device inspection information in response to a device inspection report generation instruction input by a user through the first input module.

In an alternative implementation, the device disassembling module 304 in the foregoing embodiment includes:

the analysis module is used for analyzing the equipment dismantling and checking instruction to obtain a target dismantling and checking project and a project value;

the first judging module is used for judging whether the project value meets a preset qualified range threshold corresponding to the target unpick project, if so, recording and displaying the project value in the equipment unpick form; if not, executing the next step;

the second judging module is used for judging whether the project value meets a preset fault range threshold corresponding to the target unpick project, if so, recording and displaying the project value in the equipment unpick form; if not, the information is prompted to be input again in the target application.

In an alternative embodiment, the first input module is a voice input module and/or a keyboard input module; the analysis module comprises: and carrying out voice recognition on the equipment dismantling instruction and/or carrying out key value extraction on the equipment dismantling instruction to obtain a target dismantling item and an item value.

In an alternative embodiment, the field input/output device further includes a photographing module connected to the service module, and the device maintenance auxiliary apparatus of the foregoing embodiment further includes:

the fault photographing module is used for responding to a command of photographing the fault photo of the target equipment, which is input by a user in the equipment dismantling form through the first input module, and calling the photographing module to photograph the fault photo;

and the fault photo storage module is used for displaying and storing the fault photo in the equipment dismantling table.

In an alternative embodiment, the device maintenance assisting apparatus of the above embodiment further includes:

and the guide file module is used for responding to the device installation instruction input by the user through the first input module in the device disassembly table, displaying a target device installation guide file uploaded in advance on the graphical user interface, wherein the installation guide file comprises a historical maintenance record.

In an alternative embodiment, the plant model diagram is divided into a plurality of stages according to the plant structure, and each stage of the plant model diagram is provided with at least one identifier according to the conventional fault position of the plant.

Referring to fig. 4, the embodiment of the present invention further provides an electronic device 400, including a communication interface 401, a processor 402, a memory 403, and a bus 404, where the processor 402, the communication interface 401, and the memory 403 are connected by the bus 404; the memory 403 is used for storing a computer program supporting the processor 402 to execute the equipment servicing method, the processor 402 being configured to execute the program stored in the memory 403.

Optionally, embodiments of the present invention further provide a computer readable medium having non-volatile program code executable by the processor 402, the program code causing the processor 402 to perform the equipment servicing method as in the above-described embodiments.

The method, apparatus and computer program product for assisting equipment maintenance provided in the embodiments of the present invention include a computer readable storage medium storing program codes, and instructions included in the program codes may be used to execute the method in the foregoing method embodiment, and specific implementation may refer to the method embodiment and will not be described herein.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method of the embodiments of the present invention. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a Read-only memory (ROM), a random access memory (RAM, randomAccessMemory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. The equipment maintenance auxiliary method is characterized by being applied to a server, wherein the server is provided with a target application, the server is connected with field input/output equipment, and the field input/output equipment comprises at least one display module and at least one first input module, wherein the display module is respectively connected with the server and used for displaying a graphical user interface of the target application; the method comprises the following steps:

acquiring basic information of target equipment input by a user in a target application through the first input module;

displaying an equipment model diagram corresponding to the target equipment on a graphical user interface according to the basic information of the target equipment, wherein a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment;

responding to an input unpick information instruction of a target identifier input by a user through the first input module, and displaying a device unpick form corresponding to the target identifier on a graphical user interface;

responding to a device unpacking instruction input by a user in the device unpacking form through the first input module, and generating device unpacking information; displaying the equipment disassembling information in the equipment disassembling table;

and responding to a device disassembly report generation instruction input by a user through the first input module, and generating and storing a device disassembly report according to a device disassembly form containing the device disassembly information.

2. The equipment maintenance assistance method according to claim 1, wherein equipment disassembly information is generated in response to an equipment disassembly instruction input by a user through the first input module in the equipment disassembly table; displaying the equipment disassembling information in the equipment disassembling table, wherein the equipment disassembling information comprises the following steps:

analyzing the equipment dismantling instruction to obtain a target dismantling item and an item value;

judging whether the project value meets a preset qualification range threshold corresponding to the target unpick project; if yes, recording and displaying the item value in the equipment dismantling table; if not, executing the next step;

judging whether the project value meets a preset fault range threshold corresponding to the target unpick project; if yes, recording and displaying the item value in the equipment dismantling table; if not, the target application prompts information re-input.

3. The equipment maintenance assistance method according to claim 2, wherein the first input module is a voice input module and/or a keyboard input module; analyzing the equipment unpick instruction to obtain a target unpick project and a project value, including:

and carrying out voice recognition on the equipment dismantling instruction and/or carrying out key value extraction on the equipment dismantling instruction to obtain a target dismantling item and an item value.

4. The equipment servicing assisting method of claim 1, wherein the field input output device further comprises a photographing module connected to the service module, the method further comprising:

responding to a fault photo shooting instruction of the target equipment, which is input by a user in the equipment dismantling form through the first input module, and calling the shooting module to shoot a fault photo;

and displaying the fault photo in the equipment dismantling table and storing the fault photo.

5. The equipment maintenance support method according to claim 1, wherein in response to an equipment disassembly report generation instruction input by a user through the first input module, generating and storing an equipment disassembly report according to an equipment disassembly form containing the equipment disassembly information further comprises:

and responding to the device installation instruction input by the user through the first input module in the device dismantling table, and displaying a target device installation guide file uploaded in advance on a graphical user interface, wherein the installation guide file comprises a historical maintenance record.

6. The equipment maintenance support method according to claim 1, wherein the equipment model diagram is divided into multiple stages according to equipment structures, and each stage of the equipment model diagram is provided with at least one identifier according to a conventional fault position of equipment.

7. The equipment maintenance auxiliary device is characterized by being configured in a server, wherein the server is provided with a target application, the server is connected with field input/output equipment, and the field input/output equipment comprises at least one display module and at least one first input module, wherein the display module is respectively connected with the server and used for displaying a graphical user interface of the target application; the device comprises:

the acquisition module is used for acquiring basic information of target equipment, which is input by a user in the target application through the first input module;

the equipment model diagram module is used for displaying an equipment model diagram corresponding to the target equipment on a graphic user interface according to the basic information of the target equipment, and a plurality of identifiers are arranged in the equipment model diagram according to the conventional fault positions of the equipment;

the device inspection removal form module is used for responding to an input inspection removal information instruction of a target identifier input by a user through the first input module and displaying a device inspection removal form corresponding to the target identifier on a graphical user interface;

the equipment disassembling module is used for responding to the equipment disassembling instruction input by the user in the equipment disassembling form through the first input module to generate equipment disassembling information; displaying the equipment disassembling information in the equipment disassembling table;

and the equipment disassembling report module is used for responding to an equipment disassembling report generating instruction input by a user through the first input module, generating an equipment disassembling report according to an equipment disassembling form containing the equipment disassembling information and storing the equipment disassembling report.

8. The equipment servicing aid of claim 7, wherein the equipment stripping module comprises:

the analysis module is used for analyzing the equipment dismantling instruction to obtain a target dismantling item and an item value;

the first judging module is used for judging whether the project value meets a preset qualified range threshold corresponding to the target unpick project, if so, recording and displaying the project value in a device unpick form; if not, executing the next step;

the second judging module is used for judging whether the project value meets a preset fault range threshold corresponding to the target unpick project, if so, recording and displaying the project value in a device unpick form; if not, the target application prompts information re-input.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method of any of the preceding claims 1 to 6 when the computer program is executed.

10. A computer readable medium having non-volatile program code executable by a processor, the program code causing the processor to perform the method of any one of claims 1 to 6.

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