CN111815289B - Mine equipment safety detection management system - Google Patents

Abstract

The invention discloses a mining equipment safety detection management system, which comprises a platform end and a background server end; wherein the platform end includes: the man-machine interaction module is used for man-machine interaction, receiving an operation instruction input by a user and displaying feedback information on a screen; the flow management module is used for generating and managing the approval flow; the follow-up detection module is used for carrying out security detection task tracking processing on mining equipment according to an approval result of the approval process; the data uploading module is used for recording various data in the security detection task of the mining equipment and uploading the data to the background server; the background server side comprises a data model and is used for summarizing the acquired data to generate a target file; the invention normalizes, standardizes, programs, electrons, paperless, mobile and visualizes the whole detection flow, can better realize the detection quality control requirement of the company, improves the detection efficiency of mining equipment, adapts to the modern office management trend and has popularization value.

Description

Mine equipment safety detection management system

Technical Field

The invention relates to the technical field of mining equipment detection, in particular to a mining equipment safety detection management system.

Background

With the rapid development of economic construction and the progress of scientific technology in China, new equipment, new technology and continuous application of new technology, a plurality of new unsafe factors appear in the process of mining operation. In the exploitation operation process, the safety of mechanical equipment is directly related to the life safety of each worker, the improvement of the labor productivity of each mine enterprise is related to the decay and death of the enterprise, so that the dangerous factors in the exploitation operation process are eliminated and controlled as much as possible, the conventional safety detection is carried out, and the implementation of the safety operation is facilitated.

The current technical business process of existing detection is:

1. manual transcription on site: the detection personnel carry detection equipment to check on site, and the detected result is transcribed on paper to form an original record. In this process, errors may occur, which may lead to the failure of the report data to trace back, and thus the report conclusion is doubtful.

2. The process is manually converted: the original record is subjected to secondary calculation to form a detection report, the manual calculation step of the process is time-consuming and labor-consuming, calculation errors exist, and 100% accuracy of the calculation result cannot be guaranteed.

3. Paper document approval: the data calculation result requires technical approval, the flow is long in time consumption and is limited by factors such as personnel business trip, leave and the like, so that the time line of the whole detection report is prolonged, the report use of a client is influenced, and the client experience is poor.

4. Reporting physical seals and mailing: the paper report adopts a physical seal, has seal and report faking loopholes, needs to be mailed to clients, consumes time and increases the cost of fees, and can also have the problem of report loss.

5. All test records were paper archived: because of industry requirements, the paper original records have long storage time and large storage space, and safety needs to be considered, so that the storage and management cost of the paper original records of a detection party is increased.

In view of this, the present invention has been made.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a mining equipment safety detection management platform which is beneficial to promoting standardization, programming, electronization, paperless, mobile and visualization of the whole detection flow.

In order to achieve the above object, the present invention provides a technical solution comprising:

the mining equipment safety detection management system comprises a platform end and a background server end; wherein the platform end includes:

and the man-machine interaction module is used for: the method comprises the steps of being used for man-machine interaction, receiving an operation instruction input by a user, and displaying feedback information on a screen;

the flow management module: the method is used for generating and managing the approval process;

the follow-up sheet detection module: the safety detection task tracking processing of the mining equipment is carried out according to the approval result of the approval process;

and a data uploading module: the system is used for recording various data in the security detection task of the mining equipment and uploading the data to a background server;

the background server side comprises a data model and is used for summarizing the acquired data to generate a target file.

Further, in the mine equipment safety detection management system, the background server side further includes:

the information management module is used for managing and storing basic information, post information and responsibility information of the user;

the flow management and control module is used for presetting a flow control strategy and configuring the workflow of all flows so that the flow management module executes the corresponding workflow according to the flow control strategy;

the responsibility information comprises information describing the working content and is used for limiting the authority of the user by matching with the flow management and control module; the preset flow control strategy configures each link required when the detection task is completely carried out and the participants required in each link.

Further, in the mining equipment safety detection management system, the flow management module specifically includes:

the login sub-module is used for acquiring user information to carry out verification login;

the flow starting up module is used for providing an input interface to input task information, starting up an approval flow, and sending the started approval flow to each participant to request the task to be issued;

the flow display sub-module is used for displaying the assignment information of the workflow and feeding back the execution condition of the user on the flow;

the approval process is sequentially sent to the process display sub-modules of other participants according to links carried out by the workflow according to a process control strategy preset by the process control module.

In the mining equipment safety detection management system, after the process management module finishes the approval of the workflow of one detection task, a task work order is generated according to the task information and is sent to the follow-up order detection module corresponding to the detection personnel platform end.

Further, in the mining equipment safety detection management system, the follow-up detection module includes: the document signing sub-module is used for detecting personnel to generate a document according to the field detected equipment and/or the environment so as to be signed by a client;

the field detection sub-module is used for acquiring detection data of the detection equipment on the field detected equipment and/or the environment, transmitting the detection data to a data model of a background server through the data uploading module, generating a detection original record report and requesting to carry out verification of the report;

the auditing display sub-module is used for displaying the progress information of the auditing process and feeding back the execution condition of the auditing process by the user;

the system also comprises an identity authentication sub-module which is used for acquiring the basic information of the current user and binding the detection equipment, and binding data are stored in a background server database.

Furthermore, in the mine equipment safety detection management system, equipment and/or environment detection formulas are built in the data model, the received detection data of the detected equipment and/or environment are sleeved into the detection formulas, detection original record reports are automatically generated, and the detection original record reports are returned to the field detection sub-module.

Further, in the mine equipment safety detection management system, the document signing sub-module includes

The information input submodule is used for providing an input interface for inputting and submitting detected equipment and/or environmental information;

the document generation sub-module is used for acquiring the detected equipment and/or environment information submitted by the information input sub-module as a detected item and generating a detection commission and/or contract according to a preset document template;

the document generation submodule is internally provided with a signature tool and is used for acquiring signature information input by a first party through physical equipment and compositing the signature information to the detected commission and/or contract after the detection commission and/or contract are generated; completing signature confirmation of the document; and uploading the document after signature confirmation to a background server side.

Furthermore, in the mine equipment safety detection management system, the platform end further comprises a safety signature module, and the safety signature module is used for capping the report passing through the auditing process with an electronic signature through a digital certificate and digital signature technology to generate a final detection report.

Furthermore, in the mine equipment safety detection management system, the safety signature module stores signature information and digital certificates; the security signature module carries out abstract operation on the identity information by adopting a hash algorithm to the signature information, a first abstract result is obtained, digital signature is carried out on the first abstract result, generated signature data and the digital certificate are sent to a background server side, authentication is requested, and an authentication result is obtained.

Further, in the mine equipment safety detection management system, a background server establishes a safety verification module, analyzes signature data in a received authentication request, performs abstract operation on signature information obtained by analysis by adopting a hash algorithm to obtain a second abstract result, compares the consistency of the first abstract result and the second abstract result, and simultaneously matches a digital certificate in the authentication request with digital certificate data stored in the background server; and if the digital signature and the digital certificate of the signature information pass the authentication, returning an authentication passing result to the platform end.

Compared with the prior art, the invention has the beneficial effects that:

the management system of the invention normalizes, standardizes, programs, electrons, paperless, mobile and visualizes the whole detection flow, so that all data can be searched and traced, and then the invention is beneficial to realizing that a detected unit can check and approve the flow and the electronic report information on the internet in real time;

the mining equipment safety detection management system can be used for solving the problems that the mining equipment safety detection has heavy field tasks and remote on-site distance and cannot consider the inner industry through a computer program: the outside industry (detecting personnel going out) and the inside industry personnel are interactively and organically connected through a platform, meanwhile, the responsibility is clear, the outside industry is responsible for on-site detection, the platform end transmits data in real time and rapidly generates an original record and a detection report, the inside industry detects and enters an approval process, and the detection report can be delivered after the rapid approval is completed. The detection inspection data is collected, processed, recorded, reported, stored or retrieved by utilizing a computer and an automation device (such as a tablet computer, etc.), so that the report can be conveniently checked by a customer, and a detection company can effectively manage the customer and a service customer;

the application of the system can better realize the detection quality control requirement of the company. According to the specification requirements applicable to the detected equipment, the equipment is matched in advance, equipment administrators know equipment information and the use state at any time, and the phenomenon of missing detection or conflict of the equipment in the past is avoided; the personnel capability and the roles are confirmed and matched in advance, the detection report enters an approval process, the approval efficiency is improved, meanwhile, the missing detection phenomenon is avoided, and the qualification rate of the detection report and the customer satisfaction rate are greatly improved;

the invention not only improves the detection efficiency of the coal mine and the metal nonmetal mine, but also reduces various office expenses generated by paper files in paperless office, reduces the labor cost and embodies the green environment-friendly policy advocated by the nation; the detection system, the detection equipment and the detection personnel perform binding authentication, and the original data of the detection report is truly traceable; electronic signature, handwriting signature, electronic approval flow and electronic report, so that the whole process of the company is completely electronic, and the method is suitable for modern office management trend and has popularization value.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a logical block diagram of a background server of a mining equipment security detection management system of the present invention in one embodiment;

FIG. 2 is a logical block diagram of a platform end of the mining equipment safety detection management system of the present invention in one particular embodiment;

FIG. 3 is a schematic diagram of a workflow for initiating a task approval process;

FIG. 4 is a schematic flow chart of the in-situ test;

FIG. 5 is a schematic diagram of an audit flow for detecting and verifying an original record report.

Detailed Description

Embodiments of the technical scheme of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present invention, and thus are merely examples, and are not intended to limit the scope of the present invention.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this invention pertains.

1-2, the mining equipment safety detection management system comprises a platform end and a background server end; wherein the platform end includes:

and the man-machine interaction module is used for: the method comprises the steps of being used for man-machine interaction, receiving an operation instruction input by a user, and displaying feedback information on a screen;

the flow management module: the method is used for generating and managing the approval process;

the follow-up sheet detection module: the safety detection task tracking processing of the mining equipment is carried out according to the approval result of the approval process;

and a data uploading module: the system is used for recording various data in the security detection task of the mining equipment and uploading the data to a background server;

the background server side comprises a data model and is used for summarizing the acquired data to generate a target file.

The mining equipment safety detection management system provided by the invention aims to solve the problems of manual filling errors and calculation errors, manual data modification, inaccurate detection and inspection data, data incapability of tracing, low detection efficiency, nonstandard detection flow, deviation of detection data and paper reports and the like in the current mining equipment (including coal mine and metal nonmetal mining equipment) detection and inspection flow by utilizing an informatization means, so that the mining equipment safety detection management system is beneficial to providing technical service with traceable, efficient and accurate data for future mining equipment safety detection and inspection.

In a specific embodiment provided by the invention, the platform end (platform APP) is carried in mobile equipment such as an anti-explosion tablet personal computer or a smart phone, and communication connection is established between the mobile equipment and mine detection equipment to acquire data acquired on a detection site and upload the data to a background server end so as to block leaks caused by omission or error in manual transcription.

The background server side further comprises an information management module and a flow management and control module:

the information management module is used for managing and storing basic information, post information and responsibility information of the user; the management of the information comprises adding, modifying and deleting operations; the user is a detection unit employee, and the basic information comprises information such as name, gender, identification card number, contact information (telephone number) and identity identification information (such as fingerprints, irises and the like); the post information comprises a department, a position (such as business personnel or detection personnel, detection room principal, financial personnel, equipment manager, office principal, drivers and the like), a work number and the like; the responsibility information comprises information describing the working content and is used for limiting the authority of the user by matching with the flow management and control module; referring to fig. 3, for example, the role of business personnel includes initiation, follow-up and execution of a detection procedure, the role of a detection office owner includes approval of the initiated detection procedure, the role of financial personnel includes approval of a fee such as a travel fee, the role of an equipment manager includes preparation of a detection equipment according to the detection service, and the role of an office owner includes dispatching a travel driver according to the approved detection task, etc. The information management module describes responsibility information (namely corresponding work content) of the user and limits the authority range of the user.

The flow control module is used for presetting a flow control strategy and configuring the workflow of all flows. The preset flow control strategy is used for configuring each link required when the detection task is completely carried out and the participants required in each link, namely, a detection task needs to be provided with a plurality of links, which participants are required by each link, the flow direction from one link to the next link and the like; after the configuration is completed, a process is initiated to automatically transfer documents, information or tasks among a plurality of participants according to a preset process control strategy. When a flow control strategy is preset by the flow control module, setting responsibility information description of a user in the link participant-time associated information management module; for example, the responsibility information of the detection room main task Wang Jia includes examining and approving the initiated detection business, and the responsibility information of the office main task Liu Yi includes assigning a travel driver according to the examined and approved detection task (i.e. after examination and approval by the detection room main task), so that when the process control policy configures the task approval process, the process control policy must not set Liu Yi as a participant (examination and approval person) in the link of the worker initiating the process for approval, but may be set as the king of the first.

The flow management and control module presets a flow control strategy, and the flow management module at the platform end executes corresponding workflow according to the flow control strategy.

The information management module and the flow management and control module are set by personnel with system administrator authority, including staff profiling and approval flow setting; the system administrator is common knowledge in the art, and will not be described in detail; and the staff profiling is to add basic information, post information and responsibility information of the user for storage.

The platform end is carried on mobile equipment such as a tablet personal computer (PAD) or a smart phone, and the touch screen (physical hardware) based on the mobile equipment receives an operation instruction input by a user in a graphical interface mode through the man-machine interaction module and displays feedback information on a screen. The platform end can display different workflow links for user execution on the user side with different roles (i.e. responsibilities), so that the multi-terminal adaptive architecture is realized, and the remote approval (or execution) of the flow is ensured not to be interfered by time and place.

The flow management module is used for: the method is used for generating and managing the approval process; the specific flow management module comprises:

the login sub-module is used for acquiring user information to carry out verification login; wherein the user information includes, but is not limited to, the basic information and password of the user, the user can log in by verifying the name, the identification number, the contact (phone number) and the identification information (such as fingerprint, iris, etc.) and the password of the user.

The flow starting up module is used for providing an input interface to input task information, starting up an approval flow, and sending the started approval flow to each participant to request the task to be issued;

after obtaining the service requirement for carrying out safety monitoring on mining equipment from a client side, a login platform end initiates a process from a process initiating module, and inputs task information from an input interface, wherein the task information comprises, but is not limited to, company names, addresses, contacts, telephones, reserved detection time, equipment types (namely detected equipment types, including detection of coal mine and metal nonmetal mining equipment) and service types (primary detection or periodic detection), and also can comprise detection personnel information and the like; and submitting the task information after the task information is input, and initiating a task approval process.

The approval process is sequentially sent to the platform ends of other participants according to links performed by the workflow according to a process control strategy preset by the process control module, in this embodiment, referring to fig. 3, after the business personnel initiates the approval process, the business personnel first go to a detection supervisor (in this embodiment, a detection room owner) to perform approval, so that the assigned capability and role of the detection personnel can be ensured to be confirmed and matched in advance; after the detection room owner approval passes, the detection room owner approval is sent to an equipment management party (equipment manager), a financial party and an office party (office owner in the embodiment) for cooperation approval; the equipment manager prepares the detection equipment according to the reservation detection time, equipment types and the like in the task information, so that the equipment is matched in advance according to the specification requirements applicable to the detected equipment, and the equipment manager knows the information and the use state of the detection equipment at any time, so that the phenomenon that the detected equipment is missed to be detected or conflicts due to insufficient preparation of the detection equipment in the traditional technology is avoided; finance calculates and approves travel fees according to reservation detection time, customer addresses and the like; the office entrepreneurs dispatch drivers according to the reservation detection time and the like, dispatch tasks are sent to corresponding drivers, and the drivers see the drivers from the platform end to prepare the vehicle.

The flow display sub-module is used for displaying the assignment information of the workflow and feeding back the execution condition of the user on the flow;

after a workflow is initiated, the workflow is automatically and sequentially sent to platform ends of different participants according to a flow control strategy, and a flow display submodule displays the dispatch information (comprising the whole workflow and the current flow node) after receiving the dispatch information so as to be known by a user. Taking the above embodiment as an example, after the inspection process is received by the inspection room owner platform, the inspection room owner input passes the inspection instruction (i.e. feedback user to process execution condition) and is displayed by the process display submodule, the workflow automatically proceeds to the platform end of the equipment manager, finance and office owner, if the inspection room owner input the inspection instruction, the workflow automatically proceeds to the business personnel, the inspection reason can be included in the inspection instruction, so that the business personnel can know and modify the task information to initiate the application again.

After the process management module finishes the examination and approval of the workflow of one detection task, a corresponding task work order is generated according to the detection personnel information, the reservation detection time, the equipment type and the like in the original task information and is sent to a follow-up order detection module corresponding to the detection personnel platform end, and safety detection task tracking processing of mining equipment is carried out.

The documentary detection module comprises a document signing sub-module and is used for detecting personnel to generate documents according to field detected equipment and/or environments for clients to sign;

in the embodiment, the Chinese book comprises equipment detection examination commission and/or contract and the like; the document signing submodule is internally provided with a photographing tool and is used for calling a camera of physical equipment (namely current mobile equipment) to perform on-site photographing storage, and photographing accessory time and/or place watermarks are used for proving that a detector reaches the site. Wherein the location watermark is determined by invoking GPS of the physical device.

Referring to fig. 4, the document signing sub-module further includes an information entry sub-module for providing an entry interface for entering and submitting detected device and/or environmental information; the detected equipment comprises, but is not limited to, underground special mine equipment such as lifting, transportation, ventilation, air compression, drainage and the like used by metal nonmetallic mines and coal mine enterprises, and electrical equipment such as explosion-proof motors, explosion-proof electrical appliances, explosion-proof lamps, explosion-proof instruments and meters, explosion-proof communication equipment, explosion-proof transport vehicles and the like, and the detected environment comprises, but is not limited to, electronic control product environment tests (vibration, impact, high and low temperature, smoke, IP protection tests and the like). The detection personnel inputs the on-site detected equipment and/or environmental information through the information input interface, and submits the information after confirmation by the first party (client side).

The document signing sub-module further comprises a document generation sub-module for acquiring detected equipment and/or environment information submitted by the information input sub-module as detected items and generating detection commissions and/or contracts according to preset document templates.

The document generation submodule is internally provided with a signature tool and is used for acquiring signature information input by a first party through physical equipment and compositing the signature information to the detected commission and/or contract after the detection commission and/or contract are generated; completing signature confirmation of the document; and uploading the document after signature confirmation to a background server side.

The documentary detection module further comprises a site detection sub-module which is used for acquiring detection data of the detection equipment on site detected equipment and/or environment, and sending the detection data to a data model of a background server through the data uploading module to generate a detection and inspection original record report and request to carry out verification of the report.

The detection equipment brought by detection personnel such as a ventilator comprehensive tester, a lifter safety performance detector, an air compressor comprehensive parameter tester, a portable pump efficiency tester, a ventilation resistance tester, a belt conveyor safety tester, an ultrasonic flowmeter, a clamp-shaped ground resistance tester, a high-voltage insulation tester, a motor operation tester, a portable multi-parameter tester, a digital sound level meter, a vibration detector, a photoelectric tachometer, an infrared thermometer, a digital display hygrothermograph and other instrument equipment are in communication connection with the platform end of the detection personnel, and the collected detection data of the detected equipment and/or the environment are directly sent to a field detection submodule, so that the problems of data errors, writing errors and the like easily caused by manual detection and input work are avoided.

The follow-up detection module further comprises an identity authentication sub-module, wherein the identity authentication sub-module is used for acquiring basic information of a current user (detection personnel) and binding with the detection equipment, binding data are stored in a background server database, recording which detection personnel use which detection equipment when, acquiring which data and the like, and facilitating real traceability of data of detection tasks, detection reports and the like in later period.

And establishing a device and/or environment detection formula in the data model, sleeving the received detection data of the detected device and/or environment into the detection formula, automatically generating a detection original record report, and returning to the field detection sub-module. Based on the powerful data processing capability of the background server, the calculation of the data is guaranteed not to be wrong, and the reliability of the detection report is improved.

The on-site detection sub-module acquires the generated detection and inspection original record report to initiate the auditing flow of the report, and the report auditing flow is sent to the participants of the auditing flow according to the strategy of the flow management and control module.

The documentary detection module further comprises an audit display sub-module for displaying progress information of the audit process and feeding back execution conditions of the audit process by a user. As shown in FIG. 5, the report audit flow sent to each participant by the on-site detection submodule is displayed by an audit display submodule at the participant, the participant feeds back audit comments, the audit comments include pass audit and review audit, when problems are found in the audit report, the review information is sent to an audit display submodule of the initiator, the flow is ended, and the technology is responsible for personnel line recall and review solutions.

Furthermore, the platform end also comprises a security signature module for applying an electronic signature to the report passing through the auditing process through a digital certificate and digital signature technology to generate a final detection report. The electronic signature is the name of the auditor and/or the business signature of the auditing unit where the auditor is located.

In one specific implementation of the present invention, the security signature module stores signature information and digital certificates; when the detection and inspection original record report passes the auditing, the signature information is signed by an encryption algorithm and then authenticated with a digital certificate to a background server, and the digital certificate and the digital signature technology are used for capping an electronic signature at a designated position of the detection and inspection original record report to generate a final detection report.

The signature information comprises signature information, signature time, approval seal number, unique identification (identification information with uniqueness in a database of a background server side) and the like; the digital certificate is a digital certificate applied to a third party digital certification authority (public security PKI/CA system). The security signature module carries out abstract operation on the identity information by adopting a hash algorithm to the signature information, so as to obtain a first abstract result, carries out digital signature (the digital signature is stored in a local equipment security storage area), and sends the generated signature data and the digital certificate to a background server side to request authentication and obtain an authentication result.

The background server establishes a security verification module, analyzes signature data in the received authentication request, adopts a hash algorithm to carry out abstract operation on signature information obtained by analysis to obtain a second abstract result, compares the consistency of the first abstract result and the second abstract result, and simultaneously matches a digital certificate in the authentication request with digital certificate data stored in the background server; and if the digital signature and the digital certificate of the signature information pass the authentication, returning an authentication passing result to the platform end, and capping the seal to a designated position of the detection inspection original record report and capping the electronic signature to generate a final detection report.

The invention combines CA digital authentication and digital signature technology to ensure legal effect of signature and seal in all electronic documents; and the method has the characteristics of non-tampering and non-reversibility, and ensures the credibility of the file.

The document and all reports generated by the platform end are stored locally; and the data is uploaded to a background server side for backup through a data uploading module, so that one cloud backup is stored in a sample manner, and data is prevented from being lost even if an emergency occurs. Moreover, business personnel can acquire all report data in the whole detection flow of each client from a background server, so that the multi-dimensional client file checking is facilitated, and the detection plan for the client is facilitated to be formulated; the client can request report data or download reports from the background server through the website, check approval progress, and provide website link login to acquire the data as a mature technology in the field, which is not described herein again; through the management system, the whole detection flow is normalized, standardized, programmed, electronic, paperless, mobile and visual, so that all data can be searched and traced, and a detected unit can check the examination and approval flow and the electronic report information on the internet in real time.

The mining equipment safety detection management system can be used for solving the problems that the mining equipment safety detection has heavy field tasks and remote on-site distance and cannot consider the inner industry through a computer program: the outside industry (detecting personnel going out) and the inside industry personnel are interactively and organically connected through a platform, meanwhile, the responsibility is clear, the outside industry is responsible for on-site detection, the platform end transmits data in real time and rapidly generates an original record and a detection report, the inside industry detects and enters an approval process, and the detection report can be delivered after the rapid approval is completed. The detection inspection data is collected, processed, recorded, reported, stored or retrieved by using a computer and an automation device (such as a tablet computer, etc.), so that the report can be conveniently checked by a customer, and a detection company can effectively manage the customer and a service customer.

The application of the system can better realize the detection quality control requirement of the company. According to the specification requirements applicable to the detected equipment, the equipment is matched in advance, equipment administrators know equipment information and the use state at any time, and the phenomenon of missing detection or conflict of the equipment in the past is avoided; personnel capability and roles are confirmed and matched in advance, a detection report enters an approval process, approval efficiency is improved, meanwhile, missing detection phenomenon is avoided, and the qualification rate of the detection report and the customer satisfaction rate are greatly improved.

The invention not only improves the detection efficiency of the coal mine and the metal nonmetal mine, but also reduces various office expenses generated by paper files in paperless office, reduces the labor cost and embodies the green environment-friendly policy advocated by the nation; the detection system, the detection equipment and the detection personnel perform binding authentication, and the original data of the detection report is truly traceable; electronic signature, handwriting signature, electronic approval flow and electronic report, so that the whole process of the company is completely electronic, and the method is suitable for modern office management trend and has popularization value.

It is noted that the implementations of the invention and all of the functional operations provided herein may be implemented in digital electronic circuitry, or in computer software, firmware, or hardware, including the structures disclosed in this specification and their structural equivalents, or in combinations of one or more of them. Implementations of the present disclosure may be realized as one or more computer program products, i.e., one or more modules of computer program instructions encoded on a computer-readable medium for execution by, or to control the operation of, data processing apparatus.

A computer program (also known as a program, software application, script, or code) can be written in any form of programming language, including compiled or interpreted languages, and it can be deployed in any form, including as a stand-alone program or as a module, component, subroutine, or other unit suitable for use in a computing environment. The computer program does not necessarily correspond to a file in a file system. A program can be stored in a portion of a file that holds other programs or data (e.g., one or more scripts stored in a markup language document), in a single file dedicated to the program in question, or in multiple coordinated files (e.g., files that store one or more modules, sub-programs, or portions of code). A computer program can be deployed to be executed on one computer or on multiple computers at one site or distributed across multiple sites and interconnected by a communication network.

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, and are intended to be included within the scope of the appended claims and description.

Claims (9)

1. The mining equipment safety detection management system is characterized by comprising a platform end and a background server end; wherein the platform end includes:

and the man-machine interaction module is used for: the method comprises the steps of being used for man-machine interaction, receiving an operation instruction input by a user, and displaying feedback information on a screen;

the flow management module: the method is used for generating and managing the approval process;

the follow-up sheet detection module: the safety detection task tracking processing of the mining equipment is carried out according to the approval result of the approval process;

and a data uploading module: the system is used for recording various data in the security detection task of the mining equipment and uploading the data to a background server;

the background server side comprises a data model and is used for summarizing the acquired data to generate a target file;

the background server side further comprises:

the information management module is used for managing and storing basic information, post information and responsibility information of the user;

the flow management and control module is used for presetting a flow control strategy and configuring the workflow of all flows so that the flow management module executes the corresponding workflow according to the flow control strategy;

the responsibility information comprises information describing the working content and is used for limiting the authority of the user by matching with the flow management and control module; the preset flow control strategy configures each link required when the detection task is completely carried out and the participants required in each link;

when the flow control module presets a flow control strategy, setting responsibility information description of a user in the link participant time associated information management module; after the configuration is completed, a process is initiated to automatically transfer documents, information or tasks among a plurality of participants according to a preset process control strategy.

2. The mining equipment safety inspection management system according to claim 1, wherein the flow management module specifically includes:

the login sub-module is used for acquiring user information to carry out verification login;

the flow starting up module is used for providing an input interface to input task information, starting up an approval flow, and sending the started approval flow to each participant to request the task to be issued;

the flow display sub-module is used for displaying the assignment information of the workflow and feeding back the execution condition of the user on the flow;

the approval process is sequentially sent to the process display sub-modules of other participants according to links carried out by the workflow according to a process control strategy preset by the process control module.

3. The mining equipment safety detection management system according to claim 2, wherein after the process management module finishes the approval of the workflow of one detection task, a task work order is generated according to the task information and is sent to a follow-up order detection module corresponding to the detection personnel platform end.

4. The mining equipment safety detection management system according to claim 3, wherein the order detection module includes:

the document signing sub-module is used for detecting personnel to generate a document according to the field detected equipment and/or the environment so as to be signed by a client;

the field detection sub-module is used for acquiring detection data of the detection equipment on the field detected equipment and/or the environment, transmitting the detection data to a data model of a background server through the data uploading module, generating a detection original record report and requesting to carry out verification of the report;

the auditing display sub-module is used for displaying the progress information of the auditing process and feeding back the execution condition of the auditing process by the user;

and the identity authentication sub-module is used for acquiring the basic information of the current user and binding the detection equipment, and binding data are stored in a background server database.

5. The mining equipment safety inspection and management system according to claim 4, wherein,

and establishing a device and/or environment detection formula in the data model, sleeving the received detection data of the detected device and/or environment into the detection formula, automatically generating a detection original record report, and returning to the field detection sub-module.

6. The mining equipment safety inspection and management system according to claim 4, wherein,

the document signing submodule comprises

The information input submodule is used for providing an input interface for inputting and submitting detected equipment and/or environmental information;

the document generation sub-module is used for acquiring the detected equipment and/or environment information submitted by the information input sub-module as a detected item and generating a detection commission and/or contract according to a preset document template;

the document generation submodule is internally provided with a signature tool and is used for acquiring signature information input by a first party through physical equipment and compositing the signature information to the detected commission and/or contract after the detection commission and/or contract are generated; completing signature confirmation of the document; and uploading the document after signature confirmation to a background server.

7. The mining equipment safety inspection management system according to claim 5, wherein the platform end further comprises a safety signature module for electronically signing the report passing through the auditing process by digital certificate and digital signature technology to generate a final inspection report.

8. The mining equipment safety detection management system according to claim 7, wherein the safety signature module stores signature information and digital certificates; the security signature module carries out abstract operation on the identity information by adopting a hash algorithm to the signature information, a first abstract result is obtained, digital signature is carried out on the first abstract result, generated signature data and the digital certificate are sent to a background server side, authentication is requested, and an authentication result is obtained.

9. The mining equipment safety detection management system according to claim 8, wherein the background server establishes a safety verification module, analyzes signature data in the received authentication request, performs abstract operation on signature information obtained by the analysis by adopting a hash algorithm to obtain a second abstract result, compares the consistency of the first abstract result and the second abstract result, and simultaneously matches a digital certificate in the authentication request with digital certificate data stored in the background server; and if the digital signature and the digital certificate of the signature information pass the authentication, returning an authentication passing result to the platform end.