CN111815289A

CN111815289A - Safety detection management system for mining equipment

Info

Publication number: CN111815289A
Application number: CN202010686297.7A
Authority: CN
Inventors: 聂勇
Original assignee: Inspection Of Shaanxi Mining Equipment Co ltd
Current assignee: Inspection Of Shaanxi Mining Equipment Co ltd
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2020-10-23
Anticipated expiration: 2040-07-16
Also published as: CN111815289B

Abstract

The invention discloses a safety detection management system for mining equipment, which comprises a platform end and a background server end, wherein the platform end is connected with the 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 process management module is used for generating and managing an approval process; the order following detection module is used for tracking the safety detection task of the mining equipment according to the approval result of the approval process; the data uploading module is used for recording various data in the safety detection task of the mining equipment and uploading the data to the background server; the background server comprises a data model used for summarizing the acquired data to generate a target file; the invention standardizes, programs, electronization, paperless, mobilization and visualization of the whole detection process, can better realize the detection quality control requirement of a company, improves the detection efficiency of mine equipment, is suitable for the modern office management trend, and has popularization value.

Description

Safety detection management system for mining equipment

Technical Field

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

Background

Along with the rapid development of economic construction and the progress of scientific technology in China, the continuous application of new equipment, new technology and new technology, a plurality of new unsafe factors appear in the process of mining operation. In the process of mining operation, 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 and the rise and decay and deposit and death of the enterprise, so that the danger factors in the process of mining operation are eliminated and controlled as much as possible, the conventional safety detection is carried out, and the implementation of safety operation is facilitated.

The current technical service process of detection is as follows:

1. manual on-site transcription: the detection personnel carry the detection equipment to check on site, and copy the detection result on paper to form an original record. In the process, mistakes may occur, so that the report data cannot be traced, and the report conclusion is in doubt.

2. Manual conversion in the process: the original record is calculated for the second time to form a detection report, the manual calculation step in the process is time-consuming and labor-consuming, calculation errors exist, and 100% accuracy of the calculation result cannot be guaranteed.

3. Paper document examination and approval: the data calculation result needs technical examination and approval, the process is long in time consumption, and the data calculation result is limited by factors such as personnel business trips, leave requests and the like, so that the time line of the whole detection report is lengthened, the report use of a client is influenced, and the client feels bad.

4. Reporting physical seal and mailing: the paper report adopts a physical seal, has the loopholes of seal and report counterfeiting, needs to be mailed to a client, is time-consuming and increases expense cost, and can also have the problem of report loss.

5. Paper archiving of all detection records: due to the industry requirements, the paper original records are long in storage time, large in required storage space and high in safety, so that the storage and management cost of the paper original records on the detection side is increased.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

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

In order to achieve the purpose, the technical scheme of the invention comprises the following steps:

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

a human-computer interaction module: the system is used for man-machine interaction, receiving an operation instruction input by a user and displaying feedback information on a screen;

a process management module: the system is used for generating and managing the approval process;

order following detection module: the mine equipment safety detection task tracking processing device is used for tracking the safety detection task of the mine equipment according to the approval result of the approval process;

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

the background server comprises a data model used for summarizing the acquired data and generating a target file.

Further, in the above safety detection and management system for mining equipment, the background server further includes:

the information management module is used for managing and storing the basic information, the post information and the 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 the flows so as to enable the flow management module to execute the corresponding workflow according to the flow control strategy;

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

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

the login submodule is used for acquiring user information to carry out verification login;

the process initiating submodule is used for providing input task information of an input interface, initiating an approval process and sending the initiated approval process to each participant side so as to request the assignment of the tasks;

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

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

Further, in the mine equipment safety detection management system, after the process management module finishes the examination and approval of the workflow of one detection task, a task work order is generated according to the task information and sent to the order following detection module corresponding to the detection personnel platform end.

Further, in the above mine equipment safety inspection management system, the order following detection module includes: the document signing submodule is used for generating a document by a detection person according to the field detected equipment and/or environment for a client to sign;

the field detection submodule is used for acquiring detection data of the detection equipment on the field detected equipment and/or environment, sending the detection data to a data model of the background server through the data uploading module, generating a detection and inspection original record report and requesting to audit the report;

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

the system also comprises an identity authentication submodule for acquiring basic information of the current user and binding the basic information with the detection equipment, and binding data are stored in a background server database.

Further, in the above mine equipment safety detection management system, an equipment and/or environment detection formula is established in the data model, the received detection data of the equipment and/or environment to be detected is nested in the detection formula, and an original detection and inspection record report is automatically generated and returned to the field detection submodule.

Furthermore, in the safety detection management system for mining equipment, the document signing submodule comprises

The information input sub-module is used for providing an input interface for inputting and submitting the detected equipment and/or the environmental information;

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

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 compounding the signature information to a detected principal and/or a contract after the detection principal and/or the contract are generated; completing signature confirmation of the document; and uploading the signature confirmed document to a background server.

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

Further, in the safety detection management system for mining equipment, the safety signature module stores signature information and a digital certificate; the safety signature module performs summary operation on the signature information to obtain a first summary result by adopting a Hash algorithm, performs digital signature on the first summary result, transmits the generated signature data and the digital certificate to the background server side together, requests authentication and obtains an authentication result.

Further, in the mine equipment safety detection management system, the background server establishes a safety verification module, analyzes the signature data in the received authentication request, performs digest operation on the signature information obtained by analysis by adopting a hash algorithm to obtain a second digest result, compares the consistency of the first digest result and the second digest result, and simultaneously matches the digital certificate in the authentication request with the digital certificate data stored by 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 standardizes, programs, electronizes, paperless, mobilizes and visualizes the whole detection process, so that all data can be checked and traced, and then the management system is beneficial to realizing that the examined unit can check the examination and approval process and the electronic report information on the internet in real time;

the safety detection management system for the mining equipment can be used for solving the problems that the field task is heavy, the field distance is far and the field operation cannot be considered in the safety detection of the mining equipment through a computer program: the field (field detection personnel) and the field personnel are organically connected through platform interaction, meanwhile, the responsibility is clear, the field detection is carried out by the field personnel, the platform end transmits data in real time and generates original records and detection reports rapidly, the field detection enters an examination and approval process, and the detection reports can be delivered after the rapid examination and approval is completed. The detection and inspection data are collected, processed, recorded, reported, stored or retrieved by using a computer and automatic equipment (a tablet personal computer and the like), so that a client can conveniently check the report, and a detection company can effectively manage the client and service the client;

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

the invention not only improves the detection efficiency of coal mines and metal and nonmetal mines, but also reduces various office expenses generated by paper documents in paperless office, reduces the labor cost and embodies the green environmental protection policy advocated by the state; the detection system performs binding authentication with detection equipment and detection personnel, and the original data of a detection report is real and traceable; the electronic signature, the handwritten signature, the electronic approval flow and the electronic report ensure that the whole process of a company is completely electronized, adapt to the modern office management trend and have popularization value.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a logic block diagram of a background server in an embodiment of the safety detection management system for mining equipment according to the present invention;

fig. 2 is a platform-side logic block diagram of the safety inspection management system for mining equipment according to an embodiment of the present invention;

FIG. 3 is a schematic illustration 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 view of an audit process of a report of a raw record of a detection check.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

As shown in fig. 1-2, a safety detection management system for mining equipment includes a platform end and a background server end; wherein the platform end includes:

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

In a specific embodiment provided by the invention, the platform end (platform APP) is mounted in mobile equipment such as an explosion-proof tablet personal computer or a smart phone, and the mobile equipment and mine detection equipment are in communication connection to acquire data acquired in a detection field and transmit the data to the background server end to plug a leak with omission or mis-writing in manual copying.

The background server end further comprises an information management module and a process management and control module:

the information management module is used for managing and storing the basic information, the post information and the responsibility information of the user; the management of the information comprises adding, modifying and deleting operations; the user is the detection unit staff, and the basic information comprises the information such as name, gender, identity card number, contact way (telephone number) and identity identification information (such as fingerprint, iris and the like); the post information comprises the affiliated department, position (such as business personnel or detection personnel, detection room main and control officers, financial personnel, equipment managers, office main and control officers, drivers and the like), work number and the like; the responsibility information comprises information describing the work content and is used for limiting the authority of the user in cooperation with the process management and control module; referring to fig. 3, for example, the job of the service staff includes initiation, follow-up and execution of the detection process, the job of the detection office owner includes approval of the initiated detection process, the job of the financial staff includes approval and issuance of expenses such as travelling expenses, the job of the equipment manager includes preparation of the detection equipment according to the detection process, and the job of the office owner includes assignment of a trip driver according to the approved detection task. The information management module describes the responsibility information (namely corresponding work content) of the user, and limits the authority range of the user.

And the flow control module is used for presetting a flow control strategy and configuring the workflow of all the flows. The method comprises the steps that a preset flow control strategy configures all links required when a detection task is completely performed and participants required in all links, namely, a detection task needs to be provided with a plurality of links, which participants are required in each link, the flow direction from one link to the next link and the like; after the configuration is completed, after one process is initiated, documents, information or tasks are automatically transmitted among a plurality of participants according to a preset process control strategy. When a flow control strategy is preset by the flow control module, the responsibility information description of the user in the associated information management module is set when a link participant is set; for example, the responsibility information of the chief and chief royal armor in the detection room includes examining and approving the initiated detection service, and the responsibility information of the chief and chief Liu B in the office includes assigning a trip driver according to the examined and approved detection task (i.e., after the chief and chief in the detection room is examined and approved), so that when the process control strategy is configured for the task examination and approval process, the Liu B must not be set as a participant (approver) in the link of initiating the process and approving the process by the service personnel, but can be set as the royal armor.

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

The information management module and the process management and control module are set by personnel with system administrator authority, and the setting comprises employee filing and approval process setting; the system administrator is common knowledge in the field and is not described in detail; and the employee filing 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 receives an operation instruction input by a user through the man-machine interaction module based on a touch screen (physical hardware) of the mobile equipment in a graphical interface mode, and displays feedback information on the screen. The platform end can display different workflow links for the user to execute in different roles (namely, responsibility) user sides, so that the multi-end adaptive architecture is realized, and the remote approval (or execution) of the process is ensured not to be interfered by time and place.

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

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

after a service person obtains a service requirement for safety monitoring of mining equipment from a client side, a login platform side initiates a flow from a flow initiation module, and inputs task information from an input interface, wherein the task information comprises but is not limited to the company name, address, contact person, telephone, reserved detection time, equipment type (namely detected equipment type including detection of coal mine and metal nonmetal mining equipment) and service type (primary detection or periodic detection) of the client side, and can also comprise detection person information and the like; and after the task information is recorded, submitting the task information and initiating a task approval process.

According to a process control strategy preset by a process control module, the approval process is sequentially sent to platform ends of other participants according to the links carried out by the workflow, in the embodiment, referring to fig. 3, after a business worker initiates the approval process, the business worker firstly arrives at a detection supervisor (in the embodiment, a detection room principal and a subordinate), and the capability and the role of assigned detection personnel can be ensured to be confirmed and matched in advance; after the examination and approval of the principal and the subordinate in the detection room is passed, the examination and approval is sent to an equipment management party (equipment manager), a financial party and an office party (in the embodiment, the principal and the subordinate in the office) for cooperation examination and approval; the equipment administrator prepares the detection equipment according to the reserved detection time, the equipment type and the like in the task information, the equipment is conveniently matched in advance according to the applicable standard requirements of the detected equipment, and the equipment administrator can know the information and the use state of the detection equipment at any time so as to avoid the phenomenon of missed detection or conflict of the detected equipment caused by insufficient preparation of the detection equipment in the traditional technology; calculating and approving the travel fee according to the appointment detection time, the client address and the like in the finance; the main office assigns drivers according to the reservation detection time and the like, assigns tasks to send corresponding drivers, and the drivers see the corresponding drivers from the platform end to prepare the vehicles.

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 sub-module receives assignment information and then displays the assignment information (including the whole workflow and the current flow node) for users to know. Still taking the above embodiment as an example, the detection room principal platform end displays from the process display sub-module after receiving the approval process, the detection room principal inputs an approval instruction (i.e. feeds back the execution condition of the process by the user), the workflow automatically proceeds to the platform ends of the equipment administrator, the finance and the office principal, if the detection room principal inputs a refute approval instruction, the workflow automatically proceeds to the service staff, and the refute instruction may further include a refute reason for the service staff to know and modify the task information, so as to initiate the application again.

After the workflow of a detection task is approved, the process management module generates a corresponding task work order according to the detection personnel information, the reserved detection time, the equipment type and the like in the original task information, sends the corresponding task work order to the order following detection module of the platform end corresponding to the detection personnel, and tracks the safety detection task of the mine equipment.

The documentary order detection module comprises a document signing submodule used for detecting personnel to generate a document according to the field detected equipment and/or environment for a client to sign;

the document in the embodiment includes an equipment detection inspection committee and/or a contract; the document signing submodule is internally provided with a photographing tool which is used for calling a camera of physical equipment (namely current mobile equipment) to carry out on-site photographing storage and photographing the time and/or place watermark of the attachment so as to prove that a detector reaches the site. Where 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 inputting and submitting the detected device and/or the environmental information; the detected equipment comprises, but is not limited to, special equipment used in metal and nonmetal mines and coal mine enterprises for lifting, transportation, ventilation, air compression, drainage and the like, and electrical equipment such as explosion-proof motors, explosion-proof electrical appliances, explosion-proof lamps, explosion-proof instruments, explosion-proof communication equipment, explosion-proof transport vehicles and the like, and the detected environment comprises, but is not limited to, environmental tests (vibration, impact, high and low temperature, smoke, IP protection tests and the like) of electric control products. The detection personnel inputs the field detected equipment and/or environment information through the information input interface, and submits the information after the information is confirmed by the first party (client party).

The document signing submodule also comprises a document generating submodule used for acquiring the detected equipment and/or environment information submitted by the information input submodule, and generating a detection consignment and/or a contract according to a preset document template as a detected item.

The order following detection module further comprises a field detection submodule used for acquiring detection data of the detection equipment on the field detected equipment and/or environment, sending the detection data to a data model of the background server through the data uploading module, generating a detection and inspection original record report and requesting for auditing the report.

The detection equipment brought by detection personnel, such as a ventilator comprehensive tester, a lifter safety performance tester, an air compressor comprehensive parameter tester, a portable pump efficiency tester, a ventilation resistance tester, a belt conveyor safety tester, an ultrasonic flowmeter, a pincerlike 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 thermometer and the like, is in communication connection with a platform end of the detection personnel, and directly sends acquired detection data of the detected equipment and/or environment 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 order following detection module further comprises an identity authentication submodule for acquiring basic information of a current user (detection personnel) and binding the basic information with the detection equipment, binding data are stored in a background server database, and which detection personnel use which detection equipment when and what data are acquired are recorded, so that the data of detection tasks, detection reports and the like can be traced truly at a 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 and inspection original record report, and returning the report to the field detection submodule. Based on the strong data processing capability of the background server, the data calculation is ensured not to be wrong, and the reliability of the detection report is improved.

And the field detection submodule acquires the generated detection and inspection original record report and initiates a report auditing process, and the report auditing process is sent to a participant of the auditing process according to the strategy of the process control module.

The order following detection module also comprises an audit display submodule used for displaying the progress information of the audit process and feeding back the execution condition of the user on the audit process. As shown in fig. 5, the report auditing process that the on-site detection sub-module sends to each participant is displayed in the auditing display sub-module of the participant, the participant feeds back auditing opinions, the auditing opinions include passing auditing and returning auditing, when the auditing finds that the report has problems, returning information is sent to the auditing display sub-module of the initiator, the process is ended, and the technical responsible person calls up the process offline and reviews for solution.

Further, the platform end also comprises a security signature module which is used for adding an electronic signature to the report passing the auditing process by a digital certificate and a digital signature technology to generate a final detection report. The electronic signature is the name of the auditor and/or the business seal of the auditor in the auditor unit.

In one specific implementation of the invention, the security signature module stores signature information and a digital certificate; and when the original detection and inspection record report passes the verification, the signature information is subjected to encryption algorithm signature and then is authenticated to a background server together with the digital certificate, and an electronic signature is added at the specified position of the original detection and inspection record report through the digital certificate and digital signature technology to generate a final detection report.

The signature information comprises stamp information, signature time, an approval stamp number, a unique identifier (unique identifier information in a database of a background server), and the like; the digital certificate is a digital certificate applied to a third-party digital certification authority (public security PKI/CA system). The safety signature module performs summary operation on the signature information to obtain a first summary result by adopting a Hash algorithm, performs digital signature on the first summary result (the digital signature is stored in a local equipment safety storage area), and sends the generated signature data and the digital certificate to the 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, performs summary operation on the signature information obtained by analysis by adopting a Hash algorithm to obtain a second summary result, compares the consistency of the first summary result and the second summary result, and simultaneously matches a digital certificate in the authentication request with digital certificate data stored by 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 adding the electronic signature to the specified position of the original detection and inspection record report to generate a final detection report.

The invention combines CA digital authentication and digital signature technology to ensure the 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.

Documents 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 locally stored, and the data is ensured not to be lost even if an emergency occurs. In addition, business personnel can acquire all report data in the whole detection process of each client from a background server, so that the multi-dimensional checking of the client file is facilitated, and a detection plan is formulated for the client; the client can request report data or download reports from the background server through the website, check the approval progress and provide website link login to acquire data is a mature technology in the field, and details are not repeated here; the invention can standardize, program, electronize, paperless, mobile and visual the whole detection process by the management system, so that all data can be checked and traced, and then the examined unit can check the examination and approval process and the electronic report information on the internet in real time.

The safety detection management system for the mining equipment can be used for solving the problems that the field task is heavy, the field distance is far and the field operation cannot be considered in the safety detection of the mining equipment through a computer program: the field (field detection personnel) and the field personnel are organically connected through platform interaction, meanwhile, the responsibility is clear, the field detection is carried out by the field personnel, the platform end transmits data in real time and generates original records and detection reports rapidly, the field detection enters an examination and approval process, and the detection reports can be delivered after the rapid examination and approval is completed. The detection and inspection data are collected, processed, recorded, reported, stored or retrieved by a computer and an automatic device (a tablet personal computer and the like), so that the report can be conveniently checked by a client, and a detection company can effectively manage the client and service the client.

The system of the invention can better realize the control requirement of company detection quality. According to the applicable standard requirements of the detected equipment, the equipment is matched in advance, and an equipment administrator can know the information and the use state of the equipment at any time, so that the phenomenon of equipment missing detection or conflict existing in the past is avoided; personnel capacity and roles are confirmed and matched in advance, a detection report enters an approval process, the approval efficiency is improved, meanwhile, the phenomenon of missing inspection cannot occur, and the qualification rate and the customer satisfaction rate of the detection report can be greatly improved.

It is noted that the implementation of the invention and all of the functional operations provided herein can 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 implemented 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. A 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 used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

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

2. The mining equipment safety detection management system according to claim 1, wherein the background server further comprises:

3. The mining equipment safety detection management system according to claim 2, wherein the process management module specifically includes:

4. The mining equipment safety detection and management system according to claim 3, wherein the process management module generates a task work order according to the task information after completing the examination and approval of the workflow of one detection task, and sends the task work order to the order following detection module corresponding to the detection personnel platform end.

5. The mining equipment safety inspection management system according to claim 4, wherein the documentary detection module includes:

the document signing submodule is used for generating a document by a detection person according to the field detected equipment and/or environment for a client to sign;

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

6. The mining equipment safety inspection management system according to claim 5,

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 and inspection original record report, and returning the report to the field detection submodule.

7. The mining equipment safety inspection management system according to claim 5,

the document signing submodule comprises

8. The mining equipment safety inspection management system of claim 6, wherein the platform end further comprises a safety signature module, which is used for electronically signing the report passing the auditing process by means of a digital certificate and a digital signature technology to generate a final inspection report.

9. The mining equipment safety detection management system according to claim 8, wherein the safety signature module stores signature information and a digital certificate; the safety signature module performs summary operation on the signature information to obtain a first summary result by adopting a Hash algorithm, performs digital signature on the first summary result, transmits the generated signature data and the digital certificate to the background server side together, requests authentication and obtains an authentication result.

10. The mining equipment safety detection and management system according to claim 9, wherein the back-end server establishes the safety verification module, analyzes signature data in the received authentication request, performs digest operation on the signature information obtained by the analysis by using a hash algorithm to obtain a second digest result, compares the consistency of the first digest result and the second digest result, and matches a digital certificate in the authentication request with digital certificate data stored in the back-end 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.