CN109360291B - Construction machinery equipment inspection service system - Google Patents

Abstract

The invention discloses a construction machinery equipment inspection service system which comprises a network module, a man-machine interaction module, a terminal positioning module, a storage module, a power supply module, an operation shooting module, a project equipment information base module, a basic information configuration module and an inspection ordering module. Has the advantages that: the system can also automatically generate relevant problem record electronic documents of relevant pictures and texts and pure text versions in the process of information acquisition and equipment state analysis in real time, so that relevant responsibility units can be filed, searched and corrected, and further the relevant responsibility units can be boosted to realize the goal of safety to science and technology through the functions of informatization, big data analysis and the like of the system.

Description

Construction machinery equipment inspection service system

Technical Field

The invention relates to the technical field of building industry, in particular to a construction machinery equipment inspection service system.

Background

On the premise of the vigorous development of national economy, the development speed of the real estate construction industry is faster and faster, and large-scale manufacturers invest in the real estate development industry in a dispute, so that the development of the construction industry is rapidly promoted, the demand of raw materials such as cement, steel bars, stones and the like in related industries is driven to be continuously increased, a related industrial chain is formed, and the quantity of large-scale construction hoisting mechanical equipment in the industry is greatly increased compared with the prior art. The use of a large amount of mechanical equipment, daily management and inspection work and entrance acceptance work are more and more frequent.

Because large-scale equipment belongs to high-risk operation equipment, the inspection work of the construction hoisting machinery needs to be carried out at high altitude currently, the comprehensive requirements on the psychological quality, the physical quality, the practical experience, the professional knowledge and the like of the personnel in the industry are relatively high, and the high safety risk causes people with high academic history and high cultural level to be unwilling to carry out the industry, so that the extreme shortage of the personnel in the industry at present is formed, particularly, fewer high-quality personnel in high-risk operation are required, and the current situation of low threshold of entry is formed naturally.

After large-scale building hoisting machinery equipment is put into a construction site for long-term operation, various problems occur in the equipment condition from the initial normal operation to the later period according to the use time and the use frequency. Therefore, the self-checking or maintenance work needs to be performed on the relevant equipment on the project, so that the large-scale equipment can be ensured to operate well and be in a controllable state.

However, at present, the inspection work of large-scale equipment lacks scientific and uniform inspection standards and methods, and some items have the phenomena of laying down a new affair for the inspection work, inspecting the records of maintenance and the like, and making fake records. In the actual inspection process, no professional personnel carry out professional and efficient inspection work, the judgment is carried out by experience, and the inspection is not strictly carried out according to the standard. The main defects of the large-scale building hoisting machinery equipment industry are inspected:

1. the inspection work has no scientific and unified method and high efficiency, the inspection style and the side emphasis of each person are different, the inspection standards are different, and the obtained conclusions are different;

2. in terms of projects, the inspection work of large equipment is insufficient, the equipment self-inspection is completely relied on, but the authenticity and the validity of the inspection can not be ensured, and the actual condition of the large equipment can not be mastered and known;

3. the relevant records after the examination are all standard tables and have no pertinence, and the examination may have certain randomness and cannot completely reflect the general view of each device on the project;

4. each related responsibility unit and industry supervision unit cannot check and accept the key procedures in the specific equipment inspection process, the potential safety hazards of key parts are supervised and spot checked in real time, and targeted and effective management measures are made;

5. the equipment inspection process belongs to high-altitude operation, and the particularity of the equipment also causes whether the behavior is standard or not, whether the safety production responsibility is implemented in the actual work or not can only be heard from the sky and is free from life, and can only completely depend on the personal safety consciousness of operating personnel;

6. the actually performed check work records are character version paper records input at a later stage, the authenticity and timeliness of the records cannot be guaranteed, and from the perspective of recheck confirmation, there is sometimes no evidence for checking;

7. the method comprises the following steps that original paper work records are actually checked, and the risk of losing uncontrollable reasons exists in practice;

8. when the equipment sub-packaging unit carries out self-checking and self-correction according to related regular checking requirements, the problem of light feedback is avoided generally, and other related responsibility units cannot know the real safety condition of the equipment at all and cannot make targeted rectification or management measures;

9. the inspection process is not normative and uniform, different inspection methods can obtain different inspection conclusions, and the actual condition and the operating condition of the equipment cannot be reflected actually.

Aiming at the technical problems of method and inspection method in the inspection of the building hoisting machinery, such as poor pertinence of the inspection method and the like, the scientific, normative, objective and effective inspection system which relatively meets the inspection requirements of the industry cannot be established aiming at the safety behaviors of the inspection process of the building hoisting machinery in the whole building industry at present.

Disclosure of Invention

In view of the problems in the related art, an object of the present invention is to provide a system for inspecting a construction machine, so as to overcome the above technical problems in the related art.

The technical scheme of the invention is realized as follows:

a construction machinery equipment inspection service system comprises a network module, a man-machine interaction module, a terminal positioning module, a storage module, a power supply module, an operation shooting module, a project equipment information base module, a basic information configuration module, an inspection ordering module, a task circulation module, a record generation module and a database generation module, wherein the project equipment information base module comprises a project information unit and an information configuration modification unit, and the basic information configuration module comprises an equipment information parameter unit, a document name information unit, a work category information unit, a project information unit, a question bank information unit, a suggestion bank information unit and an inspection main body information unit;

the network module is used for providing information support based on the Internet and transmitting information;

the human-computer interaction module is used for providing real-time shooting evidence obtaining, character input and information query for field data by a user, and carrying out corresponding function setting, data analysis query, batch data import and export and system operation;

the terminal positioning module is used for acquiring specific position information and time information of a user when using the terminal equipment through satellite positioning;

the storage module is used for providing a digital information storage space;

the power supply module is used for supplying power to the system;

the operation shooting module is used for shooting and recording problems found in the entity of the inspection equipment or the running state of each part of the equipment, and shot pictures are automatically stored in the cloud;

the project equipment information base module is used for establishing a project equipment basic information base, so that when a user carries out specific evaluation work, all required basic information data of the project equipment can be imported into an editing page through a retrieval function;

the basic information configuration module is used for providing information configuration requirements;

the inspection ordering module is used for ordering the found problems in a mode of uploading pictures and problem description after the inspection of the whole condition of the equipment entity by an inspector and after photographing and storage;

the task circulation module is used for analyzing the found problems by the truer after the inspectors are assigned to the project-specific truing and modifying responsible persons, and performing truing and modifying, photographing and uploading to complete truing and modifying feedback;

the record generation module is used for issuing a picture and text full version document aiming at problems found after project inspection in the information acquisition process in real time after information data acquisition on a construction site by a user is finished;

the database generation module collects project information, equipment information and problem information in the inspection process and generates an inspection chart;

the project information unit is used for establishing an information base of sub-projects and equipment and performing associated calling through the information of common 'project names', 'sub-package units' and the like;

the information configuration modification unit is used for providing addition, deletion and modification editing functions for the items and the equipment information in the item equipment information unit;

the equipment information parameter unit is used for providing item inspection equipment categories;

the document name information unit is used for providing a document generated after ordering and providing title name selection;

the work type information unit is used for providing selection of checking work property types;

the project information unit provides the configuration modification functions of the project overview and the equipment overview;

the question bank information unit is used for providing corresponding question description for the questions found after the equipment entities are checked;

the suggestion library information unit provides corresponding suggestions for the problems found after the examination;

and the checking main body information unit provides document numbering rule configuration after ordering and generating a PDF format.

Further, the network module comprises a wireless network unit and a wired network unit, wherein the wireless network unit is used for connecting the mobile terminal and the fixed terminal; and the wired network unit is used for connecting the fixed terminal.

Further, the terminal positioning module comprises a satellite network positioning unit and a mobile communication network positioning unit, wherein the satellite network positioning unit is used for positioning a satellite network; the mobile communication network positioning unit is used for positioning the mobile communication network.

Further, the operation shooting module comprises picture shooting and image shooting.

Further, the project information unit comprises a project name, a construction unit, a supervision unit, a construction unit and a sub-packaging unit, and the information configuration modification unit comprises a tower crane, a construction elevator and a material elevator.

Further, record generation module is including patrolling and examining recording element and reorganizing and reform recording element, wherein, it includes that single the derivation of ordering and many people's the derivation of ordering to patrol and examine the recording element, reorganizing and reform recording element is including single reorganizing and reform derivation and many people's reorganizing and reform merge the derivation.

Further, the database generation module comprises a patrol record statistical report, a patrol personnel work report, a problem data analysis report, a project statistical report and an equipment statistical report.

The invention has the beneficial effects that: the system can also automatically generate relevant problem record electronic documents of relevant pictures and texts and pure text versions in the process of information acquisition and equipment state analysis in real time, so that relevant responsibility units can be filed, searched and corrected, and further the relevant responsibility units can be boosted to realize the goal of safety to science and technology through the functions of informatization, big data analysis and the like of the system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a functional block diagram of a construction machine inspection service system according to an embodiment of the present invention;

FIG. 2 is a functional block diagram of a network module of a construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 3 is a functional block diagram of a human-machine interaction module of a construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 4 is a functional block diagram of a terminal location module of the construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 5 is a functional block diagram of a memory module of the construction machinery equipment inspection service system according to an embodiment of the present invention;

fig. 6 is a functional block diagram of a work photographing module of the construction machinery inspection service system according to the embodiment of the present invention;

FIG. 7 is a functional block diagram of a project equipment information base module of the construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 8 is a functional block diagram of a basic information configuration module of the construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 9 is a functional block diagram of a human-machine interaction module of a construction machinery equipment inspection service system according to an embodiment of the present invention;

FIG. 10 is a schematic flow diagram of an inspection ordering module of the inspection service system for construction machinery equipment according to an embodiment of the present invention;

FIG. 11 is a schematic flow diagram of a task flow module of a construction machine inspection service system according to an embodiment of the present invention;

fig. 12 is a functional block diagram of a record generation module of the construction machinery equipment inspection service system according to an embodiment of the present invention;

fig. 13 is a functional block diagram of a database generation module of the construction machine inspection service system according to an embodiment of the present invention.

In the figure:

1. a network module; 2. a human-computer interaction module; 3. a terminal positioning module; 4. a storage module; 5. a power supply module; 6. an operation shooting module; 7. the project equipment information base module; 8. a basic information configuration module; 9. a polling ordering module; 10. a task flow module; 11. a record generation module; 12. a database generation module; 13. an item information unit; 14. an information configuration modification unit; 15. a device information parameter unit; 16. a document name information unit; 17. a work category information unit; 18. an item information unit; 19. a question bank information unit; 20. a suggestion repository information unit; 21. the subject information element is checked.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

According to an embodiment of the invention, a construction machinery equipment inspection service system is provided.

As shown in fig. 1 to 13, the construction machinery equipment inspection service system according to the embodiment of the present invention includes a network module 1, a man-machine interaction module 2, a terminal positioning module 3, a storage module 4, a power supply module 5, a work shooting module 6, a project equipment information base module 7, a basic information configuration module 8, an inspection ordering module 9, a task flow module 10, a record generation module 11, and a database generation module 12, where the project equipment information base module 7 includes a project information unit 13 and an information configuration modification unit 14, the basic information configuration module 8 includes an equipment information parameter unit 15, a document name information unit 16, a work category information unit 17, a project information unit 18, a question base information unit 19, a suggestion base information unit 20, and an inspection subject information unit 21;

the network module 1 is used for providing information support based on the internet and transmitting information;

the human-computer interaction module 2 is used for providing real-time shooting evidence obtaining, character input and information query for field data by a user, and carrying out corresponding function setting, data analysis query, batch data import and export and system operation;

the terminal positioning module 3 is used for acquiring specific position information and time information of a user when using the terminal equipment through satellite positioning;

the storage module 4 is used for providing a digital information storage space;

the power supply module 5 is used for providing system power supply;

the operation shooting module 6 is used for shooting and recording problems found in the entity of the inspection equipment or the running states of all parts of the equipment, and shot pictures are automatically stored in the cloud;

the project equipment information base module 7 is used for establishing a project equipment basic information base, so that when a user carries out specific evaluation work, all required basic information data of the project equipment can be imported into an editing page through a retrieval function;

the basic information configuration module 8 is used for providing information configuration requirements;

the inspection ordering module 9 is used for ordering the found problems in a mode of uploading pictures and problem description after the inspection personnel inspects the whole condition of the equipment entity and takes a picture for storage;

the task flow module 10 is used for analyzing the found problems by the truer after the inspectors are assigned to the project-specific truing and modifying responsible persons, and performing truing and modifying, photographing and uploading to complete truing and modifying feedback;

the record generating module 11 is configured to issue, in real time, a merged image and text document for finding a problem after the project inspection, which is generated in the information acquisition process, after information data acquisition on a construction site by a user is completed;

the database generation module 12 collects project information, equipment information and problem information in the inspection process and generates an inspection chart;

the item information unit 13 is used for establishing an information base of the sub-items and the equipment, and performing related calling through the information of the shared item name, sub-packet unit and the like;

the information configuration modifying unit 14 is configured to provide addition, deletion, and modification editing functions for the items and the device information in the item device information unit;

the equipment information parameter unit 15 is used for providing item checking equipment categories;

the document name information unit 16 is used for providing a selection of a title name of a document generated after ordering;

the work category information unit 17 is used for providing selection of checking work property categories;

the project information unit 18 provides configuration modification functions of project profiles and equipment profiles;

the question bank information unit 19 is used for providing corresponding question descriptions for the questions found after the equipment entities are checked;

the suggestion library information unit 20 provides corresponding suggestions for the problems found after the examination;

the check subject information unit 21 provides a document number rule configuration after ordering and generating a PDF format.

With the help of the technical scheme, the utility model has the following functions:

1. acquiring safety data information of an equipment entity and analyzing a safety state;

2. inputting a suggestion library and a question library of the related information library of the equipment entity;

3. after editing is completed, a document name and number configuration function is generated;

4. generating and viewing records of various statistical reports of the system background;

5. the order dispatching and combining functions are performed after the information of the equipment entity is acquired;

6. after the information data is collected, the functions of on-line circulation, rectification, rechecking and the like aiming at the existing problems can be provided.

Can know the equipment general overview and find the problem after the real-time check through above-mentioned function, let the use units know the place that the equipment entity is not enough through the problem feedback, consciously strengthen the safety responsibility consciousness to combine the problem analysis in later stage, look for lacking the benefit poor, effectively promote the comprehensive management ability to the project conscientiously, improve work efficiency. In the process of information acquisition and equipment state analysis, the system can also automatically generate relevant problem record electronic documents of relevant image and text versions and pure text versions in real time for relevant responsibility units to carry out archiving, investigation and rectification, and further boost the relevant units to realize the goal of safety to science and technology through the functions of informatization, big data analysis and the like of the system.

In addition, in one embodiment, the network module 1 includes a wireless network unit and a wired network unit, wherein the wireless network unit is used for connecting the mobile terminal and the fixed terminal; and the wired network unit is used for connecting the fixed terminal.

In addition, in one embodiment, the terminal positioning module 3 includes a satellite network positioning unit and a mobile communication network positioning unit, wherein the satellite network positioning unit is used for satellite network positioning; the mobile communication network positioning unit is used for positioning the mobile communication network.

Additionally, in one embodiment, the job capture module 6 includes picture capture and video capture.

In addition, in one embodiment, the project information unit 13 includes a project name, a construction unit, a supervision unit, a construction unit and a sub-packaging unit, and the information configuration modification unit 14 includes a tower crane, a construction hoist and a material hoist.

In addition, in one embodiment, the record generating module 11 includes an inspection recording unit and a rectification recording unit, wherein the inspection recording unit includes a single ordering export and a multi-person ordering export, and the rectification recording unit includes a single rectification export and a multi-person rectification merging export.

Additionally, in one embodiment, the database generation module 12 includes a patrol record statistics report, a patrol personnel work report, a problem data analysis report, a project statistics report, and an equipment statistics report.

Additionally, in one embodiment, the document output includes the following: and (3) displaying the service feedback picture and text merged version document:

feedback record of safety special item (polling) of building hoisting machinery third party

In summary, with the above technical solution of the present invention, the following beneficial effects can be achieved:

1. by the system, the functions of dispatching various types of inspection tasks or rectifying and modifying responsibility in the use process of the construction hoisting machinery by related responsibility units and industry supervision units with different management authorities can be provided;

2. by the system, the functions of on-line distribution of the rectification tasks and reexamination of the rectification conditions aiming at the problems found in the use process of the construction hoisting machinery can be completed;

3. by the system, the management requirements of equipment safety technical files in the safety supervision and management regulation of construction hoisting machinery (No. 166 of Ministry of construction) can be really and effectively met, so that the 'data making' in the current situation is completely eradicated;

4. by utilizing the system, a user can upload pictures in the inspection process of the construction hoisting machinery in real time, so that a related responsibility main body unit or an industry supervision unit can perform reexamination, acceptance or supervision and spot inspection in real time under the condition of not performing high-altitude operation, and simultaneously, after the operation is completed, a document with rich pictures and texts can be generated in real time for exporting, downloading, printing, archiving, future inspection and the like;

5. by the system, image-text records and real-time uploading can be carried out on the real-time working conditions, problem pictures and the like of key parts in various inspection processes of the construction hoisting machinery, so that the relevant responsibility main body units or industry supervision units can carry out reexamination, acceptance or supervision and spot check in real time without carrying out high-altitude operation, and simultaneously, after the operation is finished, the image-text document can be generated in real time for exporting, downloading, printing, archiving, standby check and the like;

6. the system can complete the functions of online network rectification and rechecking for finding main problems in various checks implemented by the system, and simultaneously provides the functions of exporting, downloading, printing, archiving, back-up checking and the like of the documents with luxuriant pictures and texts;

7. the problem position is positioned in real time through a software operation shooting function and a terminal positioning function in the system, so that the counterfeiting behavior in the checking or rectifying process is avoided, and the timeliness, the authenticity and the effectiveness of an uploaded picture are ensured;

8. the system can provide real-time supervision functions for project equipment inspection processes for all related responsibility units and industry supervision departments;

9. by the rectification reply function provided by the system, the project department can assign a specific rectification responsible person to rectify and upload the problems found after the examination, and simultaneously can provide functions of auditing, rechecking and confirming for related responsibility units with authority, track and know the rectified equipment condition in real time and master the whole state of the equipment;

10. through the document generation module of the system, key data information generated in the using process of the system can be analyzed and classified, different databases are respectively generated for personnel with authority to perform real-time query, data analysis and the like, and particularly, data analysis aiming at finding problems is performed, so that effective management and control on the aspects of equipment from entities to safety behaviors to safety responsibility implementation and the like are achieved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A construction machinery equipment inspection service system is characterized by comprising a network module (1), a man-machine interaction module (2), a terminal positioning module (3), a storage module (4), a power supply module (5), an operation shooting module (6), a project equipment information base module (7), a basic information configuration module (8), an inspection ordering module (9), a task flow module (10), a record generation module (11) and a database generation module (12), wherein the project equipment information base module (7) comprises a project information unit (13) and an information configuration modification unit (14), the basic information configuration module (8) comprises an equipment information parameter unit (15), a document name information unit (16), a work category information unit (17), a project information unit (18), a question base information unit (19), a suggestion base information unit (20) and an inspection main body information unit (21), wherein;

the network module (1) is used for providing information support based on the Internet and transmitting information;

the human-computer interaction module (2) is used for providing real-time shooting evidence obtaining, character input and information query for field data by a user, and carrying out corresponding function setting, data analysis query, batch data import and export and system operation;

the terminal positioning module (3) is used for acquiring specific position information and time information of a user when using the terminal equipment through satellite positioning;

the storage module (4) is used for providing a digital information storage space;

the power supply module (5) is used for providing system power supply;

the operation shooting module (6) is used for shooting and recording problems found in the entity of the inspection equipment or the running states of all parts of the equipment, and shot pictures are automatically stored in a cloud;

the project equipment information base module (7) is used for establishing a project equipment basic information base, so that when a user carries out specific evaluation work, all required basic information data of the project equipment can be imported into an editing page through a retrieval function;

the basic information configuration module (8) is used for providing information configuration requirements;

the inspection ordering module (9) is used for ordering the found problems in a mode of uploading pictures and problem description after the inspection personnel inspects the whole condition of the equipment entity and takes a picture for storage;

the task transfer module (10) is used for analyzing the found problems by the rectification personnel after the inspection personnel are dispatched to the project-specific rectification responsible person, and performing rectification, photographing and uploading to complete rectification feedback;

the record generation module (11) is used for issuing a combined image and text document which is generated in the information acquisition process and aims at the problem found after the project inspection in real time after the information data of a construction site is acquired by a user;

the database generation module (12) collects project information, equipment information and problem information in the inspection process and generates an inspection chart;

the project information unit (13) is used for establishing an information base of sub-projects and equipment and carrying out associated calling through the shared information of 'project names' and 'sub-package units';

the information configuration modification unit (14) is used for providing addition, deletion and modification editing functions for the item and equipment information in the item and equipment information unit;

the equipment information parameter unit (15) is used for providing item inspection equipment categories;

the document name information unit (16) is used for providing a document generated after ordering and providing title name selection;

the work category information unit (17) is used for providing selection of checking work property categories;

the project information unit (18) provides configuration modification functions of engineering project profiles and equipment profiles;

the question bank information unit (19) is used for providing corresponding question descriptions for the questions found after the equipment entities are checked;

the suggestion library information unit (20) provides corresponding suggestions for the found equipment entity problems after the examination and gives corresponding suggestions for the problems;

and the checking main body information unit (21) provides document number rule configuration after ordering and generating a PDF format.

2. The construction machinery equipment inspection service system according to claim 1, wherein the network module (1) comprises a wireless network unit and a wired network unit, wherein the wireless network unit is used for connecting a mobile terminal and a fixed terminal; and the wired network unit is used for connecting the fixed terminal.

3. The inspection service system for construction machinery equipment according to claim 1, wherein the terminal positioning module (3) comprises a satellite network positioning unit and a mobile communication network positioning unit, wherein the satellite network positioning unit is used for satellite network positioning; the mobile communication network positioning unit is used for positioning the mobile communication network.

4. The inspection service system for construction machinery according to claim 1, wherein the work photographing module (6) includes picture photographing and image photographing.

5. The inspection service system for construction machinery equipment according to claim 1, wherein the project information unit (13) includes a project name, a construction unit, a supervision unit, a construction unit and a sub-packaging unit, and the information configuration modification unit (14) includes a tower crane, a construction hoist and a material hoist.

6. The inspection service system for construction machinery equipment according to claim 1, wherein the record generation module (11) includes an inspection recording unit and a modification recording unit, wherein the inspection recording unit includes a single ordering export and a multiple ordering export, and the modification recording unit includes a single modification export and a multiple ordering export and export.

7. The inspection service system for construction machinery according to claim 1, wherein the database generation module (12) includes an inspection record statistical form, an inspection personnel work form, a problem data analysis form, a project statistical form and an equipment statistical form.

Images