CN114237352A - Active engineering construction equipment intelligence management and control device and system - Google Patents

Abstract

The invention relates to the technical field of intelligent management and control of engineering construction, in particular to an intelligent management and control device and system for active engineering construction equipment. The device comprises a device platform, an inclined operation platform surface is arranged at the position, close to the middle part, of the device platform, and a display screen for displaying data is arranged at one side, close to the end part, of the device platform. According to the project supervision and management system, the data collected by the project condition collection unit and the data integration unit are compared through the arranged comparison prompt unit, and when the difference of the data is compared, the project supervision is reminded that the data of the project is wrong, so that the correctness of the data recorded by the project supervision is ensured, the project data uploaded by each project engineering responsible person and the data recorded by the project supervision are obtained through the data integration unit, the comparison of the data recorded by the project supervision and management and the project data uploaded by each project engineering responsible person is facilitated, and the accuracy of the data recorded by the project supervision and management is ensured.

Description

Active engineering construction equipment intelligence management and control device and system

Technical Field

The invention relates to the technical field of intelligent management and control of engineering construction, in particular to an intelligent management and control device and system for active engineering construction equipment.

Background

With the gradual deepening of the reform of the national construction field and the gradual improvement of the construction legislation, the construction supervision system is a legal basic system in the engineering construction field of China, the status of supervision in the engineering construction is of great importance, at present, when the engineering supervision manages a construction site, each engineering project in the construction site needs to be observed, the engineering progress and the engineering quality of each project are obtained, the projects of the construction site are many, the situation is complicated, the situation of data recording errors is easy to occur by adopting a method for manually recording data, when the data recording errors occur, the errors cannot be perceived, and further, the engineering construction deviation caused by the data recording errors of supervision is caused, and the rework of later-stage engineering is caused.

Disclosure of Invention

The invention aims to provide an active intelligent management and control device and system for engineering construction equipment, so as to solve the problems in the background technology.

In order to achieve the above object, one of the objects of the present invention is to provide an active intelligent management and control device for engineering construction equipment, which includes a device platform, wherein an inclined operation platform surface is arranged at a position of the device platform near the middle part, a display screen for displaying data is installed at one side of the device platform near the end part, a placement groove for placing a file is formed on the operation platform surface on the device platform, control keys installed on the operation platform surface are arranged at two sides of the placement groove, and a camera for scanning and reading the file is installed at one side of the placement groove near the upper end.

As a further improvement of the technical scheme, the inside bilateral symmetry of standing groove is provided with the flattening device who extrudees the file and paves, flattening device is including being the slide bar of invering the U-shaped, the bottom of slide bar slides and is provided with the depression bar with the laminating of file surface, be fixed with the push down spring that a plurality of is used for connecting on the lateral wall between depression bar and the slide bar.

As a further improvement of the technical scheme, both ends of the sliding rod are fixed with sliding pins, U-shaped rod sliding grooves are symmetrically formed in the upper side wall and the lower side wall of the placing groove in the bilateral mode, both ends of each rod sliding groove penetrate through the device platform and extend out, and the sliding pins are arranged inside the rod sliding grooves in a sliding mode.

As a further improvement of the technical scheme, a plurality of spring placing grooves are formed in the left side and the right side of each placing groove, a plurality of pullback springs are fixed on one side of each sliding rod, and one ends of the pullback springs are inserted into the spring placing grooves and fixedly connected with the spring placing grooves.

The invention also provides an active engineering construction equipment intelligent control system, which is used for controlling any one of the active engineering construction equipment intelligent control devices, and comprises an engineering condition collection unit, a data integration unit and a comparison prompt unit;

the engineering condition collection unit collects scene data of the construction site under the control of the control key to obtain the progress of each engineering project of the construction site, and displays the data information collected by the engineering condition collection unit through a display screen;

the data integration unit scans the file data of each project and the data recorded by project supervision, which are uploaded by each project manager and placed in the placing groove, through the camera, and inputs the file data of each project and the data recorded by project supervision into the device platform;

the comparison prompting unit is used for receiving the data transmitted by the engineering condition collecting unit and the data integrating unit, comparing the received data, judging whether the uploaded data have data difference or not, feeding back the data after the difference between the uploaded data is found, and displaying the compared difference data through the display screen.

As a further improvement of the technical scheme, the project condition collection unit comprises a scene data collection module, the scene data collection module collects images of building scenes of a construction site by adopting a monitoring camera installed on the construction site, judges the progress of each project according to the collected images, and transmits the judged data to the comparison prompt unit.

As a further improvement of the technical scheme, the data integration unit comprises various engineering data uploading modules, a data scanning module and an engineering supervision record data acquisition module;

the project data uploading module is used for receiving the project data uploaded by project engineering responsible persons;

the data scanning module is used for controlling the camera to scan the data recorded by the project supervision;

the project supervision record data acquisition module is used for analyzing the data scanned by the data scanning module and acquiring data information related to each project in the scanned data;

and the project data uploading module and the project supervision record data acquisition module transmit data to the comparison prompt unit after acquiring data information of each project.

As a further improvement of the technical scheme, the comparison prompt unit comprises a data comparison module, a data difference display module, a data error prompt module and a feedback regulation and control module;

the data comparison module is used for classifying the data transmitted by the scene data acquisition module, each project data uploading module and the project supervision record data acquisition module according to different projects, and comparing each data after the classification is finished;

the data difference display module is used for displaying the data with difference through a display screen;

the data error prompting module is used for prompting data with data difference to enable project supervision of input data to obtain the data with difference, so that the project supervision can carry out independent detection on the project with the data difference, the range of project supervision detection projects is narrowed, the checking of the project supervision on the data is accelerated, the data recorded by the project supervision is ensured to be correct, and the normal operation of a project is ensured;

the feedback regulation and control module is used for controlling the scene data acquisition module to reacquire the project with data difference on the construction site when the data error prompt module prompts data error.

As a further improvement of the technical scheme, the engineering condition collection unit further comprises a progress data analysis module and a worker work distribution module;

the progress data analysis module is used for judging the completion degree of the project progress according to the data of the project of the construction site collected by the scene data collection module;

the worker work distribution module is used for obtaining worker distribution in each project according to the data of the projects of the construction site collected by the scene data collection module, and dividing the number of workers working in each project according to the progress of each project.

As a further improvement of the technical solution, the data integration unit further includes an engineering progress prediction module, and the engineering progress prediction module is configured to predict the engineering completion time according to the completion progress of the engineering project.

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

1. in this active engineering construction equipment intelligence management and control device and system, the contrast suggestion unit that sets up contrasts the data that engineering condition collection unit and data integration unit gathered to when the difference of contrast out data, remind the engineering to manage that project's data is makeed mistakes, guarantee the exactness of the data of engineering management record with this, prevent later stage factor data mistake and the construction error that leads to.

2. In this active engineering construction equipment intelligence management and control device and system, the engineering data that each project engineering person of charge uploaded and the data of project supervision record are obtained through the data integration unit to compare the data of project supervision record and the engineering data that each project engineering person of charge uploaded, ensure the accuracy of project supervision record data.

3. In this active engineering construction equipment intelligence management and control device and system, gather the project condition that the data difference appears in to the building site through feedback regulation and control module control engineering condition collection unit, ensure the accuracy of system acquisition data, avoid making the engineering supervision carry out the trouble of taking notes to the engineering project once more because of system data acquisition mistake.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial overall structural schematic of the present invention;

FIG. 3 is a schematic view of an exploded view of the platen apparatus of the present invention;

FIG. 4 is a schematic overall flow chart of the present invention;

FIG. 5 is an overall flow diagram of the present invention;

FIG. 6 is a block diagram of an engineering situation collection unit of the present invention;

FIG. 7 is a block diagram of a data integration unit according to the present invention;

FIG. 8 is a block diagram of a contrast prompt unit according to the present invention.

The various reference numbers in the figures mean:

1. a device table; 2. a placement groove; 21. a spring placing groove; 22. a rod chute; 3. a camera; 4. a display screen; 5. a control key; 6. a flattening device; 61. a slide bar; 62. a slide pin; 63. a pressure lever; 64. pressing down the spring; 65. a pullback spring;

7. an engineering situation collection unit; 71. a scene data acquisition module; 72. a progress data analysis module; 73. a worker work distribution module;

8. a data integration unit; 81. each item of engineering data uploading module; 82. a data scanning module; 83. the project supervision record data acquisition module; 84. a project progress prediction module;

9. a comparison prompting unit; 91. a data comparison module; 92. a data difference display module; 93. a data error prompt module; 94. and a feedback regulation and control module.

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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Example 1

Please refer to fig. 1-3, one of the objectives of the present embodiment is to provide an active intelligent management and control device for construction equipment, which includes a device platform 1, an inclined operation platform is disposed at a position of the device platform 1 near the middle, a display screen 4 for displaying data is installed at a side of the device platform 1 near the end, a placement groove 2 for placing a file is disposed on the operation platform on the device platform 1, control keys 5 installed on the operation platform are disposed at two sides of the placement groove 2, and a camera 3 for scanning and reading the file is installed at a side of the placement groove 2 near the upper end.

The inside bilateral symmetry of standing groove 2 is provided with flattening device 6 that extrudees the tiling to the file, flattening device 6 is including being the slide bar 61 of invering the U-shaped, slide bar 61's bottom is provided with the depression bar 63 with the laminating of file surface, be fixed with a plurality of spring 64 that pushes down that is used for connecting on the lateral wall between depression bar 63 and the slide bar 61, slide bar 61's both ends are fixed with sliding pin 62, the pole spout 22 that is the U type has been seted up to bilateral symmetry on standing groove 2's the upper and lower lateral wall, and the both ends of pole spout 22 all run through device platform 1 and extend out, sliding pin 62 slides and sets up the inside at pole spout 22, a plurality of spring standing groove 21 has all been seted up to standing groove 2's the left and right sides, one side of slide bar 61 is fixed with a plurality of pullback spring 65, the one end of pullback spring 65 is pegged graft in spring standing groove 21, and fixed connection carries out.

In the embodiment, when the data sheet recorded by the project supervision is placed in the placing groove 2, after the camera 3 is placed, the sliding rod 61 is pulled outwards to make the sliding pin 62 leave the rod chute 22, and after the sliding pin 62 is based on the principle of the rod chute 22, the two sliding pins 62 are pulled close to each other to make the pullback spring 65 be elongated, the two ends of the sliding pin 62 are placed in the rod chute 22 at the middle position of the placing groove 2, the press rod 63 is attached to the data recording sheet, the pullback spring 65 pulls the sliding rod 61 to move, the sliding pin 62 slides in the rod chute 22, the press rod 63 slides on the paper to flatten the paper to ensure that the data on the paper is clearly displayed, the camera 3 scans the data recorded by the project supervision, so that the data recorded by the project supervision is collected into the system, so that the system can process the data recorded by the project supervision, and at the same time, the project supervisor observes the data processed by the system through the display screen 4, and the project supervisor can conveniently know whether the recorded data are consistent with other data.

The second objective of the present invention is to provide an intelligent management and control system for active engineering construction equipment, which is used for controlling any one of the above intelligent management and control devices for active engineering construction equipment, and referring to fig. 4 to 8, the system includes an engineering condition collection unit 7, a data integration unit 8, and a comparison prompt unit 9;

the engineering condition collection unit 7 collects scene data of the construction site through the control of the control key 5 to obtain the progress of each engineering project of the construction site, and displays the data information collected by the engineering condition collection unit 7 through the display screen 4, so that the system obtains the basic construction progress of the construction site, the data collected by the system is convenient to compare with the manually input data, the system is convenient to compare multidirectional data, and errors of the data are convenient to find out;

the project condition collection unit 7 comprises a scene data collection module 71, the scene data collection module 71 collects images of a building scene of a construction site by adopting a monitoring camera installed on the construction site, and judges the progress of each project according to the collected images, so that the system obtains basic project progress, the comparison of data transmitted by the data integration unit 8 in the later period is facilitated, the judged data is transmitted to a comparison prompt unit 9, and the comparison prompt unit 9 is used for comparing data information transmitted by the data integration unit 8, and the uploaded data is ensured to be correct;

the engineering situation collection unit 7 further includes a progress data analysis module 72 and a worker work distribution module 73;

the progress data analysis module 72 is used for judging the completion degree of the project progress according to the data of the project of the construction site collected by the scene data collection module 71;

the worker work distribution module 73 is used for obtaining worker distribution in each project according to the data of the projects of the construction site collected by the scene data collection module 71, and dividing the number of workers working in each project according to the progress of each project so as to ensure the completion progress of the whole project;

the data integration unit 8 scans the file data of each project and the data recorded by project supervision, which are uploaded by each project manager and placed in the placing groove 2, through the camera 3, so that the file data of each project and the data recorded by project supervision are input into the device platform 1, such as the progress of the project, the project quality data and the like;

the data integration unit 8 comprises various engineering data uploading modules 81, a data scanning module 82 and an engineering supervision record data acquisition module 83;

each project data uploading module 81 is used for receiving the project data uploaded by each project engineering responsible person;

the data scanning module 82 is used for controlling the camera 3 to scan the data recorded by the project supervision, and obtaining the data information recorded by the project supervision;

the project supervision record data acquisition module 83 is used for analyzing the data scanned by the data scanning module 82, and acquiring data information related to each project in the scanned data to obtain data of project supervision records;

after acquiring the data information of each project, each project data uploading module 81 and the project supervision record data acquisition module 83 transmit the data to the comparison prompt unit 9;

the data integration unit 8 further includes a project progress prediction module 84, and the project progress prediction module 84 is configured to predict the project completion time according to the project completion progress.

The comparison prompting unit 9 is used for receiving data transmitted by the engineering condition collection unit 7 and the data integration unit 8, comparing the received data, displaying the compared difference data through the display screen 4, ensuring that the uploaded data have no difference, feeding back the data after the difference between the data is found, controlling the engineering condition collection unit 7 to re-collect the condition data of the construction site, transmitting the data received by the data integration unit 8 to the engineering condition collection unit 7, and enabling the engineering condition collection unit 7 to perform on-site data collection on the data with the difference, so that the correctness of data uploading is ensured, and the normal construction of the engineering is ensured;

the comparison prompting unit 9 comprises a data comparison module 91, a data difference display module 92, a data error prompting module 93 and a feedback regulation and control module 94;

the data comparison module 91 is used for classifying the data transmitted by the scene data acquisition module 71, each item of engineering data uploading module 81 and the engineering supervision record data acquisition module 83 according to different projects, comparing and comparing each data after classification is completed, comparing whether the data transmitted by the scene data acquisition module 71, each item of engineering data uploading module 81 and the engineering supervision record data acquisition module 83 are the same or not, and checking the data of the engineering supervision record in sequence to ensure the accuracy of the engineering supervision record data and further ensure the normal operation of the whole engineering;

the data difference display module 92 is used for displaying the data with difference through the display screen 4;

the data error prompt module 93 is used for prompting data with data difference, so that project supervision of input data obtains the data with difference, so that the project supervision can perform independent detection on projects with data difference, the range of project supervision detection projects is narrowed, checking of the project supervision on the data is accelerated, data recorded by the project supervision is correct, and normal operation of the project is guaranteed;

the feedback regulation and control module 94 is used for controlling the scene data acquisition module 71 to reacquire the project with data difference on the construction site when the data error prompt module 93 prompts data error.

When the system is used, the scene data acquisition module 71 acquires scenes of a construction site, analyzes acquired images to obtain the progress of construction of the construction site, the project data uploading modules 81 upload data input by project managers, the data scanning module 82 scans data recorded by project supervision to convert the recorded data into electronic data, and acquires data of related projects in the electronic data through the project supervision recorded data acquisition module 83, the data acquired by the scene data acquisition module 71, the project data uploading modules 81 and the project supervision recorded data acquisition module 83 are transmitted to the data comparison module 91, the data comparison module 91 compares and judges the data, and compares whether the data of the same project in the scene data acquisition module 71, the project data uploading modules 81 and the project supervision recorded data acquisition module 83 are consistent or not, when the data of the same project are found to be different, the data difference display module 92 displays the data with difference through the display screen 4, so that the project supervision can know that the project is wrong, the project supervision can conveniently record the data of the project independently, meanwhile, after the data comparison module 91 compares the difference, the data error prompt module 93 reminds the project supervision to know the condition that the data are different, and when the data error prompt module 93 prompts, the feedback regulation and control module 94 feeds the project with the difference wrong back to the scene data acquisition module 71, so that the scene data acquisition module 71 can acquire the data of the project with the data difference, and the accuracy of the data acquired by the system is ensured.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an active engineering construction equipment intelligence management and control device which characterized in that: the device comprises a device platform (1), an inclined operation table top is arranged at a position, close to the middle, of the device platform (1), a display screen (4) used for displaying data is installed at one side, close to the end, of the device platform (1), a placing groove (2) used for placing files is formed in the operation table top on the device platform (1), control keys (5) installed on the operation table top are arranged on two sides of the placing groove (2), and a camera (3) used for scanning and reading the files is installed at one side, close to the upper end, of the placing groove (2).

2. The active intelligent management and control device for engineering construction equipment according to claim 1, wherein: the inside bilateral symmetry of standing groove (2) is provided with flattening device (6) that extrude the tiling to the file, flattening device (6) are including being slide bar (61) of invering the U-shaped, the bottom of slide bar (61) is slided and is provided with depression bar (63) with the laminating of file surface, be fixed with down spring (64) that a plurality of is used for connecting on the lateral wall between depression bar (63) and slide bar (61).

3. The active intelligent management and control device for engineering construction equipment according to claim 2, wherein: the two ends of the sliding rod (61) are fixed with sliding pins (62), the upper side wall and the lower side wall of the placing groove (2) are symmetrically provided with U-shaped rod sliding grooves (22), the two ends of each rod sliding groove (22) penetrate through the device platform (1) and extend out, and the sliding pins (62) are arranged inside the rod sliding grooves (22) in a sliding mode.

4. The active intelligent management and control device for engineering construction equipment according to claim 2, wherein: a plurality of spring placing grooves (21) are formed in the left side and the right side of the placing grooves (2), a plurality of pullback springs (65) are fixed to one side of the sliding rod (61), and one ends of the pullback springs (65) are inserted into the spring placing grooves (21) and fixedly connected with one another.

5. An active engineering construction equipment intelligent management and control system is used for controlling the active engineering construction equipment intelligent management and control device according to any one of claims 1 to 4, and is characterized in that: comprises an engineering condition collection unit (7), a data integration unit (8) and a comparison prompt unit (9);

the engineering condition collection unit (7) collects scene data of the construction site under the control of the control key (5), the progress of each engineering project of the construction site is obtained, and data information collected by the engineering condition collection unit (7) is displayed through the display screen (4);

the data integration unit (8) scans the file data of each project and the data recorded by project supervision, which are uploaded by each project manager and placed in the placing groove (2), through the camera (3), and inputs the file data of each project and the data recorded by project supervision into the device platform (1);

and the comparison prompting unit (9) is used for receiving the data transmitted by the engineering condition collecting unit (7) and the data integrating unit (8), comparing the received data, judging whether the uploaded data have data difference, feeding back the data after the difference between the uploaded data is found, and displaying the compared difference data through the display screen (4).

6. The active engineering construction equipment intelligent management and control system of claim 5, wherein: the project condition collection unit (7) comprises a scene data collection module (71), the scene data collection module (71) collects images of building scenes of a construction site by adopting a monitoring camera installed on the construction site, judges the progress of each project according to the collected images, and transmits the judged data to the comparison prompt unit (9).

7. The active engineering construction equipment intelligent management and control system of claim 5, wherein: the data integration unit (8) comprises various engineering data uploading modules (81), a data scanning module (82) and an engineering supervision record data acquisition module (83);

the project data uploading module (81) is used for receiving the project data uploaded by project engineering responsible persons;

the data scanning module (82) is used for controlling the camera (3) to scan the data recorded by project supervision;

the project supervision record data acquisition module (83) is used for analyzing the data scanned by the data scanning module (82) and acquiring data information related to each project in the scanned data;

and the project data uploading module (81) and the project supervision record data acquisition module (83) transmit data to the comparison prompt unit (9) after acquiring data information of each project.

8. The active engineering construction equipment intelligent management and control system of claim 5, wherein: the comparison prompt unit (9) comprises a data comparison module (91), a data difference display module (92), a data error prompt module (93) and a feedback regulation and control module (94);

the data comparison module (91) is used for classifying the data transmitted by the scene data acquisition module (71), each project data uploading module (81) and the project supervision record data acquisition module (83) according to different projects, and comparing each data after classification is finished;

the data difference display module (92) is used for displaying the data with difference through the display screen (4);

the data error prompt module (93) is used for prompting data with data difference, so that project supervision of input data obtains the data with difference;

and the feedback regulation and control module (94) is used for controlling the scene data acquisition module (71) to reacquire the project with data difference on the construction site when the data error prompt module (93) prompts data error.

9. The active engineering construction equipment intelligent management and control system of claim 5, wherein: the engineering condition collection unit (7) further comprises a progress data analysis module (72) and a worker work distribution module (73);

the progress data analysis module (72) is used for judging the completion degree of the project progress according to the data of the project of the construction site collected by the scene data collection module (71);

the worker work distribution module (73) is used for obtaining worker distribution in each project according to the project data of the construction site collected by the scene data collection module (71), and dividing the number of workers working in each project according to the progress of each project.

10. The active engineering construction equipment intelligent management and control system of claim 5, wherein: the data integration unit (8) further comprises a project progress prediction module (84), and the project progress prediction module (84) is used for predicting the project completion time according to the project completion progress.

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