CN114282824B - Building engineering informatization management system - Google Patents

Abstract

The invention provides a construction engineering informatization management system which comprises a cloud server, an acquisition module, a detection module, a calibration module, a supervision module, a task module, a prompt module and a processor, wherein the acquisition module is used for acquiring data of a construction position so as to acquire current construction drawing parameters and construction requirements; the detection module is used for detecting the working progress of the worker so as to dynamically detect the current progress; the task module is used for dispatching engineering tasks so as to realize task dispatching of all positions and building stations; the calibration module is used for rechecking or calibrating each working condition after construction; the supervision module is used for supervising workers and construction progress; the prompting module prompts workers based on the data of the supervision module and generates modification suggestions. The invention is used for supervising the workers and the construction progress through the supervision module, and also forms a closed loop by matching with the task module, so as to supervise the construction tasks distributed by the workers.

Description

Building engineering informatization management system

Technical Field

The invention relates to the technical field of building engineering management, in particular to an information management system for building engineering.

Background

The quality control of the engineering is carried out through the life cycle of the whole building engineering, the quality importance degree of the building engineering from the national layer is greatly improved in recent years, and meanwhile, the life safety of people is also related at all times. Engineering data management is typically performed by means of construction data tables, which are important manifestations of the quality of the construction engineering and are also the most important data record carriers in the construction process. Only engineering data of process related records and data traces can be reserved after the whole construction project is completed, so that the engineering data has an irreplaceable function.

For example, the prior art of CN108376376B discloses a building engineering quality management standardization method based on a BIM model, which has clear quality control points according to the specification requirements of various engineering projects, but the existing technical scheme at present is not involved, because the involved standard specifications are very many and the professional requirements are high. The efficiency of the mode of uploading the engineering materials by manual operation is extremely low due to more data of the engineering materials; even if the existing manual uploading function is simpler, engineering data is always uploaded to engineering and unit engineering levels, individual data can be uploaded to a floor level, but the individual data cannot be obtained in detail, because the knowledge of the BIM model by the informationans is basically zero, and even if the information is completed by a professional BIM team, the informationas are not known to the engineering data, and the cost is very high. The method only completes the hanging of the engineering data file, but from the development of industry, the file can only be used as a viewing resource, and the data of the engineering data can not be integrated with the BIM model, so that the deep utilization of the engineering data can be realized.

Another exemplary project management system based on a building information model, as disclosed in the prior art of CN109214679B, is generally required to arrange a supervision engineer to a site for supervision engineering in some projects such as communication and construction, so as to ensure that the projects can be completed according to a preset time. On the one hand, the monitoring process can be completed by running of personnel of a supervision engineer, and the consumed human resources are large. In addition, the mode of manually supervising engineers is discontinuous in on-site time, so that the operation process cannot be monitored in real time, the engineering is always performed for a period of time when a problem is found, and the situations such as deviation and the like cannot be corrected in time easily.

The invention is designed for solving the problems that in the field, workers and systems cannot interact, building progress cannot be monitored, on-line verification cannot be performed, deviation cannot be corrected, verification operation is complex, real-time verification cannot be performed, records cannot be stored or are extremely easy to lose, the intelligent degree is low and the like.

Disclosure of Invention

The invention aims to provide an information management system for construction engineering, aiming at the defects.

The invention adopts the following technical scheme:

An informatization management system for construction engineering comprises a cloud server, an acquisition module, a detection module, a calibration module, a supervision module, a task module, a prompt module and a processor,

The processor is respectively in control connection with the cloud server, the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module;

The cloud server is respectively connected with the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module to collect management data of the building engineering;

The acquisition module is used for acquiring data of the construction position so as to acquire current construction drawing parameters and construction requirements;

The detection module is used for detecting the working progress of workers so as to dynamically detect the current progress; the task module is used for dispatching engineering tasks so as to realize task dispatching of all positions and building stations; the calibration module is used for rechecking or calibrating each working condition after construction and calibrating the construction surface after construction according to the construction parameters;

The supervision module is used for supervising the workers and the construction progress so as to adjust the number of workers participating in construction and the construction progress; the prompting module prompts the worker based on the data of the supervision module and generates a modification suggestion;

the calibration module comprises a calibration unit and a model building unit, and the model building unit collects data based on the collection module and the detection module; the calibration unit executes calibration operation according to the data of the model building unit;

The model building unit generates a construction model of the construction area based on one or more standard layout information, wherein the construction model indicates the current construction position according to the size and the plane azimuth layout of one or more construction sites in the construction area; the calibration unit acquires positioning data of the worker and maps the positioning data of the worker to a layout of the construction plane azimuth to form a mapping relation associated with a construction area;

Comparing the size of the construction surface of the position of the worker with the size of the design drawing according to the mapping relation to prompt the worker to control the construction parameters of the construction surface; and when the construction area is calibrated and tested, the data of the acquisition module and the detection module are called to realize parameter monitoring of the construction position. Optionally, the acquisition module comprises an acquisition unit and a carrying unit, and the acquisition unit acquires image data of the construction station to establish a construction position diagram; the carrying unit is arranged on the acquisition unit and is used for being detachably connected with the labor protection clothing of the worker; the acquisition unit comprises an acquisition probe, a memory and a connector, wherein the acquisition probe is used for acquiring image data of a construction area of the worker; the memory is used for storing the data of the acquisition probe; the connector is used for being connected with the cloud server and storing the data in the memory into the server.

Optionally, the detection module compares the construction data of the task module and the acquisition module, if the compared construction data has deviation and the deviation exceeds a set detection threshold, an early warning signal is triggered, and the early warning signal is sent to the worker through the prompt module;

the detection module comprises a detection unit and a tracking recording unit, wherein the detection unit reads construction progress data from the cloud server and compares task data of the workers; the tracking and recording unit tracks and records the progress of the worker in real time and updates a task list in a time interval, wherein the task list records construction tasks and construction requirements of each construction position.

Optionally, the task module obtains incomplete task data in a current cloud server and sends a task request to the cloud server; the cloud server responds to the task request and issues a construction task to the task module;

The task module comprises a verification unit and a management unit, wherein the management unit generates a corresponding task authorization code by utilizing the information of workers, and verifies the task authorization code and issues a task when the task is required to be issued;

The management unit further includes an authorization code generator for automatically generating an authorization code and a backup ID, the authorization code generator generating the authorization code by the formula:

wherein Code _i (j) is the value corresponding to the j-th character of the authorization Code; u _i is the total number of worker authorizations; c ₁ is the worker's grade; t _i is the time taken to perform a task; c ₂ is the efficiency level of the worker; list _i is the number of times worker i is authorized on the same day; k _i is an authorization code allocated to the last task of the worker i;

the authorization code k _i assigned to the last task of worker i may be calculated according to the following equation:

Wherein, series _v is the v-th bit of the ID of the worker; n is the total number of digits of the employee ID; and updating the authorization code after generating a new authorization code; if the first authorization is the first authorization, setting k _i to 1;

The authorization code generator generates a backup ID by:

Remain_i＝c₁·g_i+c₂·k_i

Wherein Remain _i is the backup ID; c ₁ is the worker's grade; c ₂ is the efficiency level of the worker; g _i is the task amount completed by the worker; k _i is the authorization code allocated for the last task;

Before responding to the task request of the worker, the management unit needs to generate a new authorization code and a backup ID by using the authorization code generator, and the authorization code and the backup ID which are issued newly are not consistent with the original authorization code and the backup ID and are valid, so that the authorization record can be traced.

Optionally, the supervision module obtains a progress requirement and generates a corresponding supervision node based on the progress requirement; the monitoring module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for collecting the position data of the workers and monitoring the position data of the workers; and the early warning unit is used for triggering the early warning grade according to a preset schedule and the schedule data of the detection module, if the schedule data is compared with a set early warning threshold value, and if the compared result exceeds the set early warning threshold value.

Optionally, the prompt module pushes prompt information to the worker according to the data of the supervision module; the prompting module comprises a prompting unit and a display unit, and the prompting unit is used for receiving data of the supervision module; the display unit triggers the reminding to the worker according to the reminding content of the reminding unit; the display unit comprises a collection rod and a display screen, and the display screen is arranged on the collection rod and extends along the length direction of the collection rod; the prompting unit is arranged at one end part of the acquisition rod and receives data of the processor or the cloud server in real time;

the other end of the acquisition rod is provided with an inductor, and the inductor is used for reading the identity information of the worker so as to realize the binding with the identity of the worker.

Optionally, be equipped with on the body of rod of collection stick and supply the storage chamber that collection module placed, collection module with the storage chamber of collection stick is dismantled and is connected, wherein, the collection probe orientation collection stick one side sets up.

Optionally, the rod body of the collection rod is provided with control keys, and each control key is distributed along the extending direction of the collection rod.

Optionally, the carrying unit comprises a connecting rope and a magnetic attraction member, one end of the connecting rope is connected with the inner wall of the storage cavity, and the other end of the connecting rope is connected with the magnetic attraction member;

The magnetic component comprises a magnetic seat and a magnetic cap, a magnetic groove for placing the magnetic seat is arranged on the rod body of the acquisition rod, and the magnetic seat is arranged on the bottom wall of the magnetic groove; a storage groove for storing the connecting rope is arranged between the storage cavity and the magnetic attraction groove, wherein the storage groove is arranged on the collection rod and is formed by inwards sinking towards the axis of the collection rod.

Optionally, a communication unit is arranged on the acquisition rod, and the communication unit is electrically connected with the acquisition module.

The beneficial effects obtained by the invention are as follows:

1. The supervision module is used for supervising the workers and the construction progress so as to adjust the number of workers participating in construction and the construction progress;

2. Acquiring image data of the construction surface through the acquisition module, and prompting a supervision engineer to check and accept the construction surface if the acquisition module meets the check and accept standard;

3. The task module is also matched with the supervision module to form a closed loop, and the closed loop is used for supervising the construction tasks distributed by the workers and supervising the workers to finish the distributed construction tasks;

4. The progress data is compared with a set early warning threshold, if the comparison result exceeds the set early warning threshold, an early warning grade is triggered, and a prompt module is matched to prompt workers;

5. by inputting the data of the construction surface into the control panel, the data of the construction surface can be transmitted to the cloud server and the processor, the processor compares the completion quality and progress of each supervision node, and corresponding prompt is triggered;

6. Through the task module with the cooperation of suggestion module for the workman is after getting construction task, can be according to the requirement and the position in the construction task and carry out the construction, promotes the high efficiency and the reliability that whole construction task was issued, and more intelligent.

For a further understanding of the nature and the technical aspects of the present invention, reference should be made to the following detailed description of the invention and the accompanying drawings, which are provided for purposes of reference only and are not intended to limit the invention.

Drawings

The invention will be further understood from the following description taken in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic block diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the collecting rod of the present invention.

Fig. 3 is a schematic rear view of the collecting rod according to the present invention.

Fig. 4 is a schematic structural view of the magnetic attraction member and the collection rod of the present invention.

Fig. 5 is a schematic diagram of an application of the magnetic attraction member of the present invention to the attraction of labor protection clothing.

Fig. 6 is a schematic diagram of an application scenario in which the supervision engineer performs data entry on a construction surface according to the present invention.

Reference numerals illustrate: 1-a collection rod; 2-magnetic attraction cap; 3-collecting a probe; 4-a detection module; 5-connecting ropes; 6-a storage chamber; 7-a storage tank; 8-a control panel; 9-a touch screen; 10-menu keys; 11-a magnetic attraction seat; 12-labor insurance clothing; 13-construction surface; 14-measuring means; 15-supervision engineers; 16-display screen; 17-control keys.

Detailed Description

The following embodiments of the present invention are described in terms of specific examples, and those skilled in the art will appreciate the advantages and effects of the present invention from the disclosure herein. The invention is capable of other and different embodiments and its several details are capable of modification and variation in various respects, all without departing from the spirit of the present invention. The drawings of the present invention are merely schematic illustrations, and are not intended to be drawn to actual dimensions. The following embodiments will further illustrate the related art content of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

According to fig. 1, 2, 3, 4,5 and 6, the embodiment provides a building engineering informationized management system, which comprises a cloud server, an acquisition module, a detection module, a calibration module, a supervision module, a task module, a prompt module and a processor, wherein the processor is respectively in control connection with the cloud server, the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module, and controls the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module through the processor in a centralized manner; the cloud server is respectively connected with the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module to collect management data of the building engineering; in addition, the data of the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module can be uploaded to the cloud server for storage;

In addition, the acquisition module and the prompting module are carried along with workers, after construction tasks are completed, the acquisition module acquires image data of a construction surface, the image data are stored with the cloud server, and meanwhile, when the construction surface is calibrated, the calibration module is used for calibrating or checking the construction surface to verify whether the construction surface meets requirements or not;

The acquisition module is used for acquiring data of the construction position so as to acquire current construction drawing parameters and construction requirements;

The detection module is used for detecting the working progress of workers so as to dynamically detect the current progress; the task module is used for dispatching engineering tasks so as to realize task dispatching of all positions and building stations; the calibration module is used for rechecking or calibrating each working condition after construction and calibrating the construction surface after construction according to the construction parameters;

The supervision module is used for supervising the workers and the construction progress so as to adjust the number of workers participating in construction and the construction progress; the prompting module prompts the worker based on the data of the supervision module and generates a modification suggestion;

The prompt module pushes prompt information to the worker according to the data of the supervision module; the prompting module comprises a prompting unit and a display unit, and the prompting unit is used for receiving data of the supervision module; the display unit triggers the reminding to the worker according to the reminding content of the reminding unit; the display unit comprises a collection rod and a display screen, and the display screen is arranged on the collection rod and extends along the length direction of the collection rod; the prompting unit is arranged at one end part of the acquisition rod, receives data of the processor or the cloud server in real time, and is used for feeding back prompting information to the worker; the other end part of the acquisition rod is provided with an inductor which is used for reading the identity information of the worker so as to realize the binding with the identity of the worker; each worker corresponds to a corresponding acquisition rod and is used for acquiring the working surface; meanwhile, the data acquired by the acquisition rod can also be used as an auxiliary reference of a supervision engineer; meanwhile, the collecting rod can also detect the flatness of the construction surface, so that the collecting rod can level the construction surface;

in this embodiment, the collecting rod can also send out a positioning signal, and is also used for detecting whether a worker is on a working post; in addition, the positioning data of the worker are transmitted to the cloud server through a communication unit so as to determine the position and construction area of the worker;

Optionally, a rod body of the acquisition rod is provided with a storage cavity for placing the acquisition module, and the acquisition module is detachably connected with the storage cavity of the acquisition rod, wherein the acquisition probe is arranged towards one side of the acquisition rod; control keys are further arranged on the rod body of the acquisition rod, and each control key is distributed along the extending direction of the acquisition rod;

The acquisition module comprises an acquisition unit and a carrying unit, and the acquisition unit acquires image data of a construction station to establish a construction position diagram; the carrying unit is arranged on the acquisition unit and is used for being detachably connected with the labor protection clothing of the worker; the acquisition unit comprises an acquisition probe, a memory and a connector, wherein the acquisition probe is used for acquiring image data of a construction area of the worker; the memory is used for storing the data of the acquisition probe; the connector is used for connecting with the cloud server and storing the data in the memory into the server;

One or more of the control keys can be used for controlling an acquisition probe of the acquisition module so as to acquire image data of the construction surface; the acquisition probe is stored in the memory after acquiring the image; meanwhile, the memory is matched with the connector, so that data acquired by the acquisition probe can be transmitted to a cloud server;

optionally, the carrying unit comprises a connecting rope and a magnetic attraction member, one end of the connecting rope is connected with the inner wall of the storage cavity, and the other end of the connecting rope is connected with the magnetic attraction member; the magnetic component comprises a magnetic seat and a magnetic cap, a magnetic groove for placing the magnetic seat is arranged on the rod body of the acquisition rod, and the magnetic seat is arranged on the bottom wall of the magnetic groove; a storage groove for storing the connecting rope is arranged between the storage cavity and the magnetic attraction groove, wherein the storage groove is arranged on the collection rod and is concavely formed towards the axis of the collection rod; when the worker carries the collecting rod on the body, the collecting rod is attracted to each other through the magnetic attraction members and clamped at two sides of a work clothes/labor protection clothes pocket, so that the collecting rod can be stably clamped, and the collecting rod is ensured not to be separated from the work clothes/labor protection clothes; in addition, the connecting rope and the magnetic attraction cap can be hidden in the storage tank and the magnetic attraction tank when the collecting rod is not in use; meanwhile, the connecting rope and the magnetic attraction cap are flush with the collection rod when hidden in the storage tank and the magnetic attraction tank, and cannot protrude out of the surface of the collection rod;

optionally, a communication unit is arranged on the acquisition rod, and the communication unit is electrically connected with the acquisition module, so that leveling data on the acquisition rod is transmitted to the cloud server through the communication unit; in addition, the positioning data of the acquisition rod can also be transmitted to the cloud server through the communication unit;

Optionally, the detection module compares the construction data of the task module and the acquisition module, if the compared construction data has deviation and the deviation exceeds a set detection threshold, an early warning signal is triggered, and the early warning signal is sent to the worker through the prompt module;

The detection module comprises a detection unit and a tracking recording unit, wherein the detection unit reads construction progress data from the cloud server and compares task data of the workers; the tracking recording unit tracks and records the progress of the worker in real time and updates a task list in a time interval, wherein the task list records construction tasks and construction requirements of each construction position; when the task list is updated, updating according to a set time interval threshold, and in the updating process, acquiring current completed construction data and completed task data, and updating the task list at the same time; the incomplete tasks in the updated list are arranged in the first half part, and the completed tasks are arranged in the second half part of the list; meanwhile, when the task module dispatches the task to the worker, the task module distributes the task according to the updated task list; when the construction tasks are distributed, each worker performs construction according to the construction requirements, after the construction, the acquisition module acquires image data of a construction surface, and if the construction surface meets the acceptance criterion, a supervision engineer is prompted to accept the construction surface;

In this example, the supervision engineer may wear an acquisition rod during the acceptance process, acquire the data of the construction surface through the acquisition rod, and meanwhile, if the construction surface of the worker does not meet the requirements, submit the defect existing on the construction surface to a cloud server, and push the unqualified reason to the worker by the prompt module;

Optionally, the task module obtains incomplete task data in a current cloud server and sends a task request to the cloud server; the cloud server responds to the task request and issues a construction task to the task module;

The task module comprises a verification unit and a management unit, wherein the management unit generates corresponding task authorization codes by using information of workers, and when a task needs to be issued, the task authorization codes are verified and the task is issued so as to ensure that each task can correspond to one authorization code; if one task can be completed by cooperation of a plurality of workers, distinguishing is carried out through different authorization codes or identity IDs, and the efficiency of task issuing and distribution is improved;

The management unit further includes an authorization code generator for automatically generating an authorization code and a backup ID, the authorization code generator generating the authorization code by the formula:

wherein Code _i (j) is the value corresponding to the j-th character of the authorization Code; u _i is the total number of worker authorizations; c ₁ is the worker's grade; t _i is the time taken to perform a task; c ₂ is the efficiency level of the worker; list _i is the number of times worker i is authorized on the same day; k _i is an authorization code allocated to the last task of the worker i;

the authorization code k _i assigned to the last task of worker i may be calculated according to the following equation:

Wherein, series _v is the v-th bit of the ID of the worker; n is the total number of digits of the employee ID; and updating the authorization code after generating a new authorization code; if the first authorization is the first authorization, setting k _i to 1;

The authorization code generator generates a backup ID by:

Remain_i＝c₁·g_i+c₂·k_i

Wherein Remain _i is the backup ID; c ₁ is the worker's grade; c ₂ is the efficiency level of the worker; g _i is the task amount completed by the worker; k _i is an authorization code allocated to the last task of the worker i;

before responding to the task request of the worker, the management unit needs to generate a new authorization code and a backup ID by using the authorization code generator, and the authorization code and the backup ID which are issued newly are not consistent with the original authorization code and the backup ID and are valid, so that the authorization record can be traced;

In addition, the backup ID is used as the backup of the authorization code, if the authorization code is wrong or fails, the construction task can be issued through the backup ID, so that the construction task cannot delay the construction period due to the failure of the authorization code; through the mutual matching of the task module and the prompt module, the worker can construct according to the requirements and the positions in the construction task after getting the construction task, the high efficiency and the reliability of issuing the whole construction task are improved, and the construction task is more intelligent;

meanwhile, the task module is also matched with the supervision module to form a closed loop, and the closed loop is used for supervising the construction tasks distributed by the workers and supervising the workers to finish the distributed construction tasks;

Optionally, the supervision module obtains a progress requirement and generates a corresponding supervision node based on the progress requirement; the monitoring module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for collecting the position data of the workers and monitoring the position data of the workers; the early warning unit is used for triggering an early warning grade according to a preset schedule and the schedule data of the detection module, if the schedule data are compared with a preset early warning threshold value, and if the comparison result exceeds the preset early warning threshold value; the monitoring unit calls construction positions and distribution data of each construction task to the task module according to the monitoring time interval, and meanwhile, obtains the position data of the worker and the current position data, wherein the position data comprises the current construction position, yes/no leave, the current construction position and the like; if the worker needs to ask for the false, the worker can ask for the false through the control key on the acquisition rod, so that the false asking process is more efficient and reliable; the set early warning threshold is set according to the construction progress of each day/week/month, and the value of the early warning threshold is set by a manager;

Splitting the construction task according to each day or each hour to form a supervision node, monitoring the supervision node through the supervision module, collecting data of the supervision node each day, and comparing the data with the estimated progress to supervise the daily completion amount of workers; each of the construction nodes forms the following data set {1,2,3, …, level, TASK };

The early warning unit compares the current construction progress with a set supervision threshold, and if the current construction progress exceeds the set supervision threshold, the early warning unit triggers an early warning signal of a corresponding grade;

For the determination of the supervision Threshold, the determination is made according to the following equation:

In the formula, TL _j is the time spent for completing the jth supervisory node: t _j is the man-hour required to complete the rated jth supervisory node; Actual time consuming of the supervising node to complete j=0 to j=level; /(I) The time spent for completing the j-th supervising node of the day; /(I)Total time spent for scheduled completion of the construction task;

the calibration module comprises a calibration unit and a model building unit, and the model building unit collects data based on the collection module and the detection module; the calibration unit executes calibration operation according to the data of the model building unit;

The model building unit generates a construction model of the construction area based on one or more standard layout information, wherein the construction model indicates the current construction position according to the size and the plane azimuth layout of one or more construction sites in the construction area; the calibration unit acquires positioning data of the worker and maps the positioning data of the worker to a layout of the construction plane azimuth to form a mapping relation associated with a construction area;

Comparing the size of the construction surface of the position of the worker with the size of the design drawing according to the mapping relation to prompt the worker to control the construction parameters of the construction surface; when the construction area is calibrated and tested, the data of the acquisition module and the detection module are called to realize parameter monitoring of the construction position; meanwhile, in the process of calibrating the construction surface, the parameters of the construction surface can be accurately monitored by comparing the dimensions of the construction surface and the construction drawing; in addition, the construction model can be preset in the cloud server; the construction model comprises a three-dimensional model and a two-dimensional drawing;

In addition, in the process of calibrating the construction surface, the auxiliary unit can also be used for manually inputting data; in this embodiment, the calibration module further includes an auxiliary unit, where the auxiliary unit is configured to perform manual data acquisition on the construction surface; the monitoring engineer manually inputs data into the control panel and is connected with the cloud server and the processor through the communication unit so as to realize the transmission of input data; the measuring tool is used for measuring the construction surface, and measured parameters comprise flatness, length, width, height and the like; in addition, the measuring tool includes, but is not limited to, the following list of several: the measuring instrument comprises a square calibrating instrument, a length measuring electronic ruler, a laser range finder, a tape measure, a measuring ruler and other common measuring instruments; after the length, width or height and other data of the construction surface are obtained through a measuring tool, the data of the construction surface can be transmitted to the cloud server and the processor through being input into the control panel, the processor compares the completion quality and progress of each supervision node, and corresponding prompt is triggered;

In addition, the control panel comprises menu keys and a touch screen, wherein the menu keys respectively correspond to different menus, when the menu keys are triggered, corresponding menu types are triggered to realize the input of different data, and meanwhile, the touch screen is arranged to be contactable and can be manually touched to realize the input of the data; when the input data are transmitted to the cloud server and the processor, the quality of the current progress, the construction area and the construction surface can be monitored through the processing of the processor, and if the input data do not meet the set requirements, the input data can be prompted to the worker through the prompting module, and the instruction can be sent through the prompting module.

The foregoing disclosure is only a preferred embodiment of the present invention and is not intended to limit the scope of the invention, so that all equivalent technical changes made by applying the description of the present invention and the accompanying drawings are included in the scope of the present invention, and in addition, elements in the present invention can be updated as the technology develops.

Claims (9)

1. The building engineering informatization management system is characterized by comprising a cloud server, an acquisition module, a detection module, a calibration module, a supervision module, a task module, a prompt module and a processor, wherein the processor is respectively in control connection with the cloud server, the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module; the cloud server is respectively connected with the acquisition module, the detection module, the calibration module, the supervision module, the task module and the prompt module to collect management data of the building engineering; the acquisition module is used for acquiring data of the construction position so as to acquire current construction drawing parameters and construction requirements; the detection module is used for detecting the working progress of workers so as to dynamically detect the current progress; the task module is used for dispatching engineering tasks so as to realize task dispatching of all positions and building stations; the calibration module is used for rechecking or calibrating each working condition after construction and calibrating the construction surface after construction according to the construction parameters; the supervision module is used for supervising the workers and the construction progress so as to adjust the number of workers participating in construction and the construction progress; the prompting module prompts the worker based on the data of the supervision module and generates a modification suggestion;

the calibration module comprises a calibration unit and a model building unit, and the model building unit collects data based on the collection module and the detection module; the calibration unit executes calibration operation according to the data of the model building unit;

The model building unit generates a construction model of the construction area based on one or more standard layout information, wherein the construction model indicates the current construction position according to the size and the plane azimuth layout of one or more construction sites in the construction area; the calibration unit acquires positioning data of the worker and maps the positioning data of the worker to a layout of the construction plane azimuth to form a mapping relation associated with a construction area;

Comparing the size of the construction surface of the position of the worker with the size of the design drawing according to the mapping relation to prompt the worker to control the construction parameters of the construction surface; when the construction area is calibrated and tested, the data of the acquisition module and the detection module are called to realize parameter monitoring of the construction position;

The task module acquires incomplete task data in a current cloud server and sends a task request to the cloud server; the cloud server responds to the task request and issues a construction task to the task module;

The task module comprises a verification unit and a management unit, wherein the management unit generates a corresponding task authorization code by utilizing the information of workers, and verifies the task authorization code and issues a task when the task is required to be issued;

The management unit further includes an authorization code generator for automatically generating an authorization code and a backup ID, the authorization code generator generating the authorization code by the formula:

wherein Code _i (j) is the value corresponding to the j-th character of the authorization Code; u _i is the total number of worker authorizations; c ₁ is the worker's grade; t _i is the time taken to perform a task; c ₂ is the efficiency level of the worker; list _i is the number of times worker i is authorized on the same day; k _i is an authorization code allocated to the last task of the worker i;

the authorization code k _i assigned to the last task of worker i may be calculated according to the following equation:

Wherein, series _v is the v-th bit of the ID of the worker; n is the total number of digits of the employee ID; and updating the authorization code after generating a new authorization code; if the first authorization is the first authorization, setting k _i to 1;

The authorization code generator generates a backup ID by:

Remain_i＝c₁·g_i+c₂·k_i

Wherein Remain _i is the backup ID; c ₁ is the worker's grade; c ₂ is the efficiency level of the worker; g _i is the task amount completed by the worker; k _i is an authorization code allocated to the last task of the worker i;

Before responding to the task request of the worker, the management unit needs to generate a new authorization code and a backup ID by using the authorization code generator, and the authorization code and the backup ID which are issued newly are not consistent with the original authorization code and the backup ID and are valid, so that the authorization record can be traced.

2. The system according to claim 1, wherein the acquisition module comprises an acquisition unit and a carrying unit, and the acquisition unit acquires image data of a construction station to establish a construction position map; the carrying unit is arranged on the acquisition unit and is used for being detachably connected with the labor protection clothing of the worker; the acquisition unit comprises an acquisition probe, a memory and a connector, wherein the acquisition probe is used for acquiring image data of a construction area of the worker; the memory is used for storing the data of the acquisition probe; the connector is used for being connected with the cloud server and storing the data in the memory into the server.

3. The system of claim 2, wherein the detection module compares construction data of the task module and the collection module, and if the comparison construction data has deviation and the deviation exceeds a set detection threshold, the detection module triggers an early warning signal and sends the early warning signal to the worker through the prompt module;

the detection module comprises a detection unit and a tracking recording unit, wherein the detection unit reads construction progress data from the cloud server and compares task data of the workers; the tracking and recording unit tracks and records the progress of the worker in real time and updates a task list in a time interval, wherein the task list records construction tasks and construction requirements of each construction position.

4. A building engineering informatization management system according to claim 3, wherein the supervision module obtains a progress requirement and generates a corresponding supervision node based on the progress requirement; the monitoring module comprises a monitoring unit and an early warning unit, wherein the monitoring unit is used for collecting the position data of the workers and monitoring the position data of the workers; and the early warning unit is used for triggering the early warning grade according to a preset schedule and the schedule data of the detection module, if the schedule data is compared with a set early warning threshold value, and if the compared result exceeds the set early warning threshold value.

5. The system according to claim 4, wherein the prompt module pushes prompt information to the worker according to the data of the supervision module; the prompting module comprises a prompting unit and a display unit, and the prompting unit is used for receiving data of the supervision module; the display unit triggers the reminding to the worker according to the reminding content of the reminding unit; the display unit comprises a collection rod and a display screen, and the display screen is arranged on the collection rod and extends along the length direction of the collection rod; the prompting unit is arranged at one end part of the acquisition rod and receives data of the processor or the cloud server in real time; the other end of the acquisition rod is provided with an inductor, and the inductor is used for reading the identity information of the worker so as to realize the binding with the identity of the worker.

6. The construction engineering informatization management system according to claim 5, wherein a storage cavity for placing the collection module is formed in a rod body of the collection rod, the collection module is detachably connected with the storage cavity of the collection rod, and the collection probe is arranged towards one side of the collection rod.

7. The system of claim 6, wherein the rod body of the collection rod is provided with control keys, and each control key is distributed along the extending direction of the collection rod.

8. The system according to claim 7, wherein the carrying unit comprises a connecting rope and a magnetic attraction member, one end of the connecting rope is connected with the inner wall of the storage cavity, and the other end of the connecting rope is connected with the magnetic attraction member; the magnetic component comprises a magnetic seat and a magnetic cap, a magnetic groove for placing the magnetic seat is arranged on the rod body of the acquisition rod, and the magnetic seat is arranged on the bottom wall of the magnetic groove; a storage groove for storing the connecting rope is arranged between the storage cavity and the magnetic attraction groove, wherein the storage groove is arranged on the collection rod and is formed by inwards sinking towards the axis of the collection rod.

9. The system of claim 8, wherein the collection bar is provided with a communication unit, and the communication unit is electrically connected with the collection module.