CN205003839U - Project offshore management system based on BIM - Google Patents

Abstract

The utility model discloses a project offshore management system based on BIM, including receiver, cloud ware and controller, receiver, cloud ware and controller between through the wireless network connection communication, the cloud ware acquire unit module and link to each other with the PC through setting up BIM in it, the receiver install the crucial work location of controller on, the PC to cloud ware input contain the field data information including technological document, project progress picture, engineering materials quantity, the transportation condition and the placing of material. The utility model discloses possess safe information management, unconfined data remain and the data scheme that can upgrade, can let project made easy, the utility model discloses save time and money, it increases information interchanges on -the -spot and general headquarters to reduce when going the on -the -spot time, save more times and make a strategic decision to save the extravagant money of region problem because of each participant.

Description

A kind of project offshore management system based on BIM

Technical field

The utility model belongs to construction engineering technical field, relates to a kind of project offshore management system based on BIM, and the BIM utilizing Cloud Server to share, realizes the project management problem that decision-making level of office solves building-site in real time.

Background technology

At building engineering field, project relates to a lot of participant, as owner, design side, consultant BIM, working drawing in-depth team and construction over contract side etc.In the process that project is carried out, each participant is easy to produce ideological disunity, cause construction plan and site operation situation inconsistent, the phenomenon such as cause project to stop work, to do over again, extends the engineering time, adds project cost.

Utility model content

The purpose of this utility model overcomes deficiency of the prior art, provides a kind of project offshore management system based on BIM, realize the project management problem that decision-making level of office solves building-site in real time.

The technical scheme that the utility model adopts is: a kind of project offshore management system based on BIM, is characterized in that: comprise receiver, Cloud Server and controller, described receiver, between Cloud Server and controller by wireless network connecting communication; Described Cloud Server is connected with PC by the BIM acquiring unit module set within it; Described receiver is arranged on the key operation position of described controller, and described PC comprises the field data information of technological document, project progress picture, construction material quantity, traffic condition and placing of material to the input of described Cloud Server.

As preferably, described receiver comprises the first memory module, GNSS locating module, the first control module and the first communication module, the first described memory module, GNSS locating module respectively with the first described control module connecting communication, the first described control module is by the first described communication module and described server connecting communication; Described GNSS locating module receives GNSS satellite signal and calculates the positional information of described controller according to respective algorithms.

As preferably, described Cloud Server comprises server host, the second memory module, BIM acquiring unit module and the second communication module; Described server host respectively with the second described memory module, BIM acquiring unit module and the second communication module connecting communication, described BIM acquiring unit module is obtained the 3D construction model of project and is stored by the second described memory module, and described server host is for transferring or write the data of the second described memory module.

As preferably, described controller comprises the 3rd memory module, engineering construction mechanical module, the 3rd control module and the 3rd communication module; The 3rd described control module respectively with the 3rd described memory module, engineering construction mechanical module and the 3rd communication model calling communication.

Compared with prior art, the beneficial effects of the utility model are: first, decision-making level of office can be real-time the condition of construction of monitoring site, this system has safe information management, unconfined data retain and upgradeable data-selected scheme, and project can be allowed to get twice the result with half the effort.Second, save time and money, this system can reduce the demand of project manager to equipment, technical support team in an office may be diagnosed by produced problem on-the-spot by receiver and controller, reduce while removing situ time and increase information interchange that is on-the-spot and general headquarters, save the more time and carry out decision-making, and save the money of the region problem waste because of each participant.

Accompanying drawing explanation

Fig. 1: the systematic schematic diagram being the utility model embodiment.

Fig. 2: the structural schematic block diagram being the system of the utility model embodiment.

Embodiment

Understand for the ease of those of ordinary skill in the art and implement the utility model, below in conjunction with drawings and Examples, the utility model is described in further detail, should be appreciated that exemplifying embodiment described herein is only for instruction and explanation of the utility model, and be not used in restriction the utility model.

Ask for an interview Fig. 1 and Fig. 2, a kind of project offshore management system based on BIM that the utility model provides, it comprises receiver 1, Cloud Server 2 and controller 3, receiver 1, is connected by wireless network communication between Cloud Server 2 with controller 3; Cloud Server 2 is connected with PC 12 by BIM acquiring unit module 10, and the packets of information that PC 12 inputs to Cloud Server 2 contains the field datas such as technological document, project progress picture, construction material quantity, traffic condition and placing of material.

Receiver 1 comprises the first memory module 4, GNSS locating module 5, first control module 6 and the first communication module 7, first memory module 4, GNSS locating module 5 respectively with the first control module 6 connecting communication, the first control module 6 is by the first communication module 7 and server 2 connecting communication; GNSS locating module 5 receives GNSS satellite signal and calculates the positional information of controller 3 according to respective algorithms.Cloud Server 2 comprises server host 8, second memory module 9, BIM acquiring unit module 10 and the second communication module 11; Server host 8 respectively with the second memory module 9, BIM acquiring unit module 10 and the second communication module 11 connecting communication, described BIM acquiring unit module 10 is obtained the 3D construction model of project and is stored by the second memory module 9, and server host 8 is for transferring or write the data of the second described memory module 9; Controller 3 comprises the 3rd memory module 13, engineering construction mechanical module 14, the 3rd control module 15 and the 3rd communication module 16; 3rd control module 15 respectively with the 3rd memory module 13, engineering construction mechanical module 14 and the 3rd communication module 16 connecting communication.

Receiver 1 is arranged on the key operation position of controller 3, and will notice that this position does not affect Received signal strength, according to the positional information of receiver 1, and integration project technological document, project progress picture, construction material quantity, the field data such as traffic condition and placing of material, construction over contract, consultant BIM, construction drawing detailing team generates project management offshore solution, and create 3D construction model, deposit the contents such as associated construction information and quantities calculation, then this model is connected with the second communication module 11 by the first communication module 7, transfer to the BIM acquiring unit module 10 in Cloud Server, BIM acquiring unit module 10 is obtained the 3D construction model of project and is stored by the second memory module 9, server host 8 is for transferring or write the data of the second memory module 9.The controller 3 of working-yard receives 3D construction model by wireless network from Cloud Server 2, realize wireless data synchronous, 3rd control module 13 passes through the project 3D construction model in the connection download Cloud Server of the 3rd communication module 16 and the second communication module 11, and construct as standard operation engineering machinery module 14, project decision layer monitors working-yard progress, management construction schedule and field resources in real time in office.And construct on this basis.

The workflow of the present embodiment is:

Step 1, receiver receive GNSS satellite signal, and are stored into the first memory module according to the data output of corresponding format, and receiver data is uploaded to Cloud Server by the first control module.

Step 2, the data uploaded according to receiver, Cloud Server calculates the positional information of receiver by located in connection algorithm.That uploads in conjunction with described input/output terminal comprises the field datas such as technological document, project progress picture, construction material quantity, traffic condition and placing of material again, and project manager makes project 3D construction model according to these information and is stored in the 3rd memory module.

Step 3, the second control module pass through the project 3D construction model in the connection download Cloud Server of the second communication module and the 3rd communication module, and construct with this control engineering mechanical module.

Project manager can monitoring working-yard progress, the management construction schedule and field resources of dynamic realtime, once go wrong, pass through native system, project manager can reduce the time that the scene of driving is wasted, devise strategies at the headquarters in BIM operating room, the management to employee's equipment and construction speed is easily realized between fingers and palms, realize the overall situation handle control to project, and share construction schedule and field resources management information in whole Executive Team, thus the efficient decision-making of supvr, effective communication can be helped.

Marrow of the present utility model can be managed and analytical information by internet help on-line owner and construction general contract unit.Team Member office or scene can both access very efficiently or Query Design file, material information and scene construction speed.Information sharing contributes to sharing out the work and helping one another of all departments, produces solution fast as far as possible before mistake occurs.

Although this instructions more employs the terms such as receiver 1, Cloud Server 2, controller 3, first memory module 4, GNSS locating module 5, first control module 6, first communication module 7, server host 8, second memory module 9, BIM acquiring unit module 10, second communication module 11, PC 12, the 3rd memory module 13, engineering construction mechanical module 14, the 3rd control module 15 and the 3rd communication module 16, do not get rid of the possibility using other terms.Use these terms to be only used to describe essence of the present utility model more easily, the restriction that they are construed to any one additional is all contrary with the utility model spirit.

Should be understood that, the part that this instructions does not elaborate all belongs to prior art.

Should be understood that; the above-mentioned description for preferred embodiment is comparatively detailed; therefore the restriction to the utility model scope of patent protection can not be thought; those of ordinary skill in the art is under enlightenment of the present utility model; do not departing under the ambit that the utility model claim protects; can also make and replacing or distortion, all fall within protection domain of the present utility model, request protection domain of the present utility model should be as the criterion with claims.

Claims (4)

1. based on a project offshore management system of BIM, it is characterized in that: comprise receiver (1), Cloud Server (2) and controller (3), described receiver (1), between Cloud Server (2) and controller (3) by wireless network connecting communication; Described Cloud Server (2) is connected with PC (12) by the BIM acquiring unit module set within it; Described receiver (1) is arranged on the key operation position of described controller (3), and described PC (12) comprises the field data information of technological document, project progress picture, construction material quantity, traffic condition and placing of material to the input of described Cloud Server (2).

2. the project offshore management system based on BIM according to claim 1, it is characterized in that: described receiver (1) comprises the first memory module (4), GNSS locating module (5), the first control module (6) and the first communication module (7), described the first memory module (4), GNSS locating module (5) respectively with described the first control module (6) connecting communication, described the first control module (6) is by described the first communication module (7) and described server (2) connecting communication; Described GNSS locating module (5) receives GNSS satellite signal and calculates the positional information of described controller (3) according to respective algorithms.

3. the project offshore management system based on BIM according to claim 1, is characterized in that: described Cloud Server (2) comprises server host (8), the second memory module (9), BIM acquiring unit module (10) and the second communication module (11); Described server host (8) respectively with described the second memory module (9), BIM acquiring unit module (10) and the second communication module (11) connecting communication, described BIM acquiring unit module (10) is obtained the 3D construction model of project and is stored by described the second memory module (9), and described server host (8) is for transferring or write the data of described the second memory module (9).

4. the project offshore management system based on BIM according to claim 1, is characterized in that: described controller (3) comprises the 3rd memory module (13), engineering construction mechanical module (14), the 3rd control module (15) and the 3rd communication module (16); The 3rd described control module (15) respectively with the 3rd described memory module (13), engineering construction mechanical module (14) and the 3rd communication module (16) connecting communication.