CN110378588B

CN110378588B - Contract spatialization system

Info

Publication number: CN110378588B
Application number: CN201910617677.2A
Authority: CN
Inventors: 任宏; 马先睿; 任鹏宇; 刘朝霞
Original assignee: Chongqing University; Southwest University; Chongqing Jiaotong University
Current assignee: Chongqing University; Southwest University; Chongqing Jiaotong University
Priority date: 2019-07-10
Filing date: 2019-07-10
Publication date: 2023-02-03
Anticipated expiration: 2039-07-10
Also published as: CN110378588A

Abstract

The invention belongs to the field of buildings, and provides a contract spatialization system aiming at the problems of incomplete contract coverage check, more contract interface conflicts and disorder of subcontract logics in the existing construction project, which comprises a contract input module, a database, a condition input module, a screening module, a modeling module, a coloring module, an inspection module and an output module; the database is used for storing contract associated information input by the contract input module; the screening module screens contract associated information from a database as screening result information according to the screening condition information input by the condition input module; the modeling module models to current simulation building information according to the construction range information in the database; the coloring module dyes the current simulation building information into current dyeing building information according to the screening result information; the inspection module compares the standard simulation building information with the current dyeing building information to obtain simulation difference information and displays the simulation difference information through the output module.

Description

Contract spatialization system

Technical Field

The invention belongs to the field of buildings, and particularly relates to a contract spatialization system.

Background

In the construction process of engineering projects, in order to prevent the implementation result of the project from deviating from the plan or to correct the deviation in time, the implementation process of the project must be continuously monitored, so the important component of project management is project control, and theoretically, project control elements are divided into five major categories, namely, project progress control, cost control, contract control, quality control and safety control. Contract control is the key of project control, and a plurality of researches and practices prove that most of problems existing in construction project management are contract problems, and the most prominent contract problems are interface problems. The contract interface is specifically defined among the contracts which are interdependent and restricted, on the spatial position and the work content, coordinated on the implementation time, matched with the requirements and conditions of the mutual technology on the characteristic standard, and communicated and integrated across the contracts. The contract interface problem seriously influences contract management work and restricts the development of construction engineering projects.

At present, a plurality of subcontracting and consultant companies are often provided for engineering projects, the management and coordination of a total package are complex, the contract documents are huge, the specialties are crossed frequently, the contract interfaces conflict more, and the difficulty of contract problem inspection is serious. However, the conventional project management technology mainly refers to contract information query in contract management, is difficult to visually display the relationship between various contract interfaces and contract bodies, finds problems in contracts, and lacks functions of performing coverage check, interface check and logic check on the contracts.

Disclosure of Invention

The invention provides a contract spatialization system for solving the problems that the contract coverage inspection is incomplete, contract interface conflicts are many, and subcontract logic is easily disordered in construction projects, and the problems that the existing project management technology is mainly based on contract information query in the aspect of contract management, the relation between conflicts of various contract interfaces and contract main bodies is difficult to visually show, and functions of coverage inspection, interface inspection, logic inspection and the like of contracts are lacked.

The basic scheme of the invention is as follows: a contract spatialization system comprises a contract input module, a database, a condition input module, a screening module, a modeling module, a coloring module, an inspection module and an output module;

the contract input module is used for inputting contract associated information, and the contract associated information comprises input construction range information, construction time information, construction responsibility information and responsibility information which are associated with each other;

the database is used for storing contract association information sent by the contract input module;

the condition input module is used for inputting screening condition information, wherein the screening condition information is construction range information, construction time information, construction responsibility information or responsibility information;

the screening module is used for receiving the screening condition information sent by the condition input module, screening contract associated information corresponding to the screening condition information from the database according to the screening condition information to serve as screening result information, and sending the screening result information to the coloring module;

the modeling module carries out three-dimensional modeling on the project to be constructed to form standard simulation building information; the modeling module also carries out three-dimensional modeling according to the construction range information in the database to form current simulated building information and sends the current simulated building information to the coloring module and the output module;

the coloring module is used for receiving the screening result information sent by the screening module and the current simulated building information sent by the modeling module, coloring the construction range information part in the screening result information corresponding to the current simulated building information so as to form current colored building information, and sending the current colored building information to the output module;

the inspection module is used for comparing the standard simulation building information with the current simulation building information, performing coverage inspection, interface inspection and logic inspection to obtain simulation difference information, and sending the simulation difference information to the output module;

the output module is used for receiving the simulation distinguishing information sent by the checking module, the dyeing building information sent by the coloring module and the current simulation building information sent by the modeling module, displaying the simulation distinguishing information and the dyeing building information, and visually and quickly presenting missing items of the contract, conflicts among contract interfaces and the logical problems of the contract in a multi-dimensional mode.

The principle and the beneficial effects of the basic scheme are as follows: in the initial planning process, the staff inputs the planned contract into the contract related information through the contract input module, so that the set of all the contract related information is the whole initial planning contract.

In the scheme, contract associated information is input into a contract input module; the modeling module constructs standard simulation building information in advance according to construction requirements, then calls out construction range information of all contract associated information, and carries out three-dimensional modeling on the construction range information so as to construct current simulation building information; the checking module compares the standard simulation building information with the current simulation building information to obtain a hyperplasia part of the current simulation building information exceeding the standard simulation building information and a missing part of the current simulation building information compared with the standard simulation building information, then searches contract associated information corresponding to the hyperplasia part and the missing part from a database, and sends the contract associated information serving as simulation distinguishing information to the output module. Therefore, according to the scheme, whether the contract associated information input by the contract input module is proliferated or lost is obtained through comparison of the standard building information and the current simulation building information.

In the scheme, a worker inputs screening condition information by using a condition input module, searches and screens all contract associated information stored in a database by using a screening module, screens out the contract associated information matched with the screening condition information as screening result information, and then dyes a part corresponding to the screening result information by using a coloring module on the basis of the current simulated building information, so that the current dyed building information is formed and displayed to a user by using an output module. Therefore, the user can directly see the position of the screening result corresponding to the screening condition information on the three-dimensional space by watching the dyeing building information, and the method is visual and convenient.

Further, the condition input module is used for sending multicolor information and monochromatic information to the coloring module, and the coloring module comprises a signal receiving unit, a regulating unit, a coloring unit and a storage unit; the signal receiving unit is used for receiving the screening result information sent by the screening module and receiving the multi-color information or the single-color information sent by the condition input module; when the signal receiving unit receives the monochrome information, the regulating and controlling unit controls the storage unit to update when the current screening result information is received; when the signal receiving unit receives the multicolor information, the control unit controls the storage unit to store the current screening result information; and the coloring unit colors according to the screening result information stored in the storage unit.

In the scheme, the storage unit stores two modes, namely only storing the current screening result information and storing the screening result information sent in various time periods; the mode of 'only storing the current screening result information' is triggered after the signal receiving unit receives the monochromatic information, and the coloring unit colors the dyed building information after the coloring unit colors; the mode of 'being able to store screening result information sent in various time periods' is triggered after the signal receiving unit receives multicolor information, and since the screening result information received for multiple times exists in the storage unit, the coloring module colors the colored building information. Therefore, the scheme realizes the switching between the monochromatic display and the multicolor display, and is convenient for the staff to select according to the specific work requirement.

Further, the output module comprises a display unit and an output unit, the display unit is used for displaying the dyeing building information and the current simulation building information, and the output unit is used for outputting the simulation distinguishing information in a chart form.

The display unit is convenient for workers to directly feel the dyeing building information and the current simulation building information, and the simulation distinguishing information output by the output unit represents contract information, contract missing items, contract interface conflict problems and contract logical problems.

The database receives the body information and the replacement information sent by the modification module, searches the corresponding contract association information in the database according to the body information, and replaces the corresponding part of the body information with the replacement information.

In the scheme, when the input of the worker is wrong, the contract associated information in the database can be modified through the modification module.

The system further comprises a verification module and an alarm module, wherein the verification module is used for receiving verification result information of the user for verifying the simulation distinguishing information and sending the verification result information to the alarm module; the alarm module is used for receiving the verification result information sent by the verification module and giving an alarm when the verification result information is unsatisfactory.

In the scheme, a user knows the content of the simulation distinguishing information through the output module, so that the content of the simulation distinguishing information is audited, whether the proliferation part and the deletion part are reasonable or not is judged, then the user feeds back through the verification module, and the verification result information is 'satisfied' or 'unsatisfied'; and the verification module is used for inputting the result of manual verification, so that when the simulation distinguishing information is abnormal through manual verification, other workers are informed to correct through the alarm module.

Drawings

FIG. 1 is a block diagram of a contract spatialization system according to an embodiment of the present invention.

Detailed Description

The following is further detailed by the specific embodiments:

the embodiment example is shown in the attached figure 1:

1. system architecture

A contract spatialization system comprises a contract input module, a modification module, a database, a condition input module, a screening module, a modeling module, a coloring module, an inspection module, an output module, a verification module and an alarm module;

the database receives the body information and the replacement information sent by the modification module, searches corresponding contract association information in the database according to the body information, and replaces the corresponding part of the body information with the replacement information;

the condition input module is used for inputting screening condition information, multi-color information and single-color information, wherein only one of the multi-color information and the single-color information exists, and the screening condition information is construction range information, construction time information, construction responsibility information and responsibility information;

the modeling module carries out three-dimensional modeling on the project to be constructed to form standard simulated building information; the modeling module also carries out three-dimensional modeling according to the construction range information in the database to form current simulated building information and sends the current simulated building information to the coloring module and the output module;

the coloring module is used for receiving the screening result information sent by the screening module and the current simulated building information sent by the modeling module, and comprises a signal receiving unit, a regulating unit, a coloring unit and a storage unit; the signal receiving unit is used for receiving the screening result information sent by the screening module and receiving the multicolor information or the monochromatic information sent by the condition input module; when the signal receiving unit receives the monochromatic information, the regulating and controlling unit controls the storage unit to update when the current screening result information is received; when the signal receiving unit receives the multi-color information, the regulating and controlling unit controls the storage unit to store the current screening result information; the coloring unit colors according to the screening result information stored in the storage unit, so that current dyeing building information is formed and sent to the output module;

the output module is used for receiving the simulation distinguishing information sent by the checking module, the dyeing building information sent by the coloring module and the current simulation building information sent by the modeling module, and comprises a display unit and an output unit, the display unit is used for displaying the dyeing building information and the current simulation building information, and the output unit is used for outputting the simulation distinguishing information in a chart form;

the verification module is used for receiving verification result information of the user for verifying the simulation distinguishing information and sending the verification result information to the alarm module;

the alarm module is used for receiving the verification result information sent by the verification module and giving an alarm when the verification result information is unsatisfactory.

2. System principles and content

In contract A: construction range information d, construction time t, construction responsibility information c and responsibility information n; in the contract B: construction range information D, construction time T, construction responsibility information C and responsibility information N.

(1) Basic input

The contract input module is a scanner, a keyboard and the like, a worker inputs the whole contract in a scanning or manual typing mode and the like, the contract input module selects input construction range information, construction time information, construction responsibility information and responsibility information in a contract file, and compiles the construction range information, the construction time information, the construction responsibility information and the responsibility information in the same contract into mutually associated contract associated information; and then the contract input module sends the contract-related information to a database for storage. Correspondingly, the construction range information D, the construction time T, the construction responsibility information C and the responsibility information N are compiled into contract related information A, and the construction range information D, the construction time T, the construction responsibility C and the responsibility information N are compiled into contract related information B; a and B are stored in the database.

(2) Database modification

A worker inputs modification information in a modification module, wherein the modification information comprises body information c and replacement information e; after receiving the modification information, the database finds out contract associated information A where the body information c is located, and replaces c in A with e, wherein the replaced contract associated information comprises construction range information d, construction time t, construction responsibility information e and responsibility information n.

(3) Examination of

The modeling module constructs standard simulation building information W in advance according to construction requirements, then calls out construction range information of all contract associated information, and carries out three-dimensional modeling on the construction range information so as to construct current simulation building information W; the inspection module compares the standard simulation building information with the current simulation building information to obtain simulation difference information f; and the output unit of the output module displays the simulation difference information f in a chart form.

The simulation distinguishing information f comprises two kinds, namely hyperplasia information and deficiency information. The proliferation information refers to the proliferation part of the current simulation building information exceeding the standard simulation building information, namely, the proliferation information refers to the problems of different construction contract overlapping, interface conflict or contract logicality in the same space range; the missing information refers to the missing part of the current simulated building information compared with the standard simulated building information, namely, the missing part means that the missing part exists in a space range, and no construction contract is covered in the space range, namely, the missing part of the contract is omitted. Then, the staff can judge whether the proliferation and the missing information are normal or not through the simulation distinguishing information f displayed by the output module, and whether the contract needs to be checked and changed or not.

(4) Screening and coloring

The staff utilizes the condition input module to input screening condition information, multi-color information and monochromatic information, the multi-color information and the monochromatic information have any one, and the multi-color information or the monochromatic information is sent to the coloring module by the condition input module. Searching and screening all the contract associated information stored in the database through the screening module, screening out the contract associated information matched with the screening condition information as screening result information and sending the screening result information to the coloring module.

And a signal receiving unit in the coloring module receives the screening result information sent by the screening module, and the signal receiving unit also receives the multicolor information or the monochromatic information sent by the condition input module. When the signal receiving module receives monochrome information, the control unit controls the storage unit to update when receiving current screening result information, specifically, the storage unit is switched to a mode of only storing the current screening result information, the storage unit deletes all previous screening result information and stores the currently received screening result information, and the storage unit is ensured to only store the current screening result information; the coloring unit removes the previous color matching, calls the position corresponding to the screening result information in the storage unit, and performs dyeing to ensure that the dyed building information is monochromatic.

When the signal receiving module receives multicolor information, the control unit controls the storage unit to store the current screening result information, specifically, the storage unit is switched to a mode of storing screening result information sent in various time periods, the storage unit does not delete all previous screening result information, the current received screening result information is directly added, and the storage unit stores previous and current screening result information; the coloring unit clears the color matching outside the storage unit, and the position corresponding to the screening result information in the storage unit is called for dyeing, so that the dyeing building information is multicolor.

The user can be directly through watching dyeing building information to know the position of the screening result on the three-dimensional space that corresponds screening condition information, it is directly perceived convenient. The switching between the monochromatic display and the multicolor display is realized, and the selection of the working personnel is convenient according to the specific working requirements.

(5) Verification and alarm

When the simulation difference information f of the inspection module is proliferation information or missing information, manual inspection is needed. The worker feeds back through the verification module, and the verification result information is 'satisfied' or 'dissatisfied'; and inputting the result of the manual examination by using the examination module. When the simulation distinguishing information f is checked out to be abnormal manually, the alarm module informs other workers of contract modification or change. The alarm module can be a remote notification function module based on a BIM system and comprises a buzzer.

The foregoing are embodiments of the present invention and are not intended to limit the scope of the invention to the particular forms set forth in the specification, which are set forth in the claims below, but rather are to be construed as the full breadth and scope of the claims, as defined by the appended claims, as defined in the appended claims, in order to provide a thorough understanding of the present invention. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several variations and modifications can be made, which should also be considered as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the utility of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A contract spatialization system, characterized by: the system comprises a contract input module, a database, a condition input module, a screening module, a modeling module, a coloring module, an inspection module and an output module;

the output module is used for receiving the simulation distinguishing information sent by the checking module, the current dyeing building information sent by the coloring module and the current simulation building information sent by the modeling module, displaying the simulation distinguishing information and the current dyeing building information, and visually and quickly presenting missing items of a contract, conflicts among contract interfaces and contract logicality problems in multiple dimensions.

2. The contract spatialization system according to claim 1, wherein: the condition input module is used for sending multicolor information or monochromatic information to the coloring module, and the coloring module comprises a signal receiving unit, a regulating unit, a coloring unit and a storage unit; the signal receiving unit is used for receiving the screening result information sent by the screening module and receiving the multi-color information or the single-color information sent by the condition input module; when the signal receiving unit receives the monochromatic information, the regulating and controlling unit controls the storage unit to update when the current screening result information is received; when the signal receiving unit receives the multi-color information, the regulating and controlling unit controls the storage unit to store the current screening result information; and the coloring unit colors according to the screening result information stored in the storage unit.

3. The contract spatialization system according to claim 1, wherein: the output module comprises a display unit and an output unit, the display unit is used for displaying the current dyeing building information and the current simulation building information, and the output unit is used for outputting the simulation distinguishing information in a chart form.

4. The contract spatialization system according to claim 1, wherein: the database receives the body information and the replacement information sent by the modification module, searches corresponding contract association information in the database according to the body information, and replaces the corresponding part of the body information with the replacement information.

5. The contract spatialization system according to claim 1, wherein: the system also comprises a verification module and an alarm module, wherein the verification module is used for receiving verification result information of a user for verifying the simulation distinguishing information and sending the verification result information to the alarm module; the alarm module is used for receiving the verification result information sent by the verification module and giving an alarm when the verification result information is unsatisfactory.