CN109110642A - A method of it is positioned and is implemented based on BIM steel structure hoisting center of gravity - Google Patents

Abstract

The invention discloses a kind of methods implemented based on the positioning of BIM steel structure hoisting center of gravity, comprising the following steps: opens part model with BIM software, part model is then assembled into a component model；The information of component in component model is extracted, the database to match with component model is established；The barycentric coodinates of component are calculated according to the data information of the database；BIM software is positioned and is shown to the center of gravity of component according to the barycentric coodinates of component；The component screenshot of position of centre of gravity and the position of centre of gravity indicated with arrows in screenshot will be found, then saves and obtain component gravity center picture；Component gravity center picture is uploaded in the component data of BIM software, by checking that the component gravity center picture of component data obtains the position of centre of gravity of the component.The present invention can find out the position of centre of gravity of each component by BIM, guarantee that lifting is stablized, not only convenient but also accurate.In addition, construction outside can check that the component gravity center picture for uploading to cloud obtains position of centre of gravity by mobile phone.

Description

A method of it is positioned and is implemented based on BIM steel structure hoisting center of gravity

Technical field

The present invention relates to BIM applied technical field, especially a kind of method that the positioning of steel structure hoisting center of gravity is implemented.

Background technique

Steel Structure Installation will determine the installation accuracy of entire engineering, therefore the installation of its building will affect the overall situation.With regard to existing For technology, shakiness when inevitably will appear lifting, position of centre of gravity shifts, and leads to a series of shakinesses of bring in hoisting process It is qualitative.So in Construction of Steel Structure technique, the position of centre of gravity of a component vital information when being lifting component, but It is steel construction factory is and to measure the method for mark both trouble inaccuracy marking position of centre of gravity.

Summary of the invention

The object of the present invention is to provide a kind of methods implemented based on the positioning of BIM steel structure hoisting center of gravity.Benefit of the invention The position of centre of gravity that each component is found out with BIM model, position of centre of gravity positioning and screenshot by component upload in component data, can To obtain position of centre of gravity by the data of the software lookup component, guarantee that lifting is stablized, it is not only convenient but also accurate.

Technical solution of the present invention: a method of it is positioned and is implemented based on BIM steel structure hoisting center of gravity, including following step It is rapid:

(1) part model is opened with BIM software, part model is then assembled into a component model；

(2) information for extracting component in component model, establishes the database to match with component model；

(3) barycentric coodinates of component are calculated according to the data information of the database；

(4) BIM software is positioned and is shown to the center of gravity of component according to the barycentric coodinates of component；

(5) the component screenshot of position of centre of gravity and the position of centre of gravity indicated with arrows in screenshot will be found, then saves and obtains Component gravity center picture；

(6) component gravity center picture is uploaded in the component data of BIM software, by the component gravity center for checking component data Picture obtains the position of centre of gravity of the component.

In the method above-mentioned implemented based on the positioning of BIM steel structure hoisting center of gravity, the database in the step (2) includes Component database and components database, component database include Components Shape data and member position coordinate data, part data Library includes part shape data and part position coordinate data.

In the method above-mentioned implemented based on the positioning of BIM steel structure hoisting center of gravity, the component data packet in the step (6) Include component name, creation time, renewal time, file size, application field and component gravity center picture.

In the method above-mentioned implemented based on the positioning of BIM steel structure hoisting center of gravity, the positioning center of gravity packet in the step (4) Containing following steps:

(41) extend an X axis auxiliary line at coordinate origin, the X axis coordinate of the first segment point of X axis auxiliary line with The X axis coordinate of component gravity center is identical；

(42) extend a Y-axis auxiliary line, the Y axis coordinate of the second segment point of Y-axis auxiliary line from first segment point again It is identical as the Y axis coordinate of component gravity center；

(43) extend a Z axis to auxiliary line from second segment point again, third section point from Z axis to auxiliary line Z axis coordinate It is identical as the Z axis coordinate of component gravity center；

(44) third breakpoint is overlapped with the center of gravity of component, is marked at third section point with dot, and X axis auxiliary line, Y are deleted Axial auxiliary line and Z axis are to auxiliary line.

In the method above-mentioned implemented based on the positioning of BIM steel structure hoisting center of gravity, the BIM software is in real time by component weight Heart picture uploads to cloud, and the component gravity center picture in cloud is checked by mobile phone.

Compared with prior art, the part of needs is formed the BIM model of a component using BIM technology by the present invention, is led to The information for extracting component in BIM model is crossed, the component database to match with BIM model is established, is sat to calculate the center of gravity of component It marks and is edited into component data.Position of centre of gravity can accurately be found in this way and be located, then screenshot and indicate position of centre of gravity Picture is uploaded in component data.Guarantee that lifting is stablized, it is not only convenient but also accurate.

In addition, component gravity center picture can be uploaded to cloud in real time by BIM software, cloud can be checked by mobile phone at any time Component gravity center picture, it is convenient and efficient.

Detailed description of the invention

Fig. 1 is implementation flow chart of the invention；

Fig. 2 is the interface schematic diagram of the component data of BIM software.

Specific embodiment

Below with reference to embodiment, the invention will be further described, but is not intended as the foundation limited the present invention.

Embodiment: a method of it is positioned and is implemented based on BIM steel structure hoisting center of gravity, as shown in Figure 1, including following step It is rapid:

1, part model is opened with BIM software, is then assembled into part model by the cooperation option in actions menu One component model.

2, the information of component in component model is extracted, the database to match with component model is established.The database Including component database and components database, component database includes Components Shape data and member position coordinate data, part Database includes part shape data and part position coordinate data.

3, the barycentric coodinates of component are calculated according to the data information of the database.

4, BIM software is positioned and is shown to the center of gravity of component according to the barycentric coodinates of component.Position center of gravity include with Lower step: (1) coordinate origin at extend an X axis auxiliary line, the X axis coordinate and structure of the first segment point of X axis auxiliary line The X axis coordinate of part center of gravity is identical；(2) extend a Y-axis auxiliary line, the second segment of Y-axis auxiliary line from first segment point again The Y axis coordinate of point is identical as the Y axis coordinate of component gravity center；(3) extend a Z axis to auxiliary line from second segment point again, Z axis to The Z axis coordinate of the third section point of auxiliary line is identical as the Z axis coordinate of component gravity center；(4) third breakpoint is overlapped with the center of gravity of component, It is marked at third section point with dot, deletes X axis auxiliary line, Y-axis auxiliary line and Z axis to auxiliary line, finally position center of gravity Position.

5, the component screenshot of position of centre of gravity and the position of centre of gravity indicated with arrows in screenshot will be found, so that position of centre of gravity is more Add it is so intuitive that be presented on component, then save obtain component gravity center picture, editing picture title, create an entitled " component Component gravity center picture is put into this document underedge by the file of position of centre of gravity ".

6, as shown in Fig. 2, component gravity center picture is uploaded in the component data of BIM software, by checking component data Component gravity center picture obtain the position of centre of gravity of the component.Component data includes component name, creation time, renewal time, text Part size, application field and component gravity center picture.

Component gravity center picture can be uploaded to cloud in real time by BIM software, and when constructing outside, the structure in cloud is checked by mobile phone Part center of gravity picture, can be seen clearly that the position of centre of gravity of component, be labeled convenient for construction personnel to component gravity center, guarantee lifting Stablize.

Claims (5)

1. a kind of method implemented based on the positioning of BIM steel structure hoisting center of gravity, it is characterised in that: the following steps are included:

(1) part model is opened with BIM software, part model is then assembled into a component model；

(2) information for extracting component in component model, establishes the database to match with component model；

(3) barycentric coodinates of component are calculated according to the data information of the database；

(4) BIM software is positioned and is shown to the center of gravity of component according to the barycentric coodinates of component；

(5) the component screenshot of position of centre of gravity and the position of centre of gravity indicated with arrows in screenshot will be found, then saves and obtains component Center of gravity picture；

(6) component gravity center picture is uploaded in the component data of BIM software, by the component gravity center picture for checking component data Obtain the position of centre of gravity of the component.

2. the method according to claim 1 implemented based on the positioning of BIM steel structure hoisting center of gravity, it is characterised in that: described Database in step (2) includes component database and components database, and component database includes Components Shape data and component Position coordinate data, components database include part shape data and part position coordinate data.

3. the method according to claim 1 implemented based on the positioning of BIM steel structure hoisting center of gravity, it is characterised in that: described Component data in step (6) includes component name, creation time, renewal time, file size, application field and component gravity center Picture.

4. the method according to claim 1 implemented based on the positioning of BIM steel structure hoisting center of gravity, it is characterised in that: described Positioning center of gravity in step (4) comprises the steps of:

A, extend an X axis auxiliary line, the X axis coordinate and component weight of the first segment point of X axis auxiliary line at coordinate origin The X axis coordinate of the heart is identical；

B, extend a Y-axis auxiliary line, the Y axis coordinate and component of the second segment point of Y-axis auxiliary line from first segment point again The Y axis coordinate of center of gravity is identical；

C, extend a Z axis to auxiliary line from second segment point again, third section point from Z axis to auxiliary line Z axis coordinate and component The Z axis coordinate of center of gravity is identical；

D, third breakpoint is overlapped with the center of gravity of component, is marked at third section point with dot, and it is auxiliary to delete X axis auxiliary line, Y-axis Index contour and Z axis are to auxiliary line.

5. the method according to claim 1 implemented based on the positioning of BIM steel structure hoisting center of gravity, it is characterised in that: described BIM software component gravity center picture is uploaded into cloud in real time, the component gravity center picture in cloud is checked by mobile phone.