CN110528881A - A kind of quick turnover method of assembled architecture support system based on BIM - Google Patents

Abstract

The quick turnover method of assembled architecture support system based on BIM that the present invention relates to a kind of, belongs to technical field of building construction, comprising the following steps: S1, establishes building threedimensional model by BIM according to design drawing；S2, the component for determining building threedimensional model；S3, multiple building units are divided, each building unit is correspondingly arranged at a component stacking；S4, determine each building unit needed for the number of components and type；The component of each building unit is marked, and makes corresponding label；S4, label is affixed on each building unit needed on component；It S5, component conveying and marches into the arena, component is deposited at corresponding component stacking according to label information；When S6, construction, each building unit uses the component at counterpart member stacking.When constructing each building unit, the component at the corresponding component stacking of the direct handling building unit carries out construction operation, and the time needed for effectively reducing handling component improves construction efficiency.

Description

A kind of quick turnover method of assembled architecture support system based on BIM

Technical field

The present invention relates to technical field of building construction, in particular to a kind of assembled architecture support system based on BIM is fast Fast turnover method.

Background technique

China just widelys popularize assembled architecture, and assembled architecture has that high production efficiency, environmental pollution be small, quality has guarantor The outstanding advantages such as card, represent the inexorable trend of China's building trade future development.

The prefabricated components of assembled architecture include prefabricated outer wall panel, prefabricated superimposed sheet, composite beam, prefabricated lightweight concrete wall Plate etc.；And assembled architecture support system mainly has laminated floor slab independently to support, prefabricated panel bearing diagonal, cast-in-situ template bearing diagonal Deng, be except assembled architecture split component in addition to, a kind of more circulation material of dosage.When assembled architecture is constructed, elder generation is needed By the component conveyings such as prefabricated component and support system to construction site, component is then hoisted to by installed position by lifting device It is installed.

But, according to the type of component, classification stacking is carried out to component, same component is deposited in together before construction at present One place, and be usually some designated place for being deposited in outside of the building.In construction, it is required to component being transported to reality At construction location, and in order to guarantee that safety, the speed of handling are usually relatively slower；Building biggish for volume, is adjusting the distance When remote position is constructed at component stacking, need to spend longer time handling component, and the number of components and type More, handling component will spend very more construction times, cause construction efficiency low.

Summary of the invention

The quick turnover method of assembled architecture support system based on BIM that the purpose of the present invention is to provide a kind of, has The advantages of reducing the time that handling component is spent, improving construction efficiency.

Above-mentioned technical purpose of the invention has the technical scheme that

A kind of quick turnover method of assembled architecture support system based on BIM, comprising the following steps:

S1, building threedimensional model is established by BIM according to design drawing；

S2, the component for determining building threedimensional model, the component includes prefabricated components and support unit；

S3, the assembled architecture divided into multiple building units in building threedimensional model, each building unit is correspondingly arranged one At a component stacking；

S4, determine each building unit needed for the number of components and type；The component of each building unit is marked, and is made Make corresponding label, the label includes the indicating label for identifying prefabricated components and the two dimensional code for identifying support unit Label；

S5, label is affixed on each building unit needed on component；

It S6, component conveying and marches into the arena, component is deposited at corresponding component stacking according to label information；

When S7, construction, each building unit first passes through hoist tool construction prefabricated components using the component at counterpart member stacking To form the assembled architecture, then construction supporting component forms support system.

Implement above-mentioned technical proposal, in building threedimensional model, assembled architecture is divided into multiple building units, each Building unit is correspondingly arranged at a component stacking, is provided at a component stacking so that each building unit is adjacent；Structure Part is labelled when leaving the factory to classify, and when component is marched into the arena, is directly placed on component classification accordingly according to label information At component stacking；When constructing each building unit, the component at the corresponding component stacking of the direct handling building unit is carried out Construction operation, time needed for effectively reducing handling component improve construction efficiency.

The present invention is further arranged to: the method that building unit divides in S3 are as follows: according to construction area and required component Quantity divides 2-4 building unit, and each building unit includes at least side external wall.

Implement above-mentioned technical proposal, assembled architecture is usually integrally similar to cube structure, and it is general to have there are four side, There are four side external walls, and divide 2-4 building unit, that is, be arranged at 2-4 component stacking；When because of construction, Rigger Tool is arranged at 2-4 component stacking usually along building circumferential setting 2-3, on the basis of reducing the handling time, reduces Quantity at component stacking prevents the quantity at component stacking excessive and increases the complexity of classification.

The present invention is further arranged to: carrying out wash with watercolours by different colors to different building units in building threedimensional model Dye, the corresponding label of each building unit are set as color identical with the building unit.

Implement above-mentioned technical proposal, different colors is arranged in each building unit, single convenient for intuitively distinguishing different buildings The component of member.

The present invention is further arranged to: the specific method that the two-dimension code label obtains:

The first step is encoded the first floor for building each unit in threedimensional model to obtain room label by room；

Second step is marked support unit according to the label in each room；

Third step, the attribute information for obtaining each support unit, the attribute information include installation site information and remove the time Information；

4th step makes two-dimension code label according to the mark information and attribute information of each support unit.

Implement above-mentioned technical proposal, obtain support unit installation site information and remove temporal information, convenient in time and Support unit is accurately removed, and convenient for determining installation site, improves support unit transfer efficiency.

The present invention is further arranged to: being reached after requirement can remove after the support system of the assembled architecture first floor, root According to the information of two-dimension code label, the support unit of this layer is run into the corresponding installation site of next layer and is installed.

Implement above-mentioned technical proposal, support unit is installed according to the information of two-dimension code label, improves support unit installation Accuracy, improves installation effectiveness at the time needed for reducing debugging and classification support unit.

The present invention is further arranged to: including institute at prefabricated components and at supporting member at each component stacking It states and is located at supporting member at prefabricated components between corresponding building unit.

Implement above-mentioned technical proposal, when component is marched into the arena, first prefabricated components is deposited at prefabricated components, then by supporting structure Part is deposited at supporting member, when because of construction, prefabricated components of first constructing, and then construction supporting component again, thus by support unit The outside of prefabricated components is set, prevents the construction of support unit interference prefabricated components, improves construction efficiency to a certain extent.

The present invention is further arranged to: carrying out component design and split to design according to design drawing, using BIM software modeling Carry out anticollision inspection and processing simulation.

Implement above-mentioned technical proposal, anticollision inspection and processing simulation are carried out by BIM software modeling, can be effectively prevented When practice of construction, there is the problem of interfering between component, reduce the generation of temporary construction problem, improves construction quality and efficiency.

The present invention is further arranged to: component conveying and finished product protection and component sequence are paid attention to during marching into the arena, component into Field after the assay was approved, can be installed.

Implement above-mentioned technical proposal to need to examine component whether qualified, to guarantee construction quality when component is marched into the arena.

In conclusion the present invention having the beneficial effect that in contrast to the prior art

One, component is labelled when leaving the factory classifies, and when component is marched into the arena, is directly placed component classification according to label information At corresponding component stacking；When constructing each building unit, at the corresponding component stacking of the direct handling building unit Component carries out construction operation, and the time needed for effectively reducing handling component improves construction efficiency；

Two, it obtains the installation site information of support unit and removes temporal information, convenient for dismounting support unit timely and accurately, And convenient for determining installation site, improve support unit transfer efficiency.

Three, when component is marched into the arena, first prefabricated components are deposited at prefabricated components, support unit is then deposited in support structure At part, when because of construction, prefabricated components of first constructing, then construction supporting component again, thus support unit is arranged in prefabricated components Outside, prevent support unit interference prefabricated components construction, improve construction efficiency to a certain extent.

Detailed description of the invention

Fig. 1 is the construction process figure of the assembled architecture construction method the present invention is based on BIM.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

As shown in Figure 1, a kind of quick turnover method of assembled architecture support system based on BIM, comprising the following steps:

S1, building threedimensional model is established by BIM according to design drawing.

S2, the component for determining building threedimensional model, component includes prefabricated components and support unit.Wherein, prefabricated components packet Include prefabricated outer wall panel, prefabricated superimposed sheet, composite beam, prefabricated lightweight concrete wallboard；Support unit includes that laminated floor slab independently props up Support, prefabricated panel bearing diagonal, cast-in-situ template bearing diagonal.

S3, the assembled architecture divided into multiple building units in building threedimensional model, each building unit correspondence is set It sets at a component stacking；It wherein, include position at prefabricated components at prefabricated components and at supporting member at each component stacking At supporting member between corresponding building unit.

Specifically, the method that building unit divides are as follows: 2-4 building is divided according to the quantity of construction area and required component Unit, each building unit include at least side external wall.External wall is the wall on the outside of assembled architecture, and assembled is built It builds usually entirety and is similar to cube structure, there are four sides for general tool, i.e., with four side external walls.And it divides 2-4 and builds Unit is built, that is, is arranged at 2-4 component stacking.

When construction, for hoist tool usually along building circumferential setting 2-3, hoist tool is tower crane, thus 2-4 structure is arranged At part stacking, on the basis of reducing the handling time, reduces the quantity at component stacking, prevent the quantity at component stacking excessive And increase the complexity of classification.

In addition, being rendered to different building units by different colors in building threedimensional model, each building is single The corresponding label of member is set as color identical with the building unit.

S4, determine each building unit needed for the number of components and type；The component of each building unit is marked, And corresponding label is made, label includes the indicating label for identifying prefabricated components and the two dimensional code for identifying support unit Label.

Specifically, the method that two-dimension code label obtains:

The first step is encoded the first floor for building each unit in threedimensional model to obtain room label by room；Each room By number designation, such as 1,2,3 ..., if room quantity is greater than 10, using such as: 01, being marked by the way of 02,03 ... Number.

Second step is marked support unit according to the label in each room, and support unit adds English after room number Literary letter and number is marked, as laminated floor slab independently supports: using 1a01,1a02,1a03 ..., 2a01,2a02,2a03 ... Deng；Prefabricated panel bearing diagonal: 1b01,1b02,1b03 ..., 2b01,2b02,2b03 ... etc. are used；Cast-in-situ template bearing diagonal: it uses 1c01,1c02,1c03 ..., 2c01,2c02,2c03 ... etc..Wherein a indicates that laminated floor slab independently supports, and b indicates that prefabricated panel is oblique Support, c indicate cast-in-situ template bearing diagonal.

Third step, the attribute information that each support unit is obtained according to the building threedimensional model that BIM is established, attribute information packet It includes installation site information and removes temporal information.

4th step makes two-dimension code label according to the mark information and attribute information of each support unit.

Indicating label labeling method is similar with support unit, but different prefabricated structures is distinguished by capital letter Part, including prefabricated outer wall panel, prefabricated superimposed sheet, composite beam, prefabricated lightweight concrete wallboard, as prefabricated outer wall panel using 1A01, 1A02,1A03 ..., 2A01,2A02,2A03 ... etc..

S5, label is affixed on each building unit needed on component.

It S6, component conveying and marches into the arena, component is deposited at corresponding component stacking according to label information；Component conveying and Notice that finished product protection and component sequence can be installed after component entry test is qualified during marching into the arena.

When component is marched into the arena, first prefabricated components are deposited at prefabricated components, support unit is then deposited in supporting member Place；When because of construction, prefabricated components of first constructing, then construction supporting component again, thus prefabricated components are arranged in support unit Outside prevents the construction of support unit interference prefabricated components, improves construction efficiency to a certain extent.

When S7, construction, it is prefabricated to first pass through hoist tool construction using the component at counterpart member stacking for each building unit Component is to form the assembled architecture, then construction supporting component forms support system.

Reach after requirement can remove after the support system of the assembled architecture first floor, according to the information of two-dimension code label, The support unit of this layer is run to the corresponding installation site of next layer to install.According to the installation site information of support unit With dismounting temporal information, convenient for dismounting support unit timely and accurately, and convenient for determining installation site, support unit is improved Transfer efficiency.

Before practice of construction, carries out component design and split to design according to design drawing, be prevented using BIM software modeling Collision detection and processing simulation.By BIM information platform, component is controlled in real time in conjunction with RFID less radio-frequency technology of Internet of things and is being set Meter, production, transport, work progress information, realize overall process information sharing, work compound.BIM information is associated with by mobile terminal Platform instructs component in-site installation, carries out in-site installation progress control, arrangement and method for construction, horizontal layout three-dimensional simulation and visualization, Integrated building course information, provides data basis for later period O&M.

Assembled architecture is divided into multiple building units, each building unit pair in building threedimensional model by the present invention It should be arranged at a component stacking, be provided at a component stacking so that each building unit is adjacent；Component is when leaving the factory It is i.e. labelled to classify, when component is marched into the arena, component classification is directly placed on by corresponding component according to label information and is stacked Efficiency of marching into the arena is improved without classifying after marching into the arena in place.When constructing each building unit, the direct handling building unit Component at corresponding component stacking carries out construction operation, and the time needed for effectively reducing handling component improves construction Efficiency.Meanwhile each component is identified by label, is classified, accomplish classification transport, classification lifting, reaches assembled The purpose of the quick turnover and rapid construction of construction.

The embodiment of present embodiment is presently preferred embodiments of the present invention, not limits protection of the invention according to this Range, therefore: the equivalence changes that all structures under this invention, shape, principle are done, should all be covered by protection scope of the present invention it It is interior.

Claims (8)

1. a kind of quick turnover method of assembled architecture support system based on BIM, it is characterised in that: the following steps are included:

S1, building threedimensional model is established by BIM according to design drawing；

S2, the component for determining building threedimensional model, the component includes prefabricated components and support unit；

S3, the assembled architecture divided into multiple building units in building threedimensional model, each building unit is correspondingly arranged one At a component stacking；

S4, determine each building unit needed for the number of components and type；The component of each building unit is marked, and is made Make corresponding label, the label includes the indicating label for identifying prefabricated components and the two dimensional code for identifying support unit Label；

S5, label is affixed on each building unit needed on component；

It S6, component conveying and marches into the arena, component is deposited at corresponding component stacking according to label information；

When S7, construction, each building unit first passes through hoist tool construction prefabricated components using the component at counterpart member stacking To form the assembled architecture, then construction supporting component forms support system.

2. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: The method that building unit divides in S3 are as follows: 2-4 building unit, Mei Gejian are divided according to the quantity of construction area and required component Unit is built including at least side external wall.

3. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: Different building units are rendered by different colors in building threedimensional model, the corresponding label of each building unit is set It is set to color identical with the building unit.

4. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: The specific method that the two-dimension code label obtains:

The first step is encoded the first floor for building each unit in threedimensional model to obtain room label by room；

Second step is marked support unit according to the label in each room；

Third step, the attribute information for obtaining each support unit, the attribute information include installation site information and remove the time Information；

4th step makes two-dimension code label according to the mark information and attribute information of each support unit.

5. a kind of assembled architecture support system construction method based on BIM according to claim 4, it is characterised in that: Reach after requirement can remove after the support system of the assembled architecture first floor, according to the information of two-dimension code label, by this layer Support unit runs to the corresponding installation site of next layer and is installed.

6. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: Include at each component stacking at prefabricated components and at supporting member be located at supporting member at the prefabricated components with Between corresponding building unit.

7. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: Component design is carried out according to design drawing and splits design, and anticollision inspection and processing simulation are carried out using BIM software modeling.

8. a kind of assembled architecture support system construction method based on BIM according to claim 1, it is characterised in that: Component conveying and notice that finished product protection and component sequence can be installed after component entry test is qualified during marching into the arena.