Download - Ck21 presentation team 2
STRUCTUREJurijs Pavlovics
Michael WardTim Corrighan
_BIMCampusRevit 2014
Autumn 2013
IntroductionBrief
Our team has been appointed to design a new office specifically tailored to legal firms and legal training. The building must incorporate space for multiple companies.
Schedule of Accommodation:
Office spaces (both open plan and cellular)
Meeting/board rooms (varying sizes for specific uses, eg. 1 to 1, groups, etc.)
Achieve storage room
General storage rooms
Moot court (legal training court)
Break-out spaces throughout the building
Kitchenette/coffee points
Toilets (male,female, accessible WC’s, shower room, etc.)
Accessible lift
Cleaners store
Central reception with guest waiting area
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SiteProposed Site
The proposed site is located on the North bank of the River Tyne, Newcastle upon Tyne.
57 QuaysideNewcastle upon TyneNE1 2BJ
Currently housing a ‘Pocket Park’, an initiative promoted by NE1
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Site ConstraintsSite Boundaries
The site is restricted on two sides by neighbouring buildings:
Flynn’s Bar
Law Building
To the front, the site is restricted by the street front and public footpath
To the rear, the site is slight more open with room for car parking
All buildings are limited to roughly the same height and number of levels
Observations
Busy street to the South
Access needed to property along the East boundary
Access to car park from Broad Chare to the North East
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InspirationPresidents
Stone + Brick
Facades
Quayside History
Glass with hard materials
Infill Architecture
Modern Architecture sitting with Classical
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Using the 3D City ModelCity Model
Throughout this project and the last we have used a 3D city model of Newcastle to create the context for our Revit model.
Used to better understand the site boundaries.
We have used the 3D city model to create more professional external renders.
The 3D model was used to align the point cloud data to one of the neighbouring buildings so a Revit model for these buildings could be modelled in place.
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Data AcquisitionLaser Scanning
Tutorial in laser scanning with Paul from Leica Geosystems.
Scanned the full site from several different locations
We headed straight back to the computer suit to load the point cloud into Revit
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Laser Scanning and Modelling from the Point Cloud DataModelling from Point Cloud Data
The point cloud data was opened in a new revit project and was used to begin building a model of the adjoining buildings to the site.
Using walls, extrusions and windows we created the facades of the buildings.
We created custom texture to apply to these surfaces.
We then added roofs and further details to complete the context models.
We worked individually on each of the buildings and the models were linked together before being imported and aligned to the site model.
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DN
By Department LegendLift
Offices
Private
Public
WC
Drawn
Dwg. No.
Scale at A1
Project No.
Drawing
Project
Status
Rev.
Date
this drawing is copyright - check all dimensions on site - inform architect / so of any discrepancies - work to figured dimensions only - do not scale
Rev. Amendment Date
Checked 1 : 100
1234 A(00)GAP900
MW
Departmental Plans
1234 - BCT2 - 57 Quayside
Preliminary
09/11/13Checker
1 : 100Departmental Level 001
1 : 100Departmental Level 02
1 : 100Departmental Level 13
1 : 100Departmental Level 24
1 : 100Departmental Level 35
The DesignSTRUCTURE
Architectural ModelModelling in Revit
We all began modelling the architecture model to create a com-prehensive mass made up of architectural elements:
Walls (with materials)
Floors
Doors
Windows and other glazing
This is the base for the BIM
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Structural ModelStructural Grid
8x5 grid
Horizontal Spacing - 3000/2000/4200/2000/3000
Vertical Spacing - 4000/2000/2000/6000/6000/5000/2500
Base of steel frame
Primary Structure
Steel Frame
In-situe cast concrete floor
Concrete pile foundations
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What is Next?Structural Model
The next stage now for us is to complete the structural model, creating a fully comprehensive Level 2 BIM.
MEP Model
We will then create a mechanical and electrical model concentrating on one floor. This will give us three co-ordiated models which we can then process in Navisworks.
Navisworks
We will then import a central model into Autodesk’s Navisworks. Here we will run a series of clash detections between the architectural and structural models, architecture and MEP and structure with MEP.
In Navisworks we will also create a series of construction animations and renders using the cloud.
We welcome any questions?
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