Download - zentralles stellwerk
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Zentrales StellwerkBasel
Herzog & de Meuron
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Creation of the model can be done in 3 steps.
create basic 3d model in Rhynoceros1. Draw plans 2. Arrange the plans according to the heights3. Create facade surfaces using plans geometry4. Draw edges, needed for applying components
create inner skin using RHIKNOWBOT1. Draw facades like a set of closed curves on a plane2. The RHIKNOWBOT command 2D TO 3D allows to apply this curves to the surfaces of the model3. The RHIKNOWBOT command PUNCH makes the volume of walls from surfaces
create outer skin using Grasshopper1. The shape has 2 types of components - flat and bended metal surfaces2. First step - analysis of the facade, which allows to define surfaces covered with each type of component3. Second step - take the edges of surfaces, divide them into equal parts, draw the lines connect-ing this points4. According to the type of component, extrude the lines along straight path or loft them using attractor point
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
component A
1. Take edges2. Divide edges into parts with equal length3. Create lines going through the points on edges4. Create component A - extrude lines straight along the needed distance
component B
1. Take edges2. Divide edges into parts with equal length3. Create lines going through the points on edges4. Create the arches - find the center point of each line - move the center point out of the surface - draw arch through the points on edges and moved center points5. Loft the surface of component B from the arch (p.4) and lines (p.3)
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Illustration: outer structure of facade.
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Illustration: inner structure of facade.
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Plans of building
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Basic 3d model in Rhynoceros
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Structure of inner facade
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
3d model after applying RHIKNOWBOT command 2D TO 3D
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
3d model after applying RHIKNOWBOT command PUNCH
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Structure of outer facade
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Types of components
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Facade analysis: define the surfaces populated with component A and B
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Facade analysis: define the surfaces populated with component A and B
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Facade analysis: define the edges of the surfaces populated with component A and B
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Facade analysis: define the edges of the surfaces populated with component A and B
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Grasshopper definition for the component A
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Component A in model
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Grasshopper definition for the component B for the straight surfaces of facade
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Grasshopper definition for the component B for the curved surfaces of facade
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Component B in model
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Final model
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
Critics on the method:.
create inner skin using RHIKNOWBOT1. The program is working well with rectangular facades and allows fast and presized transition from 2d drawing to model’s surfaces2. With not flat surfaces there are some difficulties in exact transition from 2d to 3d - the basic shapes can be deformed.
create outer skin using Grasshopper1. The method is working both with straight and arched component, basicly component changes only in 2 curved facades. Rectangular facades are composed with repetition of one element.2. In Zentralles Stellwerk there are only 2 types of components, which are the same at all sur-faces. In Grasshopper there is possibility to apply different factors or attractors, which will provide parametric changig of each component depending not only on facade shape. Can be changed the size and direction of the openings, the thikness of the basic stripe.
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna
CAD LOGIC III prof. D. Dendra st. A. Yunitsyna