Portfolio by Charlie Reinhardt

Portfolio Charlie reinhardt

CONTENTS

Digital Design Diagramming Design Precedent

Digital Design Queen Victoria Garden Pavilion

Digital Design Generating Design Through Processes

Studio Beta The Pleasure Garden and Estate

Charlie reinhardt Contact Email Website

charlie.reinhardt@outlook.com www.cgreinhardt.wixsite.com/bdes

Education 2018 - 2020 2017 Graduated

Bachelor of Design - Architecture (Second Year) St Peters Lutheran College

Awards / Exhibition 2019 2019 2018

Design Studio Beta Exhibition Nettletontribe Architects Work Experience Bachelor of Design Pathways Scholarship

Skills Rhino Grasshopper Autocad Revit Unreal Photoshop Illustrator Indesign Fabrication

Digital Design Diagramming Design Precedent

Edinburgh Pavilion Konishi Gaffneyâ&#x20AC;&#x2122;s Edinburgh Pavilion was based on a folded origami form development from thinking about the idea of a pop-up pavilion. The architects goal was to inspire architects of Scotland providing a snapshot of Edinburgh inside the pavilion. Threshold and circulation were two key themes within this module. Through studying this pavilion, I diagrammed what I believed was the threshold and the circualation paths. Undertaking this exercise led to more critical thinking about the architecture and its impact on people.

Threshold Diagram

Circulation Diagram

Digital Design Generating Ideas Through Processes

Surface and Waffle Generating Ideas Through Processes is a module which introduced us to the Rhino plug-in, Grasshopper allowing the design to be iterated to find the final form. There were many different ways the design could be iterated. In terms of my design, I aimed at the surface relationship, 2D vs 3D panel placement, perforation scaling and height.

Dispatch Pattern - 3D vs 2D

1.1

1.2

1.3

1.4

Key MD Slider

Geometry

Dispatch Pattern

2.1

2.2

2.3

2.4

10mm

20mm

30mm

40mm

3D Paneling - MD Slider and Geometry

3.1

3.2

3.3

3.4

Surfaces

4.1

4.2

4.3

4.4

3D Panelling Height

Dispatch Pattern

Task 01 Surface and Waffle Isometric

Isometric 1:25 0

500

1500mm

Task 01 Computation Workflow

Surface Generation After creating a 150x150x150 bounding box, using the points along each edge, two surfaces were generated.

Splitting 2D and 3D

3D Panel Manipulation

2D + 3D Combined

To split the 2D and 3D panels, a dispatch command was used.

The 3D panels are manipulated by md sliders affecting the size of the openings.

This is the end product of the panelling script.

Digital Design Queen victoria garden pavilion

Queen Victoria Garden Pavilion The third and final module of Digital Design brought the semesters work altogether. Asked to design a pavilion for the M Pavilion series, that would hold 15 people inside for Quartets and an extended 30 people able to look into the pavilion. My pavilion will be set in winter with the aim of the pavilion encouraging people to connect with nature and come together as a community to uplift spirits. I was influenced heavily by the work of Zaha Hadid Architects, specifically her work for the King Abdullah Studies and Research Centre and the Serpentine Sackler Gallery. Zaha Hadid Architects work is always ground breaking and uses computational processes in an extraordinary way to create monumental designs.

The Hexagon is a wonder which is present throughout our lives and nature in more places thane one. The beehive for example, undertakes the hexagon for packing efficiency. Another example is seen in the Giants Causeway in Ireland where the hexagonal column formation is a result from rapid cooling of lava. Hexagonal prismatic honeycomb structures use the least material to create a lattice of cells within a given volume. Furthermore, the six sides of the hexagonal cells also offer greater opportunities for increased connectivity when compared to rectangular cells with only four sides.

Serpentine Sackler Gallery by Zaha Hadid Architects

King Abdullah Studies and Research Centre by Zaha Hadid Architects

Site Analysis 1 Site Boundaries

2 Weather Conditions

The site sits next to the National Gallery of Victoria and the Botanical Gardens.

Plenty of sunlight in the North and cool winds from the south. AM

TY CI PM

EE QU N VI OR CT

A LD KI

AR G

AD RO

DE N

N N IO AT AL AL G RY

LE OF IA OR CT VI

3 Circulation

4 Pavilion Orientation

Paths for pedestrian acces yet many people walk along the grass.

Pavilion will block south winds and allow warm sun in during winter months.

Ground Conditions 2 Split Shape

Hexagonal Grid

Split into a overall hexagon shape suiting overall idea. CUT

1 Shape

4 Final Form Ground condition will provide enough seating for 10 people inside and a stage for performance.

ATTRACTOR

3 Extrusion Manipulation Five point attractors along the south side will extrude the hexagons, blocking wind.

Pavilion Conditions 1 Panel Shape

2 Scaled Grid

Hexagonal Grid

Attractor curves manipulating the size of the hexagons.

4 Boundary Hexagonal grid is placed within another hexagon for pavilion shape.

CUT

3 Perforations Scaled hexagonal grid used to perforate the base grid.

5 Final Grid

6 Curved Surface

2D grid and perforations resolved.

The 2D grid and perforations are projected onto the final curved surface.

Queen Victoria Garden Pavilion Isometric Through form finding in grasshopper, the overall shape of the pavilion was created. A doubly curved surface was intended as I wanted to show the capabilities of the hexagonal panelling. Furthermore, I wanted to create a form which was different to the recti-linear buildings of the city, yet orienting the pavilion in a way to also celebrate it. With the use of lights and heating, a warm environment will be created to allure people to the space during colder months. Through the celebration of an organic geometry combined with a surface which provokes discussion on architectural visualisation advancement through computational software, the pavilion uplifts the cold months of winter and advertises community.

Isometric 1:25 0

500

1500mm

Queen Victoria Garden Pavilion Computation Workflow

Undulating Surface Generation Through two graph mappers an undulating surface is created.

Splitting the Surface Undulating surface is capped off by a hexagon using the split command.

Pavilion Panelling Final panelling form bounded by another hexagon.

Pavilion Panelling Hexagonal grid is scaled to create the perforations. The scale is manipulated by two curve attractors.

Ground Conditions Hexagonal grid is manipulated in the Z-Axis to create seating and steps, blocking the south winds.

Queen Victoria Garden Pavilion Renders

Queen Victoria Garden Pavilion 360 Image

Design studio beta The estate and pleasure garden

The Estate and Pleasure Garden

For the beta/earth studio, it was required to develop design proposals for a new community estate and pleasure garden in Melbourne. The estate and garden needed to facilitate public and private activities. Seven types of facilities were required in the estate that accommodate. Requirements: 1- small room pavilions (for short-stay and/or working) 2- function pavilion (for small gatherings and events) 3- service pavilion (kitchen, toilets, laundry) 4- experiential/pleasure garden(s) 5- open field for small functions 6- water feature(s) 7- An attraction pavilion

My estate focused on the basic idea of a classic courtyard and the modularity of the shipping container. Usinig shipping containers, I amalgamated the modular shape and created a community of private and public life. Furthermore, there was a focus on light and views inside the pavilions to juxtapose the harshness of the container. In terms of the gardens, there is a constant push and pull with the recti-linear lines of the built form and the natural forms throughout the site. This push and pull creates a playful spaces throughout the design.

1 SITE PLAN

2 BASE SHAPE

4 BROKEN COURTYARD

5 AMALGAMATION

3 COURTYARD SPACES

5 FIRST FLOOR AMALGAMATION

The Estate and Pleasure Garden Floor Plan

STREET Restaurant/Bar Educational/Work spaces Rooftop Areas Cafe Temporary Residences Bathrooms

STREET

The Estate and Pleasure Garden Axonometric

Isometric 1:150 0

3000

9000mm

The Estate and Pleasure Garden Comic Strip

The Estate and Pleasure Garden Render

Charlie Reinhardt | 0458021692 | charlie.reinhardt@outlook.com