Internship Report Jan-July 2020 - Niraj Kamal K
A glimpse of cool projects and research done during 2020. (previously hosted in Issuu since 2020: https://issuu.com/nirajkamal/docs/niraj_16110024_report_compressed)
A glimpse of cool projects and research done during 2020.
(previously hosted in Issuu since 2020: https://issuu.com/nirajkamal/docs/niraj_16110024_report_compressed)
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PROFESSIONAL
TRAINING
REPORT
JANUARY 2020 - JULY 2020
Niraj Kamal Karunanidhi
B. Arch 4th yr (2016 - 2021)
Department of Architecture and Planning,
Indian Institute of Technology Roorkee, India.
Title:
Professional Training Report
January 2020 to July 2020.
Student:
Niraj Kamal Karunanidhi,
B. Arch 4th year,
Department of Architecture and Planning,
Indian Institute of Technology Roorkee.
nk@ar.iitr.ac.in
niraj_kamal.karunanidhi@tu-dresden.de
Organization(s):
1) WISSENSARCHITEKTUR - Laboratory of
Knowledge Architecture, Technische Universitat
Dresden, Dresden, Germany. (Research Internship,
Professional Training)
January 2020 to July 2020.
Supervisor: Prof. Jörg Rainer Noennig
2) Ruairi O’Brien. Architecture. Light. Spatial
Design., Dresden, Germany. (Voluntary
Part-Time training)
May 2020 to July 2020.
Architect: Ruairi O’Brien.
Supervisor and Guide:
Prof. Jörg Rainer Noennig.
Funding:
DAAD; Technische Universitat Dresden.
Programme:
ARN 402: Professional Training,
Department of Architecture and Planning,
Indian Institute of Technology Roorkee.
Cover: Karunanidhi, Niraj Kamal - Photo of public installation in
Dresden Altstadt city centre.
To my family...
WISSENSARCHITEKTUR Laboratory of Knowledge Architecture
TU Dresden Fakultät Architektur 01062 Dresden
Bearbeiter: Noennig
Tel / Fax: 0351 463-32210
E-Mail: joerg.noennig@tu-dresden.de
Erstelldatum: 06.08.2020
INTERNSHIP COMPLETION CERTIFICATE
This is to certify that Mr Niraj Kamal Karunanidhi studying Bachelor of Architecture at Indian Institute
of Technology Roorkee, India has completed his six months Professional Training at
WISSENSARCHITEKTUR Laboratory of Knowledge Architecture, TU Dresden, from 13th January
2020 to 25th July 2020.
During his Internship, he worked on various projects in Programmable materials, urban spaces, AI
and Intelligent Architecture, and Architectural Design. He was exposed to various activities of research,
and he learned to work in collaboration with various domains in the field.
His association with us was very fruitful, and we are delighted to be a part of his professional career.
He took key initiatives, and played an eminent role in research activities related to intelligent
and programmable Architecture. We hope the international exposure he got during this Internship
will broaden his horizon for his future endeavours.
Prof. Dr.-Ing. Jörg Rainer Noennig
Director WISSENSARCHITEKTUR
Laboratory of Knowledge Architecture
Technische Universität Dresden
Professorship Digital City Science
City Science Lab – A Cooperation with the MIT Media Lab
HafenCity University Hamburg
Postadresse (Briefe)
Technische Universität Dresden
01062 Dresden
Postadresse (Pakete u.ä.)
Technische Universität Dresden
Helmholtzstraße 10
01069 Dresden
Besucheradresse
Zellescher Weg 17
BZW B EG, 008-012
Internet
www.tu-dresden.de/ka
WISSENSARCHITEKTUR Laboratory of Knowledge Architecture
TU Dresden Fakultät Architektur 01062 Dresden
Bearbeiter: Noennig
Tel / Fax: 0351 463-32210
E-Mail: joerg.noennig@tu-dresden.de
Erstelldatum: 06.08.2020
TO WHOMSOEVER IT MAY CONCERN
I, the undersigned, solemnly declare that this internship report contains the work that has been
done by Mr. Niraj Kamal Karunanidhi during the tenure of his professional training/ research internship
at WISSENSARCHITEKTUR Laboratory of Knowledge Architecture. All the information, illustrations,
drawings and reference to the material provided in this report are true to the best of my
knowledge.
With kind regards,
Prof. Dr.-Ing. Jörg Rainer Noennig
Director WISSENSARCHITEKTUR
Laboratory of Knowledge Architecture
Technische Universität Dresden
Professorship Digital City Science
City Science Lab – A Cooperation with the MIT Media Lab
HafenCity University Hamburg
Postadresse (Briefe)
Technische Universität Dresden
01062 Dresden
Postadresse (Pakete u.ä.)
Technische Universität Dresden
Helmholtzstraße 10
01069 Dresden
Besucheradresse
Zellescher Weg 17
BZW B EG, 008-012
Internet
www.tu-dresden.de/ka
CONTENTS
Acknowledgements
About Wissensarchitektur Laboratory of Knowledge Architecture.
About Ruairi O’Brien. Architecture. Light. Spatial Design.
The Journey
Summary of Projects
Architecture Projects
Urban Design Projects
Research Projects
Conclusion and Final Reflection.
Bibliography
ACKNOWLEDGEMENTS:
I would like to express my sincere gratitude to my Supervisor, Jorg Rainer Noennig. Thanks for
introducing me to various incredible fields of digital and knowledge architecture, for teaching me
how to handle research projects. Thanks for being supportive of my ambitions and ideas.
My research is significantly influenced by collaborators and guides - Jorg Rainer Noennig, Sebastian
Wisenhuetter, Martin Sobzyk, Thomas Wallmersperger, Konstantin Doll and Adam Urban. I am
grateful for their passion, inspiration, and long talks about programmable and intelligent Architecture.
Thank you for listening to my ideas, and collaborating.
I am thankful to Ruairi O'Brien, for accepting me as a trainee, giving the opportunity to work on the
architectural projects in their firm and introducing me to different architectural topics. I am thankful
to Lars Joachim for his guidance, for being an extraordinary mentor in the office and for adjusting
with my continually changing university schedules.
During my internship at the KA lab, I had a chance to share the workspace with exceptional people. I
thank all the members for sharing incredible moments: Jörg Rainer Noennig, Anja Jannack,
Sebastian Wiesenhuetter, Konstantin Doll, Anja Beniko Lorenz, David Hick, Adam Urban, Benjamin
Stelzle, Michael Kelber, Xiaoping Xie, Olga Kyselova, Malgorzata Flickschu, Isabelle Bartl(esp. for
teaching phrases and fowl words in German), Torsten Holmer, Matthias Hauschild, Fabrice Naumann,
Florian Saegebrecht, Hong Trang, Linh Vu, Andreas Wilde, Milliena, Vincent Paul Kanig. Thank you for
making my life easier at TUD. I thank Nikhil Duggal for virtually collaborating in a project under short
notice, for his energetic participation and contribution.
Sincere thanks to the TU Dresden International office- Cornelia Hesse, Lieselotte Landgraf-Dietz, and
Luise Thalheim, and DAAD, for helping me with the funding and for being very supportive during the
pandemic, extending the funding. This wouldn't have been possible without your support.
I thank the internship program coordinator, Gaurav Raheja, for supporting, guiding and helping us
during the internship, especially during the crisis. I would like to thank professor Smriti Saraswat, Rabi
Narayan Mohanty for their incredible support and guidance when I was lost, struggling with visa
issues. Thanks to professor Rajasekhar for supporting my crazy ideas and insightful discussions at IITR.
I extend my sincere gratitude to all the professors of the architecture department - Avlokita Agrawal,
Rita Ahuja, Sonal Atreya, P.S. Chani, Ila Gupta, Saptarshi Kolay, Ram Sateesh Pasupuleti, Tina Pujara,
Gaurav Raheja, Rajasekar Elangovan, Uttam Kumar Roy, Subhajit Sadhukhan, Smriti Saraswat, Manavi
Suneja, Harshit Sosan Lakra, Pushp Lata, Mahua Mukherjee. , and all the supervisors, faculty. , for
tolerating us for four years, imparting invaluable knowledge, guiding us, and for sharing memorable
moments during classes, batch trips, and in the department, in IIT Roorkee.
I thank the head of department P.S.Chani, Dean International Relations-Arumugam and Director Ajit
K Chaturvedi, IITR for their efforts to help me during the crisis. I am very grateful to Manoj(IITRHF) and
IITRHF for their sincere efforts to support the internship and during the crisis.
I am thankful to my close friend and classmate, Jaswant Parihar for being a good company in
Dresden, for introducing me to architect Dirk Friedrich Sehmsdorf, and to his friends with whom I had
a wonderful time.
I thank Dirk, and his family for the memorable moments during dinners, and insightful discussions. I
thank very good friends, Savarna and her family for their support. Sincere thanks to Krishnamoorthy
and his family in Delhi, for helping me out.
I thank all the amazing friends I met here in Dresden, at Fritz-16, for the dinners, improv trips and
wonderful moments. I thank the incredible people I met in IIT Roorkee, seniors and my batchmates
for bringing all the vital doses of fun while learning and sharing a ton of knowledge.
I am grateful to my mentor, Pal for motivating, encouraging, guiding me through every stage of this
journey, and shining his wisdom on me.
I am eternally grateful to my amazing family for their unconditional love and their mental support
during the long days in ‘home office’, for sharing fun and memorable moments, and staying
connected ‘virtually’ during this incredible journey. Thanks to my parents for encouraging me to do
whatever I like and helping me with all my crazy ideas.
Dresden, August 2020.
The WISSENSARCHITEKTUR Laboratory of Knowledge Architecture is an interdisciplinary
think-tank conducting research, design, and consultation at the intersection of design
and social sciences. The lab explores the multiple cross-links between environmental
structures (spaces, buildings, cities), and knowledge processes (innovation, creativity,
co-operation). To investigate knowledge dynamics in space, the lab creates visualisation
and modelling tools, and applies them in academic training as well as in professional
practice.
LAB UNITS
Participation
and Co-creation
/ Co-design
Innovation and
Startup Design
Spatial Robotics
and Bionics
Collaborative
Workplaces
Digital Future
City
Design
Planning
PROF. Jörg Rainer NOENNIG
LAB DIRECTOR, ARCHITECT
Prof. Dr.-Ing. Jörg Rainer NOENNIG is Professor for
Digital City Science at the CityScienceLab- A
Co-operation with the MIT Media Lab, at Hafencity
Universität Hamburg and the Director of the
WISSENSARCHITEKTUR Laboratory of Knowledge
Architecture at TU Dresden.
From 1992 to 1998, he studied architecture at Bauhaus
Universität in Weimar- his birthplace, Polytech Krakow
and Waseda University Tokyo. Between 1998 and 2001 he
practised as an architect in Tokyo, among others at
Ishiyama Experimental Underground Architecture
Factory, at Arata Isozaki & Associates, and as a freelance
architect.
From 2001 he was Research Associate at TU Dresden,
where he was appointed Junior Professor for Knowledge
Architecture (2009-2015). In 2007 he received his doctoral
degree from Bauhaus Universität Weimar. He taught at
different universities in Japan, USA, China, Italy,
Switzerland and Angola, and was a Visiting Professor at
Universit Degli Studi dell l´Aquila, ISEN Toulon and
Voronezh State Technical University.
He has published several books and more than 100
scientific papers and essays. He has won several prizes,
scholarships and awards, including the Grand Prize of
the European Association for Architecture Education
(EAAE).
Ruairí O'Brien. Architecture. Light. Space art. - The artistic-interdisciplinary architecture firm
holistically combines the areas of architecture - building construction, lighting planning, interior
design, urban development and open space planning, monument protection and exhibition
design. The firm is known for its lighting design, and very cost-effective modular housing
buildings. The firm is in the same building as the Erich Kistner Museum in Dresden which they had
designed.
Ar. Ruairí O'Brien
ARCHITECT
Ruairí O'Brien studied architecture and light at universities in
London, Edinburgh and New York and worked for various
architecture firms in England, the USA and Germany before he
founded his own office in Dresden in 1995 : Ruairí O'Brien.
Architecture. Light. Space art.
In 2010, he founded the lighting design company Archevolucio
Lighting Design Ltd. in London and Dresden. He also worked
on a variety of innovative, cost-effective buildings, light and
light art projects, sculptures, installations, and projects related
to the cultural and historical heritage of the past. In 2003 he
founded the light poetry festival «Light and Word» in Dresden.
He has a substitutive professorship for architecture and light at
the Wismar University of Applied Sciences. He played a key role
as coordinator of the international master’s course in Architectural
Lighting Design and helped the program to achieve full
accreditation in 2005. He regularly teaches at various universities
in Germany and abroad, including in the Czech Republic
and Russia. In 2014 he founded the «Mobile School of Lighting
Design», a project that brings the learning of lighting planning/lighting
design to a global public in an innovative and
mobile form.
He is one of the founding members of the Federation of
International Lighting Designers, founded in 2014, and served
on the board as Vice President of the professional association
until the end of 2018.
Since 2017 he is the Associate Professor and Head of Architecture
and Visual Design Department at the German University
in Cairo - GUC active.
The Journey
I first heard about Prof. Jorg, when he gave a lecture on Digital Architecture during the
Bauhaus@100 event in IIT Roorkee. Thanks to Professors Gaurav Raheja, P.S. Chani, and Smriti
Saraswat for organising the event. My classmate Jaswant Parihar, kept mentioning about this
lecture.
I was interested in the technological aspects of Architecture and strategical methods in
planning. It's an irony that I draw and design a lot while solving physics problems, and vice-versa
- both the activities simulate me a lot. I worked with Prof. Rajasekhar in the NetZed lab-IITR, on
exciting and very technical projects in Architecture, which involved a ton of coding and math.
Thanks to him for supporting my ideas. I also worked on a project with Ar. Suhasini Ayer during
December 2019, on the analytical thermal comfort study of Humanscapes, Auroville. I had a
wonderful time, and I realised that I also needed the vital dose of the artistic, and creative
aspects in work to keep myself motivated - I needed the balance.
This was when I decided to send an email to Jorg. He replied immediately sharing about the
lab’s projects. I realised that it is a perfect place for me. It was my first time applying for a foreign
visa. With the help of Prof. Jorg, Prof. Smriti Saraswat, Prof. Gaurav Raheja, Rabi Mohanty, and
TUD international office who guided me with the visa, I was able to reach Germany on time. The
lab is interdisciplinary, and it is an academic atmosphere, so I can work on my crazy ideas
without risking anything much. The analytical approach to architectural designs was
fascinating. I learnt a lot beyond that, to organise everything around my self.
I realised on the first day that no one will be assigning tasks for me, or setting any deadlines. I
had to either take up initiatives on my own ideas, or be aware of what others are doing, and
propose to collaborate with them. I had to keep my own deadlines and meet them. Jorg and the
colleagues at the lab were very supportive whenever I got lost, and always opening up on
various opportunities to work on projects available from time to time. I learnt a lot working on
research projects, especially patterns in both in architectural design and in geometry. I spent a
big chunk of time in January in the SLUB maker space, an annex right below the lab, where all
the laser cutters and 3D printers were located.
When I had finally fixed with my time plan, Germany was hit with the outbreak. Although the
home office was not very efficient in my case, the long days gave me time to think, structure my
thoughts and write the first draft of a research paper. Prof. Jorg was very supportive and
encouraging, guiding me through it.
I also had to improvise by finding opportunities to take up architectural projects, since the
project we decided in the lab (Kyiv NAUPROSTIR) was delayed due to the crisis. Prof. Jorg
supported my decision to take up a voluntary part-time training, and I mailed a few firms in
Dresden. Lars Joachim and Ruairi O’Brien replied, I met them, and I liked their way of work. I also
liked the firm’s atmosphere, it is in the same building as the Erich Kastner museum which the
firm designed, right above it. The projects were interdisciplinary, I volunteered as a primary
trainee. I learnt a host of new software used by the firm. Lars, the project manager, made the
problems in sequencing and organising the tasks feel impossibly simple, and agile. It is a small
but efficient team with Ruairi, Lars and me, working during the crisis, so I was given diverse
tasks to do. I learnt a lot about the history of buildings in Europe, its architecture, and also about
the importance of lighting.
I met a lot of amazing people in Dresden, had a wonderful time, with all the improv plans and
dinners. I am currently continuing the work on my research publications. The architecture of
Dresden is merely jaw-dropping. I will never forget the long walks every day from the firm (new
city centre) to my room (old city centre), walking through the bridges and castles of Dresden,
crossing the Elbe river.
Research Intern (KA)
Jan
2020
Feb Mar Apr May Jun
Home Office
Jul
Part-time training
SUMMARY OF PROJECTS
My contribution, self evaluation
Architecture
Client
Meetings
Analysis
Design
Concept
CAD
Drawings Modelling Visualization Site Visit
Annenhoefe
Office Space
Hoheneck Prison
Museum (concept)
Volksolidaritat
Trachenberge
Kiev NAUPROSTIR**
Urban Design
Analysis
Concept Planning Drawings Modelling Visualization
Neustadt Urban
Guidance System
Urban Mobility
Study - Chemnitz
Urban Stage
Design Potsdam
Berlin War
Memorial
Research
Project ADAM
(Programmable
Materials)**
Conception Brainstorming Review Authoring Prototypes Simulations
Visualization
SCORE -
Resilience for
Coronavirus.
Workshops/ Brainstorming
Study on German
Standards for
Office Spaces
AI and
Architecture
** Project is being continued/ extended.
Illustration method credits: Divyang Purkayastha
ARCHITECTURE PROJECTS
1 2 3
ANNENHÖFE
4
HOHENECK PRISON
MUSEUM
VOLKSSOLIDARITÄT
TRACHENBERGE
KYIV NAUPROSTIR
(PROPOSAL)
ANNENHÖFE
A 2000 sq.m office space for a leading international
IT Company, in Dresden.
Client: (Undisclosed) A leading International
IT Company.
Location: Postplatz, Dresden, Saxony
Architect:
Ruairí O’Brien. Architecture. Light.
Spatial Design.,
TLG Immobilien AG. - Knerer und
Lang Architeckten.
Plot Area: 7400 Sq.m
Status: Under Construction, to be
completed in 2021.
Img - 1.1
Brief:
This project is a Large Scale 2300 Sq.m
office and R&D space for an international
IT company (like Intel). The office comprises
of working area for 115 employees, R&D
laboratories, and leisure, and reception
spaces for visitors. The R&D facility and
workspace needed special Faraday shielding
and had to be highly secluded while
having an excellent working atmosphere.
Site:
The site is in the heart of Dresden, Postplatz
and in close proximity to the Zwinger
palace. It is a modern inner-city office
space right in the historic old town.
1
Challenges:
The office planning needs to stick to the
German laws.
The space needs a spacial protocol program
to work even during a pandemic.
The R&D facility and workspace has to be
secluded.
The design of toilets and kitchens should
be cost effective, and efficiently connected
to the plumbing ducts.
There needs to be showering facilities for
employees who use bicycles.
The office needs to be balanced with
nooks, leisure spaces etc.
The reverberation time should not exceed
1.5 seconds.
Img - 1.2
1
Img - 1.3
2
2
Img - 1.4
My contribution:
I contributed to the design, planning, and
modelling of the 2300 Sq.m office space,
and R&D facility. The total plot area is
7400Sq.m. I was also involved in the multiple
revisions of the design.
Room Plan
Spacial Layout
Workflow:
Ruairí O'Brien was responsible for the
planning of the tenant's room programme
layout, which was coordinated with the
developer/landlord (TLG) to define the
requirements and standards for the office
space.
Archicad Model and Visualization
Img - 1.5 Interior Office Space
Img - 1.6 Interior Teekuche
Img - 1.7 View from South West Side
TYPICAL FLOOR
Default Floor Plan, Floor Area - 3500 Sq.m.
ACOUSTICS
Internal walls, and wall cladding:
Drywall / metal stud wall Knauf W112,
Clad - Double planked on both sides,
4cm mineral wool
Sound reduction index R'wR = 45 dB
Doors: Rw = 32dB to R'w = 27dB
Reverberation time:
For private offices, the RT is less than 1
second.
For the meeting rooms, the reverberation
time is less than 1.5 seconds.
For confidential conversations, and in
systems laboratory, the reverberation
time is below 0.5 seconds.
1
The stairwells of the building divide the floor plates
into zones, and are to be built using firewalls, which
compartmentalise the building. This makes the space
flexible, thus offering more options and orientations to
choose from.
2
Acoustic Panels for Ceiling:
3
Acoustic panels were chosen for the ceiling, due to
the aesthetics and cost effectiveness. The Reverberation
time calculated to be ~1 second.
White Noise
A gridded speaker plan was chosen mainly for generating
white noise and other multimedia purposes
4
25
4,90
1,01
2,13
25
25
5,40
3,075
3,075
35
35
5,10
5,10
5,40
9
8
7
6
5
4
3
2
1
25
25
Schacht
F= 2,35m²
Aufzugsschacht
F= 4,08m²
5,15
5,15
5,40
UKRD = -5.32 m
1,01
2,13
25
25
1
2
3
4
5
6
7
8
9
10
2,85
2,85
20
19
18
17
16
15
14
13
12
11
5,40
25
25
2,00
2,00
35
35
9
8
7
6
5
4
3
2
1
5,05
5,05
5,40
35
35
5,05
5,05
5,40
35
35
2,52
WÄNDE
ACHSEN
5
2,52 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 3,005 35 6,97
5
3,07 35 3,525 1,575 8,75 2,00 350 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,00 8,75 2,575 2,525 2,875 2,525 35 3,525 1,38
5,05
5,05
5,40
72,42
35
35
2,00
2,00
39
2,52
5
35 2,525 2,525 35 2,525 2,525 35 2,525 5,40 2,525 35 2,525 2,525 35 2,88 60
5
2,52 35 2,525 2,525 0 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,88 60 6,845
25
25
23
22
21
20
19
18
17
16
15
14
13
12
5,40
2,85
2,85
1,01
2,13
1
2
3
4
5
6
7
8
9
10
11
F
2,52
5
2,525 35 5,05 35 5,05 35 3,005
5,40 5,40 5,40 5,40 3,35 5 7,445
2,52
5
2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 3,005 35 6,97
25
25
UKRD = -5.32 m
1,01
2,13
F
F
Aufzugsschacht
F= 4,08m²
5,15
5,15
5,40
Schacht
F= 2,35m²
25
25
5,10
5,10
5,40
35
35
5,05
5,05
5,40
35
35
25
GESAMTMASS
E12
ROHBAU / ÖFFNUNGEN
G2
G1
A
5,15 5
F16
15,50
15,50
5,36
5,15 5
F15
14,45
-1.17
F14
2,13
1,01
10 Stg. 18/28
10 Stg. 18/28
10
1,01
2,13
10 Stg. 18/28
10 Stg. 18/28
11
12
13
14
15
16
17
18
19
20
88,44 5
5
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 2,95 25
5
30 6,20 39
5
5,225 35 5,05 35 5,025 375 2,00 25 2,85 25 5,15 25 5,10 35 5,05 35 7,075 30 6,20 025
10
11
12
13
14
15
16
17
18
19
20
5 2,525 35 2,525 2,525 35 2,525 2,525 35 3,525 1,575 10,925 2,70 2,525 35 2,525 2,525 35 2,525 2,525 35 2,00 8,75 1,575 3,525 35 2,525 2,525 35 2,525 2,50
3,88 25 70 35 5,05 0 35 5,05 35 5,05 35 5,10 25 5,15 25 2,85 25 2,17
1,01
2,13
Fernwärme
-1.18
F= 65,38m²
U= 33,92m
HAR Wasser
F= 25,21m²
U= 20,72m
F13
115
-1.08
Schleuse
F= 8,25m²
U= 13,50m
6,75
25 3,88 25 22,35 25 5,15 25 2,85 25 20,55 25 2,85 25 5,15 25 17,92
1,01
2,13
F12
2,52
F11
120
F10
F9
OKRFB = -5.00 m
Decke d=32 cm
1,01
UKRD = -5.32 m
2,13
Schacht
F= 2,35m²
Aufzugsschacht
F= 4,08m²
Kabineninnenmaß
1,10mx2,10m
F8
Entrauchung TG
-1.07
Treppenhaus 4
Kabineninnenmaß
1,10mx2,10m
F= 23,42m²
6,65
-1.05
Treppenhaus 3
F= 23,42m²
U= 35,40m
-1.06
Schleuse
F= 8,24m²
U= 13,50m
Entrauchungsschacht
F= 7,79m²
U= 27,66m
F7
OKRFB = -5.00 m
Decke d=32 cm
10 Stg. 18/28
F6
C
10 Stg. 18/28
13
12
11
10
6,45
9
F5
8
F4
14 15
-1.10
Schleuse
F= 8,23m²
F3
U= 13,50m
-1.09
2,13
1,01
20 21
OKRFB = -5.00 m
Decke d=32 cm
UKRD = -5.32 m
Treppenhaus 5
F= 23,42m²
U= 27,66m
Aufzugsschacht
125 130 132
16 17
F= 4,08m²
Schacht
F= 2,35m²
19
18
14
25
1,36 5,41 5 5,41 5
12 Stg. 17,8/28
-1.22
Fahrradabstellraum
F= 54,18m²
U= 29,88m
11 Stg. 17,8/28
8,50 15
OKRFB = -5.00 m
Decke d=32 cm
-1.23
Fahrradabstellraum
F= 54,85m²
U= 30,10m
9,72%
-1.19
Technik
F= 50,73m²
U= 40,82m
10,00%
-1.03
Treppenhaus 2
F= 23,04m²
U= 27,66m
-1.04
Schleuse
F= 8,24m²
U= 13,50m
6,45 5,00 5,00 6,00 5,00 5,00 6,32
5
5,00 5,00 6,025
6,45 7,25 8,70 8,10 7,70 8,60 6,90 8,00
5,41 5 5,415
8,62 25
33,16 5
6,45 5,00 5,00 6,00 5,00 5,00 6,32
5
5,00 5,00 6,025
-1.24
Fahrradabstellraum
5
2,525 35 5,05 35 5,05 35 5,05 35 3,005 35 7,095 35
7
6
2,13
1,01
35 40
50
55 60 65
75
A4` A5` A6` A7` A8` A9` A10` A11`
80 85 90 95
110
F2
Kabineninnenmaß
1,10mx2,10m
F1
30 Fahrradste lplätze
E E
G
C
D
2,13
1,01
70
F
E11
30
Kabineninnenmaß
1,10mx2,10m
31 Fahrradste lplätze
1,01
2,13
45
E10
H1 H2 H3 H4 H5 H6
C
1,01
2,13
D
105
E9
60 Fahrradste lplätze
J1
F= 100,05m²
U= 44,68m
11,27%
E8
11,58%
-1.21
Tiefgarage
F= 4567,61m²
U= 674,59m
7,44 5
15,64 5
5,41 5
4,62
5
35 2,525 2,525 35 2,525 2,525 35 2,525 3,50 2,20 7,45 7,15 1,10 60 3,30 9,595
1,01
1,01
2,13
2,13
J2
4,90 5
3,015 25
4,90 5
3,015
5,40
G3
D
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A1
14
13
12
11
10
9
8
7
6
5
4
3
2
1
14 Stg. 17,9/28
14 Stg. 17,9/28
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Kabineninnenmaß
1,10mx2,10m
Schacht
F= 3,18m² Aufzugsschacht
F= 4,08m²
1,01
2,13
1
2
3
4
5
6
7
8
6,55 5 0
9
UKRD = -5.32 m
25 14 58 5 25 5,10 35 5,05 35 5,05 35 5,05 35 6,07 5 25 14
25 14 58 5 25 5,10 35 5,05 35 5,05 35 5,05 35 6,07 5 14
0 39 0 71 5,40 5,40 5,40 5,40 5,40 60 39
25
25
25
14
50
25
80
8,26 5
25
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
35
5
7,35 5,40 5,40 3,10 7,70 2,40 3,60
5
1,98 2,50 2,52 35 2,525 2,525 35 2,525 2,525 35 10,325 6,30
7,78 5,10 35 2,52
5
2,525 35 2,775 35 2,85 2,50 1,85
1,01
2,13
15,89 5
28,70
35
UZ Stahlverbundträger
UZ Stahlverbundträger
5,645
5,41
1,01
2,13
235
6,05 5 25
14
GESAMTMASS
ACHSEN
WÄNDE
ROHBAU / ÖFFNUNGEN
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
E7
E6
64,49 5
8,12 55,415
25
25
2,85 5,16 25
E5
E4
5,41 5 5,415
E3
E2
E1
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
5
-1.25
Rampe
F= 227,99m²
U= 78,78m
-1.02
Schleuse
F= 9,07m²
U= 13,20m
100
6,25 5
19
20
21
22
23
24
25
26
27
28
-1.16
Technik
F= 41,43m²
U= 25,75m
5,40
6,57 5
-1.11
8 + 10 Stg. 17,9/28
Treppenhaus 6
F= 5,26m²
U= 9,40m
1,01
1,01
2,13
2,13
5,00 1,55 5
25
10 Stg. 17,9/28
18
17
16
15
14
13
12
11
10
OKRFB = -5.00 m
Decke d=32 cm
-1.01
Treppenhaus 1
F= 16,69m²
U= 20,46m
6,32 5 14
6,32 5 1,10 5
Schacht
F= 2,59m²
-1.12
-1.13
Schleuse
F= 8,59m²
U= 13,76m
Treppenhaus 6
F= 14,60m²
U= 19,21m
2,75
1,01
2,13
1,01
2,13
2,75
14 25 6,55 25 4,62
5
35 5,05 35 5,05 35 1,675
F= 4,08m²
Aufzugsschacht
9,73% 10,00%
-1.20
Lager / Technik
F= 144,95m²
U= 62,78m
14 25 6,55 25 17,45
1,10mx2,10m
Kabineninnenmaß
14 1,05 5,40 5,40 5,40 5,40 1,71 14
14 24,36 14
OKRFB = -5.00 m
Decke d=32 cm
UKRD = -5.32 m
Schacht
F= 2,35m²
J3 J4 J5
B1 B2 B3 B4 B5
1,01
2,13
E
5,43
1
3,70 5,05 4,95 8,60 6,90
20
5,37
-1.15
Technik
F= 235,29m²
U= 81,65m
15,89 5 25
15
5 5,415 855
5
5
35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 2,525 2,525 35 4,82
25 6,05 5 39
C1 C2 C3 C4 C5 C6
UZ Stahlverbundträger
10
-1.14
Technik
F= 37,83m²
U= 24,62m
6,06 5
1
2
3
4
5,40 5,40 5,40 5,40 4,99 5
6,10 5,40
2,42
14 25 8,60 30 2,42
5
35 5,05 35 5,05 35 5,05 35 5,05 35 4,625 25 6,25 25 14 0
ROHBAU / ÖFFNUNGEN
14 25 8,60 30 2,42
5
35 5,05 35 5,05 35 5,05 35 5,05 35 4,625 25 6,25 25
WÄNDE
40 70 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 90
ACHSEN
45,20
GESAMTMASS
G
E
C
A
D1 D2 D3 D4 D5 D6 D7 D8 D9
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
SCHRAFFUREN
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
BODENDURCHBRUCH (BD)
DECKENDURCHBRUCH (DD)
STB BESTAND
MW BESTAND
PUTZ BEST.
WERKSTEIN BEST.
TROCKENBAU BEST.
GRUNDRISS TG-1
TYPICAL BASEMENT PLAN
STB
MW
PUTZ
WERKSTEIN
TROCKENBAU
A03
A02
A04
B01
B03
WANDDURCHBRUCH (WD)
WANDSCHLITZ (WS)
A01
B02
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
OK FFB
UK FD
OK RD
UK RD
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
MASSSTAB
1:400
3 A14
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
25
80
80
5,50
80
-1.40 m = 111,26 NHN
5,50
UKRFB = -2.00 m
80 4,60
58
5,60
80 4,60
5,60
Schacht
F= 2,47m²
25
9
8
7
6
5
4
3
2
1
Schacht
F= 2,35m²
2,95 15 2,05 25 5,21 12
5
2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 5,215 25 2,05 15 2,95 25 8,345
2,96 5 1,35
Aufzugsschacht
F= 4,08m²
-1.40 m = 111,26 NHN
3,70
111.24
-1.40 m = 111,26 NHN
OKFFB = -1.40 m
d=28 cm
OKRFB = -1.68 m
Decke d=32 cm
UKRFB = -2.00 m
1,35 1,35
BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF BRH: 0,3 m OKFF
Schacht
F= 2,47m²
3 Stg. 16,7/30
1 2 3
80 4,60 80 4,60
1
2
3
4
5
6
7
8
9
10
11
12
2,90
1,35 1,35
2,90
111.24
-0.90 m = 111,76 NHN
1,35 1,35
2,90
80 4,60
1,35 1,35
9
8
7
6
5
4
3
2
1
2,90
5,10
5,10
5,10
5,10
5,10
3,10 2,05 25 2,85 25 20,55 25 2,85 25
111.24
1,35 1,35
2,90
1,35 1,35
2,90
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40
UKRFB = -1.50 m
24
22
23 21
1
22
20
2
21
19
3
20
18
4
19
17
5
18
16
6
17
15
7
16
14
8
15
13
9
14
12
10
13
11
80 4,60
2,90
45,86
80 4,60
WÄNDE
ACHSEN
111.24
2,90
2,90
58 5
1,70
80 4,60
2,90
Schacht
F= 2,47m²
11 Stg. 17,9/28
111.24
F
F
3,20
111.74
-0.90 m = 111,76 NHN
Aufzugsschacht
F= 4,08m²
-0.90 m = 111,76 NHN
UKRFB = -1.50 m
Schacht
F= 2,35m²
Schacht
F= 2,47m²
-0.60 m = 112,06 NHN
80 4,60 80 4,60
F
66 5
66 5
2,90
2 Stg. 15/45
1
2
66 5
4,80
66 5
2,90 2,90 2,90
66 5
112.04
112.04
112.04
80 4,60
4,80
66 5
58
5
6,845 25
2,26 1,35
2,90
66 5
1,35 1,35
80 4,60
-0.60 m = 112,06 NHN
4,80
2,90
112.04
66 5
1
4 S
80
GESAMTMASS
E12
ROHBAU / ÖFFNUNGEN
G1
F16
F15
F14
F13
80 4,60
F12
80 4,60
F11
80 4,60
F10
F9
80 4,60 80 4,60
OKFFB = -1.40 m
d=28 cm
OKRFB = -1.68 m
Decke d=32 cm
UKRFB = -2.00 m
0.10
Treppenhaus 4
F= 24,73m²
U= 29,05m
80 4,60
12
11
10
Schacht
F= 2,35m²
12 Stg. 17,8/28
12 Stg. 17,8/28
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
0.11
Durchgang 4
89,09
26,48 25 3,10 2,05 25 2,85 25 20,55 25 2,85 25 2,05 3,10 25 5,21 5
Aufzugsschacht
F= 4,08m²
Kabineninnenmaß
1,10mx2,10m
F8
3. Lauf 12 Stg. 17,8/28
Entrauchung TG
Entrauchungsschacht
F= 7,80m²
F= 15,34m²
U= 19,30m
0.12
MIETEINHEIT 4
F= 298,43m²
U= 96,90m
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
0.13
Treppenhaus 5
F= 24,73m²
U= 29,05m
12 Stg. 17,8/28
12 Stg. 17,8/28
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF
BRH: 0,8 m OKFF BRH: 0,8 m OKFF BRH: 0,8 m OKFF
5,40
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40
4,60 80 4,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
5,60
-1.40 m = 111,26 NHN
-1.40 m = 111,26 NHN
-1.40 m = 111,26 NHN
-1.40 m = 111,26 NHN -1.40 m = 111,26 NHN
6,10 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,07 5 4,60
2,90
2,90
2,90
2,90
3,70
2,90
2,90
4,80
2,90
2,90
2,90
4,80
2,90
2,90
2,90
3,70
2,90
2,90
4,80
5,60
Pausenraum
F= 7,23m²
80 4,60
Schacht
F= 2,47m²
F7
13
14
15
16
17
18
19
20
21
22
23
24
WC H
F= 5,95m²
F6
80 4,60
Schacht
F= 2,47m²
WC H
F= 6,74m²
C
WC D
80 4,60
F= 4,16m²
Büro - 14 AP
F= 127,91m²
PuMi
F= 3,12m²
WC H
F= 11,53m²
F5
Büro - 1 AP
F= 12,17m²
WC D
F= 11,53m²
80 4,60 80 4,60
OKFFB = -1.40 m
d=28 cm
OKRFB = -1.68 m
Decke d=32 cm
UKRFB = -2.00 m
Büro - 1 AP
F= 12,17m²
F4
Teeküche
F= 12,17m²
Flur
F= 48,14m²
Büro - 1 AP
F= 12,17m²
12
11
10
3. Lauf 12 Stg. 17,8/28
Büro - 1 AP
F= 12,17m²
F3
13
14
15
16
17
18
19
20
21
22
23
24
Serverraum
F= 12,17m²
18
OKFFB = -1.40 m
d=28 cm
OKRFB = -1.68 m
Decke d=32 cm
UKRFB = -2.00 m
Serverraum
F= 12,17m²
F2
80 4,60
Kabineninnenmaß
1,10mx2,10m
Teeküche
F= 12,17m²
Büro - 1 AP
F= 12,17m²
Aufzugsschacht
F= 4,08m²
PuMi
F= 3,12m²
Schacht
F= 2,35m²
WC H
F= 4,16m²
80 4,60
Schacht
F= 2,47m²
Büro - 1 AP
F= 12,17m²
0.14
Durchgang 4
F= 15,34m²
U= 19,30m
WC H
F= 11,53m²
80 4,60
Zugang Hof
5
5,125 30 10,25 33 3,02 585
d=28 cm
F= 61,64m²
U= 36,00m
0.15
MIETEINHEIT 5
F= 84,36m²
U= 56,43m
OKFFB = -1.40 m
OKRFB = -1.68 m
Decke d=32 cm
UKRFB = -2.00 m
WC
F= 5,68m²
Büro - 1 AP
F= 12,17m²
Schacht
F= 2,47m²
3,53 5
Verkaufsraum
F= 70,21m²
Lager
F= 7,15m²
3,93 5
Büro - 1 AP
F= 12,17m²
Zufahrt TG
F= 271,95m²
U= 95,98m
2,10
Einfahrt
WC D
F= 11,53m²
-1.40 m = 111,26 NHN
13,40 25 2,95 15 2,05 25 5,21
5 125 2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 5,21 25 2,05 15 2,95 25 5,215 195 5,115 30 415
62,69
F1
E E
G
A4` A5` A6` A7` A8` A9` A10` A11`
C
D
5,40
4,60
5,60
Ausfahrt
97
1,39 5
0.16
80
3,48
F
Fahrradabstellraum
F= 129,51m²
U= 56,16m
9,72%
85
3,48
E11
5,40
4,60
5,60
10,00%
WC H
F= 6,74m²
3,88
80
72 Fahrradste lplätze
3,48
E10
1,35 1,35 1,35 1,35
3,36
2,90
2,90
24,60
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
2,90
2,90
2,90
2,90
99 1,35 1,35 1,35
2,90
2,90
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,04 5
85
3,48
H1 H2 H3 H4 H5 H6
C
5,40
4,60
5,60
D
33,15
3,88
23,35
80
25 2,75 50 2,75 80
E9
3,48
5,40
4,60
5,60
85
3,48
80
0.17
3,88
Transformatoren
F= 62,20m²
E8
U= 43,27m
11,27%
11,58%
5,40
4,60
5,60
-1.40 m = 111,26 NHN
J1
J2
3,48
85
3,48
43,76
0.03
MIETEINHEIT
F= 593,80m²
U= 154,06m
0.09
MIETEINHEIT 3
F= 461,22m²
U= 141,30m
Umkleide
F= 6,27m²
0.08
Durchgang 3
F= 15,34m²
U= 19,30m
WC H
F= 4,16m²
PuMi
F= 3,12m²
PuMi
F= 3,12m²
WC D
F= 4,16m²
0.05
Durchgang 2
F= 15,34m²
U= 19,30m
WC H
F= 5,95m²
Kreativwerkstatt-AP 38
F= 546,14m²
A
5,50
4,50
5,60
OKFFB = -1.40 m
d=28 cm
OKRFB = -1.68 m
Decke d=32 cm
Flur
F= 48,15m²
OKFFB = -0.90 m
d=28 cm
OKRFB = -1.18 m
Decke d=32 cm
Verkaufsraum
G2
15,90
5,60
4,50
F= 432,62m²
Kabineninnenmaß
1,10mx2,10m
0.07
Treppenhaus 3
F= 24,73m²
U= 29,06m
12 Stg. 17,8/28
3. Lauf 12 Stg. 17,8/28
12 Stg. 17,8/28
0.06
MIETEINHEIT 2
F= 308,23m²
U= 94,13m
Büro - 16 AP
F= 137,69m²
11 Stg. 17,9/28
3. Lauf 11 Stg. 17,9/28
0.04
Treppenhaus 2
F= 24,73m²
U= 29,05m
Kabineninnenmaß
1,10mx2,10m
OKFFB = -0.90 m
d=28 cm
OKRFB = -1.18 m
Decke d=32 cm
4,50 5,60
5
10,385 25 2,05 3,10 25 22,33
G3
72,75 5
D
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A1
tg. 15/45
2
3
14
13
12
11
10
9
8
7
6
5
4
3
2
1
4
14 Stg. 17,9/28
14 Stg. 17,9/28
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Kabineninnenmaß
Schacht
1,10mx2,10m
F= 3,18m² Aufzugsschacht
F= 4,08m²
UKRFB = -1.20 m
4,60
4,80
25
5,40 1,44
28,70
7,28 25 5,15 25 5,10 15 2,84
6,75 1,35
9
4,10
±0.00 m = 112,66 NHN
UKRFB = -0.60 m
1,84
8
7
6
5
4
3
2
1
112.64
Schacht
F= 2,59m²
51
15
1,35 1,35 1,35 1,35
4,10
25
±0.00 m = 112,66 NHN
±0.00 m = 112,66 NHN
91 5 4,60
4,20
80
4,10 4,10
80 4,60
4,20
±0.00 m = 112,66 NHN
125
2,19 5
80 4,60
4,20
15
16
17
18
19
20
21
22
23
24
25
26
27
28
±0.00 m = 112,66 NHN
±0.00 m = 112,66 NHN
OKRFB = -0.28 m
Decke d=32 cm
UKRFB = -0.60 m
Schacht
F= 3,16m²
14
13
12
11
10
9
8
7
6
5
4
3
2
1
UKRFB = -0.60 m
89 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,36
2,85 2,85
4,10
1,35 1,35 1,35 1,35
112.64 112.64 112.64
112.04
112.64
112.04
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
4,10
3,49
15
112.64
112.64
112.64
28,70
80 4,60
4,20
5,40
25
35 1,35
2,85
61
4,20
80 4,60
4,20
6,00
Arkadengang
GESAMTMASS
ACHSEN
WÄNDE
ROHBAU / ÖFFNUNGEN
ROHBAU / ÖFFNUNGEN
ACHSEN
GESAMTMASS
E7
E6
8,10
8,90
64,98 5
25 2,85 25
5,40
4,60
5,40
E5
5,40
E4
E3
E2
E1
ROHBAU / ÖFFNUNGEN
ACHSEN
GESAMTMASS
25 4,95 25
4,60
4,20
5,40
10,50
1,20 5,40
1
25
WC
F= 5,65m²
0.22
Lager
2,86
F= 16,01m²
Schacht
F= 1,05m²
OKFFB = -0.60 m
d=28 cm
U= 22,61m
OKRFB = -0.88 m
Decke d=32 cm
10
11
12
13
14
15
16
17
18
Schacht
WC D
F= 13,09m²
WC D
F= 4,43m²
F= 2,47m²
10 Stg. 17,9/28
11,40
3. Lauf 10 Stg. 17,9/28
8 Stg. 17,9/28
0.02
Treppenhaus 1
F= 11,01m²
U= 14,91m
PuMi
F= 3,38m²
0.19
WC
0.21
Hausmeister
4,185
0.18
F= 6,46m²
F= 18,01m²
OKFFB = ±0.00 m
d=28 cm
OKRFB = -0.28 m
Decke d=32 cm
58 5
U= 10,19m
U= 18,29m
F= 25,53m²
U= 28,88m
Treppenhaus 6
1,91 5
80 4,60
80 4,60
80 4,60
1,78 5 4,60
0.20
Flur
4,80
4,80
4,80
4,80
1,38
5
5,40 5,40 5,40 5,40 1,515
1,10mx2,10m
Kabineninnenmaß
F= 5,43m²
0.23
WC
1,45
d=28 cm
U= 9,64m
OKFFB = ±0.00 m
Schacht
F= 3,92m²
F= 4,08m²
Aufzugsschacht
F= 2,64m²
U= 8,30m
Decke d=32 cm
OKRFB = -0.28 m
UKRFB = -0.60 m
Schacht
F= 2,35m²
0.01
Foyer/Durchgang 1
F= 69,24m²
U= 38,05m
24,50
5,25
5,79
Zugang Hof
±0.00 m = 112,66 NHN
J3 J4 J5
F= 66,13m²
U= 36,67m
245
2,47
Umkleide
WC
F= 5,55m²
F= 5,76m²
5,33
Pausenraum
17,14
F= 13,60m²
1,34 25 1,10 25 7,85 25 6,10
Lager
F= 8,10m²
WC
F= 6,92m²
Umkleide
F= 4,03m²
WC
Flur
F= 8,15m²
4,10
F= 10,60m²
Lager
F= 19,77m²
Schacht
F= 1,47m²
14 Stg. 17,9/28
11,60
0.25
Treppenhaus 7
F= 22,57m²
U= 21,45m
14 Stg. 17,9/28
OKFFB = ±0.00 m
d=28 cm
WC H
F= 12,32m²
WC D
F= 8,69m²
Küche
F= 52,07m²
OKFFB = ±0.00 m
d=28 cm
OKRFB = -0.28 m
Decke d=32 cm
WC D
F= 4,44m²
WC H
F= 4,23m²
PuMi
F= 2,03m²
Gastronomie
F= 321,84m²
0.24
MIETEINHEIT 6
F= 506,21m²
U= 152,12m
1,60 4,60
±0.00 m = 112,66 NHN
5
5,40 5,40 5,40 5,40 5,40 1,185
B1 B2 B3 B4 B5
E
8 Fahrradstellplätze
6,75 1,35 1,35 1,35 1,35
3,49 1,35
4,10
4,10
4,10
4,10
C1 C2 C3 C4 C5 C6
1,36 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 38 5
F= 240,02m²
U= 147,87m
1,58 5
58 5
ROHBAU / ÖFFNUNGEN
1,68 5 4,60
80 4,60
80 4,60
80 4,60
80 4,60
80 4,60
80 4,60
80 4,60
1,48 5
4,20
4,20
4,20
4,20
4,20
4,20
4,20
4,20
1,28
5
ACHSEN
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 1,085
45,55
GESAMTMASS
G
E
C
A
D1 D2 D3 D4 D5 D6 D7 D8 D9
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
SCHRAFFUREN
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
BODENDURCHBRUCH (BD)
GRUNDRISS EG
DECKENDURCHBRUCH (DD)
STB BESTAND
MW BESTAND
PUTZ BEST.
WERKSTEIN BEST.
TROCKENBAU BEST.
STB
MW
PUTZ
WERKSTEIN
TROCKENBAU
A03
A02
A04
B01
B03
WANDDURCHBRUCH (WD)
WANDSCHLITZ (WS)
GROUND FLOOR PLAN
A01
B02
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
OK FFB
UK FD
OK RD
UK RD
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
MASSSTAB
1:400
3 A14
ROHBAU / ÖFFNUNGEN
ACHSEN
GESAMTMASS
1,35
2,35
BRH: 0,34m
2,35
1,35
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
1,35 1,35
BRH: 0,34m
1,35 1,35
Schacht
F= 2,47m²
25
Schacht
F= 2,35m²
OKFFB = ±5.00 m
d=15cm
OKRFB = +4.85 m
Decke d=28 cm
UKRFB = +4.57 m
BRH: 0,34m
1,35 1,35
1
2
3
4
5
6
7
8
9
5,15
Aufzugsschacht
F= 4,08m²
2,35
2,35 2,35 2,35 2,35
2,35
2,35 2,35 2,35 2,35 2,35 2,35 2,35
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
1,35 1,35
1,01
2,13
25
11
12
13
14
15
16
17
18
19
20
1,01
Schacht
F= 2,47m²
BRH: 0,34m
1,35 1,35
5,21
1,35 1,35 1,35 1,35 1,35 1,35 1,35
10
9
8
7
6
5
4
3
2
1
1,35 1,35
125
2,575
1
2
3
4
5
6
7
8
9
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
1,35 1,35
125
2,575
1,35 1,35
125
2,575
1,35 1,35 1,35 1,35 1,35 1,35
1,35 1,35
125
1,35 1,35
10
9
8
7
6
5
4
3
2
1
11
12
13
14
15
16
17
18
19
20
1,01
2,13
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
11,35 25 3,10 2,05 25 2,85 25 20,55 25 2,85 25 2,05 3,10 25 22,35
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40
26,20
2,575
1,35
125
2,70
1,35
1,35 1,35
46,20
1,35
WÄNDE
ACHSEN
2,575
1,35 1,35
125
1,35 1,35
1,80
5,215
1,35 1,35 1,35 1,35 1,35
1,35 1,35
Schacht
F= 2,47m²
F
25
1,35 1,35
1,35 1,35
F
F
F
5,15
1,35
Aufzugsschacht
F= 4,08m²
1,35
OKFFB = ±5.00 m
d=15cm
1,35 1,35
Schacht
F= 2,35m²
OKRFB = +4.85 m
Decke d=28 cm
UKRFB = +4.57 m
25
1,35
Schacht
F= 2,47m²
1,35
1,35 1,35
GESAMTMASS
WÄNDE
ROHBAU / ÖFFNUNGEN
5,215
1,35
1,35
1,35 1,35
125
1,35 1,35 1,15
1,35 1,35
0
46 6,84 5 25
1,35 1,35
2,15 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
1
1,3
GESAMTMASS
E12
ROHBAU / ÖFFNUNGEN
G2
G1
A
5,40
F16
16,05
1,35
1,35
1,35
2,35
1,35
17,50
BRH: 0,34m
1,35
2,35
BRH: 0,34m
5,40
1,35
2,35
BRH: 0,34m
F15
BRH: 0,34m
1,35
G3
1,35
2,35
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
BRH: 0,34m
1,35
F14
BRH: 0,34m
1,35
2,35
5,40
1,35
F13
1.11
MIETEINHEIT 9
F= 475,49m²
U= 109,53m
F12
F11
Serverraum
F= 10,51m²
Büro - 32 AP
F= 304,78m²
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
1,01
2,13
Kabineninnenmaß
1,10mx2,10m
10 Stg. 17,5/28
2,13
BRH: 0,34m
1,01
10 Stg. 17,5/28
BRH: 0,34m
Kabineninnenmaß
1,10mx2,10m
BRH: 0,34m
2,13
1,01
BRH: 0,34m
2,13
10 Stg. 17,5/28
BRH: 0,34m
10 Stg. 17,5/28
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
BRH: 0,34m
20
19
18
17
16
15
14
13
12
11
31,90 26,20 30,80
24,85 25 3,10 2,05 25 2,85 25 20,55 25 2,85 25 2,05 3,10 25 24,45 45
20
19
18
17
16
15
14
13
12
11
10
Flur
F= 63,76m²
F10
PuMi
F= 3,12m²
UKRFB = +4.57 m
OKRFB = +4.85 m
d=15cm
F9
Decke d=28 cm
OKFFB = ±5.00 m
1.12
Treppenhaus 4
F= 25,90m²
U= 25,10m
Büro - 4 AP
F= 35,90m²
Aufzugsschacht
F= 4,08m²
Schacht
F= 2,35m²
F8
PuMi
F= 3,12m²
Teeküche
F= 12,17m²
Entrauchungsschacht
F= 7,79m²
1.13
TRH Vorbereich
F= 15,11m²
U= 19,60m
WC H
F= 4,16m²
Schacht
F= 2,47m²
F7
WC H
F= 11,53m²
10 Stg. 17,5/28
BRH: 0,34m
10 Stg. 17,5/28
10
BRH: 0,34m
BRH: 0,34m
Kabineninnenmaß
1,10mx2,10m
5,70 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 2,70 2,70 5,40 5,40 7,55 6,65
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
1,01
1,01
2,13
2,13
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
5,58 5 125 2,575 125 5,21 25 5,15 25 5,21 125 2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 5,21 25 5,15 25 5,21 125 2,575 125 2,575 125 615 0
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
2,57 5
1.10
1.06
MF-G1/2
WC H
MF-G1/2
WC D
F= 24,33m²
Teeküche
Serverraum
Büro - 1 AP
Büro - 1 AP
Büro - 1 AP
Büro - 1 AP
WC D
F= 24,33m²
Büro - 2 AP
Büro - 1 AP
F= 11,53m²
F= 11,53m²
U= 19,75m
F= 12,17m² F= 12,17m²
F= 12,17m²
F= 12,17m²
F= 12,17m²
F= 12,17m²
F= 11,53m²
U= 19,75m
F= 21,10m²
F= 12,17m²
WC D
WC H PuMi
PuMi WC D
F= 4,16m²
F= 4,16m² F= 3,12m²
F= 3,12m² F= 4,16m²
Flur
Flur
F= 48,15m²
F= 82,15m²
Büro - 27 AP
1.07
F= 234,34m²
MIETEINHEIT 8
F= 308,46m²
Büro - 16 AP
U= 93,30m
F= 138,01m²
1.08
1.04
Treppenhaus 3
Treppenhaus 2
F= 25,91m²
F= 25,91m²
U= 25,11m
U= 25,11m
17,715
1.09
TRH Vorbereich
F= 15,11m²
U= 19,60m
1.15
MIETEINHEIT 10
F= 298,63m²
U= 96,30m
F6
Schacht
F= 2,47m²
C
WC D
F= 4,16m²
1.14
MF-G1/2
F= 24,33m²
U= 19,75m
Büro - 14 AP
F= 128,18m²
PuMi
F= 3,12m²
F5
WC D
F= 11,53m²
Büro - 1 AP
F= 12,17m²
Büro - 1 AP
F= 12,17m²
F4
Flur
F= 48,15m²
Büro - 1 AP
F= 12,17m²
1.16
Treppenhaus 5
F= 25,90m²
U= 25,10m
Büro - 1 AP
F= 12,17m²
F3
OKRFB = +4.85 m
d=15cm
OKFFB = ±5.00 m
Serverraum
F= 12,17m²
UKRFB = +4.57 m
Decke d=28 cm
Teeküche
F= 12,17m²
Aufzugsschacht
F= 4,08m²
1.17
TRH Vorbereich
F= 15,11m²
U= 19,61m
F2
PuMi
2,13
F= 3,12m²
1,01
Schacht
F= 2,35m²
WC H
F= 4,16m²
Schacht
F= 2,47m²
F1
WC H
F= 11,53m²
2,13
1,01
1.19
MIETEINHEIT 11
F= 636,23m²
U= 144,40m
E E
G
BRH: 0,34m
Schacht
F= 2,47m²
BRH: 0,34m
Flur
F= 86,67m²
WC D
F= 4,16m²
1.18
MF-G1/2
F= 24,33m²
U= 19,75m
BRH: 0,34m
PuMi
F= 3,12m²
BRH: 0,34m
Teeküche
F= 12,17m²
WC D
F= 11,53m²
BRH: 0,34m
Serverraum
F= 12,17m²
1,80
BRH: 0,34m
Büro - 34 AP
10 Stg. 17,5/28
2,35
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
F= 340,87m²
1,35
Büro - 4 AP
F= 40,04m²
BRH: 0,34m BRH: 0,34m
63,00 0
10 Stg. 17,5/28
1,01
1,35
2,13
5,45
2,37
1,35
1.05
TRH Vorbereich
F= 15,11m²
U= 19,60m
Kabineninnenmaß
1,10mx2,10m
1,01
Büro - 1 AP
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,35
2,37
2,80
1,35
12
2,37
1,35
1,67 5 1,35
2,37
3,00
1,35
5,45
2,37
1,35
2,13
F= 14,84m²
1,67 5 1,35
2,35
1,35
1,35
2,37
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
Büro - 1 AP
1,35
F= 13,47m²
5 125 2,75 3,05
A4` A5` A6` A7` A8` A9` A10` A11`
4,10
C
D
E11
E10
1,67 5 1,35
2,35
5,40
1,35
2,35
33,16 5
1,35
Büro - 1 AP
F= 15,05m²
1,67 5 1,35
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
Büro - 1 AP
F= 13,59m²
Serverraum
F= 12,17m²
Büro - 3 AP
F= 33,43m²
Büro - 1 AP
F= 11,94m²
Büro - 1 AP
F= 12,67m²
Büro - 1 AP
F= 12,67m²
Büro - 1 AP
F= 12,67m²
Büro - 1 AP
F= 12,67m²
Büro - 1 AP
F= 12,67m²
Büro - 2 AP
F= 16,79m²
BRH: 0,34m BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34
2,35
3,41 12
5
2,575 125 2,575 125 2,575 125 2,575 125 2,575 125 2,43 125 4,885 46
1,35
2,37
125 125 2,75 125 3,05 125 2,60
H1 H2 H3 H4 H5 H6
C
D
GESAMTMASS
24,60
WÄNDE
E9
ROHBAU / ÖFFNUNGEN
3,25
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35
1,10
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
1,35
5,45
1,67 5 1,35
J1
28,95 5
2,35
1,35
2,35
1,35
Büro - 1 AP
F= 14,91m²
1,67 5 1,35
Archiv
E8
1,35
2,37
2,35
F= 14,71m²
1,35
15
5,40
Büro - 1 AP
1,35
2,37
F= 12,74m²
1,67 5 1,35
44,15
2,35
J2
D
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A1
Schacht
F= 3,18m²
10
9
8
7
6
5
4
3
2
1
BRH: 0,34m BRH: 0,34m
5 1,35
2,35
1
2
3
4
5
6
7
8
9
6,75 1,35
10 Stg. 17,5/28
10 Stg. 17,5/28
11
12
13
14
15
16
17
18
19
20
Kabineninnenmaß
1,10mx2,10m
Aufzugsschacht
F= 4,08m²
1,35 1,35
2,35
2,35
BRH: 0,34m
OKRFB = +4.85 m
Decke d=28 cm
UKRFB = +4.57 m
2,25
28,70
7,28 25 2,51
1,01
2,13
70
1,35 1,35
2,35
BRH: 0,34m
1,10 1,35
1,35 1,35
2,35
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,35 1,35
25
12
1,35 1,35
2,35
1,35 1,35
1,35 1,35
2,35
1,35 1,35
1,35 1,35
2,35
1,35 1,35
90
1,35
2,37
1,35 1,35
Schacht
F= 3,16m²
1,35
11
13 12
15 14
17 16
19 18
20
2,37
1,35
1,35 1,35
1,35
OKRFB = +4.85 m
Decke d=28 cm
UKRFB = +4.57 m
2,37
1,35
1,35 1,35
1,35
2,37
1,35
1,35 1,35
1,35
2,37
1,35
BRH: 0,34m
1,35 1,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
70 25 27,50 70
40 5,40 5,40 5,40 5,40 5,40 1,30
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
28,70
5,45
1,01
2,13
1,01
2,13
5,45
1,30
1,30
1,30
0
70
70
70
30
GESAMTMASS
ACHSEN
WÄNDE
ROHBAU / ÖFFNUNGEN
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
E7
E6
,35
WC H
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
F= 4,48m²
WC H
F= 13,93m²
1,35
2,37
WC D
F= 8,99m²
WC D
F= 4,73m²
WC
F= 4,90m²
WC
F= 5,13m²
Teeküche
F= 17,92m²
10
Schacht
WC H
F= 5,29m²
1.03
MIETEINHEIT 7
F= 575,79m²
U= 136,56m
10 Stg. 17,5/28
F= 2,47m²
10 Stg. 17,5/28
20
19
18
17
16
15
14
13
12
11
1.21
TRH Vorbereich
1.01
Treppenhaus 1
F= 13,13m²
U= 15,58m
1.02
TRH Vorbereich
F= 16,91m²
U= 16,58m
WC H
F= 6,95m²
PuMi
F= 3,57m²
F= 16,32m²
1.22
MF-G1/2
m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,67 5 1,35
2,35
1,35
1,35
2,37
65,55
25
1,35
6,12 5 25 5,80 25 3,45
1,01
Schacht
F= 1,05m²
2,13
8,15
1,01
2,13
1,67 5 1,35
2,35
OKFFB = ±5.00 m
d=15cm
2,95 25 5,30
1,35
2,37
Schacht
F= 2,59m²
U= 20,08m
F= 24,73m²
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
BRH: 0,34m
1,01
2,13
U= 21,41m
1,67 5 1,35
1,01
1,35
2,13
2,20
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
70 1,45 1,35
2,35
1.20
1,10mx2,10m
Kabineninnenmaß
F= 24,06m²
Treppenhaus 6
Büro - 1 AP
F= 12,37m²
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
70 19,64 12
5
2,81 125
1,35
2,37
1,50 5,40 5,40 5,40 5,40
U= 24,88m
F= 4,08m²
Aufzugsschacht
Schacht
F= 2,64m²
1,35
d=15cm
OKFFB = ±5.00 m
Schacht
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
F= 2,35m²
PuMi
1,67 5 1,35
Decke d=28 cm
OKRFB = +4.85 m
F= 2,42m²
Büro - 1 AP
F= 12,63m²
UKRFB = +4.57 m
WC D
WC D
F= 8,57m²
F= 4,10m²
BRH: 0,34m BRH: 0,34m BRH: 0,34m
2,35
1,35
2,37
1,35
1,35
2,37
1,67 5 1,35
2,35
Büro - 1 AP
F= 12,63m²
Flur
F= 53,10m²
Teeküche
5
125 2,575 125 2,575 125 2,575 125 2,875 335
24,60
5,45
1,01
2,13
B1 B2 B3 B4 B5
E5
F= 11,29m²
1,35
1,35
2,37
Büro - 2 AP
1,67 5 1,35
2,35
Büro - 1 AP
F= 12,63m²
F= 22,82m²
1,35
5
2,30 4,90
J3 J4 J5
E
5,45
125
E4
17,40
25 1,10 25 7,84
5
255 2,515 125 3,865 0
3,00
1,35
2,37
Teeküche
F= 15,77m²
1,60
1,35 1,35
6,75 1,35
3,60 1,35
2,35
2,35
2,35
BRH: 0,34m BRH: 0,34m BRH: 0,34m
1.27
MIETEINHEIT 13
F= 409,86m²
U= 95,40m
5,45
1,35
Schacht
F= 1,47m²
1 2 3 4 5 6 7 8 9 10
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
10 Stg. 17,5/28
Büro - 2 AP
F= 19,97m²
Büro - 1 AP
F= 12,98m²
WC H
F= 4,24m²
WC H
F= 8,26m²
10 Stg. 17,5/28
1.24
Treppenhaus 7
F= 9,99m²
U= 12,70m
WC
F= 7,47m²
22,20
Serverraum
F= 20,67m²
Serverraum
F= 9,13m²
1,01
2,13
Büro - 24 AP
F= 227,52m²
1.25
TRH Vorbereich
F= 31,21m²
U= 23,65m
PuMi
F= 3,28m²
WC
F= 4,31m²
OKFFB = ±5.00 m
d=15cm
Flur
F= 51,44m²
1.23
MIETEINHEIT 12
F= 393,08m²
U= 101,81m
1.26
MF-G1/2
F= 48,30m²
U= 28,91m
Büro - 28 AP
C1 C2 C3 C4 C5 C6
E3
E2
F= 246,37m²
E1
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
ROHBAU / ÖFFNUNGEN
1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
2,05 1,35
ROHBAU / ÖFFNUNGEN
WÄNDE
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
70 16,80 25 7,85 25 19,30 45
WÄNDE
ACHSEN
1,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 95
ACHSEN
GESAMTMASS
45,55
GESAMTMASS
G
E
C
A
D1 D2 D3 D4 D5 D6 D7 D8 D9
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
SCHRAFFUREN
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
BODENDURCHBRUCH (BD)
DECKENDURCHBRUCH (DD)
STB BESTAND
MW BESTAND
PUTZ BEST.
WERKSTEIN BEST.
TROCKENBAU BEST.
GRUNDRISS 1.OG
FIRST FLOOR PLAN
STB
MW
PUTZ
WERKSTEIN
TROCKENBAU
A03
A02
A04
B01
B03
WANDDURCHBRUCH (WD)
WANDSCHLITZ (WS)
A01
B02
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
OK FFB
UK FD
OK RD
UK RD
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
MASSSTAB
1:400
5,40 1,55 5
3 A14
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
1,35
2,35
BRH: 0,34m
2,35
1,35
5912
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
1,35 1,35
2,35
Schacht
F= 2,47m²
25
Schacht
F= 2,35m²
OKFFB = +8.50 m
d=15 cm
OKRFB = +8.35 m
Decke d=30 cm
UKRFB = +8.07 m
BRH: 0,34m
1,35 1,35
2,35
1
2
3
4
5
6
7
8
9
5,15
Aufzugsschacht
F= 4,08m²
BRH: 0,34m
BRH: 0,34m
1,35 1,35
2,35
1,01
2,13
25
11
12
13
14
15
16
17
18
19
20
BRH: 0,34m
Schacht
F= 2,47m²
1,35 1,35
10
9
8
7
6
5
4
3
2
1
BRH: 0,34m
2,35
BRH: 0,34m
1
2
3
4
5
6
7
8
9
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
2,35
5,21
1,35 1,35 1,35 1,35 1,35 1,35 1,35
1,35 1,35
2,35
125
2,575
1,35 1,35
2,35
125
2,575
1,35 1,35
2,35
125
2,575
1,35 1,35 1,35 1,35 1,35 1,35
1,35 1,35
2,35
125
2,35
BRH: 0,34m
1,35 1,35
2,35
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
10
9
8
7
6
5
4
3
2
1
2,35
BRH: 0,34m
Schacht
F= 2,47m²
1,01
11
12
13
14
15
16
17
18
19
20
1,01
2,13
2,35
BRH: 0,34m
Aufzugsschacht
F= 4,08m²
2,35
BRH: 0,34m
OKFFB = +8.50 m
d=15 cm
Schacht
F= 2,35m²
OKRFB = +8.35 m
Decke d=30 cm
UKRFB = +8.07 m
Schacht
F= 2,47m²
2,35
BRH: 0,34m
2,35
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40
26,20
2,575
2,35
1,35
2,35
125
1,35
1,35 1,35
2,35
46,20
5,275
1,35
2,35
WÄNDE
ACHSEN
1,35 1,35
2,35
125
1,35 1,35 1,35 1,35 1,35
1,35 1,35
2,35
70
1,80
5,215
1,35 1,35
2,35
F
25
1,35 1,35
1,35 1,35
F
2,35
F
5,15
1,35
2,35
1,35
1,35 1,35
2,35
25
1,35
2,35
1,35
1,35 1,35
2,35
GESAMTMASS
WÄNDE
ROHBAU / ÖFFNUNGEN
5,215
1,35
2,35
1,35
1,35 1,35
2,35
125
1,35 1,35 1,15
1,35 1,35
2,35
0
1,35 1,35
2,35
12 5
46 6,84 5 25
2,15 1,35
2,35
1,35 1,35
2,35
1,35 1,35
125
2,35
1,35 1,35
2,35
1
1,3
GESAMTMASS
E12
ROHBAU / ÖFFNUNGEN
G2
G1
A
5,40
F16
16,05
1,35
1,35
1,35
2,35
1,35
17,50
BRH: 0,34m
1,35
2,35
BRH: 0,34m
5,40
1,35
2,35
BRH: 0,34m
F15
BRH: 0,34m
1,35
G3
1,35
2,35
BRH: 0,34m
1,35
F14
BRH: 0,34m
Büro - 4 AP
F= 31,98m²
Besprechungsraum
F= 54,24m²
1,35
2,35
5,40
1,35
F13
Büro - 4 AP
F= 34,86m²
F12
Büro - 4 AP
F= 34,86m²
F11
Büro - 4 AP
F= 34,87m²
Flur
F= 63,76m²
F10
Büro - 4 AP
F= 34,50m²
OKRFB = +8.35 m
d=15 cm
F9
UKRFB = +8.07 m
Decke d=30 cm
OKFFB = +8.50 m
2.12
Treppenhaus 4
F= 25,90m²
U= 25,10m
Kabineninnenmaß
1,10mx2,10m
10 Stg. 17,5/28
2,13
1,01
10 Stg. 17,5/28
BRH: 0,34m BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m
Kabineninnenmaß
1,10mx2,10m
2,13
1,01
5
25 3,10 2,05 25 2,85 25 4,81 125 5,275 125 5,275 125 4,815 25 2,85 25 2,05 3,10 25 5,215 125 5,275 125 5,275 125 8,29 46
20
19
18
17
16
15
14
13
12
11
10
Büro - 4 AP
F= 35,90m²
Aufzugsschacht
F= 4,08m²
Schacht
F= 2,35m²
Büro - 2 AP
F= 22,26m²
PuMi
F= 3,12m²
Teeküche
F= 12,17m²
WC H
F= 4,16m²
Entrauchungsschacht
F= 7,79m²
Schacht
F= 2,47m²
Büro - 4 AP
F= 34,82m²
2.13
TRH Vorbereich
F= 15,11m²
U= 19,60m
WC H
F= 11,53m²
10 Stg. 17,5/28
Schacht
F= 2,47m²
WC D
F= 4,16m²
10 Stg. 17,5/28
Büro - 4 AP
F= 34,82m²
PuMi
F= 3,12m²
WC D
F= 11,53m²
Büro - 4 AP
F= 31,76m²
Flur
F= 48,15m²
Büro - 2 AP
F= 24,92m²
10 Stg. 17,5/28
10 Stg. 17,5/28
10
OKRFB = +8.35 m
d=15 cm
UKRFB = +8.07 m
Decke d=30 cm
OKFFB = +8.50 m
20
19
18
17
16
15
14
13
12
11
Büro - 2 AP
F= 24,92m²
Serverraum
F= 12,17m²
Kabineninnenmaß
1,10mx2,10m
5,70 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 2,70 2,70 5,40 5,40 7,55 6,65
3,30 12 5 0 5,40 0 5,40 0 5,40 5,21
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
1,01
1,01
2,13
2,13
1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35 1,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
5,58 5 125 2,575 125 5,21 25 5,15 25 5,21 125 5,275 125 0 5,27 5 0
Aufzugsschacht
F= 4,08m²
PuMi
2,13
F= 3,12m²
1,01
Teeküche
F= 12,17m²
WC H
Schacht
F= 2,35m²
F= 4,16m²
2,57 5
WC H
WC D
WC D
2.10
F= 11,53m²
2.06
F= 11,53m²
F= 11,53m²
MF-G1/2
MF-G1/2
F= 24,33m²
Teeküche
Serverraum
Büro - 2 AP
Büro - 2 AP
F= 24,33m²
Büro - 2 AP
Büro - 1 AP Serverraum
Archiv
U= 19,75m
F= 12,17m²
F= 12,17m²
F= 24,93m²
F= 24,92m²
U= 19,75m
F= 21,10m²
F= 12,17m² F= 12,17m²
F= 14,71m²
Serverraum PuMi WC D
WC H PuMi
PuMi WC D
F= 10,51m²
F= 3,12m² F= 4,16m²
F= 4,16m² F= 3,12m²
F= 3,12m² F= 4,16m²
2.07
MIETEINHEIT 15
Flur
F= 308,57m²
Flur
F= 48,15m²
U= 92,90m
F= 82,11m²
2.11
MIETEINHEIT 16
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 4 AP
Büro - 2 AP
F= 475,67m²
F= 34,90m²
F= 34,49m²
2.08
F= 31,76m²
F= 34,82m²
F= 34,82m²
F= 31,76m²
F= 34,50m²
F= 34,86m²
F= 20,58m²
U= 108,83m
Treppenhaus 3
2.04
F= 25,91m²
Treppenhaus 2
U= 25,11m
F= 25,91m²
U= 25,11m
5
5,275 125 5,215 25 3,10 2,05 25 2,85 25 4,815 125 5,275 125 5,275 125 4,81 25 2,85 25 2,05 3,10 25 5,215 125 5,275 125 3,115 0
17,715 28,95 5
1,01
2,13
F8
2.09
TRH Vorbereich
F= 15,11m²
U= 19,60m
1,01
2,13
2.15
MIETEINHEIT 17
F= 298,73m²
U= 95,95m
2.14
MF-G1/2
F= 24,33m²
U= 19,75m
2.16
Treppenhaus 5
31,90 26,20 30,80
F7
F6
C
F5
F4
F= 25,90m²
U= 25,10m
F3
2.17
TRH Vorbereich
F= 15,11m²
U= 19,61m
F2
Büro - 4 AP
F= 34,50m²
Schacht
F= 2,47m²
F1
WC H
F= 11,53m²
2,13
1,01
2.19
MIETEINHEIT 18
F= 636,41m²
U= 143,70m
Büro - 4 AP
F= 34,86m²
Schacht
F= 2,47m²
Flur
WC D
F= 4,16m²
Büro - 4 AP
F= 34,91m²
F= 86,67m²
2.18
MF-G1/2
F= 24,33m²
U= 19,75m
PuMi
F= 3,12m²
Teeküche
F= 12,17m²
WC D
F= 11,53m²
Besprechungsraum
F= 55,31m²
E E
G
Serverraum
F= 15,98m²
10 Stg. 17,5/28
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
125 2,575 125 2,575 125 5,21 25 5,15 25 5,21 125 2,575 125 2,575 125 615 0
63,00 0
70
1,80
2,35
1,35
10 Stg. 17,5/28
1,35
2,13
5,45
2,37
1,35
Büro - 4 AP
F= 36,23m²
2.05
TRH Vorbereich
F= 15,11m²
U= 19,60m
Büro - 4 AP
F= 34,68m²
Kabineninnenmaß
1,10mx2,10m
Büro - 1 AP
F= 14,84m²
1,01
2,13
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
Büro - 4 AP
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,35
2,37
2,80
1,35
12
2,37
1,35
1,67 5 1,35
2,37
3,00
1,35
5,45
2,37
1,35
1,67 5 1,35
2,35
1,35
F= 34,36m²
5 125 2,75 3,05
A4` A5` A6` A7` A8` A9` A10` A11`
4,10
C
D
6,63
F
125
E11
5,155
125
1,35
2,37
E10
1,35
Büro - 2 AP
1,67 5 1,35
2,35
5,40
F= 29,15m²
1,35
2,35
1,35
1,67 5 1,35
Büro - 4 AP
F= 34,37m²
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
Büro - 2 AP
F= 29,13m²
Büro - 3 AP
F= 33,43m²
Büro - 2 AP
F= 25,22m²
Büro - 2 AP
F= 25,95m²
Büro - 2 AP
F= 25,95m²
Büro - 2 AP
F= 16,79m²
BRH: 0,34m BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34
2,35
3,41 12
5
5,275 125 5,275 125 5,13 125 4,885 46
1,35
2,37
125 125 2,75 125 3,05 125 2,60
H1 H2 H3 H4 H5 H6
C
5,30
D
GESAMTMASS
24,60
125
WÄNDE
E9
ROHBAU / ÖFFNUNGEN
3,25
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35
1,10
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
1,35
5,30
5,45
1,67 5 1,35
J1
2,35
1,35
2,35
1,35
Büro - 4 AP
E8
F= 34,37m²
1,35
2,37
1,67 5 1,35
2,35
1,35
5,30
15
5,40
Büro - 1 AP
1,35
2,37
F= 12,74m²
1,67 5 1,35
44,15
2,35
J2
2.03
MIETEINHE
F= 575,96m²
U= 135,86m
D
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A1
12 5
Schacht
F= 3,18m²
10
9
8
7
6
5
4
3
2
1
1
2
3
4
5
6
7
8
9
10 Stg. 17,5/28
10 Stg. 17,5/28
11
12
13
14
15
16
17
18
19
20
Kabineninnenmaß
1,10mx2,10m
BRH: 0,34m BRH: 0,34m
5 1,35
2,35
6,75 1,35
Aufzugsschacht
F= 4,08m²
1,35 1,35
2,35
BRH: 0,34m
OKRFB = +8.35 m
Decke d=30 cm
UKRFB = +8.07 m
2,25
8,35 5 2,35
70
28,70
7,28 25 5,21
1,01
2,13
Schacht
F= 2,59m²
72
1,35 1,35
2,35
BRH: 0,34m
1,10 1,35
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
2,35
1,35 1,35
2,35
1,35 1,35
2,35
25
12
1,35 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
1,35 1,35
2,35
90
1,35
2,37
1,35 1,35
2,35
Schacht
F= 3,16m²
1,35
11
13 12
15 14
17 16
19 18
20
2,37
1,35
1,35 1,35
2,35
1,35
OKRFB = +8.35 m
Decke d=30 cm
UKRFB = +8.07 m
2,37
1,35
1,35 1,35
2,35
1,35
2,37
1,35
1,35 1,35
2,35
1,35
2,37
1,35
BRH: 0,34m
1,35 1,35
40 5,40 5,40 5,40 5,40 5,40 1,30
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
28,70
5,45
5,425
1,01
2,13
1,01
2,13
5,45
5,85
2,35
1,30
1,30
1,30
0
70
70
70
30
GESAMTMASS
ACHSEN
WÄNDE
ROHBAU / ÖFFNUNGEN
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
E7
E6
,35
WC H
F= 4,48m²
Büro - 4 AP
WC H
IT 14
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
F= 32,02m²
F= 13,93m²
1,35
2,37
WC D
F= 8,99m²
WC D
F= 4,73m²
WC
F= 4,90m²
WC
F= 5,13m²
10
Teeküche
F= 17,95m²
Büro - 2 AP
F= 16,52m²
Büro - 4 AP
F= 33,85m²
Büro - 4 AP
F= 30,75m²
Besprechungsraum
F= 55,23m²
Schacht
WC H
F= 5,29m²
10 Stg. 17,5/28
F= 2,47m²
WC H
F= 6,95m²
10 Stg. 17,5/28
PuMi
F= 3,57m²
20
19
18
17
16
15
14
13
12
11
2.21
TRH Vorbereich
2.01
Treppenhaus 1
F= 13,13m²
U= 15,58m
OKFFB = +8.50 m
d=15 cm
2.02
TRH Vorbereich
F= 16,91m²
U= 16,58m
F= 16,32m²
2.22
MF-G1/2
m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,67 5 1,35
2,35
4,85
1,35
1,35
2,37
65,55
1,67 5 1,35
2,35
5,40 1,55 5
25
1,35
6,12 5 25 5,80 25 3,45
1,01
Schacht
F= 1,05m²
2,13
8,15
1,01
2,13
2,95 25 5,30
1,35
2,37
U= 20,08m
F= 24,73m²
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
1,01
2,13
U= 21,41m
2,20
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
70 1,45 1,35
2.20
1,67 5 1,35
1,01
1,35
2,13
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
70 6,62
5
125 4,79 125 5,275 125 2,575 125 2,81 125
Treppenhaus 6
1,35
2,37
F= 24,06m²
1,10mx2,10m
Kabineninnenmaß
1,50 5,40 5,40 5,40 5,40
U= 24,88m
F= 4,08m²
Aufzugsschacht
Schacht
F= 2,64m²
1,35
Büro - 2 AP
F= 25,62m²
Büro - 4 AP
F= 34,02m²
d=15 cm
OKFFB = +8.50 m
Schacht
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
F= 2,35m²
PuMi
1,67 5 1,35
Decke d=30 cm
OKRFB = +8.35 m
F= 2,42m²
UKRFB = +8.07 m
WC D
WC D
F= 8,57m²
F= 4,10m²
BRH: 0,34m BRH: 0,34m BRH: 0,34m
2,35
1,35
2,37
1,35
1,35
2,37
1,67 5 1,35
2,35
Büro - 4 AP
F= 34,01m²
Teeküche
1,35
F= 11,29m²
5
125 5,275 125 2,875 335
Büro - 2 AP
F= 25,90m²
Büro - 4 AP
F= 34,43m²
1,35
2,37
1,67 5 1,35
2,35
1,35
Büro - 2 AP
5
2,30 4,90
125
2.27
MIETEINHEIT 20
F= 409,97m²
U= 94,95m
F= 22,82m²
25 1,10 25 7,85 25 2,51
5
125 3,865 0
3,00
1,35
2,37
Teeküche
F= 15,78m²
1,60
1,35 1,35
6,75 1,35
3,60 1,35
Büro - 4 AP
2,35
2,35
2,35
F= 34,37m²
BRH: 0,34m
BRH: 0,34m
BRH: 0,34m
1,35
Büro - 4 AP
F= 34,43m²
Schacht
F= 1,47m²
1 2 3 4 5 6 7 8 9 10
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
10 Stg. 17,5/28
WC H
F= 4,24m²
WC H
F= 8,26m²
Büro - 2 AP
F= 20,00m²
Büro - 2 AP
F= 13,00m²
10 Stg. 17,5/28
2.24
Treppenhaus 7
F= 9,99m²
U= 12,70m
WC
F= 7,47m²
Serverraum
F= 20,69m²
Büro - 4 AP
Serverraum
F= 9,17m²
PuMi
F= 3,28m²
WC
F= 4,31m²
F= 35,11m²
2.23
MIETEINHEIT 19
F= 393,19m²
U= 101,32m
2.25
TRH Vorbereich
F= 31,21m²
U= 23,65m
OKFFB = +8.50 m
d=15 cm
Flur
F= 53,10m²
Büro - 4 AP
F= 32,88m²
Flur
F= 51,43m²
Besprechungsraum
F= 49,78m²
2.26
MF-G1/2
F= 48,34m²
U= 28,90m
Büro - 2 AP
F= 18,29m²
Büro - 4 AP
F= 32,50m²
Büro - 2 AP
F= 15,48m²
Büro - 4 AP
F= 32,18m²
Büro - 2 AP
F= 17,52m²
Besprechungsraum
F= 52,19m²
5
25 5,215 125 5,275 125 5,275 125 5,04 125 6,175 70
24,60
5,45
1,01
2,13
B1 B2 B3 B4 B5
E5
J3 J4 J5
E
5,45
5,24
125
E4
17,40
C1 C2 C3 C4 C5 C6
5,45
5,30
12 5
E3
1,01
2,13
E2
12 5
E1
BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m BRH: 0,34m
ROHBAU / ÖFFNUNGEN
1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
1,35 1,35
2,05 1,35
ROHBAU / ÖFFNUNGEN
WÄNDE
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
2,35
70 8,45 12
5
2,86 125 5,215 25 7,85 25 2,515 125 5,275 125 2,97 125 8,145 46
WÄNDE
ACHSEN
1,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 95
ACHSEN
GESAMTMASS
45,55
GESAMTMASS
G
E
C
A
D1 D2 D3 D4 D5 D6 D7 D8 D9
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
SCHRAFFUREN
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
BODENDURCHBRUCH (BD)
DECKENDURCHBRUCH (DD)
STB BESTAND
MW BESTAND
PUTZ BEST.
WERKSTEIN BEST.
TROCKENBAU BEST.
GRUNDRISS 2.OG
TYPICAL FLOOR PLAN
STB
MW
PUTZ
WERKSTEIN
TROCKENBAU
A03
A02
A04
B01
B03
WANDDURCHBRUCH (WD)
WANDSCHLITZ (WS)
A01
B02
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
OK FFB
UK FD
OK RD
UK RD
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
MASSSTAB
1:400
3 A14
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
16,21
16,21
16,21
1.25
2.25
+23.00 OKF Attika
+22.60 OKF Schachtkopf
+22.40 OKRD
26,20
47,02 5 46
5
1,11 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40
46,21
F
F
F
F
+22.60 OKF Schachtkopf
+22.40 OKRD
GESAMTMASS
WÄNDE
ROHBAU / ÖFFNUNGEN
28,84
+23.00 OKF Attika
+23.00 OKF Attika
Dachfläche
+25.31 OKF Attika
46
E12
1,69 5,40 5 5,40 5
E11
F16
F15
F14
F13
F12
88,65 5
5,39 5 5,40
5,40
5,40
5,40
5,40
5,40
5,40
F11
ca. 5.000 kg
F10
LT15 - Küchenanlage
ca. 5.500 kg
F9
LT03 - Büro / Gewerbe
F8
5,40
+22.60 OKF Schachtkopf
+22.40 OKRD
ca. 7.500 kg
F7
Entrauchung TG
5,40
ca. 500 kg
LT12 - Entrauchungsventilatoren
F6
ca. 500 kg
LT12 - Entrauchungsventilatoren
C
ca. 500 kg
5,40
LT12 - Entrauchungsventilatoren
F5
LT09 - WC / Nebenräume
5,40
ca. 5.500 kg
F4
5,40
LT04 - Büro / Gewerbe
F3
5,40
ca. 7.500 kg
F2
5,40
+22.60 OKF Schachtkopf
+22.40 OKRD
F1
E E
3,41
31,245 26,715
30,69 5
+23.00 OKF A tika
64,25 5
63,02 5
5,40
+23.00 OKF A tika
LT05 - Büro / Gewerbe
A4` A5` A6` A7` A8` A9` A10` A11`
C
D
E10
H1 H2 H3 H4 H5 H6
C
D
5,40 5 5,405
ca. 7.500 kg
24,60
GESAMTMASS
24,60
WÄNDE
46 24,14 46
ROHBAU / ÖFFNUNGEN
E9
J1
E8
7,09 5
46 6,63 5
5,40 5
44,61 5
43,94
J2
G
G1
+23.00 OKF A tika
6.1
F= 3726,24m²
U= 590,13m
LT08 - WC / Nebenräume
ca. 5.500 kg
A
KT00 - Rückkühlwerk 1
ca. 2.500 kg
KT00 - Kältemaschine
ca. 2.500 kg
KT00 - Kältemaschine
KT00 - Puffer KT00 - Puffer
ca. 2.000 kg ca. 2.000 kg
KT00 - Verteiler
LT02 - Büro / Gewerbe
ca. 7.500 kg
LT01 - Büro / Gewerbe
ca. 7.500 kg
G2
KT00 - Kältezentrale 1
17,71 5
G3
0 72,75 5
D
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A1
7,28
15Stg. 0,20 / 0,28
6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
5,40 1,44
28,70
OKFFB = +22.50 m
d=15 cm
OKRFB = +22.35 m
Decke d=28 cm
OKRFB = +22.17 m
Kabineninnenmaß
1,10mx2,10m
Schacht
Aufzugsschacht
F= 3,18m² F= 4,08m²
1,01
+23.00 OKF Attika
+23.00 OKF Attika
+25.31 OKF Attika
2,13
515
46
80
5,40
KT00 - Puffer
5,40
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
1.25
2.25
5,40
46
28,70
+23.00 OKF Attika
+23.00 OKF Attika
5,40
5,41 1,18 5
28,70 0
5,40
+23.00 OKF Attika
+23.00 OKF Attika
46
GESAMTMASS
ACHSEN
WÄNDE
ROHBAU / ÖFFNUNGEN
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
E7
E6
64,13 5
8,11
65,25 5 +22.60 OKF Schachtkopf
E5
5,40 5 5,405
E4
E3
E2
E1
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
5,40 5 5,40 5
8,20 13,40 5
ca. 5.500 kg
LT14 - Küchenanlage
4,33 1,35
58 5 13,40 10,465
585 5,40
5,40
5,40
6,075
79 58 5
24,45
+22.40 OKRD
LT11 - WC / Nebenräume
KT00 - Verteiler
ca. 2.000 kg
13,40 5
LT07 - Büro / Gewerbe
ca. 5.500 kg
KT00 - Puffer
ca. 2.000 kg
KT00 - Kältezentrale 2 KT00 - Kältezentrale 1
J3 J4 J5
B1 B2 B3 B4 B5
E
ca. 2.500 kg
KT00 - Kältemaschine
17,38
ca. 2.500 kg
KT00 - Kältemaschine
17,38
ca. 7.500 kg
ca. 5.500 kg
LT13 - Küchenanlage
17,38
LT10 - WC / Nebenräume ca. 5.500 kg
58 5
C1 C2 C3 C4 C5 C6
ca. 5.000 kg
KT00 - Rückkühlwerk 2
LT06 - Büro / Gewerbe ca. 7.500 kg
1,18 5
ROHBAU / ÖFFNUNGEN
12,65
18,25
13,55
WÄNDE
66 67
5
5,40 5,40 5,40 5,40 5,40 5,40 5,40 5,40 96
ACHSEN
45,49 5
GESAMTMASS
G
E
C
A
D1 D2 D3 D4 D5 D6 D7 D8 D9
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
SCHRAFFUREN
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
BODENDURCHBRUCH (BD)
DECKENDURCHBRUCH (DD)
STB BESTAND
MW BESTAND
PUTZ BEST.
WERKSTEIN BEST.
TROCKENBAU BEST.
DACHAUFSICHT
ROOF PLAN
STB
MW
PUTZ
WERKSTEIN
TROCKENBAU
A03
A02
A04
B01
B03
WANDDURCHBRUCH (WD)
WANDSCHLITZ (WS)
A01
B02
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
OK FFB
UK FD
OK RD
UK RD
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
MASSSTAB
1:400
3 A14
ROHBAU / ÖFFNUNGEN
WÄNDE
ACHSEN
GESAMTMASS
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
-5,00
-8,60
1.OBERGESCHOSS
±0,00
-1,40
-5,00
-8,60
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
Abhangdecke max. 32 cm in Bereiche mit Fenster
±0,00
+19,00
+15,50
+12,00
+8,50
+5,00
-0,90
-5,00
-8,60
32
47
53
47
70
60
35
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
-1,40
-5,00
-8,60
Abhangdecke 53 cm
(wie im Grundriss 2.O
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
ERDGESCHOSS
- 1,40 = 111,26 NHN
NORD
SCHWERINER STRAßE
UNTERGESCHOSS -1
3,60
3,60
6,40
3,50
3,50
3,50
3,50
3,03
5,93 47 2,71 32 47
2,50 53 47 2,71 32 47 2,71 32 47 2,71
32 47 50
3,25 35
3,00 60
3,60
4,10
5,90
3,50
3,35
3,50
3,65
3,35
3,25
3,50
4,73
2,71 32 47 2,50
2,71 47 2,71
32 47
2,71
32 47 50
3,60
4,40
5,60
3,50
3,50
3,50
3,50
3,03
3,25 35 3,80 60 5,13 47 2,71 32 47 2,50
53 47 2,71 32 47 2,71
32 47
2,71
32 47 50
UNTERGESCHOSS -2
E1 E2 E3 E4 E5 E6 E7 E8 E9 E10 E11 E12
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
ERDGESCHOSS
± 0,00 = 112,66 NHN
SÜD
FREIBERGER STRAßE
UNTERGESCHOSS -1
3,60 3,60 6,40 3,50 3,50 3,50 3,50 3,55
3,28 32 3,28 32 5,95 30 3,20 30 3,20 30 3,20 30 3,20 30 3,20 30
5,77 18 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 20
3,60 3,60 6,40 3,50 3,50 3,50 3,50 3,55
3,28 32 3,28 32 5,95 30 3,20 30 3,20 30 3,20 30 3,20 30 3,20 30
5,77 18 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 15 2,71 34 30 20
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
ERDGESCHOSS
- 1,40 = 111,26 NHN
NORD
SCHWERINER STRAßE
UNTERGESCHOSS -1
UNTERGESCHOSS -2
UNTERGESCHOSS -2
nur im beidseitig begrenzten Flurbereich möglich
G)
±0,00
+19,00
+15,50
+12,00
+8,50
+5,00
-0,60
-5,00
-8,60
Abhangdecke max. 32 cm in Bereiche mit Fenster
45
±0,00
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
-5,00
-8,60
A03
A02
A04
HERTHA-LINDNER-STRASSE
A03
A02
A04
HERTHA-LINDNER-STRASSE
B01
B03
A01
MALERGÄSSCHEN
B01
B03
A01
B02
B02
.
A12 A13 A14 C1 C2
C3 C4 C5 C6
LEGENDE
HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
BODENDURCHBRUCH (BD)
WANDDURCHBRUCH (WD)
OK FFB
OK RD
32 47 50
DECKENDURCHBRUCH (DD)
SCHRAFFUREN
WANDSCHLITZ (WS)
UK FD
UK RD
3,60
5,00
5,00
3,50
3,50
3,50
3,50
3,07
3,25 35 4,40 60
4,55 3,05 30 15 3,05 30 15
2,71
30 34
2,71 30 49
2,86
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
ERDGESCHOSS
± 0,00 = 112,66 NHN
SÜD
FREIBERGER STRAßE
UNTERGESCHOSS -1
STB BESTAND
STB
MW BESTAND
MW
PUTZ BEST.
PUTZ
WERKSTEIN BEST.
WERKSTEIN
TROCKENBAU BEST.
TROCKENBAU
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
A
PLANINHALT
SCHNITT AA
:Planverfasser
SCHWERINER STRASSE
MALERGÄSSCHEN
WU-BETON
BETON UNBEW. /
ESTRICH
BT-FERTIGTEIL
HOLZ
WÄRMEDÄMMUNG
SECTION AA
A
FREIBERGER STRASSE
HERTHA-LINDNER-STRASSE
FEUERHEMMEND
(F30)
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
ANNENSTRASSE
MASSSTAB
1:100
UNTERGESCHOSS -2
J1
J2 J3 J4 J5
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
BODENDURCHBRUCH (BD)
WANDDURCHBRUCH (WD)
OK FFB
OK RD
DECKENDURCHBRUCH (DD)
WANDSCHLITZ (WS)
UK FD
UK RD
SCHRAFFUREN
STB BESTAND
STB
WU-BETON
FEUERHEMMEND
(F30)
MW BESTAND
MW
BETON UNBEW. /
ESTRICH
FEUERBESTÄNDIG
(F90)
PUTZ BEST.
PUTZ
BT-FERTIGTEIL
BRANDWAND
WERKSTEIN BEST.
WERKSTEIN
HOLZ
UHD
TROCKENBAU BEST.
TROCKENBAU
WÄRMEDÄMMUNG
ABBRUCH
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
B
SCHWERINER STRASSE
B
FREIBERGER STRASSE
ANNENSTRASSE
HERTHA-LINDNER-STRASSE
PLANINHALT
SCHNITT BB
MASSSTAB
1:400
SECTION BB
ERDGESCHOSS
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
±0,00
-5,00
-8,60
±0,00
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
+1,06
-3,05
-6,81
+17,25
+13,75
+10,25
+6,75
+2,50
±0,00
±0,00 ±0,00
-0,90
-5,00
-8,60
+17,25
+13,75
+10,25
+6,75
+3,03
C6
C5
C4
C3
C2
C1
A14
A13
A12
A11
A10
A9
SÜD
FREIBERGER STRAßE
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
±0,00
± 0,00 = 112,66 NHN
UNTERGESCHOSS -1
3,60 4,40 5,60 3,50 3,50 3,50 3,50 3,53
3,28 32 4,40 32 4,75 38 3,22 28 3,22 28 3,22 28 3,22 28 3,22 28
4,47 38 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 18
3,60
5,00
5,00 3,50
3,50 3,50 3,05 3,07
4,40
± 0,00 = 112,66 NHN
3,80 1,20
3,43
- 0,60 = 112,06 NHN
UNTERGESCHOSS -2
J5
J4
J3
J2
J1
F16 F15 F14 F13 F12 F11 F10 F9 F8
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
5,90 3,50 3,50 3,50 3,50 3,03
ERDGESCHOSS
- 0,90 = 111,76 NHN
- 0,90 = 111,76 NHN
WEST
HERTHA-LINDNER STRAßE
4,10
2,95 1,15
UNTERGESCHOSS -1
3,60
UNTERGESCHOSS -2
±0,00
-1,40
-5,00
-8,60
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
+17,25
+10,25
+6,75
+2,87
±0,00
-1,40
-5,00
-8,60
+13,75
±0,00
±0,00
+23,00
+19,00
+15,50
+12,00
+8,50
+5,00
+0,73
-3,20
-6,81
±0,00
A03
A02
A04
HERTHA-LINDNER-STRASSE
A03
A02
A04
HERTHA-LINDNER-STRASSE
B01
B03
B01
B03
A01
A01
B02
B02
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
A8
A7
A6
A5
A4
A3
A2
A1
SYMBOLE
BODENDURCHBRUCH (BD)
WANDDURCHBRUCH (WD)
OK FFB
OK RD
DECKENDURCHBRUCH (DD)
WANDSCHLITZ (WS)
UK FD
UK RD
SCHRAFFUREN
KLINKER
STB
WU-BETON
FEUERHEMMEND
(F30)
- 0,90 = 111,76 NHN
- 1,40 = 111,26 NHN
2,95
3,60 3,60
6,40
3,50 3,50 3,50
3,50
3,35
3,60
3,56
5,97 3,07
3,07 3,07 3,07 3,07
3,60 3,60 6,40 3,50 3,50 3,50 3,50 3,53
3,28 32 3,00 32 6,25 28 3,22 28 3,22 28 3,22 28 3,22 28 3,22 28
5,97 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 18
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
ERDGESCHOSS
- 1,40 = 111,26 NHN
NORD
SCHWERINER STRAßE
UNTERGESCHOSS -1
BETON UNBEW. /
SICHTBETON
MW
ESTRICH
PUTZ
PUTZ
BT-FERTIGTEIL
WERKSTEIN
HOLZ
TROCKENBAU
WÄRMEDÄMMUNG
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
PLANINHALT
SCHNITT CC
SCHWERINER STRASSE
MALERGÄSSCHEN
SECTION CC
C
C
FREIBERGER STRASSE
HERTHA-LINDNER-STRASSE
FEUERBESTÄNDIG
(F90)
BRANDWAND
UHD
ABBRUCH
ANNENSTRASSE
MASSSTAB
1:100
UNTERGESCHOSS -2
LEGENDE HÖHENBEZUG ± 0.00: = 112,66 m NHN
SYMBOLE
BODENDURCHBRUCH (BD)
WANDDURCHBRUCH (WD)
OK FFB
OK RD
F7 F6 F5 F4 F3 F2 F1
DECKENDURCHBRUCH (DD)
WANDSCHLITZ (WS)
UK FD
UK RD
SCHRAFFUREN
KLINKER
STB
WU-BETON
FEUERHEMMEND
(F30)
SICHTBETON
MW
BETON UNBEW. /
ESTRICH
FEUERBESTÄNDIG
(F90)
PUTZ
PUTZ
BT-FERTIGTEIL
BRANDWAND
3,60 3,60 6,40 3,50 3,50 3,50 3,50 3,53
3,28 32 2,95 37 6,25 28 3,22 28 3,22 28 3,22 28 3,22 28 3,22 28
5,97 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 15 2,71 36 28 18
3,60 3,60
6,40
3,50 3,50 3,50 3,50 3,03
5.OBERGESCHOSS
4.OBERGESCHOSS
3.OBERGESCHOSS
2.OBERGESCHOSS
1.OBERGESCHOSS
ERDGESCHOSS
- 1,40 = 111,26 NHN
UNTERGESCHOSS -1
WERKSTEIN
HOLZ
TROCKENBAU
WÄRMEDÄMMUNG
PROJEKT
MK4 - NEUBAU BÜROGEBÄUDE "ANNENHÖFE"
FREIBERGER STRAßE/ SCHWERINER STRAßE, 01067 DRESDEN
BAUHERR
TLG IMMOBILIEN AG
BUDAPESTER STRAßE 3, 01069 DRESDEN
LAGEPLAN / GEBÄUDEÜBERSICHT
SCHWERINER STRASSE
D
PLANINHALT
SCHNITT DD
MALERGÄSSCHEN
SECTION DD
D
FREIBERGER STRASSE
HERTHA-LINDNER-STRASSE
UHD
ABBRUCH
ANNENSTRASSE
MASSSTAB
1:400
UNTERGESCHOSS -2
Scale - 1:200
XXX
**The exact planning of the offices cannot be disclosed. For this
purpose, the plans have been cropped/ distorted and jumbled.
Img - 1.8
**The exact planning of the offices cannot be disclosed. For this
purpose, the plans have been cropped/ distorted and jumbled.
Informal Meeting Area
Folding walls
Scale - 1:200
XXX
**The exact planning of the offices cannot be disclosed. For this
purpose, the plans have been cropped/ distorted and jumbled.
Img - 1.9
**The exact planning of the offices cannot be disclosed. For this
purpose, the plans have been cropped/ distorted and jumbled.
Scale - 1:200
XXX
**The exact planning of the offices cannot be disclosed. For this
purpose, the plans have been cropped/ distorted and jumbled.
What I learned?
Internal planning guidelines, German laws
and things which are generally expected.
The standards for arranging offices, planning
the placement of workstations, projectors,
and its implications on the wiring
conduits. The general strategies followed
during preliminary stage, and during construction.
Possibilities of Planning of Toilets, Kitchens
and Server rooms. The most feasible way
depending on the placement of ducts.
The stages of planning of a large scale
building project, and how all the firmsconstruction,
landlord, client, planning,
architecture - collaborate.
I spent a majority of the time at the
part-time training, doing this project. The
plans could easily undergo 3 revisions in a
day. I learned how to communicate fast,
through drawings. Of course, Lars and
Ruairi were guiding me through this.
I had a chance to apply the principles of
acoustics. I learned about the standard
drywalls available in the market.
I had a chance to be fully involved during
the internal planning phase. I learned and
used Archicad for our plans and model,
which was a vital tool for our spacial study.
Img - 1.10
The external building envelope, and structure
were already designed by TLG Immobilien,
when I joined the firm, in which, I
was involved in making minor corrections,
changes in ducts for toilets and teekuche,
fire partitions, etc.
References:
Annenhoefe Building Images, Plans and
External Visualizations- TLG Immobilien.
Photos, Fig-1.1, 1.5, 1.6, 1.7, 1.10 by TLG .
Copyright by TLG Immobilien, Source:
www.annenhoefe.de
Room program office space: Ruairí
O’Brien.
HOHENECK PRISON MUSEUM
A Museum, Depicting the Atrocities to political prisoners
in the Hoheneck Castle
Client: City of Stollberg
Location: Inside Hoheneck Castle,
Stollberg, Saxony
Architect:
Ruairi O’Brien.Archecture.Light.Spacial
Design. (Museum Planning Concept
inside Hoheneck).
The Hoheneck Castle was first mentioned
in history in 1244 AD. It was
rebuilt in 1815.
Status: Proposal Stage.
Img - 1.1
Brief:
To plan a museum inside the hoheneck
castle, and its campus, which depicts the
atrocities to the political prisoners in it
throughout history.
History:
Site:
The Site is located in Areal Stalburc/Hoheneck
castle, in Stollberg, Germany. It is
surrounded by field lands, and thus can be
easily distinguished.
The interiors of the castle speak for themselves
about its grim past.
1244 The castle is mentioned for the
first time in connection with Hugo von
Straleburc.
Until 18th Century Castle used by Medieval
Kings. It was rebuilt in 1815, and
served as a rent and justice office.
1862 The Castle is converted into
Prison
1933 - 1945 Prison used by the Nazi
government, for political prisoners.
1950 - 1990 Prison used by the Soviet
Union. It became most notable as a
detention facility for female political
prisoners in East Germany. The prison
was designed to hold up to 600
inmates, however, as many as 1,600
were detained there.
1990 - 2001 The detention centre is
being partially modernized and is used
to detain criminal men. It was closed in
April 2001.
The short film Broken: The Women’s
Prison at Hoheneck examines forced
labour in Hoheneck prison:
Img - 1.4
https://www.nytimes.com/2017/01/27/opinion/broken-the-womens-prison-at-hoheneck.html
My contribution:
I contributed to the design of the panel
elements of the museum ( conceptual),
their internal plan ,modelling and rendering.
Interior Design Concept Visualization
Concept:
The prison cells are 2m*4m in size. Prisoners
sometimes spent as long as 10 days
without any human contact in these dark
cells. Some of these cells were modified
into cold water punishment areas for disciplining
the prisoners.
The concept is to “make the walls of the cell unfold and speak the story”. The walls were first
taken and unfolded, preserving the dimensions, and its configurations were studied.
The West wing consists of
Administrative blocks for
employees, with larger rooms,
This is where the museum is
hosted.
The Prison Cells are located in
the South Wing of the Castle.
Cell Dimensions are 2m*4m.
Pre-concept of the memorial information Centre, by beyer+wellach Projekte, taken from competition basic
materials of Gedenkstätte Frauenzuchthaus Hoheneck.
15.661
3.612 1.665
0.705
1.693
0.705
1.693 0.762 1.580 3.245
45.601
1.270 1.101 0.903 1.101 0.875 1.129 0.875 1.129 0.875 1.129 0.875 1.129 0.875 1.101 0.931 1.129 0.762 1.129 0.903 1.129 0.875 1.101 0.903 1.129 0.875 1.129 0.875 1.101 0.903 1.129 0.875 1.129 0.818 1.129 0.903 1.129 0.875 1.129 0.875 1.129 0.903 1.101 0.903 1.101 1.242
4.317
15.972 13.771
4.402
4.261
8.579
15.831
16.085
25.595
Preliminary room programme of the west wing. Scale - 1:200
PRESENT SPACIAL CONCEPT (SITE)
My Learnings:
I learnt about the strategies on designing the elements of
museum, surrounding a single concept.
I learnt some details of the medieval castle architecture.
References:
Pre-concept of the memorial information Centre, by beyer+wellach
Projekte, taken from competition basic materials of Gedenkstätte Frauenzuchthaus
Hoheneck.
Design Study of Hoheneck Museum - Ruairi O’ Brien.
Images of Hoheneck, and its history, Retrieved from : https://www.areal-hoheneck.de/kulturstaetten_aktuelles_gedenkstaette.php
VOLKSSOLIDARITÄT
TRACHENBERGE
Task on drawing plans of the
building.
3
Client:
Volkssolidarität Trachenberge (People’s
solidarity association building in
Trachenberge)
Organization(s):
Kistner and Partner Architekten,
Wissensarchitektur Laboratory of
Knowledge Architecture.
Location: Trachenberge, Dresden,
Saxony.
Team members/ Collaborators:
Markus Kistner(Kistener and Partner),
Konstantin Doll (KA Lab, Kistner
and Partner), Niraj Kamal (KA Lab)
Status: -
Brief:
To make Renovation and Fire Planning for
the People’s Solidarity Association building
in Trachenberge. I was involved in the
stage of making the architectural drawings
from the old building data.
The site:
The house was opened in 1998 and is centrally
located in the Trachenberge district.
In addition to the North Outpatient Services,
they also offer day care and senior
living on site.
My colleague Konstantin Doll was so kind
to give me the opportunity, so that I could
get to know about the architectural details
of the buildings in Saxony better. This was
one of the warmup tasks in the lab.
People's Solidarity is an organisation for
elderly people in the new states of Germany,
founded 1945. It was one of many
important non-parliamentary mass organisations
in the former socialist country,
East Germany.
My contribution:
I was involved in making the building
drawings especially the section in Auto-
CAD. Only the renovated building plans
and sections are shown in this report. I
was not involved during the fire planning
stage, so those plans are not shown in this
report.
Architectural Drawings
My Learnings
I learnt the architectural details of Saxon
houses, and their roof design.
Fu
21,10
2,25 2,25 2,25 1,00
P1
Parken
P2
P3
15
1,10
6,34 2
4,36 1
20,25 8
35,60
0,0 = OFF Eingang
+ -
4,36 1
4,10 1
3,78
4,35 1
21,04
Feuerwehrzufahrt
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
ca. 37,00
7,67 5
ßweg
4,50
PLAN
Lageplan
Maßstab: 1 : 200
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
64
6,37
2,12 8 1,18 3 88 5 1,90 3 80
2,00 5
60
20,25
5,48
4,64
3,01
7,12
61 1,62 42 5 1,42 17 5 1,31 54 1,62 5 42 5 1,33 64 3,01 53 2,74 25 2,96 64
5,48
71 3 80 1,46 8 80 86
3,01
4,32
1,18
1,62
60
60
60
Aufzugsraum/ Technik
3,83 m²
64
1,91
1,29 5 12
3,80
3 25 1,32
88 5
16 5
2,00 5
Waschraum
6,32 m²
Chemie/ Getränkelager
14,48 m²
1,27 2,36 5
2,05
9x17/29
88 5
2,00 5
2,24 5 76 46 17 13 5 8 28 8 54 1,74 25 16 88 5 56 42 5 28 5 88 5 1,84 53 1,50 1 1,01 22 9 257 4 88 5 2,00 2
2,36 7,70 5 m²
88 5 2,65 2710 2
2,00 5
2
1,08 12 1,08 8 63 5 54 3 17 5 1,31
2,00 5
Aufzug
2,96 m²
Umkleide Damen/ Herren
42 1,38 52 1,25 5 36 12 76 5 63 5 44 5
2,00 5
12 3 63 5 1,18 3
2,00 5
64
1,54
1,18 1,00
60
2,20 12
1,18 42
60
1,94 15
1,18 58
60
1,49 27
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
15,76
42
2,47
42
2,13
42
2,25
64
4,605
80 60
60
80 2,05 7
60
2,00 5 2,00 5 2,00 5 2,00 5 2,00 5
Mieterkeller
4,45 m²
1,80
2 1,52 5 80 14 5 42 1,07 8 80 25 3 42 1,34 3 80 10 8
2,20
2,20
2,20
11 5
2,28 5
48 9
11 5
60 5 85 5 1,13
2,05
WC
3,81 m²
WC
4,13 m²
1,42 6
85 5 31 5 25
2,05
1,56 5 88 5 1,07 12 1,31 54 1,74 25 1,60 5 42 5 1,84
2,00 5
Archiv
88 5 10 54 42 8 88 5 1,07 8 88 5 6,85 5
2,00 5
2,00 5
1,58 56 1,01 54 27 5 2,00 5
76 60 8 15 57 3,52 m² 1,78 49
,00 5
86
57
1,01 1,66 5 35 5 36 5 90 12 1,99 5
2,00 5
3,93 3 84 2 8
2,05
1,01 1,10 5 36 5 44 3 1,01 1,32 8 1210
2,00 5
2,00 5
75 81 5 24 1,32 26 81 5 75 54 1,62
Hausmeister
12,93 m²
Lager Tagespflege
13,66 m²
1,01
2,07
25
5,83
2,00 5
Archiv
46,30 m²
80 59 22 2 80 62 7 3,62
60
1,90 1,27 5 60
80 55 5 1,90 96
60
1,90 1,98 10
2,22
60
60
60
6 1
4,95
54
3,73
5
36 5 2,78 12 1,50 27 1,36 40 2,98 64
6,10
8,88
1,65
3,62
20,25
1,18 1,02
60
2,19 27
1,18 45
60
1,51 14
1,18 1,00
60
3,43
1,18 50
60
25
1,18 50
60
1,18 97
60
5,83
1,18 1,28
60
63
21,06
PLAN
Kellergeschoss
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
56 4,42 10 8
2,11
2,62 8 1,18 2,39
1,89
80
1,89
56
1,62
He/DD
20x10
1Sa/DD 20x50
1Sa/DD Ø 160
Sa/DD
20x20
PRELIMINARY IDEAS
20,25
7,12
3,01
4,71
98 5 12
2,91 5
3,01
56 1,96 3 12
3,91 7
80 66 8 1,80 66 68 8 1,63 5 68 8 56 56 8 1,01
2,18 2
1,18
1,89
1,65
2,13 5
2,00 5
1,89
He/DD 20/10
WC
2,33 m²
62 6 25 3,04
WC
5,30 m²
Beratung
16,13 m²
3,20 5 1,20 3 63
7,19 3 12 2,11
Flur
13,91 m²
Aufzug
2,96 m²
1,28 5
98 5 12 2,91 5 5,53 3 12
12Sa/DD Ø 160
0,00 + -
2,36 3 12
2,00 5
9 x 17/29
8 x 16/28
10Sa/DD 20x50
WC
1,62 m²
WC Vorraum
5,19 m²
2,15
11 x 17/30
4,81 4
78 3
22 5 6
1,01
5,19 8 1,01
2,00 5
2,11 5
1,18
1,89
2,11 5
25 20 1
1,21
25
1,55
25
1,41 6
1,01
1,34 4
2,00 5
2,00 5
T
2
5,11 5
56
42 5
34
5,41
Ve
Be
101
56
1,54
1,18 1,00
1,89
1,18 50
1,89
1,18 50
1,89
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
20,69 5
25 2,57 2 25 79 3 12 4,01 7 56 87 56 45 56 1,93 5 56
83 6 1,80 63 6 80 37 3 80 52
1,65
1,89 1,89
80 2,19 7 1,43 1,01 2,49 5
1,89
2Sa/DD 20x50
He/DD 20x10
1,45 5
56
Büro
12,38 m²
WC
2,55 m²
3,21 6
Büro
12,76 m²
1,18
1,89
3,06
25 52 5 1,01 1,03 7 257 9 63 5 71213 9 3 1,00 8 25 2,62 5
2,00 5
2,00 5
25
49 5
62 7
56
3,89
Flur
9,31 m²
1,01
1,35 5
12
2,00 5
Kreativ Raum
12,49 m²
1,01 42 2 25
5,06
5
2,00 5
19 80 59 22 2 80
12 1,05 6 56 1,09
reppenhaus
1,07 m²
42 8
2,55 6
Kantine/Café
16,68 m²
3,16 9
25 3,46 7 25
5,16
5
18 5
12
12
Flur
37,75 m²
1,42 3
1,01
2,00 5
Küche
19,88 m²
Terrasse
3,85 5
7,15
7 25
5,16
5
42 5
42 5
1,42 3
4,22
2
19,60
1,01
8,16
2,00 5
ranstaltungsraum/
gegnungsstätte
,71 m²
56
98 5
1,89
1,89
+1,28
+1,28
+1,03
2,07 8
88 5
2,00 5
4Sa/DD 20x50
He/DD 20/10
78 3
20,25
Lü/DD
Ø 150
2,30
1,65
35 5
80
5,11 5
5,11 5
1,89
10
1,84
2,30
1,65
1,96
1,18 1,00
1,89
1,18 50
1,89
19,94
1,15 1,00
1,89
1,18 50
1,89
1,18 50
1,89
1,15 1,00
1,89
1,15 1,31
1,89
56
21,06
PLAN
Hochparterre
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
42 5 6,76
2,64 8 1,18 2,39 7 80
1,89
1,89
20,25
14,84
5,41
42 5 5 ,25
4 2
5
96 5 12 2,18 9 74 6 3,01 42 5 2,86 25 3,16 42 5
42 5 1,69
1,18
1,69 69 42 5 8 3 80 20 3 44 5 1,74 4 74 6 1,06 3 88 5 1,06 3 42 5 56 1,18 1,12 25 76 1,18 1,22 42 5
1,89
1,89
2,00 5
1,89
2,00 5
1,89
1.5
Server
6,23 m²
1.22
WC
5,33 m²
1.19
Pflegebad
15,07 m²
1.6
Personal
20,90 m²
29 5 84
4,09
5
2,00 5
He/DD 20/10
12Sa/DD Ø 160
+3,26
12
15 9 1,01 1,02
2,00 5
1.3
Aufzug
3,32 m²
1.23
WC
2,36 m²
7,31 8
1.20
Flur
1.21
10,12 m²
WC
2,43
2,35 m²
12
2,14
12
63 5 16
17
2,00 5
1.17
Bad
8,86 m²
1.18
WC
2,89 m²
1.2
Flur
6,82 m²
1.1
Trepp
22,49 m
36 5 2,55 3 12 1,97 12 1,21 25 14
99 5
1,01
79
1,01
1,44 5
2,00 5
2,00 5
He/DD
20x10
10Sa/DD 20x50
1.4
Asr
1,20 m²
11 x 17/30
11 x 17/30
1Sa/DD 20x50
1Sa/DD Ø 160
1,15 6
28 18 5
1,01
2,00 5
96 4
42 5
1,59
63 5
2,00 5
16 5 12
76 5 1,01 1,52 5
2,00 5
2,74
10 x 17/38
Sa/DD
20x20
88 5 6
2,00 5
1,73
1,18 1,00
1,89
1,15 50
1,89
1,18 50
1,89
42 5 2,91 8 12
3,30
25
0,297 x 0,420 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
15,76
4,935
25
2,69
25
2,36 12
2,48
425 1,00 5 42 5 68 5 42 5 1,97 42 5
70 5 80 8 5 88 5 1,66 5 2,05
1,89 2,00 5
1,18 1,36 5 1,43 1,11 2,39 5
1,89
22 8 88 5 22 8 1,65 9
2,00 5
enhaus
²
5
1.16
Ruheraum
11,54 m²
1.7
Behandlung
13,04 m²
7,54 7
1.10
Flur/ Eingangsbereich
39,21 m²
1.9
Flur
6,54 m²
1.15
Schlafraum
26,58 m²
1.8
Behandlung
11,27 m²
4 5 65 5 88 5 1,15 39 5
2,00 5
2,00 5
3,24 8
+5,10
1.11
Büro
8,63 m²
1.12
Empfangs-/ Warteraum
12,46 m²
1,01 1,06 5 12 2,49 2 1,01 1,56 12 1,75
2,00 5
2,00 5
7Sa/DD
20x50
4,94 9
88 5 98
12
1,34
12
3,26
25
1,43 9
12
1,34
12
2,01 6 1,01 62 6
2,00 5
3Sa/DD 20x50
4Sa/DD 20x50
2Sa/DD 20x50
3,48
7,19 6 3,04 6
81 6
1.13
Aufenthaltsbereich
34,28 m²
7,39
7 25
4,99
3,26
25
1,72 4
1,01
2,00 5
48 6
12
4,32
1,01
2,00 5
1,54 5
42 5
2,12
1,01
2,00 5
2,12
Lü/DD
Ø 150
2,90
42 5
5,25
He/DD 20x10
3,88
He/DD 20/10
1.14
Gemeinschaftsraum
32,03 m²
Notleiter mit Rückenschutz
1,01
3,34
2,00 5
42 5 2,03 5 1,18 2,03 5 42 5 10 80 54 5 88 5 23 80 1,04 5 93 31 93 3012 72 93 31 93 31 27 1,10 88 5 1,27 5 42 5
1,89
2,00 5
1,89
42 5 5 ,25
4 2
5
6,87 5 12 3,22 25 3,26 42 5
2,00 5
1,89
1,89
1,89
1,89
1,89
3,53
3,32
7,30
6,10
20,25
3,65 2 6
1,18 1,00
1,89
1,18 50
1,89
1,18 80
1,89
1,18 50
1,89
1,18 50
1,89
1,18 1,00
1,89
1,18 83 5 42 5
1,89
2,22
12
5,0
2
2
6,10
42
21,06
1
5
PLAN
1. Obergeschoss
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
2,64 8 1,18 6 2,35 7 80
1,89
1,89
20,25
5,41
4,71
3,01
7,12
6
5
42 5 5 ,25
4 2
5
3,59 5 42 5 3,01 42 5 ,27
4 2
1,18 1,64 5
80 62 5 88 5 21 5 80 59 5 1,06 3 88 5 1,06 3 98 5 1,18 2,13
2,00 5 1,89
2,00 5
1,89
2,11 5 1,18 2,11 5 79
1,89
1,89
1,89
42 5 3 21,98 m
1Sa/DD 20x50
1Sa/DD Ø 160
He/DD
Sa/DD
20x10
20x20
WC
5,01 m²
2,64 82 3 25 1,71 7 88 5
2,00 5
Büro
4,00 Flur
16,42 m²
6,52 m²
Aufzug
Aufzugsflur
2,99 m²
5,31 m²
12Sa/DD Ø 160
4,18 5 1,21 3
10 x 17/28
10 x 17/30
10 x 17/30
Trepp
+6,83
He/DD 20/10
10Sa/DD 20x50
Bad
2,43 Büro 1,42 1224 5 4,84 m²
88 5 1,13 5 25
11,52 m²
2,00 5
Flur
5,40 m²
2,88
88 5 32 8 12 75 88 5 12 12 5
2,00 5
2,00 5
3,46 25 3,04 7 25
Büro
16,61 m²
1,80
29 8
88 5
25 17 8
2,86
2,00 5
Büro
15,57 m²
2,34
1,36
29
1,36
1,89
1,35 3 1,18 1,12 1,15 52 1,18 64
1,89
1,89
1,89
42 5 2,71 8 12 3,50 12
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
25
2,59
25
5,06
425 1,00 5 42 5 68 5 42 5 1,97 42 5
72 5 80 12 5 88 5 73 5 80 1,98
1,89 2,00 5
1,89
1,18 1,48 5 1,43 1,11 2,39 5
1,89
84 5
1,03 5 88 5 1412 5 2,15 2 1224 5 2,00 5
2Sa/DD 20x50
44 5 25 2,10 49 25 83
88 5 3,34 5
2,00 5
Büro
Büro
12,00 m²
16,44 m²
Flur
6,37 m²
1,82
88 5 14 5
2,00 5
+8,47
Bad
3Sa/DD 20x50
5,02 m²
enhaus
1,50 3
²
4Sa/DD 20x50
WC
4,50 m²
Lü/DD
Flur
Ø 150
25,54 m²
1,97 1,50 3
3,47 2 2,12 5
88 5 3,11
2,00 5
2,00 5
Flur
Flur
6,11 m²
4,19 m²
88 5
7Sa/DD
20,69 5
88 5 80 20x50
2,00 5
Büro
12,81 m²
14 5 88 5
17 5 1,51 6 2,25 4 2,10 5 2,74
33 1 88 5 20 5 12 1,16 4
88 5
4,72 9
1,01 39 5 1,59 6
2,00 5
69 3 63 5 1,30 7 25
2,67 6
37 88 5
1,62 4
31 5 88 5
5,55 5
12 1,70 3
88 5 34 5 38 8 25
3,28
2,00 5
2,68
2,00 5
2,00 5
Bad
6,00 m²
2,00 5
2,00 5
42 5
14 5
88 5
41
12
Bad
3,69
8,97 m²
2,00 5
2,00 5
2,00 5
He/DD 20x10
Büro
13,18 m²
Büro
34,52 m²
14 5
12
4,93
5
2,00 5
88 5
53
3,69
2,00 5
He/DD 20/10
Büro
30,26 m²
88 5 1,70
2,30 64 5 1,12
2,30 79 5 20
80 54 5 88 5 24 5 80 83
2,00 5 1,89
1,18 2,46 10
2,46
2,00 5
1,65
1,65
1,89
1,89
42 5 5 ,25
4 2
5
6,87 5 42 5 2,89 5 42 5 3,10 5 42 5
6,10
7,30
3,32
3,53
20,25
1,18 80 5 1,18 49 2 1,18 1,08 1,18 44 1,18 52 1,18 1,13 5 1,18 76 42 5
1,89
1,89
1,89
1,89
1,89
1,89
1,89
1,93 5 25 3,07 2 25
2,01 12
6,115 42 5
21,06
PLAN
2. Obergeschoss
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
42 5 3,71 3 25 2,79 7
2,59 8 1,18 2,38 7 80
1,89
1,89
20,25
5,41
4,71
3,01
7,12
42 5 5,42 5 2 5
3,77
25
3,01
25
6,4 4
5
42 5
2,11 5
1,18
2,11 5
1,54
1,80
1,37 1,06 3 88 5 1,06 3 1,06 5 1,18
2,07
1,18 1,20 42 5
1,89
1,65
2,00 5
1,89
1,89
He/DD 20/10
2,50
1,51
2,43 5
Zimmer
10,51 m²
Zimmer
11,67 m²
He/DD
20x10
6,76
24,86 m²
Aufzug
2,79 m²
34 2,25 3 12 2,37
Zimmer
1Sa/DD 20x50
1Sa/DD Ø 160
2,35 8 2,24 2 75
12Sa/DD Ø 160
+10,18
10Sa/DD 20x50
2,00
12 14 5
7,21 8
Bad
4,40 m²
Zimmer
18,85 m²
Flur
Bad
8,38 m²
6,18 m²
88 5
2,00 5
2,45 8 85 5 12 1,66 1,49 5
88 5
62
25
1,54 5
88 5
1,93
1,06 5
10x 17/30
10x 17/30
2,00 5
2,00 5
2,50
26
88 5
36 5
79 5
88 5
75 5
25
1,36
29
1,36
25
97
88 5
1,91 5
25
2,00 5
2,00 5
2,00 5
Sa/DD
20x20
Trepp
21,72 m²
88 5 14 5 25 8
2,00 5
2,37 5
25
2,80
1,39 8 24 80 20 1,42 80 78 80 55
1,89
1,89
1,89
42 5 6,11 3 25
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
20,69 5
25 2,59 25 1,98 5 25 2,82 5 42 5 1,00 5 42 5 68 5 42 5 1,97 42 5
67
1,80 84 0 80 1,99 5 1,18 1,51 1,43 1,11 2,39 5
1,65
1,89
enhaus
Bad
5,35 m²
7Sa/DD
20x50
Flur
13,47 m²
Zimmer
9,87 m²
Bad
7,55 m²
2,00 5
52 5 25 3,32
Flur
88 5 80 25 61 5 1,00 5 2,45
2,00 5
9,19 m²
Zimmer
14,86 m²
25 2,59 25 1,98 5 25 2,82 5 4,07
7
+11,85
2,76
88 5
16 5
12
87 5
88 5
75 5
2,00 5
2,00 5
4 5
88 5
39
2,00 5
Zimmer
23,68 m²
Flur
11,91 m²
Bad
5,36 m²
3,28
25
78 5
88 5
1,95
25
80 5 88 5
88 5
1,17 5
1,17 5
2,00 5
65 3 1,18
4Sa/DD 20x50
3,81
2,52 2 2,91
1,51 6 3,77
2Sa/DD 20x50
24 5
25
3,77
25
2,00 5
2,00 5
Zimmer
9,30 m²
Zimmer
16,84 m²
Küche
8,62 m²
Zimmer
19,49 m²
Ausstiegspodest
88 5 84 5 25 1,64 5 2,67 5 86
2,00 5
Lü/DD
Ø 150
Notleiter mit Rückenschutz
88 5 54 5 12 1,04 5 88 5 1,61 2 12 3,10 5 1212 5 88 5 1,11 2,39 5
2,00 5
2,00 5
2,00 5
74 5
88 5
3,79 5
2,00 5
88 5
24 5
He/DD 20x10
2,00 5
8 5 88 5 4,21
2,00 5
He/DD 20/10
Zimmer
22,42 m²
1,40
1,18 1,36 87 5 1,18 1,47 5
1,89
1,89
1,18 1,66 78
1,89
1,18 1,47
1,89
80 91
1,89
2,53 5 1,18 2,38 5 10
1,89
42 5 5 ,25
4 2
5
3,77 25 2,85 5 42 5 2,89 5 42 5 3,10 5 42 5
6,10
7,30
3,32
3,53
20,25
80 1,28 7 50
1,89
80 50 80 40 1,39 5 80 60 5 80 82 80 1,13 5 18 80 18 1,44 5
1,89 1,89
1,89
1,89
1,89
1,89
5,962 12 3,10 5 12 4,51 5 42 5
21,03 5
PLAN
Mansardgeschoss
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
+11,85
+10,20
+6,83
+3,26
+0,00
17
2,87
39
3,21
36
2,99
36
70
90
82
82 2,25
82
2,06
26
+15,02
17
+14,85
Mansardgeschoss
2. Obergeschoss
1. Obergeschoss
Erdgeschoss
3,17
3,07
2,45
10x17/30
10x17/30
11x17/28
8x16/28
10x17/30
10x17/28
11x17/30
9x17/19
2,00 6 2,33
2,33
2,35
2,13
3,40 42 2,96 41
3,01
37
2,82
1,76
+11,85
+8,47
+5,10
+1,28
2,36
1,47 99
8 5
1,33
8 5
2,68
1,54
3,44
28
2,13
3,40
Kellergeschoss
-1,57
-1,57
0,420 x 0,297 = 0,12 m²
Kistner & Partner Architekten PartGmbB
Weißbachstraße 6
Weißbachstraße 6, 01069 Dresden
0351 30 9000 82
mail@kister-partner.de
http://www.kistner-partner.de
BAUHERR
Volkssolidarität Dresden
Altgorbitzer Ring 58
01169 Dresden
0000-00000-1
Dachaufbau
Bieberschwanz-Kronendeckung 15,5/36,5
Dachlatten
Konterlatten
Unterspannbahn
Sparren
Dämmung - 14cm Mineralwollefilz
Dampfsperre sd > 100mm
2,13
2,13
2,00 5
2,13
OFF
2x10mm Promatec
90 1,23
OFF
3,38 3,05 3,12 26
2,82
+11,85
+8,51
OFF
+5,14
+1,32
2,60
15 38
1,37
70
93
93 1,90
94
1,90
2,10
90
17
40
30
70
46
16
2,00 1,82 1,80 1,65 8
50
48
Terrasse
+1,28
Deckenaufbau 1
Fußboden im Dachgeschoss
50mm Estrich (Anhydritestrich oder
Zementestrich mit Randdämmstreifen
Trennschicht PE-Folie
90mm Wärmedämmung
30mm Trittschalldämmung
Deckenaufbau 2
45mm Zementestrich und 5mm Belag
30mm Trittschalldämmelement
180mm Stahlbeton
Kellerfußboden
Raum 0.30 u. 0.13
Ungedämmter einschichtiger Fußboden
Imprägnierung nach DIN 19353 auf Epoxidharzbasis
100mm Geton B25 Tragschicht
PE Folie
vorh. Sandboden als kapillar Schicht
Raum 0.1 u. 0.6
Ungedämmter zweischichtiger Fußboden
3,5mm homogener Kautschukbelag
45mm Zement- o. Anhydritestrich
0,5mm Abdichtung n. DIN 18195 T.4
100mm Beton B25
PE Folie
vorh. Sandboden
PLAN
Schnitt Treppenhaus
Maßstab: 1 : 100
Datum: 26.03.2020
Gezeichnet: KD
PROJEKT
Volkssolidarität Trachenberge
Trachenberger Str. 6
01129 Dresden
4
KEIV NAUPROSTIR
Science and Art space inside a
university in KIEV
Client: National Aviation University,
Kyiv, Ukraine.
Organization:
TU Dresden - Wissensarchitektur
Laboratory of Knowledge Architecture.
Location: Kiev, Ukraine.
Team members/ Collaborators:
Niraj Kamal Karunanidhi,
Joerg Rainer Noennig,
Olga Kyeslova,
David Hick,
Adam Urban,
Nikhil Duggal.
Status: Proposal Stage
Brief:
To design a space which will act as a focal
point for creative projects and enterprises
at the university. The wind tunnel has a
very good heritage which needs to be
preserved, and it is suited very well as a
gallery/ exhibition space. Additionally, in
later stages of the project, a vertical wind
tunnel will be built to facilitate indoor sky
diving. A new block should be planned to
host the incubator spaces for start-ups
and student groups. The old building
(green) is more suited for machine workshops
and labs. There is an existing aerospace
faculty building(blue) which is the
only building currently in use in the site.
The site:
The site is inside the National Aviation
University of Kyiv. It is an Air tube, used by
the soviets but later decommissioned after
the fall of the soviet union.
My contribution:
I had a chance to be involved in this project
in the early stages of analysis. The
plan was to visit Kyiv and conduct a
design workshop with the students before
preliminary design phase, but due to the
pandemic, we had to improvise. Thus, I
got a chance to be in charge of the current
phase of the project. I learnt how
client meetings, their expectations, things
to do/not to do during proposal stage, and
how building registration stages work by
interacting with the stakeholders. I also
learnt importance of Student Activity
Centres and the various stakeholders
involved.
Project Incharge/ Representative
Preliminary Design
Analysis
Meetings with Client/ Stakeholders
The wind tunnel is the centrepiece of the site. It is for a long time in unworkable state and
from both technical and economic points of view to restore it makes no sense.
The main part of the structure, which is not used at all, is a huge metal pipe with a total
length of 170m and a cross section of 10 by 4 m.
There is also an empty machinery building of 3 floors, each of 450 sq. m, with high ceilings,
around - open space.
The open space around the wind tunnel is abandoned and partially cluttered with building
materials.
References:
Photos of the site - NAUPROSTIR Collaboration dashboard- NAU, Kiev.
Source: https://protw.github.io/nauprostir/
(This is the project’s official collaboration handle. Please visit for more information.)
REQUIREMENTS - ANALYSIS
Plans:
The plans are quite old (around the early
1960s) and of very poor quality.
Reference:
Plan photos - NAUPROSTIR Collaboration
dashboard- NAU, Kiev.
Source: https://protw.github.io/nauprostir/
PRELIMINARY IDEAS
PRELIMINARY IDEAS
URBAN DESIGN PROJECTS
5 6 7
NEUSTADT GUIDANCE
SYSTEM
URBAN MOBILITY
STUDY IN CHEMNITZ
“THE CLOUD” URBAN
INSTALLATION
NEUSTADT
GUIDANCE
SYSTEM
Urban City Elements
(Guidance for Destinations/
Paths/ Routes)
Client: City of Neustadt in Saxony.
Location: City of Neustadt, Saxony
Architect:
Ruairí O’Brien. Architecture. Light.
Spatial Design.,
City Area: 83.05 Sq. Km
Status: Design and Urban Planning
Stage.
Brief:
To design urban city elements (e.g. Posts,
parking Signs, Notice boards, Way Signs,
etc.) as a guidance system for Destinations,
paths and routes, for the city of Neustadt
in Saxony.
The City:
Neustadt in Saxony lies between the
ridges of the Hohwald and Ungerberg
mountains, embedded in the Neustädter
valley, on the border between the Lusatian
highlands and the Elbe Sandstone Mountains.
It is situated near the border with
the Czech Republic, 35 km east of Dresden,
and 23 km southwest of Bautzen.
Previous Works
The Office has previously worked on city
elements for guidance systems in Dresden,
Freiberg, Dresden University hospital
etc.
My contribution:
I contributed in the preliminary, design of
the elements, and their details.
Model
Preliminary design
References:
About Neustadt City, Photos of Neustadt,
Retrieved from:
https://www.entdecke-sachsen.de/ziel/neustadt-in-sachsen.html
Photo of Dresden Guidance System -
https://www.entdecke-sachsen.de
1.600
GSEducationalVersion
0.080
1.600
0.080
0.800
2.100
2.340
2.340
1.250
1.250
0.950
GSEducationalVersion
0.080
0.800
2.100
1.250
URBAN MOBILITY
STUDY IN CHEMNITZ
Urban mobility study on bicycle paths
in Chemnitz
6
Topic: Urban Study of Chemnitz for
new urban mobility awareness.
Location: Chemnitz, Saxony.
Organization:
WISSENSARCHITEKTUR Laboratory
of Knowledge Architecture, NUMIC
Team mates:
Sebastian Wisenhuetter
Anja Jannak
Jörg Rainer Noennig
City Area: 220.8 Sq.Km
Status: Urban Analysis Stage.
Brief:
Data-driven analysis of the urban mobility,
topology and morphology of the city of
Chemnitz for the study of new possible
modes of mobility, especially bike routes.
Although initially data-driven, this project
follows a participatory approach, involving
academicians, citizens for voting the suggested
routes, and city planners.
My contribution:
I contributed in the initial stages of the
study, to the workflow for urban analysis
in grasshopper, especially bike(bicycle)
scores for detecting the most feasible
bike(bicycle) routes.
Analysis
Workflow
The City:
Chemnitz was first mentioned in 1143 and
was founded between 1171 and 1174 as an
imperial city.
With the time of the Industrial Revolution
around 1800 a great upswing and associated
growth of the city began.
Population growth rapidly from 1000
around 1800 to 360,000 in 1930 (previously
the largest population)
Chemnitz has a good 246,000 inhabitants
as of July 2016. It is encouraging that the
migration balance has been slightly positive
for some years, so that the population
decline has been stopped.
Although, due to very less population,
most of the activities are confined towards
the city centre
With the bombing on March 5, 1945, the
centre was almost completely destroyed.
The town hall and the Red Tower are
among the few architectural monuments
that could be saved
FIGURE-GROUND PLAN
STREET NETWORK
BIKE PATHS
GREEN PATHS AND AGRICULTURE
Bike Score (normalized)
Culture & Entertainment
Bike Score (normalized)
Social & Government Service
Bike Score (normalized)
Grocery
Bike Score (normalized)
Errands
Bike Score (normalized)
Shopping
Bike Score (normalized)
Public
Bike Score (normalized)
Mobility
Bike Score (normalized)
Industries
Bike Score (normalized)
Dining
Bike Score (normalized)
Drinking
Bike Score (normalized)
Average all Categories
ROUTE A
SHORT LISTED BIKE ROUTES
FOR VOTING
ROUTE B
City Data retrieved from :
ROUTE C
References:
The short-listing and analysis of individual
routes were done by Sebastian Wisenhuetter
at a later stage.
Retrieved from: NUMIC Analysis by
Sebastian Wisenhuetter, Wissensarchitektur
Laboratory of Knowledge Architecture.
https://m.chemnitz.de/chemnitz/de/unsere-stadt/stadtportrait/index.html
https://m.chemnitz.de/chemnitz/de/unsere-stadt/stadtportrait/zahlen-und-fakten/bevoelkerung.ht
ml
Bike Score (normalized)
Average all Categories
“THE CLOUD” URBAN
INSTALLATION
An Urban Installation in the City of Potsdam
(for Potsdam Unterwegs im Licht 2021)
Client: City of Potsdam, Saxony.
Location: City of Neustadt, Saxony
Architect:
Ruairí O’Brien. Architecture. Light.
Spatial Design.
Status: Proposal Stage
Brief:
To design urban city element which could
be used for spontaneous stage arts especially
during a festival in Potsdam.
My contribution:
I contributed in the preliminary, design of
the elements, and their details.
Model
The Concept:
To make a stage, in the market square, in
which artists can perform spontaneously.
The stage has a primary urban installation
- The cloud, which is suspended acts as a
main focal point, and it reflects the light at
night.
One of the design proposals was to paint
the cloud with invisible radiative UV paints
and illuminate it with UV light at night
Preliminary design
Potsdam Unterwegs im Licht
is a festival which is conducted every year.
The photos of the festival in 2020 are on
the left, designed by Ruairi O’ Brien. This is
a proposal for an installation for this festival
next year.
References:
Photos of Potsdam Unterwegs, Retrieved
from Ruairi O ’Brien LIGHT ART:
http://www.ruairiobrien-lightart.com/ablauf/
10.8
10.8
7.042
12.767
Scale - 1:100
RESEARCH PROJECTS
8 9
Research
PROJECT ADAM
SCORE - RESILIENCE
FOR CORONAVIRUS.
10
11
Workshops / Studies
AI AND ARCHITECTURE
WORKSHOP
STUDY ON GERMAN OFFICE DESIGN
STANDARDS
8
PROJECT ADAM
Adaptive and Programmable
Architecture and Material
Structures:
Insitu Programmable materials
for Architecture.
Research topic: Insitu Programmable
surfaces with auxetic materials,
for Architecture.
Organization:
TU Dresden - Wissensarchitektur
Laboratory of Knowledge Architecture.
Team members/ Collaborators:
Niraj Kamal Karunanidhi,
Joerg Rainer Noennig,
Thomas Wallmersperger,
Martin Sobcyk,
Sebastian Wisenheutter,
Konstantin Doll,
Adam Urban.
Status: Completion stage, research
publication.
Goal:
The overall goal of project ADAM(alias for
graduate school) is to set up a graduate
school focussed on programmable architecture
and geometry, generative design,
programmable use cases etc.
My project focusses on the programmable
materials, to generate programmable
geometries, which are either preprogrammed
(predetermined during fabrication)
or in-situ programmable (programmed
in real-time to any desired
geometry).
Previous works by the lab:
Sebastian Wisenheutter and Adam Urban
from the lab have already experimented
with Ron-Resch's patterns and had made
prototypes of moving building envelopes,
using algorithms and research of Tachi.
The main challenge was to find a way to
change the 3-dimensional curvatures of
surfaces (Gaussian Curvature). To achieve
this, the material has to expand and contract,
and/or shear. Thus auxetic tessellation
systems were used for this purpose.
My contribution:
I am currently authoring the paper, under
the guidance of Prof. Joerg, and with the
collaboration of the team mates/ co-authors.
The topic of the paper is “Insitu
Programmable surfaces with Auxetic
tessellation Systems, for Architecture”,
under the umbrella of ADAM. All the content
shown in the report relates to the
themes/content of the research paper.
Research Project In-charge
Authoring
Conception
Experimentation
Reviewing papers
Drawings/ Modelling
Simulation/ Calculations
Motivation:
The lab has worked on projects related to spacial robotics, parametric architecture, and
Intelligent Architecture. The models of a previous origami project caught my attention,
and we decided to take this up as a warmup project to be finished by March. This was my
very first research project - I had the chance to take up an initiative and work on the ideas
from ‘phase-0’. However, later the project got extended due to the lockdown, as it
remained dormant for a few months. The project again gained momentum, and now is in
the final stage as a publication.
Origami:
The Ron-Resch's Origami patterns were
constrained in curvature due to the behaviour
of their base hinges. These patterns
were extensively studied by Ron Resch,
and other researchers. The bases were
studied and its crease patterns were modified
to induce flexibility.
.
Normal Base
Normal Ron-Resch Tessellation
Surface plate
Mountain fold
Valley fold
Normal Rigid Tessellation
(Not flexible, forces do not spread during deformation,
breaks easily when deformed)
Flexible Structure
(Flexible, forces are spread across the
surface, acts like a fabric)
Structural System:
Preliminary prototypes of structural
system for programmable surfaces.
Auxetic Structures:
Auxetic Tessellations can theoretically
assume any shape within a specific scaling
factor [Konakovic 2018]. This proved to be a
promising solution for programmable
structures.
Structural System:
In order to have multiple degrees of freedom, the actuators in the surface is gridded in
different patterns, Also, multiple layers of surfaces and actuators were added to control
the scaling factor(expansion/contraction) and Gaussian curvature separately.
Multi-layered surface
Preprogrammed surface
Prototypes @ Home - office
Insitu Programmable geometries using Auxetic Kirigami:
Img - Possible Rapid Actuation:
Retrieved from: Zheng Yan, Fan Zhang, Jiehen Wang, Fei Liu, Xuelin Guo, Kewang Nan, Qing Lin,
Mingye Gao, Dongquing Xiao, Yan Shi, Yitao Qiu, Haiwen Luan, Jung Hwan Kim, Yiqi Wang, Hongying
Luo, Mengdi Han, Yonggang Huang, Yihui Zhang, John A Rogers: Controlled Mechanical buckling for
Origami Inspired Construction of 3D Microstructures in Advanced Materials. Advanced Functional
Materials. Volume 26, Issue 16 (2016)
GLOSSARY:
SCORE
Smart Co-Creating Resilience in Public Health Emergency
Horizon 2020
Call: H2020-SC1-PHE-CORONAVIRUS-2020
(Advancing knowledge for the Clinical and public
health response to the 2019-nCoV epidemic)
Topic: SC1-PHE-CORONAVIRUS-2020
Organization:
WISSENSARCHITEKTUR Laboratory
of Knowledge Architecture, Horizon
2020.
Headed by:
Xiaoping Xie
Context and Short Brief:
It was early February, and Wuhan was
the worst hit hotspot of 2019 nCoV (Later
named as CoVID-19) The disease was still
an epidemic, and many terms and
strategies were not clear as they are now.
Countries were still assessing the risks.
This proposal lays down important and
key strategies to handle the situation, and
to increase the level of preparedness. The
team collaborated with hospitals and
organizations in Europe and China.
Important principles of Knowledge
Architecture like citizen participation were
applied to make the process as agile as
possible. (The proposal is of 130 pages)
Image by CDC
My Contribution:
I participated in the proposal, in brainstorming,
and created a lot of conceptual
diagrams for the proposal.
Conceptual Diagrams
Brainstorming
What I learned:
- I had a chance to revise and learn epidemiology
while brainstorming and doing
background work.
- I got an insight on how proposals are
made and submitted in research laboratories,
and about funding organizations.
- I got an insight on various agile strategies
which could be used in an architectural
and city perspective during an outbreak.
- I learnt to represent key concepts and
work-flows through conceptual diagrams.
AI AND ARCHITECTURE
A workshop implementing basic present
computer vision techniques on architectural
applications
Topic: Workshop on AI and Architecture
Organization:
WISSENSARCHITEKTUR Laboratory
of Knowledge Architecture, NUMIC
Team mates:
Niraj Kamal Karunanidhi,
Adam Urban,
David Hick.
What we did:
Implemented basic image processing
algorithms in urban spaces using
python. We visualised the data using
QGIS. We brainstormed about emerging
technologies related to AI and
Architecture,
Implementation on sample models
Brainstorming
Analysis of movements of people in an Urban Square in Copenhagen
3-model Generation GAN network stack (Source:Nvidia)
STUDY ON GERMAN OFFICE
DESIGN STANDARDS
Analysis and study on German Standards
especially in the context of the pandemic.
Topic: Analysis of German Standards
for office design.
Organization:
Ruairi O’Brien. Architecture. Light.
Spatial Design.
What we did:
Made a model office as a demonstrator
for current German standards, analysed
the details and measurements.
Made toilet details later for Annenhoefe
office space. Studied the standards
in the context of Coronavirus.
Analysis
Brainstorming
Detailing
FLOOR SPACE FOR WORKING AREAS:
At-least 8m^2 for one workspace
Plus at-least 6m^2 for each additional workspace
Standard Values:
Cellular Offices (1-6 people) – 8-10m^2 per workstation
Group Offices (up-to 25 people) – 10-12m^2 per workstation
Open-Plan Offices (from 400m^2) – 12-15m^2 per workstation
Toilet Details of Annenhoefe Space
GUIDELINES DURING PANDEMIC FOR OFFICE SPACES (MAY 2020)
Lunch After U-CODE Press Conference (KA lab) Colleagues(KA Lab) trying to eat the food I cooked :P
Colleagues at Ruairi O’Brien
KA Lab during April
Home Office
Getty Images - iStockphoto
Dresden Castle
Slub Library
TU Dresden
TU Dresden
Conclusion
I had a very good time in Dresden. I was exposed to a sea of various
fields and domains in Architecture. Looking back, this journey has
been beyond my expectations, full of turning points. I had a perfect
time reflecting upon my interests during the lockdown and while
slowly walking from my office back to my room via Elbe and Dresden
Castle.
I am grateful for this beautiful journey. I had the chance to meet a lot
of people, share ideas, knowledge and know their perspective of the
world. That helped me see things differently with an open mind and
to understand myself better. I learnt a tiny bit of German through
conversations, and I have already given the exam for elementary
German.
I have envisioned myself to be involved in work related to smart systems
and knowledge architecture. I have currently extended my stay
to complete the research publication. I had the time to mature my
vision for my future ambitions.
This journey has definitely broadened my horizons, and I hope I could
take this learning forward with my future endeavours.
Bibliography
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R. Soc. A. 467(2121), 439–458 (2011)
Gómez Lizcano D. E. (2013): An expandable pendentive dome and polyhedral mechanisms using angulated scissors
with sliding elements. New Proposals for Transformable Architecture, Engineering and Design in the Honor of E. P. P.
Escuela Técnica Superior de Arquitectura, Sevilla 53-58
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Hoberman, C.: Reversibly expandable structures having polygon links. U.S. Patent number 6,082,056 (2000)
Konaković, M., Crane, K., Deng, B., Bouaziz, S., Piker, D., Pauly, M. (2016) Beyond developable: computational design
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Friedrich, J., Pfeiffer, S., Gengnagel, C.: Locally Varied Auxetic Structures for Doubly-Curved Shapes (2018)
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[Resch1973] - resch patterns
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Shi, Yitao Qiu, Haiwen Luan, Jung Hwan Kim, Yiqi Wang, Hongying Luo, Mengdi Han, Yonggang Huang, Yihui Zhang,
John A Rogers: Controlled Mechanical buckling for Origami Inspired Construction of 3D Microstructures in Advanced
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