PORTFOLIO
JAKUB DANIEL
CV
JAKUB DANIEL, Bc. Poříčská 2083, Újezd nad Lesy, Prague 9, Czech Republic mob: (+420) 723 930 622, e-mail: kubadaniel.kd@gmail.com
PERSONAL
EDUCATION
• • • •
2017-presence CZECH TECHNICAL UNIVERSITY IN PRAGUE, CZECH REPUBLIC Faculty of Architecture, Program of architecture and urban planning Masters degree studies
Nationality Czech Age 24 Location Prague, CZ Current Location Eindhoven, NL
LANGUAGE SKILLS • Czech language • English language • German language
Native C1 B1/B2
COMPUTER SKILLS • OS MS Windows • OS MAC • • • • • • •
AutoCAD ArchiCAD SketchUp Adobe Photoshop Adobe InDesign Adobe Illustrator MS Office
2018
EINDHOVEN UNIVERSITY OF TECHNOLOGY, NETHERLANDS Department of Built Environment, Architecture program Erasmus program, spring semestr 2017-2018
2017
NATIONAL UNIVERSITY OF SINGAPORE, SINGAPORE School of Design and Environment, Department of architecture Exchange program, winter semestr 2017-2018
2013-2017
CZECH TECHNICAL UNIVERSITY IN PRAGUE, CZ Faculty of Architecture, Program of architecture and urban planning Bachelor degree - graduated 2017
2005-2013
HIGH SCHOOL OF NATURAL SCIENCES, PRAGUE Private school institution
2011
BELL HIGH SCHOOL, OTTAWA, CANADA English language foreign program, Spring semestr
TRAININGS 2013-2015
STUDY OF ART TECHNIQUES WITH AKAD. ARCH. JIŘÍ VLČEK Graduate of Academy of Arts, Architecture and Design in Prague
2012-2013
STUDY OF DRAWING WITH MGA. MICHAL BENEŠ Graduate of Academy of Arts, Architecture and Design in Prague
2012
DID DEUTSCH-INSTITUTE BERLIN, GERMANY German language foreign program, summer school
2010
DID DEUTSCH-INSTITUTE AUGSBURG, GERMANY German language foreign program, summer school
WORK EXPERIENCE 2016-2018 ANARCHITECT studio (http://anarchitekt.cz/) Junior architect 2016
TRSY LANDART FESTIVAL (http://www.trsy.cz) Organisation-Volunteer coordinator, Exhibiting artist
2014-2016 JV DESIGN STUDIO Junior architect, assistant 2013
DITTELBRUNN INTERNATIONAL WORKCAMP, GERMANY Construction work in location
COMPETITIONS 2018
24H DISRUPTIVE CHALLENGE AnArchi organization, Eindhoven, Netherlands 2nd place - Will be exhibited on the Dutch Desing week autumn 2018
2018
INTERNATIONAL WORSHOP OF URBAN PLANNING Technical University of Dortmund, Germany
2016 CAFÉ LIBRARY COMPETITIVE WORKSHOP Czech Technical University in Prague, Faculty of Civil Engineering 1st place 2015
STAIRCASE COMPETITIVE WORKSHOP Czech Technical University in Prague, Faculty of Architecture 1st place - Constructed in November 2015
LANGUAGE CERTIFICATES 2012 CERTIFACATE OF ENGLISH LANGUAGE CAE (C1) University of Cambridge 2012
CERTIFACATE OF GERMAN LANGUAGE (B1) Deutsche Institut
Internati onal Spring Academy, April 2018 TU Dortmund, Germany
URBAN WASTELAND DORTMUND Workshop experimenting with new urban plan revitalizing urban wasteland in Dortmund in the area of former train depo. Patrick Brenzel DE + Jakub Daniel CZ + Silvana De Bari IT + Jannik Spatz DE As an Erasmus student I got the opportunity to parti cipate in the workshop organized by Technical University of Dortmund. The workshop included Eindhoven University of Technology and Politecnico di Torino. In mixed groups our task was to design a revitalizati on of former train depo in area adjacent to the center of Dortmund. During the analysis we realized that our area is situated in between two other districs, one residenti al and the other commercial, which are not centrilized and separated from the rest of the city. Our design would create an indispensable puzzle piece that binds all the districts together. Consequently, by designing new train stati on we oriented the movement directi on and connected the districts to the rail system. We wanted create lively atmoshere for all the social groups. In order to do that we proposed to used mix used city fabric. Including three main zones-campus, residenti al and park. To keep the street alive and enjoyable we prevented the cars to park on the streets by restricti ng car access and diverti ng it only through one street around the train stati on. Balance of inhabitants and those passing through was the reason for defi ning commercial zones and public spaces adjecent to the north-south and east-west axes. Campus area developes the only remaining architecture in the area - the water tower. Square in front of the tower was only paved and the rest left for the locals to fi nish it themselves. This approach promises that the community will feel free to interact more with their environment and indenti fy it as their own. The rest of the campus are is left for student accommodati on and school insti tutes. Residenti al part of the masterplan includes housing blocks with inner courts and public structures as park restaurant or markethall with library/gallery. The proposed masterplan is quite dense so we included proposal for building guidelines. Block would be divided into single buildings and designed by diff erent architects to ensure the more dynamic character of the street. Also, the  at roof would be compulsory to be used as common terraces. As a result, we can create social interacti on and lower the anonymity in every building. Moreover, it compensates for the lack of privacy in the streets and surface.
ATMOSPHERE OF REVITALIZED TRAIN DEPO
RESIDENTIAL BLOCKS
CAMPUS AREA
TRAIN TRACKS
TRAIN TRACKS
CYCLING PATH GREEN LINE NEW TRAIN STATION
TRAFFIC ROAD
SCHOOL/PUBLIC BUILDING STUDENT ACCOMODATION
RESIDENTIAL BLOCK INNER COURT URBAN ROOF TERRACES
MIX-USE STREET
RESIDENTIAL BLOCK INNER COURT URBAN ROOF TERRACES
PEDESTRIAN STREET
HIPSTERSTADT FORMER TRAIN DEPO
PUBLIC BUILDING
PUBLIC PARK
B
A`
BACK PARK GARDENS
A
KRONPRINCESTRASSE
B`
URBAN MASTERPLAN
PUBLIC B.
PUBLIC B.
PUBLIC B.
MAIN PUBLIC SQUARE COMMERCIAL ZONE
RESID
CROSS SECTION AA` - RELATIONSHIP OF STREET AND RESIDENTIAL BLOCKS
PUBLIC SPACE COMMERCIAL ZONE PLAYGROUNDS OUTDOOR ACTIVITIES
DENTIAL AREA
COURTHOUSE
KRONPRINCESTRASSE
CONNECTING STAIR RESIDENTIAL BLOCK
PEDESTRIAN STREET
MAIN PUBLIC SQUARE
GALLERY/MARKETHALL
MIX-USED STREET
RESIDENTIAL BLOCK TRAFFIC ROAD
GREEN LINE CYCLING PATH TRAFFIC ROAD
UNDERPASS
RESIDENTIAL BLOCKS REVITALIZED GREENERY
PARK AREA
CROSS SECTION BB` - RELATIONSHIP OF CONNECTING PUBLIC SPACES
MAIN PUBLIC SQUARE WITH MARKETHALL AND GALLERY
STAIRS CONNECTING NORHTERN DISTRICT WITH THE NEW SQUARE
Bí-Da Michal Bílek Jakub Daniel
24 hour disrupti ve challenge, April 2018
THE 3 YEAR CITY 21
Současná podoba interiéru fa To sebou přináší vrstvení mate úrovni, proto si návštěvník zpr záměr. Hlavním cílem pro nás místo, ve kterém se nebudete vložit úplně nový prvek – výra objímá, obklopuje, požírá, prot
Vestavba ve tvaru C nedosahu Prostorově vyboulená konstru byla povrchově dokončena v posílena vznikem komunikačn odstoupenou terasou pod ko podlahy a grafickým přesahem matně bílém provedení. Totéž čítárny je provedeno těžkým a při konferencích, jednoduše s v podobě záclon před pásem pomocí rozptýlení světla o stě Běžné osvětlení je řešeno spu
24
Design of emergency city scenario for 10 000 inhabitants. Competetive workshop organized by AnArchi Study Association in Eindhoven. Jakub Daniel CZ + Angela Heringer HU + Kenzo Joy Lam NL + Paulina Szulz PL The task of this challenge was to create conceptual idea for new accutly growing city. Workshop refl ected the need of backup plans for inhabitati on in todays world. Criterium was to accommodate broad spectrum of refugees - Syrian refugees, African refugees, Fire or fl ood local refugees or quickly growing populati on. Several conditi ons were defi ned in the beginning. First, the city must be self suffi ciant as possible. Second, must hold 10 000 people. Third, crisis requires the year to be built in one year. Fourth, the city must work for three years and then be dismentled and transported elsewhere. Our approach was to focus on the structure from the fi rst day. To design a crisis narrati ve from the beginning ti ll the end. We understood that the refugees will come in waves and with the growth of the pupulati on the city will grow with it. To respond immediately we decided to use domes as giant tents to shelter the fi rst wave. With any other following other the populaiton will grow out of the dome and helps to build their own environment. As the ti me goes the refugee city will eventually become their home. So the narrati ve must conti nue through the whole ti me. New community will be created with the structures and to ensure that the community will work together we need to give them opportuniti es and bind them together. This social part of the design was incredibly important to us. As the refugees lost almost everything we need to give them a sense of responsibility and purpose. Eventhough the city is only temporary. Aft er three years the city would be dismentled and transported away. Therefore, the impact on the landscape should be minimal. The structures and domes are raised above the ground. This way we wanted to create minimal foundati ons and minimize the structural imprint. In order to be self suffi cient the domes cumulate heat and store it in the water and underground. They also create large surface which works as water collector. In the end, the city can be gradually taken apart and being built in the same ti me in other locati on.
VISUALIZATION OF THE MAIN AXIS
CONCEPT OF CRYSIS SCENARIO REFUGEE INHABITATION
1st
WEEK 300
1st
MONTH 1000
5th MONTH 5000
1-3rd YEAR 10 000
Crisis happens unexpectedly and the most important thing is the fi rst responce. We are counti ng on gradual arrival of refugees. We plant the seed - the fi rst dome- which shelters the fi rst group. Everything is provided inside and the people are living in diffi cult conditi ons, but they are provided for. The domes are stored and they are prepared to be assembled immediately. Smaller triangles are easily transportable to requiered locati on. Dome provides large sheltered environemt from outdoor conditi ons - something that we need in the ti me of crysis.
Receiving more people with the ti me the dome is not suffi cient and the people inside need to make room for the new incoming refugees. New domes are planted and the existi ng one are starti ng to expand. Load bearing structure starts to grow out of the dome. Domes working as seed are connected with path to provide comfortble connecti ons. For the beginning every single dome hosts all the functi ons they need to secure the refugees.
The ti me of the fi rst responce has passed and the people are sett led. To provide purpose of their ti me they can parti cipate on creati ng their new temporary environment. Load bearing structure provides surface for building new small scale houses. Material and professional help is provided by the municipality. Cooperati on and opportunity for self development gives the refugees purpose and to care for new environment. Common work also helps to bond locals and refugees. Moreover, it creates new social structures. As people move out of the dome, more space is available for more permanent fucti ons. For example, schools, hospitals or recreati onal faciliti es. With multi ple domes we can start to diversify their functi on on urban scale.
The fi nal step on the way is to transform the domes into the center of interest. People live outside in the expanded structure. Diversifi cati on is the key to maintain the temporary urban fabric. Domes are transformed into social public spaces. They become the centers of bussines and organizati on. Other functi on is to help creati ng binding and positi ve atmophere.
AXONOMETRY OF THE THE FULL REFUGEE CITY IN EINDHOVEN
VISUALIZATION OF THE CONCEPT IN THE ENVIRONMENT, ELEVATED STRUCTURE HELPS TO PRESERVE THE CURRENT LANDSCAPE
Design studio Dr. Swinal, ATSS 7. semestr 2017/2018 Nati onal Univeristy of Singapore, School of Design and Environment
V+A REALITY No.9 Design of scientific building focused on development of virtuality “VR” and augmented reality “AR” in Jurong Innovation district in Singapore. Jurong Innovati on district is a gateway project to Jurong West Research Induarial area. The main idea of the district is to create an interface for connecti ng research complexes with local inhabitants and the public. Interacti ve district that would educate, accomodate and host people coming from diff erent environments. Our task was to develop urban plan “the Neuron” that had been designed by student in previous semester. Urban plan was divided into 4 “villages” and 10 clusters. My building belongs to village which main purpose is to develop and present solft ware technologies and light industrial fabricati on. Aft er group analysis of our cluster we divided the functi ons between our buildings in order to compliment each other. My building has three main functi ons - Developement of VR and AR technology, light industrial 3D fabricati on and hosti ng Start up offi ces with starti ng Maker communiti es. Every of those functi ons require diff erent variety of spaces. I verti cally arranged them from basement level with the assembly hall and all other supporti ng functi on. Through mid level with open public groundfl oor and closed upper fl oors with laboratories and projecti on offi ces. Unti l the roof leven is fi nished with with sort of atti cs characteristi c Maker community. Passive design was one of the most important of site analysis and the following design. The building follows the extremely hot climate conditi ons of Singapore. Two open atriums helps with passive air fl ow. Roof surface is maximized to create large water collector. The site is also situated next to large traffi c artery and needs to defl ect it.
INNER VR CAVE ATRIUM
URBAN RESPONCE TO THE STREET AND NOISE
NOISE
GREEN AND BLUE STRATEGY - ROOF WATER COLLECTOR, PASSIVE VENTILATION
TRANSITION CONCEPT SCHEME The greatest challenge was to fi nd a way how to present and embody the idea of virtual and augmented reality. I chose the idea of transiti on from the real to the virtual. To achieve that expression I used several architectural elements.
VIRTUAL REALITY
AUGMENTED REALITY
REALITY
SIMPLE AXIS ARTIFICIAL
NATURAL
NATURALITY DARK
LIGHT
LIGHT ENVIRONMENT
VOID EXPRESSION
TYPOLOGY PROJECTIONS EXPERIMENTS
ENCLOSED OFFICE DAYLIGHT OFFICE MAKERS HOUSE
VISUALIZATION OF PUBLIC ORIENTATION CROSS PERSPECTIVE SECTION
7. 6.
MAKER COMMUNITY
ROOF GARDEN, WATER COLLECTOR
CONTROLED LABORATORIES
5.
PROJECTION ROOMS, DAYLIGHT OFFICE ROOF GARDEN
8th floor layout 1:200
4.
PROJECTION ROOMS DAYLIGHT OFFICE
CONTROLED LABORATORIES
3.
PROJECTION ROOMS
2.
PROJECTION ROOMS
DAYLIGHT OFFICE
3rd floor layout 1:200
DAYLIGHT OFFICE
CONTROLED LABORATORIES
1.
PROJECTION ROOMS DAYLIGHT OFFICE
NOMAD COFFEE WORSPACE
G B1 B2
START UP OFFICE, STORE ASSEMBLY HALL - OFFICE
ASSEMBLY HALL - PRODUCTION, SHARED WORKSHOP STORAGE, TECHNOLOGY, SECURITY STAFF
EGMS, STORAGE, DISTRIBUSION, TECHNOLOG
Ground floor layout 1:200
MAKER COMMUNITY COMMUNITY BRINGING IDEAS WORKPLACE COOPERATION CONNECTIVITY RELAX
URBAN DESIGN
SHAPE POTENTIAL
VOLUME DIVISION GROUND FL OUTLINE EMPHASIZED PUBLIC SPACE
PS
DEFLECTING WALL DOUBLE SKINN FACADE
PS
A C
B
SITUATION LAYOUT LONGITUAL SECTION OF THE COMMUNITY CENTER
PEDESTRIAN BRIDGE NEW GREENERY TO CREATE SHELTER POND
STATUE OF ST. JAN OF NEPOMUK CAR BRIDGE
Design studio Zavล el-Zdebkรก, ATZBP 6. semestr 2015/2016
CENTER OF ZDISLAVA VILLAGE OPEN SPACE FOR MARKETS AND SOCIAL OCCASIONS
RELOCATED SPORT AREA
CAR BRIDGE
CONCENTRATED PARKING SPACE
Bachelor thesis study studio with the topic of renewal of the Zdislava square. Design consist of the urban plan for the area and three new buildings - Community center with multipurpose hall, bus station with grocery store and pilgrim house.
Village carrying name of Zdislava of Lemberk was founded 1406 by german settlers. Until its renaming in 1947 the village used to be called Schรถnbach. Local urban developement, similar to the original name, is naturaly connected to the stream as the village surrounds it for four kilometers. Zdislava lies on the pilgrim road called Via Saktra adjacent do Via Regia - St. Jacobs way leading to Santiago de Compostela. Pilgrimage that used to present the social, economical and religious bond between the tri-border region of Germany, Poland and Czech kingdom. Nowadays, the pilgrimage become a turistic artery for visiting the sacral landmarks of the region. The history of Zdislava played a key part of my design, eventhough the religious consciouness was mostly lost during the communist period. During the analysis I went through very thorough research about local sacral buildings and artefacts. Consequently the become the cornerstone for the urban design of the village square. The main feature of the undeveloped village square is the statue of St. Jan of Nepomuk. Due to his atributs and religous character, traditionally his statue should be placed on a bridge or in its vicinity. In current state we cannot speak of a bridge but more likely of a burried stream corridor. This condition and also analysis of the old maps led me to idea to reopen the stream, build a new bridge on the church axis and place the statue on its rigtfull place. Moreover, I connected the banks of the stream with other two new pedestrian bridges. Another part of my design was to solve the problem of vastness of the village square unequal to its actual use. It was necessary to reduce the empty surface and create new borders in order to define it. Redesign it so the square woudl be invisibly divided into spaces which offer different function. Creating the pond helped me to reduce the size of the square area, provide sheltered spaces with surrounding trees and still keep enough open area to use it for markets and social occasions. The pond also helps to reinvite the locals to spend more time around it. In summer helps to cool down the temperatures and in wintyer provides place for ice skating. My architectural task become to compliment the existing structures and fill the empty spaces co finish the scenography of the village dominated by the baroque church. Traditionally the villages in the region were founded on intersetions of trade routes. The movement of traffic is natural part of the village center. For that reason I decided not to interviene with the existing road, but rather expend it and adapt it to new functions. To achieve that I had to relocate and focus the economical, administrative and sport functions into the reconstructed center. Three new building helped to enclose and define the square. Each one of them provides missing fuction for the village community. A _ Bus station with grocery store B _ Community center C _ Pilgrim house
A BUS STATION WITH GROCERY STORE The building is connecti ng two diff erent functi ons under one common roof. Connecti on to traffi c and movement gives this small building an opportunity to bring new character based in technology into traditi onal mountain region. Steel and glass surfaces in contrast to wooden walls, slate roofs and small openings.
CROSS SECTION OF WAITING ROOM 1:100
CROSS SECTION OF THE SHOP SC 1:100
GSEducationalVersion
ELEVATION - EAST SC 1:200
EXPLODED AXONOMETRY SC 1:200
LAYLOUT GROUND FLOOR SC 1:200
B COMMUNITY CENTER WITH MULTIPURPOSE HALL
Design consists of two functi on which are complimentary and therefore my concept was to express their engagement in the form of the building. Pub and multi purpose hall are both mainly placed on the fi rst  oor to create wheelchair accesible space and by opening the window-door they can easily break the barrier and connect the interior and exterior for traditi onal rural celebrati on or sport tournaments. Pub and multi purpose hall can be used seperately but if desired the parti ti on wall can be removed and the spaces will merge. The expression and constructi on work with local traditi onal materials but they are used in modern way. I chose the combinaton of plaster, wood panels and slate roof ti les.
ELEVATION - NORTH SC 1:200
ELEVATION - SOUTH SC 1:200
LAYOUT GROUND FLOOR SC 1:200
LAYOUT 1ST FLOOR SC 1:200
LAYOUT GROUND FLOOR SC 1:250
CROSS SECTION OF THE BEDROOM SC 1:100
CROSS SECTION OF THE SUNDAY SCHOOL SC 1:100
C PILGRIM HOUSE WITH SUNDAY SCHOOL
PŘÍČN
Ý ŘEZ
SITU ACÍ
Third building I propose for the village carries the religious spirit and hope for renewal of local pilgrim traditi on. Czech republic is the most atheisti c country in Europe due its denial through communist period. However, we cannot forget that our culture and society stands on fi rm foundati ons and traditi on of the Christi an faith. Zdislava is named aft er canonized czech noble woman - Zdislava of Lemberk. The center of the village is dominated by baroque church of St. John the Bapti st and the baroque statue of St. John of Nepomuk. Pilgrim house is emerging from the medow behind the church. His interior is divided into three parts- Sunday school, common dinning groom and common bedroom. Roof of the house is covered with grass climbing all the way up. Making the house slightly less visible. I decided for this aprchoach in order not to collide with dynamic baroque form of the church. West facade is opened to the medow and hills belonging to the church offi cials. Steel prism penetrates the wave of the roof and the entrance to the building opposes the entrance to the church. Constructi on consists of preloaded concrete shell components.
ELEVATION - WEST SC 1:200
ELEVATION - EAST SC 1:200
B SAMPLE OF TECHNICAL DOCUMENTATION COMMUNITY CENTER WITH MULTIPURPOSE HALL LAYOUT GROUNDFLOOR Pลฏdorys 1.NP M 1:50 ร 17 600
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NĂĄzev mĂstnosti
Plocha [m2]
Stěny
Podlaha
StÄ›rkovĂĄ omĂtka, bĂlĂĄ
Strop Otevřený dřevěný krov
PĹ™edsĂ?Ĺˆ HospodskĂ˝ sĂĄl
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ÄŒistĂcĂ rohoĹž, Ä?ernĂĄ
1.02
94,50
1.03
VĂ˝Ä?ep
9,50
Sikafloor Level 30, ĹĄedĂĄ StÄ›rkovĂĄ omĂtka, bĂlĂĄ Sikafloor Level 30, ĹĄedĂĄ KeramickĂ˝ obklad, bĂlĂ˝
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Chodba Sklad na obaly
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StÄ›rkovĂĄ omĂtka, bĂlĂĄ
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Sikafloor Level 30, ĹĄedĂĄ KeramickĂ˝ obklad, bĂlĂ˝
1.09
Chodba
1,70
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1.10
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Sikafloor Level 30, ĹĄedĂĄ KeramickĂ˝ obklad, bĂlĂ˝
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1.11
WC invalidĂŠ
3,85
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13,45
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TaneÄ?nĂ sĂĄl
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1.15
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1.16
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16,65
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Otevřený dřevěný krov
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1.17
VtupnĂ terasa
198,05
1.18
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1.19
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DlaŞba břidlice
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10,80
DlaĹžba Ä?ediÄ?ovĂĄ
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98,10
Prkna dřevěnå
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306,95
PS
STAVBA:
PĹ™ĂpojkovĂĄ skĹ™ĂĹˆ LEGENDA MATERIĂ LĹŽ: CLT panely
VEDOUC� ÚSTAVU NAVRHOVà N� II: Prof. Ing. arch. Zdeněk Zavřel VEDOUC� PROJEKTU: Prof. Ing. arch. Zdeněk Zavřel Ing. Josef Šanda VYPRACOVAL:
Hydroizolace TepelnĂĄ izolace - min. vata
Jakub Daniel ÄŒĂ ST:
D.1 ARCHITEKTONICKO-STAVEBNĂ? Ĺ˜EĹ ENĂ? VĂ?KRES:
PĹŻdorys 1.NP
Zemina původnà Zhutněný nåsyp
LOKà LN� V�ŠKOV� SYSTÉM Bpv: ¹0,000=404 m n.m.
Ĺ tÄ›rkopĂskovĂ˝ podsyp
Celkem 1.NP Celkem 2.NP Celkem INT objekt
139,30
Zemina pĹŻvodnĂ
539,99
SĂĄdrokartonovĂŠ konstukce
SouÄ?et
846,94
KaÄ?ĂĄrkovĂ˝ zĂĄsyp
707,64
HOSPODA S MULTIFUNKÄŒNĂ?M SĂ LEM
KONZULTANT:
ExtrudovanĂ˝ polystyren
400,69
Celkem INT
Celkem EXT
Desky, dřevěnÊ, lakovanÊ Desky, dřevěnÊ, lakovanÊ
ATBP CENTRUM OBCE ZDISLAVA Zdislava, LibereckĂ˝ kraj
Ocel B500,Beton 35/40
StÄ›rkovĂĄ omĂtka, bĂlĂĄ
Podhled SDK, C profily, Rigips
FAKULTA ARCHITEKTURY ÄŒESKÉ VYSOKÉ UÄŒENĂ? TECHNICKÉ ThĂĄkurova 9, Praha 6
Datum Akad. rok FormĂĄt MěřĂtko ÄŒ. vĂ˝kresu
12.1.2017 2016/2017 12xA4 1:50
D.1.2.2
B SAMPLE OF TECHNICAL DOCUMENTATION COMMUNITY CENTER WITH MULTIPURPOSE HALL SECTIONS ŘEZ CC' PODÉLNÝ M 1:50
E + 9,450
R1
+ 9,000
R1
R1
R
3790
R1
5590
3750
+ 8,720
280
R1
280
450
+ 9,450
+ 5,210
1880
+ 3,130
± 3,100 30
CD
2300 200 375
175
900 100
± 0,000
- 0,175
ZP1
- 0,475
575
100 100 200
- 0,375
- 0,975
100
500
600
500
- 0,500 = Ú.T.
+ 0,900
5x210 1050
50
+ 1,050
1050
+ 1,000 ± 0,000 = 1.NP
3100
2300
+ 2,300
800
+ 3,350
+ 3,130 = 2.NP
2110
9000
10 450 9950 9450
+ 4,980
ZP1
ŘEZ DD' PŘÍČNÝ M 1:50
4 + 9,000
%
R1
± 5,480
5590
3320
3960
40
+ 5,370
2250
± 3,130
230
2900
S1
DETAIL A
S 1
S 3 Břidlicová krytina, vodorovné dvojité krytí Bednění Distanční latě Pojistná hydroizolace, folie Tepelná izolace, Termodach Tetto XPS Parozábrana, nátěr Sanitile, bílý CLT panely
500x250x5mm 25mm 40x60mm
S 5 Břidlicová krytina, vodorovné dvojité krytí Bednění Distanční latě Pojistná hydroizolace, folie Tepelná izolace, minerální vláknitá izolace Rockwool Fastrock LL, + distanční latě, nosnéno roštu (křížem) 2x80, tep. izolace vložena mezi a lepena
180mm 80mm
Železobetonová stěna, nosná Stěrková omítka, bílá
S 2
500x250x5mm 25mm 40x60mm
Břidlicová krytina, vodorovné dvojité krytí Bednění Distanční latě Pojistná hydroizolace, folie Tepelná izolace, Termodach Tetto XPS Parozábrana, nátěr Sanitile, bílý CLT panel
500x250x5mm 25mm 40x60mm 180mm 180mm
5mm 160mm 300mm 5mm
S 6 Břidlicová krytina, vodorovné dvojité krytí Bednění Distanční latě Pojistná hydroizolace, folie Tepelná izolace, minerální vláknitá izolace Rockwool Fastrock LL + distanční latě, nosnéno roštu (křížem) 2x80, tep. izolace vložena mezi a lepena Parozábrana, nátěr Sanitile, bílý CLT panel
500x250x5mm 25mm 40x60mm 160mm
30mm
100 100 200
- 0,975
P 1 Břidlicová krytina, vodorovné dvojité krytí Bednění Distanční latě Pojistná hydroizolace, folie Tepelná izolace, minerální vláknitá izolace Rockwool Fastrock LL + distanční latě, nosnéno roštu (křížem) 2x80, tep. izolace vložena mezi a lepena Parozábrana, nátěr Sanitile, bílý CLT panel
300mm 5mm
S 4
- 0,475
S 7 Akrylová omítka Weber, bílá Tepelná izolace, minerální vláknitá izolace Rockwool Fastrock LL, kotvena terčíky Železobetonová stěna, nosná Stěrková omítka, bílá
160mm
± 0,000
375
ZP1
- 0,975 = Základová spára
- 0,375 100
600
- 0,100 = Ú.T.
- 0,175
1000
- 0,200
210
± 0,000 = 1.NP
200
DETAIL B
3130
600
+ 2,300
2300
3130
+ 2,250
± 3,100
175
+ 3,130 = 2.NP
230
1880
2350
10 450
9450
+ 4,980
Akrylová omítka Weber, bílá 5mm Tepelná izolace, minerální vláknitá izolace Rockwool Fastrock LL, lepena k podkladu 160mm Parozábrana, nátěr Sanitile, bílý CLT panel 30mm
500x250x5mm 25mm 40x60mm
Sikafloor Lev samonivelač Penetrace po se zásypem k Železobeton Stěrková om
160mm
150mm
P 2
Sikafloor Lev samonivelač Penetrace po se zásypem k Betonová ma Tepelná izola Železobeton Hydroizolace Podkladní be Štěrkopískov
1
G 520
+ 9,500
+ 9,450
KO2 R1
R1
+ 8,700
CLT 5
R3 40
3620
± 0,000
%
3960
R1
R1
- 0,975
± 5,480
± 0,000
R2 - 0,975 2350
1880
2250
+ 2,900
DETAIL E
5580
230
+ 3,130 = 2.NP
± 0,000
600
480
1100
620
+ 3,130
230
850
± 3,750
9550
+ 4,980
Z2
- 0,975
S1 2300
3130
S1
3075
S1
± 0,000 = 1.NP
100
DETAIL E
600
ZP2
ZP1
100
100
600
- 0,100 = Ú.T.
ZP1
- 0,975 = Základová spára
5 + 9,450
63
62
74
3960
60
62
52
± 5,480
3200
R1
5100
+ 3,130 = 2.NP
2250
S1
vel-30, cementová ční stěrka odkladu Sika Level-01 Primer křemičitým pískem nová deska mítka
vel-30, cementová ční stěrka odkladu Sika Level-01 Primer křemičitým pískem azanina ace, Isover EPS GREY nová deska e, asfaltové pásy 2*2mm etonová deska vý podsyp
ZPi
140
900
ZP1
1000
100
40
FAKULTA ARCHITEKTURY ČESKÉ VYSOKÉ UČENÍ TECHNICKÉ Thákurova 9, Praha 6
ZPi
± 0,000 = 1.NP
ATBP CENTRUM OBCE ZDISLAVA Zdislava, Liberecký kraj
- 0,180 = Ú.T.
ZPi
- 1,150
STAVBA:
HOSPODA S MULTIFUNKČNÍM SÁLEM
- 0,975 = Základová spára LEGENDA MATERIÁLŮ: CLT panely Železobeton
P 3
200mm 5mm
25mm 5mm 45mm 100mm 200mm 2*2mm 100mm 100mm
30mm
45mm 100mm 200mm 4mm 100mm 100mm
Beton prostý Dlažba, břidlice Ložní vrstva, pískové lože Nosná vrstva
ZP1 Zakládací pas 1:
ZP2 Zakládací pas 2:
P 4 Vstupní rohož hliníková, Topwell Standart Betonová mazanina Tepelná izolace, Isover EPS GREY Železobetonová deska Hydroizolace, asfaltové pásy Podkladní betonová deska Štěrkopískový podsyp
22mm 53mm 100mm 200mm 2*2mm 100mm 100mm
S1
VEDOUCÍ PROJEKTU: Prof. Ing. arch. Zdeněk Zavřel KONZULTANT: Ing. Josef Šanda
P 5 Dřevěné lakované parkety Lepidlo OSB deska 3*15mm Tepelná izolace, Isover EPS GREY Železobetonová deska Hydroizolace, asfaltové pásy Podkladní betonová deska Štěrkopískový podsyp
30mm
VEDOUCÍ ÚSTAVU NAVRHOVÁNÍ II: Prof. Ing. arch. Zdeněk Zavřel
Ocelový sloup:
10mm 40mm 150mm
Betonová vana s vetknutými stěnami h=600mm,tl.=400mm Uloženo na základovém pasu Úroveň základové spáry= -0,975 Betonová vana s vetknutými stěnami h=600mm,tl.=300mm Uloženo na základovém pasu Výšková úroveň základové spáry= -0,975m Ø110mm, tl. 20mm, h=2300mm Ocel slitinová, žáruvzdorná, 80KN/m3
ZPi
Závitová pilota
Délka 1000mm, hlouka založení -1,150m
R1
Lepené rámy:
Výrobce Haas s.r.o Lepené lamelové dřevo GL24c, 3,5KN/m3 Uložení +3,100m, tl. 180 mm
CLT panely: CLT 1 CLT panel 1: CLT 2 CLT panel 2:
Výrobce Stora Enso CLT Swiss pine S=4,67m2, tl. 180mm Uložení +3,100 m S=6,7m2, tl. 180mm Uložení +3,100 m
Z1
Zábradlí
Výška 1100mm
Z2
Zábradlí
Výška 480mm + betonový průvlak 620mm
Z3
Zábradlí
Šikmá část zábradlí, výška 1100mm
Hydroizolace Tepelná izolace - min. vata
Ocel B500,Beton 35/40
Extrudovaný polystyren
CLT 3 CLT panel 3:
S=9,42m2, tl. 180mm Uložení +3,100 m
VZT Vyústění vzduchotechniky
Zemina původní
CLT 4 CLT panel 4:
S=7,95m2, tl. 180mm Uložení +3,100 m
KO2 Konstrukce střešního okna
CLT 5 CLT panel 5:
S=36,68m2, tl. 200mm Uložení +3,100 m
CLT 6 CLT panel 6:
S=35,64m2, tl. 200mm Uložení +3,100 m
CLT 7 CLT panel 7:
S=12,85m2, tl. 200mm Uložení +3,100 m
CLT 8 CLT panel 8:
Tl. 180mm
CD Cetrisová deska
Ocelový nosník, uzavřený profil s rámem na sklo JANSEN, výška 250mm Obložení horní hrany betonové zdi, barva šedá, 30 mm
Zhutněný násyp Štěrkopískový podsyp
VYPRACOVAL: Jakub Daniel ČÁST:
D.1 ARCHITEKTONICKO-STAVEBNÍ ŘEŠENÍ VÝKRES:
ŘEZY CC', DD'
LOKÁLNÍ VÝŠKOVÝ SYSTÉM Bpv: ±0,000=404 m n.m.
Datum Akad. rok
Zemina původní Sádrokartonové konstukce
Formát Měřítko Č. výkresu
Kačárkový zásyp
12.1.2017 2016/2017 12xA4 1:50
D.1.2.5
Bí-Da Michal Bílek Jakub Daniel
Současná podoba interiéru To sebou přináší vrstvení m úrovni, proto si návštěvník záměr. Hlavním cílem pro n místo, ve kterém se nebude vložit úplně nový prvek – v objímá, obklopuje, požírá, p
Vestavba ve tvaru C nedos
Prostorově vyboulená kons Design studio Zavřel-Zdebká, October-November 2015
WORKSHOP STAIRCASE 1
byla povrchově dokončena posílena vznikem komunik odstoupenou terasou pod podlahy a grafickým přesah matně bílém provedení. To čítárny je provedeno těžkým při konferencích, jednoduš v podobě záclon před páse pomocí rozptýlení světla o Běžné osvětlení je řešeno s
24
Winning design for construction “I wanted to work only with characteristics of the provided wooden board material. The biggest challenge was to make the boards look dynamic and light - loosing the “boxy” feeling. Next part of the design was to profile the single step. The biggest advantage of the board material became the use CNC cutter to model the step according to my preferences. This technology led me to idea of multiple staircase profiles connected with threaded rods.” Fasteners distance matrix M20 fastening matrix M16 round matrix M16 distance pad M18 hangign clips screw M8x60 screw M8x80 screw M5x70 threaded rods M16 2m Total price
pieces 120 16 16 288 2 18 8 29 8 150 EUR
AXONOMETRY - CONSTRUCTION PRINCIPLE
1170
1065
SECTION-ELEVATION
+2,800
16 15
Detail C
14 13 12 11 10
7 6
0
/28
75
x1
16
2800
9 8
5 4 3 2 1 +0,000
LAYOUT
4665 173
4492 450
560
560
560
560
560
560
560
122
980
173
Detail A 4167
141 183
4350
141
4492
DETAIL 277
40
hranol 80x100mm
17 +2,800
277 277
22
3 16 3
hranol hranol80x100mm 80x100mm
1717 +2,800 +2,800
hranol 80x100mm 50
5050
2222
matice distanční M20 80x100mm ocelový plechhranol tl. 3mm hranol 80x100mm
9292
2020
matice maticedistanční distančníM20 M20 ocelový ocelovýplech plechtl.tl.3mm 3mm
6
165
27
závitová závitovátyč tyčM16 M16
6
závitová tyč M16
20
92
15
40
22
ocelový plech tl. 3mm 40
podložka M18
ocelový ocelovýplech plechtl.tl.3mm 3mm
matice maticedistanční distančníM20 M20
204
204 204
2
22
ocelový plech tl. 3mm WT-S/T WT-S/T6,5 6,5xx65 65mm mm ocelový ocelovýplech plechtl.tl.3mm 3mm
8282
50
10
WT-S/T 6,5 x 65 mm
15 3
82
podložka podložkaM18 M18
28
165 165
matice distanční M20
50
40
4040
5050
5050 2 22222
kontejner
22
50
20
kontejner kontejner
2222
5050
2020
92
10
ocelový plech tl. 3mm
hranol 80x100mm
ocelový ocelovýplech plechtl.tl.3mm 3mm
hranol hranol80x100mm 80x100mm
204
10
110
1010
110 110
408 9292
1010
204 204 408 408
3
Zdeněk Zavřel Markéta Zdebská Matúš Berák 01 Michal Bílek 02 Jakub Brejša 03 Jakub Daniel 04 Jiří Foller 05 Maroš Galáž 06 Stefan Knecht 07 Kristýna Lennerová 08 Anton Lukáč 09 Laura Molínová 10 Thu Huong Phamová 11 Tomáš Rudý 12 Daniela Salvová 13 Petr Slavíček 14 Martin Smola 15 Pavlína Šilhánková 16 Dagmar Tománková 17 Kristýna Tomanová 18 Marek Ulč 19 Nikola Žuchová 20
foto Lubomír Kotek
3
Design Studio Zavřel-Seho, ATOS 4. semestr 2014/2015
CABLE STATION TO JEŠTĚD TOWER Complimenting station for Ještěd Tower television transmitter (part of the UNESCO heritage)
My goal was to design befi tti ng pendant to the dominati ng transmission tower on the top of the Ještě mountain. I decided to take the key elements of the transmission tower and implement them into my design. One them was the circular shape and the other to use similar material to reach the common tectonic expression. Lower cable stati on and the site creates the borderline for summer and winter tourism. Throughout the year the stati on connects the touristi c track system leading to Liberec city and around the mountain. For winter season, my design includes suggesti on for expanding the ski lift s to connect with rest of the Ski Areal Liberec. The stati on shelters several functi ons. Larger building is for cable stati on with accomodati on for technical crew and storing background for Mountain rescue service. Smaller building is for mountain buff et. Compositi on of the building is designed to withstand extreme mountain conditi ons. The shape of the roof prevents to accumulate snow and decreases the risk of injury by falling snow. Most of the building is built into the ground to create natural insulati on and minimalize the surface. The casing of the main tubus that covers cable mashine is covered by small circular openings with windows and refl ectors that permit the light to get in. In the night or foggy conditi ons the tubus can light up to create orientati on point.
BORDERLINE OF WINTER AND SUMMER TOURISM
EASILY MAINTABLE IN EXTREME CONDITIONS
ORIENTATION POINT
SKETCH OF THE CONTEXT CONTINUITY
SITE AXONOMETRY
SITE 1:1000
Wint er to
urism
Summ
er to
urism
ELEVATION WEST
LONGITUGINAL PERSPECTIVE SECTION
CROSS PERSPECTIVE SECTION
0 1 :2 0 2.NP
LAYOUT 2ND FLOOR SC 1:500
P 1:
200
LAYOUT GROUND FLOOR SC 1:500
-1. N
LAYOUT 1ST UNDERGROUND FLOOR SC 1:500
1. NP 1:150
PORTFOLIO Jakub Daniel FA ČVUT 2013/2014
Design studio Kvízová-Fenclová, ZAT 2. semestr 2013/2014
LOOKOUT TOWER Rehabilitation and renewal of landscape destroyed by surface mining. Design of small studio on the articially originated lake island. Additional assignment: Design of lookout tower in the middle of the lake island
When walking up on the lookout tower the greates moment was for me the final step when the whole view to landscape opens up at one. To achieve that effect I chose to cover the load bearing core with wooden cloak. Through the lattices you can see glimpses of the landscape, but the full view is revealed only on the top. To emphasize this moment the staircase on the upper part of tower is moved inside the concrete core. Layout of the sferic triangle was developed from local conditions. Aerodynamic shape is directed according to the wind streams. The full wooden wall with entrance is perpendiculary opposing the pedestrian bridge.
LAYOUTS THROUGH THE TOWER SC 1:100
PERSPECTIVE SECTION SC 1:100
Design studio Kvízová-Fenclová, ZAN 1. semestr 2013/2014
THE SUN THEATRE Wall, opening, staircase - architectural expression of interior and exterior space defined by cube of 7,5m Universal, simple and eff ecti ve, those are the words which fi ts the descripti on of my project. Theatre due its constructi on is easily transportable in one piece by a truck. It provides spaces for performances and can be use as a projecti ng surface from inside and outside. Originally I intended to follow the concept of black box and keep the theatre closed, but then I decided to impliment the rotati ng facade panels into the design and open the interior to the sun. Panels enable the people inside to refl ect and direct the sunlight. Hydraulic tables in the fl oor due it its division off ers variety of stage formati ons. From classical to catwalk of humble size.
LIGHT SKETCH
CONCEPTUAL USE OF SPACE AND PROJECTION
VARIATION OF STAGE TABLES
LAYOUT GROUND FLOOR - ROTATING FACADE
CLOSED FACADE
LAYOUT DIVISION OF STAGE TABLES
OPEN FACADE
LAYOUT 2ND FLOOR - STAIRCASE TO GALLERY
SECTION