portfolio:selected works
DESCRIPTION
Selected works from Texas Tech. 2011-15TRANSCRIPT
Vicente Carrasco_________________
Architecture portfolioSelected works 2011 - 2015
Portfolio
V i c e n t e C a r r a s c o
selected works 2 0 1 5
Portfolio
V i c e n t e C a r r a s c o
selected works 2 0 1 5
Home Address
2517 27th St. Lubbock TX, 79410
Ph.(432) 556 – 2821
issuu.com/vicente_carrasco
ig:vicente_carrasco
linkedin.com/in/carrascovicente
Knights of ArchitectureTTU, Lubbock, TX Fall 2011 – Spring 2014 Webmaster Jan. 2012 – May 2012
Maintained the Wiki page and Facebook account
Vice-President Fall 2012 – Spring 2013 Assisted the organization in any way possible from creating posters to organizing events. Took on role of president if necessary. President Fall 2013 - Beginning Fall 2014 Took the leadership role in Knights. Organized all meetings, events, communications and members. Assisted in all aspects from web design, graphic design, and announcements to the student body.
Architecture Student CouncilTTU, Lubbock, TX Fall 2013-Fall 2014_Co-Chair As chair I oversaw all the organizations and helped maintain all societal calendars. Also helped lead the organization of the renewal of the TTU Beaux Arts Ball.
Interest/skills
Texas Tech University SingersTTU, Lubbock,TX Aug. 2009 – May 2010
2nd Tenor /Baritone
Texas Tech Matador SingersTTU, Lubbock, TX Aug. 2010 – May 2011 2nd Tenor/ Baritone
Product Design
Lighting, Jewelry, Furniture
Bilingual
Spanish
Travelstudy abroad
Dehli_Jaipur_Pondicherry_Auraville IN DF_Puebla_Oaxaca MX Seoul SKTokyo JP
Programs
Revit o o o o o Auto cad o o o o Rhino/Vray o o o o o oAdobe Creative Suites o o o o o oSketchUp o o oGrasshopper o o oProcessing o oMicrosoft Office o o o o o o
Education
Texas TechLubbock, TX Graduation May 2013 Concentration: Bach: ArchitectureGPA: 3.3Texas TechLubbock, TX Graduation Dec. 2014 Concentration: Masters: ArchitectureCertificate: Digital Design and FabricationGPA: 3.4
Experience
Graduate AssistantI assisted the professor in grading and making homework assignments, quizzes and lab work. I helped oversee lectures and taught a lab section. This consisted of helping students with math and any conceptual problems they might have. Arch Construction 3, Peter Raab, TTU Jan. 2014 - May 2014 Arch Construction 2, Peter Raab, TTU Aug. 2014 - Dec. 2014
Drafter Carrasco Homes LLC, Midland, TX March 2013 – Present
I worked on recreating floor plans in Revit that Sr. Carrasco had drawn up himself and also any changes on existing floor plans. I also made renderings for the Midland Parade of Homes the Company Participated in.
Hunn Designs, Lubbock, TX June 2014 - Aug. 2014
Summer internship working on consrtuction documentation. Image EditorDr. Clifton Ellis, TTU, Lubbock, TX Aug. 2012 – May 2013 Assisted in scanning and digitally editing a collection of slides for Associate Dean Ellis’ history class.
Organizations
AIASTTU, Lubbock, TX Aug. 2009 – May 2011
_Member
Vicente CarrascoContact Information
out of 7
VC
Home Address
2517 27th St. Lubbock TX, 79410
Ph.(432) 556 – 2821
issuu.com/vicente_carrasco
ig:vicente_carrasco
linkedin.com/in/carrascovicente
Knights of ArchitectureTTU, Lubbock, TX Fall 2011 – Spring 2014 Webmaster Jan. 2012 – May 2012
Maintained the Wiki page and Facebook account
Vice-President Fall 2012 – Spring 2013 Assisted the organization in any way possible from creating posters to organizing events. Took on role of president if necessary. President Fall 2013 - Beginning Fall 2014 Took the leadership role in Knights. Organized all meetings, events, communications and members. Assisted in all aspects from web design, graphic design, and announcements to the student body.
Architecture Student CouncilTTU, Lubbock, TX Fall 2013-Fall 2014_Co-Chair As chair I oversaw all the organizations and helped maintain all societal calendars. Also helped lead the organization of the renewal of the TTU Beaux Arts Ball.
Interest/skills
Texas Tech University SingersTTU, Lubbock,TX Aug. 2009 – May 2010
2nd Tenor /Baritone
Texas Tech Matador SingersTTU, Lubbock, TX Aug. 2010 – May 2011 2nd Tenor/ Baritone
Product Design
Lighting, Jewelry, Furniture
Bilingual
Spanish
Travelstudy abroad
Dehli_Jaipur_Pondicherry_Auraville IN DF_Puebla_Oaxaca MX Seoul SKTokyo JP
Programs
Revit o o o o o Auto cad o o o o Rhino/Vray o o o o o oAdobe Creative Suites o o o o o oSketchUp o o oGrasshopper o o oProcessing o oMicrosoft Office o o o o o o
Education
Texas TechLubbock, TX Graduation May 2013 Concentration: Bach: ArchitectureGPA: 3.3Texas TechLubbock, TX Graduation Dec. 2014 Concentration: Masters: ArchitectureCertificate: Digital Design and FabricationGPA: 3.4
Experience
Graduate AssistantI assisted the professor in grading and making homework assignments, quizzes and lab work. I helped oversee lectures and taught a lab section. This consisted of helping students with math and any conceptual problems they might have. Arch Construction 3, Peter Raab, TTU Jan. 2014 - May 2014 Arch Construction 2, Peter Raab, TTU Aug. 2014 - Dec. 2014
Drafter Carrasco Homes LLC, Midland, TX March 2013 – Present
I worked on recreating floor plans in Revit that Sr. Carrasco had drawn up himself and also any changes on existing floor plans. I also made renderings for the Midland Parade of Homes the Company Participated in.
Hunn Designs, Lubbock, TX June 2014 - Aug. 2014
Summer internship working on consrtuction documentation. Image EditorDr. Clifton Ellis, TTU, Lubbock, TX Aug. 2012 – May 2013 Assisted in scanning and digitally editing a collection of slides for Associate Dean Ellis’ history class.
Organizations
AIASTTU, Lubbock, TX Aug. 2009 – May 2011
_Member
Vicente CarrascoContact Information
out of 7
VC
Student living :an off campus living comunity Cholula, Puebla, Mexico__________
GraduateSpring first year joseph aranha (Professor)
Project
This project was set in Cholula, Mexico. The eventual project was up to the individual. We had three sites along a central axis to pick from and then we had to choose whether to do social housing or student housing since Cholula is home the La Universidad de las Americas and is growing as a college town. The program was to be 25% commercial and 75% residential.
After a study into central Mexican architecture and archetypes, both traditional and contemporary, we as a class took a week trip abroad to D.F., Oaxaca, and Puebla/Cholula. The site was investigated and our research and study was validated and reinforced. I chose this site since it was also on the same axis of the Cholula pyramid, a major cultural and tourist site of the area.
My design initially began with a priority of views of the major landmarks, specifically the view of the pyramid and both volcanoes nearby, Popocatepetl and Iztaccihuatl, however with the occupancy restraints I shifted to the priority of having every unit have a terrace and hence a general view of the area. It resulted in a inverted pyramid of sorts that creates a community with a elevated street side patio and a courtyard. The facade makes use of the local building material, masonry brick, and takes a cue from the ancient pyramids and their canted walls. Every 10 meters they alternate creating a dynamic street facade where otherwise flat faced structures line the streets. For the open patio spaces and light wells, a screen was needed for light and ventilation and a pattern was adapted from the traditional Talavera tile work that the region is renowned for.
revitphotoshop
DW
WW
WW
WD
DD
UP
UP
UP
UP
1 5 10 20FT
n
A
first floor plan
night time terrace view
1. parking2. mail room3. laundry4. restaurant/cafe5. commercial space6. residential office7. theatre8. gym9. game room10. pool11. courtyard12. paseo entrance
1
23
4
5 55
67
8
910
12
11
5
5
5
Student living :an off campus living comunity Cholula, Puebla, Mexico__________
GraduateSpring first year joseph aranha (Professor)
Project
This project was set in Cholula, Mexico. The eventual project was up to the individual. We had three sites along a central axis to pick from and then we had to choose whether to do social housing or student housing since Cholula is home the La Universidad de las Americas and is growing as a college town. The program was to be 25% commercial and 75% residential.
After a study into central Mexican architecture and archetypes, both traditional and contemporary, we as a class took a week trip abroad to D.F., Oaxaca, and Puebla/Cholula. The site was investigated and our research and study was validated and reinforced. I chose this site since it was also on the same axis of the Cholula pyramid, a major cultural and tourist site of the area.
My design initially began with a priority of views of the major landmarks, specifically the view of the pyramid and both volcanoes nearby, Popocatepetl and Iztaccihuatl, however with the occupancy restraints I shifted to the priority of having every unit have a terrace and hence a general view of the area. It resulted in a inverted pyramid of sorts that creates a community with a elevated street side patio and a courtyard. The facade makes use of the local building material, masonry brick, and takes a cue from the ancient pyramids and their canted walls. Every 10 meters they alternate creating a dynamic street facade where otherwise flat faced structures line the streets. For the open patio spaces and light wells, a screen was needed for light and ventilation and a pattern was adapted from the traditional Talavera tile work that the region is renowned for.
revitphotoshop
DW
WW
WW
WD
DD
UP
UP
UP
UP
1 5 10 20FT
n
A
first floor plan
night time terrace view
1. parking2. mail room3. laundry4. restaurant/cafe5. commercial space6. residential office7. theatre8. gym9. game room10. pool11. courtyard12. paseo entrance
1
23
4
5 55
67
8
910
12
11
5
5
5
5
south
aerial perspective
2nd story 2 bed
3rd story 2 bed
4th story 1 bed loft
Assembled block
REF.REF.
REF.
REF.
DN
DN
REF.
REF.
elevated street scapetyp.. bedroom for 2 bedroom apt.
1. kitchen2. dining3. bath4. bedroom5. living6. closet7. terrace8. lightwell9. courtyard patio10. stairwell
1
1
1 1
1
1
2
2
2 2
2
33 3 3 3
3
4 4 4 4 4 4 4 4 445
6
7
7 7
7 7
8 8 8 89 9
88
10
10
107
6
6 6 6 6
5
5 55 5
2
south
aerial perspective
2nd story 2 bed
3rd story 2 bed
4th story 1 bed loft
Assembled block
REF.REF.
REF.
REF.
DN
DN
REF.
REF.
elevated street scapetyp.. bedroom for 2 bedroom apt.
1. kitchen2. dining3. bath4. bedroom5. living6. closet7. terrace8. lightwell9. courtyard patio10. stairwell
1
1
1 1
1
1
2
2
2 2
2
33 3 3 3
3
4 4 4 4 4 4 4 4 445
6
7
7 7
7 7
8 8 8 89 9
88
10
10
107
6
6 6 6 6
5
5 55 5
2
7
Level 10.00
Level 24.00
Level 37.00
Level 410.00
Level 513.60
Level 10.00
Level 24.00
Level 37.00
Level 410.00
Level 513.60
A---
section A
north street view
east street view
north east aerial perspective
gym concept layout talavera pattern
3 var. brick pattern
Level 10.00
Level 24.00
Level 37.00
Level 410.00
Level 513.60
Level 10.00
Level 24.00
Level 37.00
Level 410.00
Level 513.60
A---
section A
north street view
east street view
north east aerial perspective
gym concept layout talavera pattern
3 var. brick pattern
9
19th 19TH
UN
IVERSITY
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
overlaping diagrams
LHUCA site
extracted diagrams
diagramatic overlay eventual site
312 1250 5000 ft
19th 19TH
UN
IVERSITY
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
Bike Node :Public bike trading post proposalLubbock, TX__________
undergrad Spring Second year Dustin White (Professor)
Project
The Project was to propose a biking station for a bike sharing system in the city of Lubbock. Freedom was given in the decision of choosing a location based off mapping and our own investigations. Research began with other bike sharing systems, in this case the bixi system in Montreal. Much was looked for in the investigation including the payment systems, return stations and overall effectiveness of the sharing system on the city. From there, research moved to bikes, roads, trails and radii within the city.
I choose nodes of places that at the time of the project I thought were hotspots in the city of Lubbock. A 1.0 mile radius was extended from each node to denote a probable biking zone from the hot spot. Focus moved to the overlapping areas; the heaver of overlap the better for a biking station since this denoted a central area in the city. Three areas seemed of interest; Lubbock Christian University, a local movie theatre, and downtown at the Louise Hopkins Underwood center for the arts or LHUCA.
Diagrams were created from the surrounding site information. Lines were pulled directly from roads, lamps, buildings etc. Through different iterations of mapping and diagraming one location stood out for its more dynamic drawings. Focus came to the LHUCA center in the depot district. This is a major cultural hot spot in downtown Lubbock and part of a monthly art trail.
I overlapped several diagrams and sought to find regulating lines for my site. Eventually I was able to find a good scheme. The lines that were made dictated my site and shape for my station. I extended the station to across the street in order to avoid traffic. My concept is signage. The perspective of the building changes depending on location. From the LHUCA one sees a long elegant structure in the east elevation. Drivers see an overpass, pedestrians a bridge/walkway and bikers a bridge/covered station. The overpass is spilt between pedestrian and bikers with benches extruding out of the surface.
rhinoillustrator
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
19th 19TH
UN
IVERSITY
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
overlaping diagrams
LHUCA site
extracted diagrams
diagramatic overlay eventual site
312 1250 5000 ft
11
19th 19TH
UN
IVERSITY
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
Bike Node :Public bike trading post proposalLubbock, TX__________
undergrad Spring Second year Dustin White (Professor)
Project
The Project was to propose a biking station for a bike sharing system in the city of Lubbock. Freedom was given in the decision of choosing a location based off mapping and our own investigations. Research began with other bike sharing systems, in this case the bixi system in Montreal. Much was looked for in the investigation including the payment systems, return stations and overall effectiveness of the sharing system on the city. From there, research moved to bikes, roads, trails and radii within the city.
I choose nodes of places that at the time of the project I thought were hotspots in the city of Lubbock. A 1.0 mile radius was extended from each node to denote a probable biking zone from the hot spot. Focus moved to the overlapping areas; the heaver of overlap the better for a biking station since this denoted a central area in the city. Three areas seemed of interest; Lubbock Christian University, a local movie theatre, and downtown at the Louise Hopkins Underwood center for the arts or LHUCA.
Diagrams were created from the surrounding site information. Lines were pulled directly from roads, lamps, buildings etc. Through different iterations of mapping and diagraming one location stood out for its more dynamic drawings. Focus came to the LHUCA center in the depot district. This is a major cultural hot spot in downtown Lubbock and part of a monthly art trail.
I overlapped several diagrams and sought to find regulating lines for my site. Eventually I was able to find a good scheme. The lines that were made dictated my site and shape for my station. I extended the station to across the street in order to avoid traffic. My concept is signage. The perspective of the building changes depending on location. From the LHUCA one sees a long elegant structure in the east elevation. Drivers see an overpass, pedestrians a bridge/walkway and bikers a bridge/covered station. The overpass is spilt between pedestrian and bikers with benches extruding out of the surface.
rhinoillustrator
156 625 2500 312 1250 5000 ft
1 mile biking radii
Hotspot
Hotter-spot
.5
2
.5
5
12
.5
25
ft
scal
e: 1
/16”
sect
ion
cut
bike
rack
build
ing
park
ing
tree
.5 2.5 5 12.5 25 ft
bike rack
building
parking
tree
bicyclist perspective
pedestrian perspective
south
west
north
east (view from LHUCA)
aerial perspective
.5
2
.5
5
12
.5
25
ft
scal
e: 1
/16”
sect
ion
cut
bike
rack
build
ing
park
ing
tree
.5 2.5 5 12.5 25 ft
bike rack
building
parking
tree
bicyclist perspective
pedestrian perspective
13
south
west
north
east (view from LHUCA)
aerial perspective
a
b
Floor Plan
1
2 3
47
6
5
32
29
3
4
7
26
18
19
20
21
4
4
8
8
16
2517 17
567
10
9
3 3
11
11
12
56
13
14
15
3 3
22
22
23 24 24
628 5
27
1. chappel2. activity room3. restroom4. lobby5. mechanical room6. electrical room7. storage8. pharmacy9. counseling10. psychiatry11. exam room12. physical therapy13. dental14. salon15. veterinarian16. networking17. meeting room
18. kitchenette/cafetria 19. bank/mail20. career center21. vocational room22. classroom23. laundry24. bathroom25. pavillion/library26. store27. office28. security29. tent area
physiologicalsafety/healthlove/belongingesteem
Project
This summer comprehensive studio focused on the tent city in Lubbock. This is a facility that provides shelter to the homeless by providing them army tents and shelter to help them pull themselves out of their situation. The facility will provide counseling, food, bath, shelter, community and a route to find a job. This is a new program that the city has taken on and we were tasked to design a facility to provide the means to rehabilitate them into main stream society.We traveled to San Antonio to visit the Haven for Hope program and also researched Dallas’ The Bridge project. At these programs they screen applicants who pledge to stay clean off drugs and adhere to rules. They usually start off in a public community sleeping area and over time climb a tiered system to where they live inside the compound. Eventually they will have a steady job and housing off the campus.The task handed to the studio was to look at the current site and design the chapel and facility area for the accepted people that includes a library, shower, kennel, community garden, cafeteria, job training areas and any other program we see fit.
This being a summer comprehensive studio we had to team up with a partner to complete the workload. We adopted maslows hierarchy of needs for a concept. We separated the program along physiological, safety, love/belonging, and esteem with the last and final tier, self-actualization, to take place once they graduate out of the program, The first step, physiological is met with the bathrooms, tents and kitchen. All this is accessed through the lobby and applying for the program. Safety and health are dealt with the social services provided and clinic area. The non-denominational chapel is designated for the love and belonging along with the central courtyard. Esteem is achieved amongst the community and takes place in the tent area along with any other public space. Providing the basic necessities we hope to encourage people to bring themselves out of their situation.
We really wanted the facilities to be available to the outside community as well as the occupants. We have several services that are open to the public including the chapel, health services, and vet.
Tent cityA homeless rehabilitation center__________
Graduatesummer first yearGibran Ramirez (partner)David driskill (Professor)Andrew Vernooy (professor)
revitphotoshop
illustrator
a
b
Floor Plan
1
2 3
47
6
5
32
29
3
4
7
26
18
19
20
21
4
4
8
8
16
2517 17
567
10
9
3 3
11
11
12
56
13
14
15
3 3
22
22
23 24 24
628 5
27
1. chappel2. activity room3. restroom4. lobby5. mechanical room6. electrical room7. storage8. pharmacy9. counseling10. psychiatry11. exam room12. physical therapy13. dental14. salon15. veterinarian16. networking17. meeting room
18. kitchenette/cafetria 19. bank/mail20. career center21. vocational room22. classroom23. laundry24. bathroom25. pavillion/library26. store27. office28. security29. tent area
physiologicalsafety/healthlove/belongingesteem
Project
This summer comprehensive studio focused on the tent city in Lubbock. This is a facility that provides shelter to the homeless by providing them army tents and shelter to help them pull themselves out of their situation. The facility will provide counseling, food, bath, shelter, community and a route to find a job. This is a new program that the city has taken on and we were tasked to design a facility to provide the means to rehabilitate them into main stream society.We traveled to San Antonio to visit the Haven for Hope program and also researched Dallas’ The Bridge project. At these programs they screen applicants who pledge to stay clean off drugs and adhere to rules. They usually start off in a public community sleeping area and over time climb a tiered system to where they live inside the compound. Eventually they will have a steady job and housing off the campus.The task handed to the studio was to look at the current site and design the chapel and facility area for the accepted people that includes a library, shower, kennel, community garden, cafeteria, job training areas and any other program we see fit.
This being a summer comprehensive studio we had to team up with a partner to complete the workload. We adopted maslows hierarchy of needs for a concept. We separated the program along physiological, safety, love/belonging, and esteem with the last and final tier, self-actualization, to take place once they graduate out of the program, The first step, physiological is met with the bathrooms, tents and kitchen. All this is accessed through the lobby and applying for the program. Safety and health are dealt with the social services provided and clinic area. The non-denominational chapel is designated for the love and belonging along with the central courtyard. Esteem is achieved amongst the community and takes place in the tent area along with any other public space. Providing the basic necessities we hope to encourage people to bring themselves out of their situation.
We really wanted the facilities to be available to the outside community as well as the occupants. We have several services that are open to the public including the chapel, health services, and vet.
Tent cityA homeless rehabilitation center__________
Graduatesummer first yearGibran Ramirez (partner)David driskill (Professor)Andrew Vernooy (professor)
revitphotoshop
illustrator
15
Section B
Call outs
vapor retarderepdm roofing mem.
thermal insulation10”x2” lg steel
.5” gypsum board
floor moldingtile
treated wood nailer
sponge tubing
3.5” limestone venneer
flashing
dripu-block concrete beam
precast concrete coping
1/2” steel dowels @ ev. coping joint
roof decking
3” ridged insulation
3” air space
flashingsteel angle rod o.c. 16”anchor tie
joint reinf. 16” o.c. vertically
8” load bearing cmu
vert. reinforcementridged insulation
porus backfil
1/2” steel dowels
wood decking
flashing3.5” limestone venneer
8” load bearing cmu
3” ridged insulation3” air space
flashing
tensothem clipplate
2” rod membersbearing plate
spherical node
ptfe coated glass fibernanogel/aerogel insulating blanket3” limestone venneer
anchor tie
fill with mortar
membrane w.p.
callouts
V.1 V.2 V.3
white metal rainscreen panel
ptfe coated glass fibernanogel/aerogel insulating blanket
rainscreen system
tensotherm fabric (r12)
tectum deck system
g.2
insulated metal panel
nanawall system
wall anchor clipc-profile horizontal rail
undercut anchor
t-profile vertical rail
set screw
set crewtensotherm clip
epdm (ethylene propylene diene monomer) rubber
concrete
bridging platemetal square plate
steel deck
tectumosb
dow styrofoam insulationtectum substrate
metl-span insulated panel
metl-spaninsulated panel
metalinsulation
metal3-hole cf clip
clip fastener
wiper gasketbase extrusion
double insulated glass panel
sealer
clip fastener
weather protector
outer copingsteel plate to support blocking over wallsteel decking for exteriorelectrical wiring
urethane sealantsealant tape
c-channelc12x20
extruded splice base
concrete footing
19’
floor
-to-c
eilin
g
c-clip
Call outsg.1
g.2
g.3
Section A
vapor retarderepdm roofing mem.
thermal insulation10”x2” lg steel
.5” gypsum board
floor moldingtile
treated wood nailer
sponge tubing
3.5” limestone venneer
flashing
dripu-block concrete beam
precast concrete coping
1/2” steel dowels @ ev. coping joint
roof decking
3” ridged insulation
3” air space
flashingsteel angle rod o.c. 16”anchor tie
joint reinf. 16” o.c. vertically
8” load bearing cmu
vert. reinforcementridged insulation
porus backfil
1/2” steel dowels
wood decking
flashing3.5” limestone venneer
8” load bearing cmu
3” ridged insulation3” air space
flashing
tensothem clipplate
2” rod membersbearing plate
spherical node
ptfe coated glass fibernanogel/aerogel insulating blanket3” limestone venneer
anchor tie
fill with mortar
membrane w.p.
callouts
V.1 V.2 V.3
white metal rainscreen panel
ptfe coated glass fibernanogel/aerogel insulating blanket
rainscreen system
tensotherm fabric (r12)
tectum deck system
g.2
insulated metal panel
nanawall system
wall anchor clipc-profile horizontal rail
undercut anchor
t-profile vertical rail
set screw
set crewtensotherm clip
epdm (ethylene propylene diene monomer) rubber
concrete
bridging platemetal square plate
steel deck
tectumosb
dow styrofoam insulationtectum substrate
metl-span insulated panel
metl-spaninsulated panel
metalinsulation
metal3-hole cf clip
clip fastener
wiper gasketbase extrusion
double insulated glass panel
sealer
clip fastener
weather protector
outer copingsteel plate to support blocking over wallsteel decking for exteriorelectrical wiring
urethane sealantsealant tape
c-channelc12x20
extruded splice base
concrete footing
19’
floor
-to-c
eilin
g
c-clip
wall section
load bearing wallwouldn’t exist over opening, implied for overall wall
kalwall
acoustal drop down celing
return air
2’x4’white metal panel
SCALE: 1”=1’
V.1
V.2
V.3
Call outs
Section B
Call outs
vapor retarderepdm roofing mem.
thermal insulation10”x2” lg steel
.5” gypsum board
floor moldingtile
treated wood nailer
sponge tubing
3.5” limestone venneer
flashing
dripu-block concrete beam
precast concrete coping
1/2” steel dowels @ ev. coping joint
roof decking
3” ridged insulation
3” air space
flashingsteel angle rod o.c. 16”anchor tie
joint reinf. 16” o.c. vertically
8” load bearing cmu
vert. reinforcementridged insulation
porus backfil
1/2” steel dowels
wood decking
flashing3.5” limestone venneer
8” load bearing cmu
3” ridged insulation3” air space
flashing
tensothem clipplate
2” rod membersbearing plate
spherical node
ptfe coated glass fibernanogel/aerogel insulating blanket3” limestone venneer
anchor tie
fill with mortar
membrane w.p.
callouts
V.1 V.2 V.3
white metal rainscreen panel
ptfe coated glass fibernanogel/aerogel insulating blanket
rainscreen system
tensotherm fabric (r12)
tectum deck system
g.2
insulated metal panel
nanawall system
wall anchor clipc-profile horizontal rail
undercut anchor
t-profile vertical rail
set screw
set crewtensotherm clip
epdm (ethylene propylene diene monomer) rubber
concrete
bridging platemetal square plate
steel deck
tectumosb
dow styrofoam insulationtectum substrate
metl-span insulated panel
metl-spaninsulated panel
metalinsulation
metal3-hole cf clip
clip fastener
wiper gasketbase extrusion
double insulated glass panel
sealer
clip fastener
weather protector
outer copingsteel plate to support blocking over wallsteel decking for exteriorelectrical wiring
urethane sealantsealant tape
c-channelc12x20
extruded splice base
concrete footing
19’
floor
-to-c
eilin
g
c-clip
Call outsg.1
g.2
g.3
17
Section A
vapor retarderepdm roofing mem.
thermal insulation10”x2” lg steel
.5” gypsum board
floor moldingtile
treated wood nailer
sponge tubing
3.5” limestone venneer
flashing
dripu-block concrete beam
precast concrete coping
1/2” steel dowels @ ev. coping joint
roof decking
3” ridged insulation
3” air space
flashingsteel angle rod o.c. 16”anchor tie
joint reinf. 16” o.c. vertically
8” load bearing cmu
vert. reinforcementridged insulation
porus backfil
1/2” steel dowels
wood decking
flashing3.5” limestone venneer
8” load bearing cmu
3” ridged insulation3” air space
flashing
tensothem clipplate
2” rod membersbearing plate
spherical node
ptfe coated glass fibernanogel/aerogel insulating blanket3” limestone venneer
anchor tie
fill with mortar
membrane w.p.
callouts
V.1 V.2 V.3
white metal rainscreen panel
ptfe coated glass fibernanogel/aerogel insulating blanket
rainscreen system
tensotherm fabric (r12)
tectum deck system
g.2
insulated metal panel
nanawall system
wall anchor clipc-profile horizontal rail
undercut anchor
t-profile vertical rail
set screw
set crewtensotherm clip
epdm (ethylene propylene diene monomer) rubber
concrete
bridging platemetal square plate
steel deck
tectumosb
dow styrofoam insulationtectum substrate
metl-span insulated panel
metl-spaninsulated panel
metalinsulation
metal3-hole cf clip
clip fastener
wiper gasketbase extrusion
double insulated glass panel
sealer
clip fastener
weather protector
outer copingsteel plate to support blocking over wallsteel decking for exteriorelectrical wiring
urethane sealantsealant tape
c-channelc12x20
extruded splice base
concrete footing
19’
floor
-to-c
eilin
g
c-clip
wall section
load bearing wallwouldn’t exist over opening, implied for overall wall
kalwall
acoustal drop down celing
return air
2’x4’white metal panel
SCALE: 1”=1’
V.1
V.2
V.3
Call outs
Project
Using three 8’x8.5’x20’ shipping containers the task was to make a medical clinic for a semi-arid climate. Programing includes a waiting area, restroom, 2 clinic rooms, reception, lab space and a tele/health information area for presentations to the public. Phoenix Arizona was assigned for a climate reference but this clinic is suitable for any semi-arid climate. The idea was that this could be mass produced. The shading device is site specific but adjustments could easily be customized as long as the latitude was known. Assembly on site wouldn’t take more than a few days. Doing some research, a courtyard design was decided upon. There are many practical and cultural reasons for this. Since this clinic would be used in either emergencies or in developing countries, it could act as a gathering area for the population. The courtyard centralizes an area almost a pocket of space within that can add some protection, both physical and psychological.
The shading device can be custom made for any orientation and specific latitude. It would be bolted on site. There are water tanks located where needed. There is a tarp to cover the opening if need be. Photovoltaic panels line a side of the courtyard opening. The doors to the non-clinical containers open to a fixed window and louvers to allow for sun light and ventilation when needed. Clear story operable windows exist for sunlight and privacy along with assisting in airflow. The Clinics also have sunroofs. Pallet walls would line the sides in need of protection of the sun during summer and can be moved for winter months.
To the right are various views into the facility. You can see from here the containers largely support the shading device and also the public and private spaces created.
N
1 2 4
10’
A
A
B
B
Plan/Ada
1. reception2. restroom3. pallet screen4. tele/health5. lab6. exam room7. courtyard8. seating/water tank9. solar panel(above)10. req. wheel chair area11. solar aluminum screen
1
2
4
5
6
6
7
8
8 9
10
10
3
11
rhino
Container ClinicA tele-heath prefab clinic for areas in needSemi-arid climates__________
undergrad Spring third year Joseph aranha (Professor)
Project
Using three 8’x8.5’x20’ shipping containers the task was to make a medical clinic for a semi-arid climate. Programing includes a waiting area, restroom, 2 clinic rooms, reception, lab space and a tele/health information area for presentations to the public. Phoenix Arizona was assigned for a climate reference but this clinic is suitable for any semi-arid climate. The idea was that this could be mass produced. The shading device is site specific but adjustments could easily be customized as long as the latitude was known. Assembly on site wouldn’t take more than a few days. Doing some research, a courtyard design was decided upon. There are many practical and cultural reasons for this. Since this clinic would be used in either emergencies or in developing countries, it could act as a gathering area for the population. The courtyard centralizes an area almost a pocket of space within that can add some protection, both physical and psychological.
The shading device can be custom made for any orientation and specific latitude. It would be bolted on site. There are water tanks located where needed. There is a tarp to cover the opening if need be. Photovoltaic panels line a side of the courtyard opening. The doors to the non-clinical containers open to a fixed window and louvers to allow for sun light and ventilation when needed. Clear story operable windows exist for sunlight and privacy along with assisting in airflow. The Clinics also have sunroofs. Pallet walls would line the sides in need of protection of the sun during summer and can be moved for winter months.
To the right are various views into the facility. You can see from here the containers largely support the shading device and also the public and private spaces created.
19
N
1 2 4
10’
A
A
B
B
Plan/Ada
1. reception2. restroom3. pallet screen4. tele/health5. lab6. exam room7. courtyard8. seating/water tank9. solar panel(above)10. req. wheel chair area11. solar aluminum screen
1
2
4
5
6
6
7
8
8 9
10
10
3
11
rhino
Container ClinicA tele-heath prefab clinic for areas in needSemi-arid climates__________
undergrad Spring third year Joseph aranha (Professor)
1 2 4 10’B
1 2 4 10’A
Dec
9 am
12 pm
3 pm
Jan Mar/OctSun Studies
Here is a sun study showing the progression of the sun through the site in various times of the year. The shading device is specifically set for the Phoenix longitude and climate, allowing for direct radiation in the mornings and winter months,
SectionsOrientation
The shading device also helps to promote air movement, with the material being made of metal, the heat will draw air between the containers and device. There are small wind scoops to help with circulation. The large window in the back has operable vents to control airflow. There is also airspace between the stacked shipping pallets and containers to help wick away any heat from the building while protecting it from direct radiation.
shipping pallets
6” air space
overhead ventilation opening
.25” aluminum plates
ridged insulation board
gypsum board
roll up metal door
double pane glass
aluminum frame
2” steel tube
corrugated steel
2” square steel tube
furniture
scale: 1’=1”1 3 5 10ft
Summer winds
Winter winds
Ventilation
Oriented to minimize the exposed surface area in the summer while still getting heat in the summer. The construct is 15 deg. East of south to help block the south east winds and block the north west.
Section Perspective
1 2 4 10’B
1 2 4 10’A
Dec
9 am
12 pm
3 pm
Jan Mar/OctSun Studies
Here is a sun study showing the progression of the sun through the site in various times of the year. The shading device is specifically set for the Phoenix longitude and climate, allowing for direct radiation in the mornings and winter months,
Sections
21
Orientation
The shading device also helps to promote air movement, with the material being made of metal, the heat will draw air between the containers and device. There are small wind scoops to help with circulation. The large window in the back has operable vents to control airflow. There is also airspace between the stacked shipping pallets and containers to help wick away any heat from the building while protecting it from direct radiation.
shipping pallets
6” air space
overhead ventilation opening
.25” aluminum plates
ridged insulation board
gypsum board
roll up metal door
double pane glass
aluminum frame
2” steel tube
corrugated steel
2” square steel tube
furniture
scale: 1’=1”1 3 5 10ft
Summer winds
Winter winds
Ventilation
Oriented to minimize the exposed surface area in the summer while still getting heat in the summer. The construct is 15 deg. East of south to help block the south east winds and block the north west.
Section Perspective
Precedents were researched and one stood out for its projected cost and fabrication. A canopy system was designed by MisoSoupDesign from Taipei. Its main principles were adopted and translated into readily available materials like PEX pipes and steel. The idea of column and vaulting resonated as a powerful form and the lattice made it light and delicate. The project makes a statement were each column touches the ground. Lighting added another element as night fell.t fell.
Tripod
Canopy
The urban points are seen as an opportunity for a procession along with a series of beacons to light the way. The project strategy was to illuminate single points along the urban stage. Based on earlier studies of industrial design, tripod lamps were investigated due to their unique form of being structurally sound. The design was pushed to incorporate lighting integration with LED light strips embedded into a tripod system. The main challenge with this was how to power the strips without a power cord. Battery packs would be encased in the tripod for temporary poser for the urban stage event. These tripods are held together with steel tube sections welded together that are each individually uniquely angled. The wooden sticks have embedded LED light strips shining through the encased plexi sheet with minimal joint edges. They are remote controlled using an embedded sensor that can allow it to flash and change the speed and tempo. This creates a closed system and clean design. A series of 6 tripods were produced and placed along the procession of Ave. J.
Balloon
ProjectUrban Stage is an attempt to rethink downtown Lubbock. Today as it stands, downtown lacks any vibrant life as development exists mainly on the city’s Loop. Beyond its small entertainment and art district, the rest of downtown is, for the most part, dead save for the 9-5 businesses that exist. The proposal looks at a main central axis of the area, Ave. J, and looks to bring to it local vegitation with natural gardens, reduced traffic, and pedestrian areas with the introduction of entertainment. Urban Stage transformed the street from a hard urbanscape to a softer greenscape that the public can utilize and enjoy. The event was two weekends long with numerous events including a 5k, live music, and oktoberfest.
The studio was tasked to finish and help with the streetscape. A master plan was provided that was conceptualized by former studios. The task was to use the master plan and interprete the lines, fields and points and materialize them into physical objects. My team of two was tasked with 3d points.
In research the idea of the 3d manifesta-tion of the point became evident in the sphere. With that in mind I set forth in looking at different solutions in engaging the public with lighting, sensors, projectors etc. However the investigation that would have had strongest and biggest impact on the site unfortunately did not come into fruition due to logistics and paperwork.Using a mirrored ball, we end up reflecting the surroundings, emphasizing space downtown. We highlight the large expanse of space in Lubbock by inversing the world and displaying it in one spot. The crowd will engage in it, with the sky and finally SEE the space they are in. This is a simple moment that has a large impact for its value. The object would have been large (0.5-2.0 m) inflatable vinyl mirrored balloons from China. However given the time constraint ordering was not feasible after the paper work went through. Large blue balloons were purchased instead from the US. Due to high winds they weren’t able to be inflated for the duration of the events.
urban stagea downtown revitalization experiment__________
Graduatefall second yeartyler mason (partner)Dustin white (Professor)christian pongratz (professor)
rhinovray
illustratorphotoshop
Precedents were researched and one stood out for its projected cost and fabrication. A canopy system was designed by MisoSoupDesign from Taipei. Its main principles were adopted and translated into readily available materials like PEX pipes and steel. The idea of column and vaulting resonated as a powerful form and the lattice made it light and delicate. The project makes a statement were each column touches the ground. Lighting added another element as night fell.t fell.
Tripod
Canopy
The urban points are seen as an opportunity for a procession along with a series of beacons to light the way. The project strategy was to illuminate single points along the urban stage. Based on earlier studies of industrial design, tripod lamps were investigated due to their unique form of being structurally sound. The design was pushed to incorporate lighting integration with LED light strips embedded into a tripod system. The main challenge with this was how to power the strips without a power cord. Battery packs would be encased in the tripod for temporary poser for the urban stage event. These tripods are held together with steel tube sections welded together that are each individually uniquely angled. The wooden sticks have embedded LED light strips shining through the encased plexi sheet with minimal joint edges. They are remote controlled using an embedded sensor that can allow it to flash and change the speed and tempo. This creates a closed system and clean design. A series of 6 tripods were produced and placed along the procession of Ave. J.
23
Balloon
ProjectUrban Stage is an attempt to rethink downtown Lubbock. Today as it stands, downtown lacks any vibrant life as development exists mainly on the city’s Loop. Beyond its small entertainment and art district, the rest of downtown is, for the most part, dead save for the 9-5 businesses that exist. The proposal looks at a main central axis of the area, Ave. J, and looks to bring to it local vegitation with natural gardens, reduced traffic, and pedestrian areas with the introduction of entertainment. Urban Stage transformed the street from a hard urbanscape to a softer greenscape that the public can utilize and enjoy. The event was two weekends long with numerous events including a 5k, live music, and oktoberfest.
The studio was tasked to finish and help with the streetscape. A master plan was provided that was conceptualized by former studios. The task was to use the master plan and interprete the lines, fields and points and materialize them into physical objects. My team of two was tasked with 3d points.
In research the idea of the 3d manifesta-tion of the point became evident in the sphere. With that in mind I set forth in looking at different solutions in engaging the public with lighting, sensors, projectors etc. However the investigation that would have had strongest and biggest impact on the site unfortunately did not come into fruition due to logistics and paperwork.Using a mirrored ball, we end up reflecting the surroundings, emphasizing space downtown. We highlight the large expanse of space in Lubbock by inversing the world and displaying it in one spot. The crowd will engage in it, with the sky and finally SEE the space they are in. This is a simple moment that has a large impact for its value. The object would have been large (0.5-2.0 m) inflatable vinyl mirrored balloons from China. However given the time constraint ordering was not feasible after the paper work went through. Large blue balloons were purchased instead from the US. Due to high winds they weren’t able to be inflated for the duration of the events.
urban stagea downtown revitalization experiment__________
Graduatefall second yeartyler mason (partner)Dustin white (Professor)christian pongratz (professor)
rhinovray
illustratorphotoshop
6”
LEHIGH HYDROSTONE
+
+
+
+
+ +
RELEASANT
8”
x5@6x5@6
4’
++
++
+ + +
x10@3x10@3+
+ + +
+ +
x15
+
Assembly
Wood Excavation
1
2
3
4
5
1.25” x 1.25” Wood
Belt Sander to createtapered end
Table Router to createrounded corners
Milling Machine to excavate hollow space
Milling Machine to create recessed lip
Detail exploded 1.25” x 1.25” Wood Stick
Drilled Hole for Wiring
Recessed Lip
LED Light Strip
Masking Tape
Plexi Strip
Tapered End
1.25” x 1.25” Steel Tube
Welded Connection
Battery Pack with 4 AAA Batteries Remote Sensor
Materials
COMPONENT
CONNECTOR
TOOLS
LEHIG
H
HYD
RO
STONE
RELEASANT
8” cardboard tube
1/2” PEX pipe 1/2” MDF
3/8” steel rodsbase mold
(oil drain pan)waterproof
LED
concreteblack sprin-
kler hose
3/16” turnbuckle
3/16” x3”Eyebolt
small zipties 1/2” hose clamp1/8” wire rope clip
1/2” pinch clamp1/8” aluminum
sleeves
wood gluetapemeasure
releasant paint brushscissorspermanent
markerplierswire cuttersflat
screwdriver
20” steel ring
1/8” steel cable
3/4” PVC pipe
2”
1/2” Holes
1/4” Holes
1’8”
18” 18”
8”
Steel Ring
Bench
16”
12”
Base Prep
35”
18.25”
23.25”
18”
20”
6.25”
Exploded Diagram
*See Detail Exploded diagram
Welded JointBattery Pack with Sensor
LED Light Strip 1.25” x 1.25” Wood Stick
Masking Tape
Plexi Strip
Tripod
Canopy
6”
LEHIGH HYDROSTONE
+
+
+
+
+ +
RELEASANT
8”
x5@6x5@6
4’
++
++
+ + +
x10@3x10@3+
+ + +
+ +
x15
+
Assembly
Wood Excavation
1
2
3
4
5
1.25” x 1.25” Wood
Belt Sander to createtapered end
Table Router to createrounded corners
Milling Machine to excavate hollow space
Milling Machine to create recessed lip
Detail exploded 1.25” x 1.25” Wood Stick
Drilled Hole for Wiring
Recessed Lip
LED Light Strip
Masking Tape
Plexi Strip
Tapered End
1.25” x 1.25” Steel Tube
Welded Connection
Battery Pack with 4 AAA Batteries Remote Sensor
25
Materials
COMPONENT
CONNECTOR
TOOLS
LEHIG
H
HYD
RO
STONE
RELEASANT
8” cardboard tube
1/2” PEX pipe 1/2” MDF
3/8” steel rodsbase mold
(oil drain pan)waterproof
LED
concreteblack sprin-
kler hose
3/16” turnbuckle
3/16” x3”Eyebolt
small zipties 1/2” hose clamp1/8” wire rope clip
1/2” pinch clamp1/8” aluminum
sleeves
wood gluetapemeasure
releasant paint brushscissorspermanent
markerplierswire cuttersflat
screwdriver
20” steel ring
1/8” steel cable
3/4” PVC pipe
2”
1/2” Holes
1/4” Holes
1’8”
18” 18”
8”
Steel Ring
Bench
16”
12”
Base Prep
35”
18.25”
23.25”
18”
20”
6.25”
Exploded Diagram
*See Detail Exploded diagram
Welded JointBattery Pack with Sensor
LED Light Strip 1.25” x 1.25” Wood Stick
Masking Tape
Plexi Strip
Tripod
Canopy
The task was to recreate a set of construction documents using Revit. Every week we would learn more Revit and refine the drawings. This is the result.
Drawings not shown: Interior Elevations Framing plan Foundation plan Door Schedule Reflected Ceiling Plan Two Wall Sections
building Informationtechnolgyan exercise and intro to revit__________
undergrad Spring forth year Micheal Peters (Professor) revit
LEGENDMATERIALS
CEILING SYMBOLS
81' - 6"FEC
58' - 0"
116' - 2" 120' - 4"
EXIT BREQ. NOT REQUIREDPROV. 72"
EXIT AREQ. 9.4"PROV. 72"
PLANNORTH
FE
FDC
PROJECT NAME: INTERMOUNTIAN SARATOGA SPRINGS CLINICADDRESS: 354 WEST STATE ROAD 73, SARATOGA SPRINGS, UTAHPROPOSED USE: MEDICAL OFFICE BUILDINGOWNER-CONTACT PERSON: BRADY GILES PHONE: 801-234-5881ARCHITECT-CONTACT PERSON: GARY BLAZZARD PHONE: 801-532-2393
APPLICABLE CODES
-BUILDING CODE 2006 IBC-MECHANICAL CODE 2006 IMC-PLUMBING CODE 2006 IPC-ELECTRICAL CODE 2005 NEC-FIRE CODE 2006 IFC-STATE/CITY UTAH STATE AMENDMENTS ARE AMENDMENTS APPLICABLE TO THIS PR OJECT-ACCESSIBILITY CODE 1998 ICC/ANSI 117 .1
BUILDING PLANNING
OCCUPANCY: BMIXED OCCUPANCY? YES / NO
REQUIRED FIRE SEPARATION NONE
TYPE OF CONSTRUCTIONCONSTRUCTION TYPE: V - B
GENERAL BUILDING LIMITATIONS-ALLOWABLE FLOOR AREA 36,000 SF-ALLOWABLE AREA INCREASES YES / NO-HEIGHT OF BUILDING 16' NUMBER OF STORIES 1-HIGH RISES YES / NO-MEZZANINE YES / NO-PARKING SPACED REQUIRED SEE SITE PLAN
ACCESSIBLE PARKING SPACE REQUIRED SEE SITE PLAN
FIRE PROTECTION SYSTEMS
-FIRE DISTRICT YES / NO-FIRE EXTINGUISHING SYSTEM YES / NO
ESSENTIAL BUILDING
-ESSENTIAL BUILDING BY CATEGORY YES / NO
FIRE RESISTANT CONSTRUCTION / FIREPROOFING SCHEDULE
BUILDING SUMMARY LIFE SAFETY PLAN
CITY DESIGN CRITERIA:RO B ERUSPXE )04( 09 DEEPS DNIW
2D CIMSIESEREVES GNIREHTAEW
"03 ENIL TSORFETAREDOM / THGILS ETIMRET
BL 03 DAOL WONS FOORGROUND SNOW LOAD 43 LB
BL 04 REHTO .DAOL ROOLFDEFLECTION, RAFTERS (<3/12) L / 180WINTER DESIGN TEMP 8c / 46.6fSOILS BEARING CAPACITY MIN. 1,500 psf
CODE REFERENCE
506.3SPRINKLED = AREA + 300%
9,000 BASE SF-27,000 (SPRINKLED)
= 36,000 SF
-9,457 GSF NEW CONSTRUCTION
ITEM
-EXTERIOR WALLS: LOAD BEARING 0NON-LOAD BEARING 0
)ENON( A/NSLLAW YTRAP/ERIF-)ENON( A/NSTFAHS-
-TENANT SEPARATION N/A (ONE TENANT)-INTERIOR WALL: LOAD BEARING 0
NON-LOAD BEARING 00SNMULOC-0SMAEB-
A/NGNILIEC/ROOLF-)C SSALC( 0GNILIEC/FOOR-
58' - 0"FEC
FEC
116' - 2"
EXIT DREQ. 9.4"PROV. 36"
EXIT CREQ. NOT REQUIREDPROV. 44"
The task was to recreate a set of construction documents using Revit. Every week we would learn more Revit and refine the drawings. This is the result.
Drawings not shown: Interior Elevations Framing plan Foundation plan Door Schedule Reflected Ceiling Plan Two Wall Sections
building Informationtechnolgyan exercise and intro to revit__________
undergrad Spring forth year Micheal Peters (Professor) revit
LEGENDMATERIALS
CEILING SYMBOLS
81' - 6"FEC
58' - 0"
116' - 2" 120' - 4"
EXIT BREQ. NOT REQUIREDPROV. 72"
EXIT AREQ. 9.4"PROV. 72"
PLANNORTH
FE
FDC
27
PROJECT NAME: INTERMOUNTIAN SARATOGA SPRINGS CLINICADDRESS: 354 WEST STATE ROAD 73, SARATOGA SPRINGS, UTAHPROPOSED USE: MEDICAL OFFICE BUILDINGOWNER-CONTACT PERSON: BRADY GILES PHONE: 801-234-5881ARCHITECT-CONTACT PERSON: GARY BLAZZARD PHONE: 801-532-2393
APPLICABLE CODES
-BUILDING CODE 2006 IBC-MECHANICAL CODE 2006 IMC-PLUMBING CODE 2006 IPC-ELECTRICAL CODE 2005 NEC-FIRE CODE 2006 IFC-STATE/CITY UTAH STATE AMENDMENTS ARE AMENDMENTS APPLICABLE TO THIS PR OJECT-ACCESSIBILITY CODE 1998 ICC/ANSI 117 .1
BUILDING PLANNING
OCCUPANCY: BMIXED OCCUPANCY? YES / NO
REQUIRED FIRE SEPARATION NONE
TYPE OF CONSTRUCTIONCONSTRUCTION TYPE: V - B
GENERAL BUILDING LIMITATIONS-ALLOWABLE FLOOR AREA 36,000 SF-ALLOWABLE AREA INCREASES YES / NO-HEIGHT OF BUILDING 16' NUMBER OF STORIES 1-HIGH RISES YES / NO-MEZZANINE YES / NO-PARKING SPACED REQUIRED SEE SITE PLAN
ACCESSIBLE PARKING SPACE REQUIRED SEE SITE PLAN
FIRE PROTECTION SYSTEMS
-FIRE DISTRICT YES / NO-FIRE EXTINGUISHING SYSTEM YES / NO
ESSENTIAL BUILDING
-ESSENTIAL BUILDING BY CATEGORY YES / NO
FIRE RESISTANT CONSTRUCTION / FIREPROOFING SCHEDULE
BUILDING SUMMARY LIFE SAFETY PLAN
CITY DESIGN CRITERIA:RO B ERUSPXE )04( 09 DEEPS DNIW
2D CIMSIESEREVES GNIREHTAEW
"03 ENIL TSORFETAREDOM / THGILS ETIMRET
BL 03 DAOL WONS FOORGROUND SNOW LOAD 43 LB
BL 04 REHTO .DAOL ROOLFDEFLECTION, RAFTERS (<3/12) L / 180WINTER DESIGN TEMP 8c / 46.6fSOILS BEARING CAPACITY MIN. 1,500 psf
CODE REFERENCE
506.3SPRINKLED = AREA + 300%
9,000 BASE SF-27,000 (SPRINKLED)
= 36,000 SF
-9,457 GSF NEW CONSTRUCTION
ITEM
-EXTERIOR WALLS: LOAD BEARING 0NON-LOAD BEARING 0
)ENON( A/NSLLAW YTRAP/ERIF-)ENON( A/NSTFAHS-
-TENANT SEPARATION N/A (ONE TENANT)-INTERIOR WALL: LOAD BEARING 0
NON-LOAD BEARING 00SNMULOC-0SMAEB-
A/NGNILIEC/ROOLF-)C SSALC( 0GNILIEC/FOOR-
58' - 0"FEC
FEC
116' - 2"
EXIT DREQ. 9.4"PROV. 36"
EXIT CREQ. NOT REQUIREDPROV. 44"
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
A
A
B
B
C
C
D
D
E
E
F
F
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
B.95
B.95
ROOF DRAINOVERFLOW
FDC
GASMETER
SHEET METALPARAPET CAP
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
8
8
8.1
8.1
8.9
8.9
9
9
10
10
7.9
7.9
8.6
8.6
9.1
9.1
1
A 7.0
ELECTRICAL OUTLETFOR OWNER SIGNAGE -COORDINATE EACTLOCATION WITHSIGNAGE INFORMATION
SHEET METALFASCIA, TRIM AND TOMATCH GUTTER -COLOR WINDOWMULLION
SHEET METALFASCIA ANDTRIM
ROOF FLASHINGS SHEET METALPARAPET CAP
LIGHT - CENTERHORIZONTALLYBETWEENWINDOWS
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
F
F
G
G
H
H
J
J
K
K
K.6
K.6
M
M
N
N
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
2
A 7.0MECHANICALSCREEN REMOVEDFOR CLARITY
STANDINGSEAM METALROOF SYSTEM
SHEET METALFASCIA, TRIMAND GUTTER
BRICK/STONECONTROLJOINT
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
1
1
2
2
3
3
4
4
3
A 7.0
BRICK/STONECONTROL JOINT
HOSE BIBB
BRICK/STONECONTROL JOINT
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
LIGHT - CENTERHORIZONTALLY OVERDOOR OPENING
Elevations
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
G
G
H
H
J
J
K
K
K.6
K.6
M
M
N
N
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
2
A 7.0
BRICK/STONECONTROL JOINT
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
1
1
2
2
3
3
4
4
5
5
5.9
5.9
6
6
7
7
7.9
7.9
3
A 7.0SHEET METALPARAPET CAP BRICK/STONE
CONTROL JOINT
EIFS FINISH ONMECHANICALSCREEN WALL
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
BRICK/STONECONTROL JOINT
BRICK/STONECONTROL JOINT
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
ELECTRICAL OUTLETFOR OWNER SIGNAGE -COORDINATE EACTLOCATION WITHSIGNAGE INFORMATION
HOSE BIBB ROOFDRAINOVERFLOW
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
A
A
B
B
C
C
D
D
E
E
F
F
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
B.95
B.95
SHEET METALPARAPET CAP
ROOF DRAINOVERFLOW
EXTENT OF VISUALMOCKUP TO BEPROVIDED
BRICK/STONECONTROLJOINT
BRICK/STONECONTROLJOINT
HOSEBIBB
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
5
5
5.9
5.9
6
6
7
7
8
8
8.1
8.1
8.9
8.9
9
9
10
10
7.9
7.9
8.6
8.6
9.1
9.1
1
A 7.0
SHEET METALPARAPET CAP
BRICK/STONE CONTROL JOINT
BRICK/STONECONTROL JOINT
EIFS FINISH ONMECHANICAL SCREENWALL
HOSE BIBB
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
LIGHT - CENTERHORIZONTALLY INBRICK PANEL
2 East
1 South
4 West
3 North
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
A
A
B
B
C
C
D
D
E
E
F
F
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
B.95
B.95
ROOF DRAINOVERFLOW
FDC
GASMETER
SHEET METALPARAPET CAP
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
8
8
8.1
8.1
8.9
8.9
9
9
10
10
7.9
7.9
8.6
8.6
9.1
9.1
1
A 7.0
ELECTRICAL OUTLETFOR OWNER SIGNAGE -COORDINATE EACTLOCATION WITHSIGNAGE INFORMATION
SHEET METALFASCIA, TRIM AND TOMATCH GUTTER -COLOR WINDOWMULLION
SHEET METALFASCIA ANDTRIM
ROOF FLASHINGS SHEET METALPARAPET CAP
LIGHT - CENTERHORIZONTALLYBETWEENWINDOWS
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
F
F
G
G
H
H
J
J
K
K
K.6
K.6
M
M
N
N
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
2
A 7.0MECHANICALSCREEN REMOVEDFOR CLARITY
STANDINGSEAM METALROOF SYSTEM
SHEET METALFASCIA, TRIMAND GUTTER
BRICK/STONECONTROLJOINT
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
1
1
2
2
3
3
4
4
3
A 7.0
BRICK/STONECONTROL JOINT
HOSE BIBB
BRICK/STONECONTROL JOINT
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
LIGHT - CENTERHORIZONTALLY OVERDOOR OPENING
Elevations
29
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
G
G
H
H
J
J
K
K
K.6
K.6
M
M
N
N
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
2
A 7.0
BRICK/STONECONTROL JOINT
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
1
1
2
2
3
3
4
4
5
5
5.9
5.9
6
6
7
7
7.9
7.9
3
A 7.0SHEET METALPARAPET CAP BRICK/STONE
CONTROL JOINT
EIFS FINISH ONMECHANICALSCREEN WALL
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
BRICK/STONECONTROL JOINT
BRICK/STONECONTROL JOINT
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
ELECTRICAL OUTLETFOR OWNER SIGNAGE -COORDINATE EACTLOCATION WITHSIGNAGE INFORMATION
HOSE BIBB ROOFDRAINOVERFLOW
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
A
A
B
B
C
C
D
D
E
E
F
F
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
B.95
B.95
SHEET METALPARAPET CAP
ROOF DRAINOVERFLOW
EXTENT OF VISUALMOCKUP TO BEPROVIDED
BRICK/STONECONTROLJOINT
BRICK/STONECONTROLJOINT
HOSEBIBB
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
TO ROOF23' - 9 1/2"
TO SCREEN WALL19' - 4"
5
5
5.9
5.9
6
6
7
7
8
8
8.1
8.1
8.9
8.9
9
9
10
10
7.9
7.9
8.6
8.6
9.1
9.1
1
A 7.0
SHEET METALPARAPET CAP
BRICK/STONE CONTROL JOINT
BRICK/STONECONTROL JOINT
EIFS FINISH ONMECHANICAL SCREENWALL
HOSE BIBB
LIGHT - CENTERHORIZONTALLYBETWEEN WINDOWS
LIGHT - CENTERHORIZONTALLY INBRICK PANEL
2 East
1 South
4 West
3 North
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
SECTION THROUGH GLAZED WALL
WOOD SHEATHING
CONT 10" HIGHSTRIP OFCAVITYDRAINAGEMATERIAL
DAMPPROOFAIR BARRIERBATT INSULATION
10" HIGH FIRSTSTONE COURSE
S/S FLASHINGWITH HEMMEDEDGE
CONT SEALANT3/4" FDN CHAMFER
TAPEREDFLOOR PREP12" BACK FROMFACE OF WALL
#10 FLAT HEAD STAINLESS STELLCREW IN EXPANSION SLEEVE AT 18"O.C.
14 GAUGE X CONTGALV STEEL PLATE
VAPOR RETARDER
GLAZED ALUMINUMWALL SYSTEM
SEALANT3/8" GYP BDGALVANIZED STEEL LINTEL
AIR/WATER BARRIER FLASHING TAPE
2X3 NAILERVAPOR RETARDERWOOD HEADER
RUBBERIZED ASPHARLTUNDERLAYMENT ONWOOD SHEATHING ANDLAPPED OVER STAINLESSSTEEL FLASHING
WOOD SHEATHING
FACE BRICK
CONT 10" HIGH STRIPOF CAVITY DRAINAGE
MATERIALDAMPPROOF AIR
BARRIERBATT INSULATIONSTONE HEADERWEEPPAINT ANGLE TO MATCHCOLOR OF BRICK
STAINLESS STEELFLASHING WITHHEMMED EDGE TOFLUSH WITH FACE OFBRICK. EXTENDFLASHING 8" BEYONDWINDOW OPEINING ATEACH END. CUT OFHEMMED DRIP EDGE OFFLASHING BEYONDEACH SIDE OF WINDOWOPENING.
SEALANT AND BACKER ROD
3/4" TREATED PLYWOOD
2 X PLATE
2 X 6 FRAMING
GAUGE METAL ANGLE (8"LEGS) ANCHORED TOFRAMING WITH 1/4" X 2"SCREWS AT 12" O.C. (TOPLEG REDUCES IN DEPTHWHERE BRICK STEPSBACK AGAINST GLAZINGSYSTEM)
12" SOLIDERCOURSE SE3/4" IN FROMFACE OFBRICK
3 COURSESOF BRICK INROWLOCKCOURSING
CONT SEALANT
SLOPE 2% MIN
A 5.0
2
A 5.0
A 5.0
3
4
1
AAB
B
CCD
DEEF
FGGH
HJJ
KK
K.6
K.6
MM
NN
83' - 3 1/4"
83' - 3 1/4"
B.95
B.95
11' - 8 1/32"9' - 7 11/32"
0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"
0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
11' - 8 1/32"9' - 7 11/32"
0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"
0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
11
22
33
44
55
5.9
5.9
66
77
88
8.1
8.1
8.9
8.9
99
1010
138' - 9 17/32"
7.9
7.9
8.6
8.6
9.1
9.1
138' - 9 17/32"
138' - 9 17/32"
101
115116
117118
119120
121122
102
103
104
105
106
107
108
109
127
126
125
130
129
128
133
132
131
110
111
112113
114123
124
135
159
134139
138
136137
2
A 7.0
3
A 7.0
1
A 7.0
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
6' - 1 5/8"17' - 6 1/8"
13' - 7"25' - 3 3/4"
14' - 8 3/8"
0' - 9 3/8"0' - 9 1/4"
0' - 3 7/8"0' - 9 3/8"
0' - 7 5/8"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
6' - 1 5/8"17' - 6 1/8"
13' - 7"25' - 3 3/4"
14' - 8 3/8"
0' - 7 5/8"0' - 9 3/8"
0' - 9 1/4"0' - 3 7/8"
0' - 9 3/8"
A 6.0
1
WAITINGCLEARSTORYWEST
A 6.0
6
BATH WEST
3BATH EAST
OFFIC
E101
BR
EAK102
OFFIC
E103
OFFIC
E104
OFFIC
E105
OFFIC
E106
EXAM107
EXAM108
EXAM109
STAFF
TOILET
110EXAM
111
TREATM
ENT
112
PATIEN
TTO
ILET113
PATIEN
TTO
ILET114
CLIN
ICM
ANAG
ER115
EXAM116
EXAM117
EXAM118
EXAM119
EXAM120
HS
K121
CALL C
ENTER
122
TREATM
ENT
123
TREATM
ENT
124
EXAM125
EXAM126
EXAM127
EXAM128
EXAM129
EXAM130
EXAM131
EXAM132
EXAM133
SU
PP
LY134
PU
BLIC
TOILET
136
PU
BLIC
TOILET
137
ELEC138
MEC
H139
CORRIDOR140
CO
RR
IDO
R141
CO
RR
IDO
R142
INS
TACAR
E MA
STATIO
N143
BU
SIN
ESS
OFFIC
E144
CO
RR
IDO
R145
WAIT
146
PED
S M
AS
TATION
147
CORRIDOR148
CO
RR
IDO
R149
CO
RR
IDO
R150
DR
AW151
INTAK
E152
CORRIDOR153
CORRIDOR154
CORRIDOR155
REC
EPTIO
N156
WAIT
157
WAIT
158
A 6.0
2 TYPICALEXAM
148
140
160A 146AR
ADIO
LOG
Y159
CO
NTR
OL
135
VESTIB
ULE
160
5B
ATH
SO
UTH
4B
ATH
NO
RTH
67' - 8 9/32"31' - 10 3/8"
39' - 2 7/8"
9' - 1 21/32"5' - 0"
5' - 2"4' - 0"
2' - 4"4' - 0"
5' - 0"4' - 0"
6' - 8"4' - 0"
2' - 4"4' - 0"
5' - 0"4' - 0"3' - 0 5/8"
2' - 11 1/4"4' - 0"4' - 0"4' - 0"4' - 8"4' - 0"4' - 8"4' - 0"11' - 4"4' - 0"
2' - 8"4' - 0"8' - 8"4' - 0"
2' - 0"4' - 0"3' - 4"
9' - 1 21/32"5' - 6"
3' - 4"4' - 0"
8' - 8"4' - 0"
6' - 8"4' - 0"
6' - 0"4' - 0"
6' - 8"4' - 0"
6' - 0"4' - 0"
10' - 8"4' - 0"
7' - 4 3/8"
160B
DDE
EFFG
GHHJ
J
KK
K.6
K.6
MM
NN
88
8.1
8.1
8.9
8.9
997.9
7.9
8.6
8.6
9.1
9.1
A 5.0
2
A 5.0
A 5.0
A 5.0
3
4
1
AAB
B
CCD
DEEF
FGGH
HJJ
KK
K.6
K.6
MM
NN
B.95
B.95
11
22
33
44
55
5.9
5.9
66
77
88
8.1
8.1
8.9
8.9
99
10107.9
7.9
8.6
8.6
9.1
9.1
A 6.0
1
WAITINGCLEARSTORYWEST
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"1/4" / 1'-0"
1/4" / 1'-0" 1/4" / 1'-0"1/4" / 1'-0"1/4" / 1'-0"
RD OD
RD ODRD OD
RD OD
0' - 9 3/8"
10' - 7 5/8" 5' - 11 1/2"
0' - 9 1/4"
5' - 8 7/8" 5' - 1" 10' - 3" 5' - 1" 5' - 10 1/2" 11' - 7 1/2"
0' - 2 1/4"
9' - 7 11/32" 11' - 8 1/32"
83' - 3 1/4"
11' - 8 1/32"9' - 7 11/32"0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
83' - 3 1/4"
138' - 9 17/32"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
5' - 6"
0' - 7 5/8"
17' - 6 1/8"12' - 9 5/8"0' - 9 3/8"
0' - 9 1/4"
15' - 0 3/8"9' - 2 1/4"
0' - 3 7/8"0' - 9 3/8"
13' - 11"
138' - 9 17/32"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
5' - 6"0' - 7 5/8"
17' - 6 1/8"12' - 9 5/8"
0' - 9 3/8"0' - 9 1/4"15' - 0 3/8"
9' - 2 1/4"0' - 3 7/8"
0' - 9 3/8"13' - 11"
CLEA
RS
TOR
Y R
OO
F PLA
N
Roof Plan Floor Plan
1ST FLOOR0' - 0"
TO PARAPET15' - 8"
SECTION THROUGH GLAZED WALL
WOOD SHEATHING
CONT 10" HIGHSTRIP OFCAVITYDRAINAGEMATERIAL
DAMPPROOFAIR BARRIERBATT INSULATION
10" HIGH FIRSTSTONE COURSE
S/S FLASHINGWITH HEMMEDEDGE
CONT SEALANT3/4" FDN CHAMFER
TAPEREDFLOOR PREP12" BACK FROMFACE OF WALL
#10 FLAT HEAD STAINLESS STELLCREW IN EXPANSION SLEEVE AT 18"O.C.
14 GAUGE X CONTGALV STEEL PLATE
VAPOR RETARDER
GLAZED ALUMINUMWALL SYSTEM
SEALANT3/8" GYP BDGALVANIZED STEEL LINTEL
AIR/WATER BARRIER FLASHING TAPE
2X3 NAILERVAPOR RETARDERWOOD HEADER
RUBBERIZED ASPHARLTUNDERLAYMENT ONWOOD SHEATHING ANDLAPPED OVER STAINLESSSTEEL FLASHING
WOOD SHEATHING
FACE BRICK
CONT 10" HIGH STRIPOF CAVITY DRAINAGE
MATERIALDAMPPROOF AIR
BARRIERBATT INSULATIONSTONE HEADERWEEPPAINT ANGLE TO MATCHCOLOR OF BRICK
STAINLESS STEELFLASHING WITHHEMMED EDGE TOFLUSH WITH FACE OFBRICK. EXTENDFLASHING 8" BEYONDWINDOW OPEINING ATEACH END. CUT OFHEMMED DRIP EDGE OFFLASHING BEYONDEACH SIDE OF WINDOWOPENING.
SEALANT AND BACKER ROD
3/4" TREATED PLYWOOD
2 X PLATE
2 X 6 FRAMING
GAUGE METAL ANGLE (8"LEGS) ANCHORED TOFRAMING WITH 1/4" X 2"SCREWS AT 12" O.C. (TOPLEG REDUCES IN DEPTHWHERE BRICK STEPSBACK AGAINST GLAZINGSYSTEM)
12" SOLIDERCOURSE SE3/4" IN FROMFACE OFBRICK
3 COURSESOF BRICK INROWLOCKCOURSING
CONT SEALANT
SLOPE 2% MIN
31
A 5.0
2
A 5.0
A 5.0
3
4
1
AAB
B
CCD
DEEF
FGGH
HJJ
KK
K.6
K.6
MM
NN
83' - 3 1/4"
83' - 3 1/4"
B.95
B.95
11' - 8 1/32"9' - 7 11/32"
0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"
0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
11' - 8 1/32"9' - 7 11/32"
0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"
0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
11
22
33
44
55
5.9
5.9
66
77
88
8.1
8.1
8.9
8.9
99
1010
138' - 9 17/32"
7.9
7.9
8.6
8.6
9.1
9.1
138' - 9 17/32"
138' - 9 17/32"
101
115116
117118
119120
121122
102
103
104
105
106
107
108
109
127
126
125
130
129
128
133
132
131
110
111
112113
114123
124
135
159
134139
138
136137
2
A 7.0
3
A 7.0
1
A 7.0
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
6' - 1 5/8"17' - 6 1/8"
13' - 7"25' - 3 3/4"
14' - 8 3/8"
0' - 9 3/8"0' - 9 1/4"
0' - 3 7/8"0' - 9 3/8"
0' - 7 5/8"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
6' - 1 5/8"17' - 6 1/8"
13' - 7"25' - 3 3/4"
14' - 8 3/8"
0' - 7 5/8"0' - 9 3/8"
0' - 9 1/4"0' - 3 7/8"
0' - 9 3/8"
A 6.0
1
WAITINGCLEARSTORYWEST
A 6.0
6
BATH WEST
3
BATH EAST
OFFIC
E101
BR
EAK102
OFFIC
E103
OFFIC
E104
OFFIC
E105
OFFIC
E106
EXAM107
EXAM108
EXAM109
STAFF
TOILET
110EXAM
111
TREATM
ENT
112
PATIEN
TTO
ILET113
PATIEN
TTO
ILET114
CLIN
ICM
ANAG
ER115
EXAM116
EXAM117
EXAM118
EXAM119
EXAM120
HS
K121
CALL C
ENTER
122
TREATM
ENT
123
TREATM
ENT
124
EXAM125
EXAM126
EXAM127
EXAM128
EXAM129
EXAM130
EXAM131
EXAM132
EXAM133
SU
PP
LY134
PU
BLIC
TOILET
136
PU
BLIC
TOILET
137
ELEC138
MEC
H139
CORRIDOR140
CO
RR
IDO
R141
CO
RR
IDO
R142
INS
TACAR
E MA
STATIO
N143
BU
SIN
ESS
OFFIC
E144
CO
RR
IDO
R145
WAIT
146
PED
S M
AS
TATION
147
CORRIDOR148
CO
RR
IDO
R149
CO
RR
IDO
R150
DR
AW151
INTAK
E152
CORRIDOR153
CORRIDOR154
CORRIDOR155
REC
EPTIO
N156
WAIT
157
WAIT
158
A 6.0
2 TYPICALEXAM
148
140
160A 146AR
ADIO
LOG
Y159
CO
NTR
OL
135
VESTIB
ULE
160
5B
ATH
SO
UTH
4B
ATH
NO
RTH
67' - 8 9/32"31' - 10 3/8"
39' - 2 7/8"
9' - 1 21/32"5' - 0"
5' - 2"4' - 0"
2' - 4"4' - 0"
5' - 0"4' - 0"
6' - 8"4' - 0"
2' - 4"4' - 0"
5' - 0"4' - 0"3' - 0 5/8"
2' - 11 1/4"4' - 0"4' - 0"4' - 0"4' - 8"4' - 0"4' - 8"4' - 0"11' - 4"4' - 0"
2' - 8"4' - 0"8' - 8"4' - 0"
2' - 0"4' - 0"3' - 4"
9' - 1 21/32"5' - 6"
3' - 4"4' - 0"
8' - 8"4' - 0"
6' - 8"4' - 0"
6' - 0"4' - 0"
6' - 8"4' - 0"
6' - 0"4' - 0"
10' - 8"4' - 0"
7' - 4 3/8"
160B
DDE
EFFG
GHHJ
J
KK
K.6
K.6
MM
NN
88
8.1
8.1
8.9
8.9
997.9
7.9
8.6
8.6
9.1
9.1
A 5.0
2
A 5.0
A 5.0
A 5.0
3
4
1
AAB
B
CCD
DEEF
FGGH
HJJ
KK
K.6
K.6
MM
NN
B.95
B.95
11
22
33
44
55
5.9
5.9
66
77
88
8.1
8.1
8.9
8.9
99
10107.9
7.9
8.6
8.6
9.1
9.1
A 6.0
1
WAITINGCLEARSTORYWEST
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"
1/4"/1'-0"
1/4" / 1'-0"1/4" / 1'-0"
1/4" / 1'-0" 1/4" / 1'-0"1/4" / 1'-0"1/4" / 1'-0"
RD OD
RD ODRD OD
RD OD
0' - 9 3/8"
10' - 7 5/8" 5' - 11 1/2"
0' - 9 1/4"
5' - 8 7/8" 5' - 1" 10' - 3" 5' - 1" 5' - 10 1/2" 11' - 7 1/2"
0' - 2 1/4"
9' - 7 11/32" 11' - 8 1/32"
83' - 3 1/4"
11' - 8 1/32"9' - 7 11/32"0' - 2 1/4"
11' - 7 1/2"5' - 10 1/2"5' - 1"10' - 3"5' - 1"5' - 8 7/8"0' - 9 1/4"
5' - 11 1/2"10' - 7 5/8"0' - 9 3/8"
83' - 3 1/4"
138' - 9 17/32"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
5' - 6"
0' - 7 5/8"
17' - 6 1/8"12' - 9 5/8"0' - 9 3/8"
0' - 9 1/4"
15' - 0 3/8"9' - 2 1/4"
0' - 3 7/8"0' - 9 3/8"
13' - 11"
138' - 9 17/32"
14' - 5 9/32"26' - 4 3/8"
0' - 10 1/8"19' - 10 7/8"
5' - 6"0' - 7 5/8"
17' - 6 1/8"12' - 9 5/8"
0' - 9 3/8"0' - 9 1/4"15' - 0 3/8"
9' - 2 1/4"0' - 3 7/8"
0' - 9 3/8"13' - 11"
CLEA
RS
TOR
Y R
OO
F PLA
N
Roof Plan Floor Plan
Installation ProposalTexas Tech University College of Architecture Digital Design & Fabrication
// 02
10'-4 1/4"
4'-0
"
2
5
Installation Proposal
Site 2
Site 1
Texas Tech University College of Architecture Digital Design & Fabrication
Site Plan
Installation Proposal
Project
In this digital design and fabrication studio research and experimentation with grasshopper, parametric design and casting took place. A majority of the semester was spent researching concrete, mixtures and experimenting with concrete panel designs. After a mid-semester workshop the work shifted to a platonic solid wall and eventually our class began a 4 week installation project.
Many mixes were made throughout the semester to see how the ratios of the different admixtures reacted under many performance based criteria. Thanks to a site visit to GREENSTAR in Mason TX, we were able to obtain a paper fiber product that Texas Tech has tested to be a viable concrete fiber. It is shock absorbent, sound and fire proof.
The inclusion of recycled paper within the mixtures typically reduced weight as it replaced more standard aggregate such as sand and rocks. As the mixes were refined, it was found that the paper pulp needed to be wet before mixing as well as the amount of paper used also determines slight coloring changes. We mixed it with a formula of hydrostone and portland cement. Different mixes were cast in cylinders and sent to the college of engineering to analyze the compressive properties of the mixes and to examine how adding recycled paper will perform. The most promising mixture was used.
The design came from a quick charrete within the class. There had to be several variations in the modules. We used spaced filling polyhedra which when connected form a soild interlocking form. The design uses sphenoid hendecahedron. Voids are created to provide lightness and the larger apertures are at the top of the wall where the more massive geometry is at the base.
Green wallddf concrete parametric wall__________
Graduatefall first yearddf studio (colaboration0christian pongratz (professor)
rhinograsshopper
illustratorphotoshop
Installation ProposalTexas Tech University College of Architecture Digital Design & Fabrication
// 02
10'-4 1/4"
4'-0
"
2
5
Installation Proposal
Site 2
Site 1
Texas Tech University College of Architecture Digital Design & Fabrication
33
Site Plan
Installation Proposal
Project
In this digital design and fabrication studio research and experimentation with grasshopper, parametric design and casting took place. A majority of the semester was spent researching concrete, mixtures and experimenting with concrete panel designs. After a mid-semester workshop the work shifted to a platonic solid wall and eventually our class began a 4 week installation project.
Many mixes were made throughout the semester to see how the ratios of the different admixtures reacted under many performance based criteria. Thanks to a site visit to GREENSTAR in Mason TX, we were able to obtain a paper fiber product that Texas Tech has tested to be a viable concrete fiber. It is shock absorbent, sound and fire proof.
The inclusion of recycled paper within the mixtures typically reduced weight as it replaced more standard aggregate such as sand and rocks. As the mixes were refined, it was found that the paper pulp needed to be wet before mixing as well as the amount of paper used also determines slight coloring changes. We mixed it with a formula of hydrostone and portland cement. Different mixes were cast in cylinders and sent to the college of engineering to analyze the compressive properties of the mixes and to examine how adding recycled paper will perform. The most promising mixture was used.
The design came from a quick charrete within the class. There had to be several variations in the modules. We used spaced filling polyhedra which when connected form a soild interlocking form. The design uses sphenoid hendecahedron. Voids are created to provide lightness and the larger apertures are at the top of the wall where the more massive geometry is at the base.
Green wallddf concrete parametric wall__________
Graduatefall first yearddf studio (colaboration0christian pongratz (professor)
rhinograsshopper
illustratorphotoshop
Casting
3d Model1 2
3 46 7
8 9
Half Cutmade from stacked laser cuts, sanded, and applied smooth layer of bondo
Other Half
Finished Module
Cast Module
Cast Prepapply half model to base with pour spout
Mold ResultSiliconethe half model is coated with a brush-on silicone mold. cure time approx 24hrs room temp
both sides of the final mold are clamped and ready for module casting.
5
Plaster Backing
Casting Procedure
Model Casting
001: release of small mold component
002: plaster positives are easily taken out of
flexible silicone molds
003:
image of small module immediately taken out of mold
004:
small component example of failed cast
Small mock up model made of plaster on black plexi.
Model
SPENOID HENDECAHEDRON
1ft
9in
MODULE_03
MODULE_02
MODULE_01
florette tiling
chamfered edges
provides secondary pattern generation between assembly modules
stacked florette tiling
21.8 degrees
280.941 (+/- 0.0008) cubic inches
222.741 (+/- 0.0008) cubic inches
224.782 (+/- 0.0008) cubic inches
85% scale
80% scale
aperature boolean
oval booleanshape based off control point grid
Module Generation + Development
closed control point curve from face edges
Scale Model Mixes Final Design MixesW
ATER
PLASTER
PAPER
HYDROSTONE
PORTLAND CEMENT
50 mL WATER
45 oz WATER
70 mL
WATER
90 oz PAPER100 mL
PLASTER
100 mL PLASTER
45 oz P.C.
90 ozHYDROSTONE
60 oz WATER
120 oz PAPER
60 oz P.C.
120ozHYDROSTONE
module# 1 & 2
module#3
module# 1 & 2
module#3
Casting
3d Model1 2
3 46 7
8 9
Half Cutmade from stacked laser cuts, sanded, and applied smooth layer of bondo
Other Half
Finished Module
Cast Module
Cast Prepapply half model to base with pour spout
Mold ResultSiliconethe half model is coated with a brush-on silicone mold. cure time approx 24hrs room temp
both sides of the final mold are clamped and ready for module casting.
5
Plaster Backing
Casting Procedure
Model Casting
001: release of small mold component
002: plaster positives are easily taken out of
flexible silicone molds
003:
image of small module immediately taken out of mold
004:
small component example of failed cast
Small mock up model made of plaster on black plexi.
Model
35
SPENOID HENDECAHEDRON
1ft
9in
MODULE_03
MODULE_02
MODULE_01
florette tiling
chamfered edges
provides secondary pattern generation between assembly modules
stacked florette tiling
21.8 degrees
280.941 (+/- 0.0008) cubic inches
222.741 (+/- 0.0008) cubic inches
224.782 (+/- 0.0008) cubic inches
85% scale
80% scale
aperature boolean
oval booleanshape based off control point grid
Module Generation + Development
closed control point curve from face edges
Scale Model Mixes Final Design MixesW
ATER
PLASTER
PAPER
HYDROSTONE
PORTLAND CEMENT
50 mL WATER
45 oz WATER
70 mL
WATER
90 oz PAPER100 mL
PLASTER
100 mL PLASTER
45 oz P.C.
90 ozHYDROSTONE
60 oz WATER
120 oz PAPER
60 oz P.C.
120ozHYDROSTONE
module# 1 & 2
module#3
module# 1 & 2
module#3
12
3
4
5
6
7
8
9
10 11
12
13
13
14
14
15
Fairfield2013 parade of homes rendering and drawings__________
Graduatesummer first yearcarrasco homes llc.
This work was done for Carrasco Homes LLC. in Midland TX. The company allowed me to do a spread for the 2013 Parade of Homes. Revit and photoshop were used to create the drawings. Only a basic floor plan and elevation rendering were asked for the publication . Otherwise a full construction document set including site, foundation, floorplan, electrical, and elevations would have been completed.
-
DW
REF.
OVEN
WD
WH WS
1. master bedroom2. master closet3. master bath4. study5. foyer6. dining7. family8. breakfast9. kitchen10. powder11. utility12. bath13. bedroom14. porch15. garage
revitphotoshop
Full Scale Casting
001:
002:
003:
004:
005:
006:
007:
008:
009:
//001 //002
//003 //004
//005 //006
//007 //008
//003
curing brush-on silicone for large scale molds- approximately 16 hours
once cured, silicone can be peeled off of laser-cut positive model
the cured silicone molds are attached to a larger box assembly to prep for plaster backing
pouring the plaster backing for the final mold
once both final mold halves are completed, both sides are clamped for final module cast
after final cast pour, the finished cast module can be extracted from the plaster molds
the silicone molds can be peeled off the final module
showing the silicone and plaster molds for final casting
assembly process
//009
12
3
4
5
6
7
8
9
10 11
12
13
13
14
14
15
Fairfield2013 parade of homes rendering and drawings__________
Graduatesummer first yearcarrasco homes llc.
This work was done for Carrasco Homes LLC. in Midland TX. The company allowed me to do a spread for the 2013 Parade of Homes. Revit and photoshop were used to create the drawings. Only a basic floor plan and elevation rendering were asked for the publication . Otherwise a full construction document set including site, foundation, floorplan, electrical, and elevations would have been completed.
-
DW
REF.
OVEN
WD
WH WS
1. master bedroom2. master closet3. master bath4. study5. foyer6. dining7. family8. breakfast9. kitchen10. powder11. utility12. bath13. bedroom14. porch15. garage
revitphotoshop
37
Full Scale Casting
001:
002:
003:
004:
005:
006:
007:
008:
009:
//001 //002
//003 //004
//005 //006
//007 //008
//003
curing brush-on silicone for large scale molds- approximately 16 hours
once cured, silicone can be peeled off of laser-cut positive model
the cured silicone molds are attached to a larger box assembly to prep for plaster backing
pouring the plaster backing for the final mold
once both final mold halves are completed, both sides are clamped for final module cast
after final cast pour, the finished cast module can be extracted from the plaster molds
the silicone molds can be peeled off the final module
showing the silicone and plaster molds for final casting
assembly process
//009
Product Design___________
selected works from various classesTTU
undergrad Product designSpring forth year Michael Martin (Professor)
Unlike a box
The task of this assignment was to create a box with a twist or function that is unexpected from a box. While the first idea was to create a jewelry box with walls that lit up from the base, the idea quickly transformed into a lamp. The box is facetted to go along with the idea of a gem. Multiple were created and then stacked. It was constructed using veneered plexi. The top surface is mirrored.
Parabolic Lamp
This project explores paper folding. The parabolic form was chosen for its ability to diffuse light evenly when projected from the foci. The wood is laser cut walnut. It sits on a base with steel rods that rest on the lamp’s cork back. This allows the lamp to recline in various angles.
Product Design___________
selected works from various classesTTU
undergrad Product designSpring forth year Michael Martin (Professor)
Unlike a box
The task of this assignment was to create a box with a twist or function that is unexpected from a box. While the first idea was to create a jewelry box with walls that lit up from the base, the idea quickly transformed into a lamp. The box is facetted to go along with the idea of a gem. Multiple were created and then stacked. It was constructed using veneered plexi. The top surface is mirrored.
Parabolic Lamp
This project explores paper folding. The parabolic form was chosen for its ability to diffuse light evenly when projected from the foci. The wood is laser cut walnut. It sits on a base with steel rods that rest on the lamp’s cork back. This allows the lamp to recline in various angles.
39
Post graduateJewelry designspring ‘15 (ongoing)robby glover (Professor)
Excavate
This ring is based off the mineral pyrite. The cube is emerging from the mass playing with the idea of becoming its own gemstone setting. It has been cast from silver. The tool markings have been left to remind the user of cause and effect. Since it was carved out of wax, every mark made is reflected in the end product.
Post graduateJewelry designspring ‘15 (ongoing)robby glover (Professor)
Excavate
This ring is based off the mineral pyrite. The cube is emerging from the mass playing with the idea of becoming its own gemstone setting. It has been cast from silver. The tool markings have been left to remind the user of cause and effect. Since it was carved out of wax, every mark made is reflected in the end product.
41
GraduateJewelry designFall 1st yearrobby glover (Professor)
Hammered folds
As an elective this studio was a material study in folded metal. Using primarily copper, folds were planned and hammered out into intricate patterns to become earrings. The thin copper sheets have been work hardened by striking it with striations along the length to prevent bending.
GraduateJewelry designFall 1st yearrobby glover (Professor)
Hammered folds
As an elective this studio was a material study in folded metal. Using primarily copper, folds were planned and hammered out into intricate patterns to become earrings. The thin copper sheets have been work hardened by striking it with striations along the length to prevent bending.
43
45
VC