Portfolio_Evan Collins by Evan Collins

evan collins PORTFOLIO 2008-2020

SMALL FORMAT RETAIL STORE 2019-2020 REFERENCE: HOWARD SCHULIEN

programs used: REVIT / SKETCHUP / adobe suite / PROCORE / MS OFFICE SUITE / BLUEBEAM / client-specific programs

Served as the main project architect for this custom small format store in Portland, OR. This project involved the conversion and extensive renovation of an existing, partially unconditioned retail space into a retail store with a pharmacy, grocery, restrooms, custom sales floor items, new entry vestibules, stockroom, and offices. This also included some extensive exterior remodeling and site work, along with parking layout and ADA-compliance work to bring the property up to code. Responsibilities included overseeing the project from initial conceptual & schematic design through to construction administration, developing construction documents & shop drawings, conducting due diligence research and implementation, providing guidance for coworkers, coordinating with consultants & jurisdiction, and managing an internal project team ranging from 2-3. Due to the more customized nature of this particular store, I also spent time coordinating and consulting with the clientâ&#x20AC;&#x2122;s internal design team. Responsibilities included developing design ideas, sketches, researching products & materials, creating renderings and providing various solutions.

developed full sets of construction drawings, and oversaw construction administration example of finish plans, elevations, details A

TOTAL TRAVEL DISTANCE TO EXIT 3: 231' - 6"

example of exterior elevations

TOTAL TRAVEL DISTANCE TO EXIT 1: 246' - 3 1/2" 1 9SO

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TOTAL TRAVEL DISTANCE TO EXIT 4: 134' - 10 1/2"

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TOTAL TRAVEL DISTANCE TO EXIT 4: 86' - 11"

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STRIPED EXIT PATH, SEE 1/A351

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(75' - 0")

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EXIT WIDTH: 34.5" OCCUPANTS: 172

HG 9H

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(8' - 7 1/2")

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TOTAL TRAVEL DISTANCE TO EXIT 1: 218' - 3"

W;3/6 W

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(28' - 8")

TOTAL TRAVEL DISTANCE TO EXIT 1: 219' - 1"

(10' - 7")

1 HO

(32' - 8 1/2")

HG @@

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TOTAL TRAVEL @G DISTANCE TO EXIT 3: 137' - 10"

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(14' - 3")

EXIT WIDTH: 66.75" OCCUPANTS: 333

1(**65 *>!(53>4

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(1' - 11")

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(23' - 10 1/2")

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(17' - 6 1/2")

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(13' - 6 1/2")

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11 6W35'9

STRIPED EXIT PATH, SEE 1/A111 & 1/A333

1 EXIT WIDTH: 55.5" OCCUPANTS: 277

NOTE: SEE 1/E172 FOR ILLUMINATED PATHS OF TRAVEL

1 (S@9

9VHP'h'9OLSP

SCALE:

OCCUPANT LOAD ANALYSIS - LEVEL 01

1ST FLOOR EXIT DIAGRAM PLAN 4

2014 OSSC, TABLE 2902.1 - MINIMUM PLUMBING FIXTURES

4 3

OCCUPANCY

OCCUPANT LOAD

1 PER 1000

0.047

1 PER 25*

1 PER 40*

1219

1 PER 1000

1.219

1 PER 500

1.219

1 PER 500

1.219

1 PER 750

0.813

1 PER 750

0.813

S-1

1 PER 1000

0.032

1 PER 100

0.16

1 PER 100

0.16

1 PER 100

0.16

1 PER 100

0.16

GENERAL NOTES -EXIT PLAN

S-2

187

1 PER 1000

0.187

1 PER 100

0.935

1 PER 100

0.935

1 PER 100

0.935

1 PER 100

0.935

TOTAL

1485

TABLE 1.0 - MIN. ILLUMINANCE PROVIDED FOR EGRESS PATHS (FT-C) - 1ST FLOOR MAX. PROVIDED

MIN. PROVIDED

AVG. OF MIN.

MAX./MIN.

45.9

1.2

15.02

38.25

NOTE: THE LIFE-SAFETY GENERATOR WILL PROVIDE MINIMUM OF 90 MINUTE BACKUP EMERGENCY POWER TO THE EGRESS LIGHTING. REFER TO ELECTRICAL DRAWINGS.

LEGEND - CODE COMPLIANCE PLAN EXIT

EGRESS PATH

1-HR FIRE RATED PARTITION

HATCH PATTERN INDICATES LOCATION OF EGRESS LIGHTING IN THE CORRIDORS, AISLES, STAIRS, EXTERIOR DOOR LANDINGS AND EXIT DISCHARGES TO THE PUBLIC RIGHT OF WAY. REFER TO TABLE 1.0 FOR MIN. ILLUMINANCE PROVIDED FOR EGRESS PATHS.

WATER CLOSETS

LAVATORIES

THIS DIAGRAM REFLECTS TOTAL TRAVEL DISTANCE REQUIRED WITH FIXTURES ON THE SALES FLOOR BY LIMITING THE ZONE SERVED TO 45 DEGREES THIS IS MORE CONSERVATIVE THAN THE ARC METHOD

1.485

OTHER FEMALE

MALE

FEMALE

3.814

3.408

3.814

DOOR WIDTH REDUCED FOR CLEAR WIDTH BY SUBTRACTING STOPS AND/OR DOOR THICKNESS SEE 2 A021

MINIMUM DRINKING FOUNTAINS REQUIRED:

2**

DRINKING FOUNTAINS PROVIDED:

2** (1-HIGH / 1-LOW)

MINIMUM WATER CLOSETS REQUIRED:

MALE: FEMALE:

4 4

WATER CLOSETS PROVIDED:

MALE: FEMALE: UNISEX:

AUTOMATIC SLIDING DOOR CLEAR EXIT WIDTH IS CALCULATED USING OVERALL FRAME WIDTH, LESS 14 3/4", PER DOOR MFR.

MINIMUM LAVATORIES REQUIRED:

MALE: FEMALE:

4 4

LAVATORIES PROVIDED:

AUTOMATIC TELESCOPIC DOOR CLEAR EXIT WIDTH IS CALCULATED USING OVERALL FRAME WIDTH, LESS 16 3/8", PER DOOR MFR.

TOTAL OCCUPANT LOAD = 1461 / 2 (PER TABLE 2902.1 OSSC) = 731 MALE AND 731 FEMALE

4 (2 WC + 2 URINALS) 4 1

MALE: 4 (2 LAV + 1 STOCKROOM SINK + 1 JANITOR SINK) FEMALE: 4 (2 LAV+ 1 LOUNGE SINK + 1 UNISEX SINK) **PER 2014 OSSC CHAPTER 11 / 1109.5.2 - 50% OF DRINKING FOUNTAINS SHALL BE ACCESSIBLE.

TOTAL OCC

116 SF 727 SF 154 SF 168 SF 1,165 SF

TOTAL:

5 5

ROOM NUMBER ASSEMBLY (A) - NET 009 LOUNGE

ROOM NAME

AREA

2 8 2 2 14

30 30 30 30 30 30

10 308 3 809 21 3 12 10 1170

223 SF 361 SF 48 SF 119 SF 146 SF 123 SF 250 SF 176 SF 3,172 SF 255 SF 262 SF 5,135 SF 41,349 SF

300 300 300 300 300 300 300 300 300 300 300

1 2 1 1 1 1 1 1 11 1 3 1 22 4 1211

MERCANTILE (M) - GROSS 002a VESTIBULE 002b HALL 006 FAMILY RESTROOM 007 MEN 008 WOMEN 012 VESTIBULE

TOTAL OCC 27 27 3

BUSINESS (B) - GROSS 010 CORRIDOR

100 100 100 100

OCCUPANT LOAD

395 SF 395 SF

273 SF 9,222 SF 24,242 SF3 601 SF 360 SF 277 SF 34,975 SF

OCCUPANT LOAD ANALYSIS - PARKING LEVEL

OCCUPANT LOAD

STORAGE (S-1) - GROSS 105 JANITOR STORAGE 108 MECH STORAGE 108A STORAGE 109 ELECTRICAL 113 FREEZER 114 MEAT COOLER 115 DAIRY/PRODUCE COOLER 116 AMBIENT ROOM 117 STOCK 118 RECEIVING 119 OPU STORAGE

*PER 2014 OSSC TABLE 2902.1 - MIN. NUMBER OF REQUIRED PLUMBING FIXTURES FOR BUSINESS (B) CLASSIFICATION: WATER CLOSETS : 1 PER 25 FOR THE FIRST 50 AND 1 PER 50 FOR THE REMAINDER EXCEEDING 50 LAVATORIES : 1 PER 40 FOR THE FIRST 80 AND 1 PER 80 FOR THE REMAINDER EXCEEDING 80

BUILDING EQUIPPED WITH AUTOMATIC SPRINKLER SYSTEM THROUGHOUT

AREA 75 SF 75 SF

MERCANTILE (M) - GROSS 100 ENTRY 101A SALES (UPPER) 1 101B SALES (LOWER) 102 CIRCULATION 103 CIRCULATION 110 VESTIBULE

1 SERVICE SINK

2-HR FIRE RATED EXTERIOR WALL 3

DRINKING FOUNTAINS

MALE

AVG. PROVIDED 18.02

ROOM NUMBER ROOM NAME ASSEMBLY (A) - NET 112 CONFERENCE ROOM BUSINESS (B) - GROSS 104 AP OFFICE 106 PHARMACY 107 CIRCULATION 111 OFFICE

STORAGE (S-1) - GROSS 003 MECHANICAL ROOM 004 ELECTRIC ROOM 005 JANITOR 013 STORAGE 014 MECH. ROOM 015 CONTROL 016 FIXTURE STORAGE 017 STORAGE 018 JANITOR

54 SF 54 SF

100

1 1

397 SF 187 SF 89 SF 236 SF 237 SF 245 SF 1,390 SF

30 30 30 30 30 30

14 7 3 8 8 9 49

421 SF 93 SF 119 SF 224 SF 184 SF 130 SF 168 SF 134 SF 21 SF 1,493 SF

300 300 300 300 300 300 300 300 300

2 1 1 1 1 1 1 1 1 10

37,364 SF 37,364 SF 40,696 SF

200

187 187 274

2 5/8"

WIDTH USED TO DETERMINE CAPACITY

2 5/8"

WIDTH 5/8" USED TO DETERMINE CAPACITY

2 5/8"

DOOR WIDTH 3 2 (S@9

2'-10 1/2"

EXIT WIDTH @ DOORS SCALE:

9VGP'h'9OLSP

5LKKNH

1)%c`+$'4"&d`)

STORAGE (S-2) - GROSS 001 PARKING GARAGE TOTAL:

2014 OSSC EXIT KEY DOOR EXIT WIDTH

EXIT NUMBER 1 2 3 4 5 6

55.5 66.75 66.75 34.5 47 287

1)%$%e4V( OCCUPANCY CAPACITY

IN/OCC 0.2 0.2 0.2 0.2 0.2 0.2

TOTAL PROVIDED

557.00"

0.2

2785

297.00"

0.2

1485

4 TOTAL REQUIRED OSSC

1C 6!

985'A*/'!>?6 !>01*3(4!6'1*(4

!%.f-ge4V(

![`+a`b'7_

B`)#-%.e4V(

?),^.'7_

277 333 333 172 235 1435

GSKS'46'F(*86J'85]'1>/5*(4?]'>/'UR@K@

0A9U9G

9SO!

;C854

@GQGH

RN'8A

EXIT WIDTH: 66.75" OCCUPANTS: 333

6W35'@

KTS'8A 0>1 7!C5

72/438F6/ 8!/2776/ @@K'8A

WEE 1/8" BET

;3/6

114'-3

>&)"'(# 0'(#&6*+?

>AHKSU

99T'8A -%-5&'(# -%*

TS9'8A

9SO!

&= (@@"!*+A 9HQKSVN?

1 (23' - 6 1/2") !"#!$%&'"() *+, (13' - 9 1/2")

W ;3/6

(4' - 9") (16' - 1") (15' - 7")

BAS9SU

W K K ;3/6

1>/5*(4?'F>**J;>>?]'>/

BAS9SU

1(**65 *>!(53>4

UG @@

S N EXIT

(S@9

PLAN NORTH

GV9KV@S@S'KeGKe9R'10

example of schedules and details NEW OPENING SCHEDULE

OCD -OVERHEAD SD COILING DOOR SECTIONAL DOOR FROCS -FIRE RATED G6 OVERHEAD COILING SHUTTERS OCG -OVERHEAD COILING GRILLS IOCD -INSULTED OVERHEAD COILING DOORS

SL AUTOMATIC SLIDING DOOR NOTE: SEE ELEVATIONS FOR MULLION PATTERNS

DW-DOOR & WINDOW TELESCOPIC DOOR NOTE: SEE ELEVATIONS FOR MULLION PATTERNS

W-WINDOW ONLY G19

G37

G19

G20

FRAME TYPES 1

HOLLOW METAL

HARDWARE CLOTH

PLYWD BLKG SEE 20 A501

2x4 STUDS

2" TYP

TYPE 1

22 A501

2" TYP

TYPE 2

TYPE 4

TYPE 5

TYPE 3

STEEL CHANNEL OR ANGLE

TYPE 6

ALUM. FRAME FOR ENTRANCES G17 & STOREFRONTS.

STEEL CHANNEL OR ANGLE AT CMU WALL OPENINGS SEE DETAIL:

OPENING SCHEDULE NOTES

GLAZING KEY-

SPEC SECTION 08 4100 & 08 8800

3 4 5 6 7 8 9 10

11 12 13 14 15 16 17 18 19 20 21 22 23 24 3

25 26

27 1

PROVIDE VOID AND BLOCK-OUTS AS REQUIRED IN DOOR FRAME HEAD TO INSTALL CONDUIT, LOW VOLTAGE WIRE, AND REED SWITCHES LOCATED IN HEAD 6" FROM DOOR LATCH SIDE, EACH DOOR LEAF. COORDINATE THIS WORK WITH THE ELECTRICAL CONTRACTOR AND SECURITY CONTRACTOR TO PROVIDE FREE ACCESS FROM OVERHEAD, THROUGH FRAME WHERE POSSIBLE. PROVIDE VOID AND BLOCK-OUTS AS REQUIRED IN DOOR FRAME JAMB TO INSTALL ELECTRIC STRIKE AND WIRING VERIFY AND COORDINATE WITH HARDWARE SUPPLIER AND ELECTRICAL CONTRACTOR . SEE INTERIOR PAINTING NOTES AND "FINISH MATERIAL AND COLOR CODE", SHEET A601 FOR INTERIOR DOOR AND FRAME COLORS. 1" UNDERCUT FRAMES AT TRAFFIC DOORS TO BE PAINTED IPS-6, SEE ELEVATIONS FOR COLOR. SIZE INDICATED IS FOR ROUGH OPENING SIZE DOOR ACCORDINGLY. TRAFFIC DOORS FURNISHED BY OWNER. FRAME ONLY, NO STOPS. FIELD MEASURE TO MATCH EXISTING OPENING. EXISTING FRAME TO REMAIN. FIELD MEASURE TO MATCH EXISTING FRAME OPENING TO VERIFY SIZE OF NEW DOOR. CONTRACTOR TO VERIFY IF THERE IS EXISTING PANIC HARDWARE ON PUSH SIDE OF DOOR. IF NO PANIC HARDWARE, GC TO CONTACT ARCHITECTURAL PROJECT REPRESENTATIVE FOR REQUIRED HARDWARE REPLACEMENT. PAINT HM DOOR AND FRAME IPS-6, C-9. PAINT HM DOOR AND FRAME IPS-6, C-36. PAINT HM DOOR AND FRAME IPS-6, C-51. PAINT HM DOOR AND FRAME IPS-6, C-209 (IN OPTICAL ONLY). PAINT TD FRAME IPS-6, C-36. PAINT TD FRAME IPS-6, C-9. PAINT HM FRAME ONLY IPS-6, C-36 PAINT INTERIOR SIDE OF DOOR AND FRAME ONLY. PAINT SALES SIDE OF HM DOOR AND FRAME IPS-6, C-36. PAINT OFFICE SIDE IPS-6, C-51. PAINT OCD DOOR AND FRAME EFS-21, C-43. PAINT SALES SIDE OF HM DOOR AND FRAME ONLY. CVS OCG IS GC PROVIDED. SEE SPECIFICATION SECTION 08 3322. DOORS TO INCLUDE SIGNAGE NOTING 'NOT AN EXIT' AND 'LOCKED' DOOR TO INCLUDE SIGNAGE NOTING 'ELECTRICAL ROOM' AND 'FIRE EQUIPMENT ROOM' PROVIDE PANIC HARDWARE.PROVIDE DOOR SIGNAGE TO INDICATE EMPLOYEE ACCESS ONLY & EMERGENCY EXIT PROVIDE SIGN ON EGRESS SIDE INDICATING "THIS DOOR TO REMAIN UNLOCKED WHEN BUILDING IS OCCUPIED" - LETTERS SHALL BE 1 IN HIGH ON A CONTRASTING BACKGROUND. DOORS SHALL COMPLY WITH CRITERIA STIPULATED IN HORIZONTAL SLIDING DOORS - MEANS OF EGRESS REQUIREMENTS NOTES AS INDICATED.

28 G.C. TO REUSE EXISTING SLIDING DOOR; REFER TO 1/AD111 & DEMO KEYNOTE #3H AS INDICATED ON DEMO PLAN. REFURBISH & REPAIR EXISTING DOOR AS NEEDED.

HORIZONTAL SLIDING DOOR MEANS OF EGRESS REQUIREMENTS NOTES

3 GLAZING GL-2 1/4" THICK CLEAR TEMPERED GLASS (SAFETY GLAZING) GL-3 1/2" THICK CLEAR TEMPERED GLASS GL-4 1/4" THICK CLEAR TEMPERED GLASS - PLATED REFLECTIVE GL-5 EXTRUDED POLYCARBONATE GL-7 1/4" THICK CLEAR FILM FACED WIRED GLASS GL-13 9/16" THICK RED LAMINATE GLASS GL-14 9/16" THICK WHITE LAMINATE GLASS GL-15 3/4" THICK CLEAR TEMPERED GLASS

NOTE: DOORS INDICATED WITH NOTE 27 ON THE NEW OPENING SCHEDULE SHALL MEET ALL (8) REQUIREMENTS OF SECTION 1008.1.4.3 OF THE 2014 OSSC AS NOTED BELOW: 1 2 3

NOTE: SEE PROJECT MANUAL FOR GLAZING TYPES INCLUDED IN PROJECT

4 VISION PANEL CLEAR SIZES TYPE V = 10" X 10" TYPE N =6" X 34" TYPE G =22" X 34"

HARDWARE GROUP KEY

7 8 INTERIOR & EXTERIOR DOORS: GROUPS 16-30 -EXTERIOR HOLLOW METAL DOORS-SINGLE GROUPS 31-45 -EXTERIOR HOLLOW METAL DOORS-PAIR GROUPS 46-55 -EXTERIOR SPECIAL DOORS GROUPS 56-75 -INTERIOR HOLLOW METAL DOORS-SINGLE GROUPS 76-90 -INTERIOR HOLLOW METAL DOORS-PAIR GROUPS 91-99 -INTERIOR SPECIAL DOORS

THE DOORS SHALL BE POWER OPERATED AND SHALL BE CAPABLE OF BEING OPERATED MANUALLY IN THE EVENT OF POWER FAILURE. THE DOORS SHALL BE OPENABLE BY A SIMPLE METHOD FROM BOTH SIDES WITHOUT SPECIAL KNOWLEDGE OR EFFORT. THE FORCE REQUIRED TO OPERATE THE DOOR SHALL NOT EXCEED 30 POUNDS (133 N) TO SET THE DOOR IN MOTION AND 15 POUNDS (67 N) TO CLOSE THE DOOR OR OPEN IT TO THE MINIMUM REQUIRED WIDTH. THE DOOR SHALL BE OPENABLE WITH A FORCE NOT TO EXCEED 15 POUNDS (67 N) WHEN A FORCE OF 250 POUNDS (1100 N) IS APPLIED PERPENDICULAR TO THE DOOR ADJACENT TO THE OPERATING DEVICE. THE DOOR ASSEMBLY SHALL COMPLY WITH THE APPLICABLE FIRE PROTECTION RATING AND, WHERE RATED, SHALL BE SELF-CLOSING OR AUTOMATIC CLOSING BY SMOKE DETECTION IN ACCORDANCE WITH SECTION 716.5.9.3, SHALL BE INSTALLED IN ACCORDANCE WITH NFPA 80 AND SHALL COMPLY WITH SECTION 716. THE DOOR ASSEMBLY SHALL HAVE AN INTEGRATED STANDBY POWER SUPPLY. THE DOOR ASSEMBLY POWER SUPPLY SHALL BE ELECTRICALLY SUPERVISED. THE DOOR SHALL OPEN TO THE MINIMUM REQUIRED WIDTH WITHIN 10 SECONDS AFTER ACTIVATION OF THE OPERATING DEVICE.

2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 2 2 2 2 1 1 1

1 1 1 1 1 1 2 1 1 1 1 1 1 2 1 1 1 1

LEFT DOOR WIDTH

RIGHT DOOR WIDTH D/ W HEIGHT

2'-11" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-6" 14'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0"

3'-0"

0" 3'-6" 3'-0" 3'-0" 3'-0" 3'-0"

3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 2'-0" 3'-0" 3'-0" 2'-0" 3'-0" 3'-0" 8'-0"

3'-0"

THICKNESS

7'-3" 7'-2" 7'-2" 7'-2" 7'-4" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-9 1/2" 7'-6" 7'-7 1/2" 7'-0" 8'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 3'-6" 8'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 7'-0" 8'-0" 8'-0" 7'-0" 8'-0" 8'-0" 7'-0" 7'-0" 7'-0" 10'-0"

SEE 1/A111 FOR STAIR WIDTH FIRE RATING

GL TYPE

0" 0" 0" 0" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 3/4" 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 4" 4" 1 3/4" 4" 1 3/4" 1 3/4" 1 3/4" 1 3/4" 1 3/4"

GL GL --2T 2 3 (E) GL GL- -2T 2 GL - 5 GL - 5 GL GL- 11T -2 GL - 2 GL GL- -11T 2 GL - 5 -

45 MIN. 45 MIN. 45 MIN. 4 45 MIN. 3 3 4

118C

TYPE/ASSEMBLY:

002A

ROOM NAME

D/ W TYPE

RECEIVING

PANEL MATERIAL

ALUM

QTY

D/ W WIDTH

4'-0"

LEFT DOOR WIDTH

RIGHT DOOR WIDTH D/ W HEIGHT

4'-0"

THICKNESS

4'-0"

FIRE RATING

GL TYPE

1/2"

ENTRANCE DOOR W/ > 50% GLAZING / SLIDING DOOR

AIR-INFILTRATION MAX. RATE (CFM/FT) 2

0.80

0.30

SEE PLAN FOR PARTITION TYPE

3 1 5 5 1 1 5 5 1 5 5 5 1 5 5 5 3 3 4 4 3 1 1 1 1 4 4 1 1 1 1 1 1 3 1 1 2 1 2 1 5 4

ALUM HM HM HM HM HM HM HM HM HM HM HM HM HM HM HM ALUM ALUM STL STL ALUM HM HM HM HM STL STL HM HM HM HM HM HM ALUM HM HM WD HM WD HM HM STL

N1.0 81.0 74.1 74.1 63.10 61.3 56.0 56.0 68.4 68.4 63.0 63.0 63.15 63.0 63.0 63.10 83 N1.1 91.0 91.0 14.0 N78.3 N68.2 63.10 1 63.12 94.0 94.0 70.5 23.0 63.0 63.0 63.0 14.0 1 N78.3 N69.2 64.1 91.0 91.0 91.0 91.0 14.0 N30.4 94.0

3 HEAD DETAIL

JAMB DETAIL

SILL DETAIL

8/A611 8/A611 1/A611 1/A611 1/A611 1/A611 1/A611 1/A611 1/A611 8/A611 1/A611 1/A611 1/A611 1/A611 1/A611 1/A611 4/A622

9/A611 9/A611 2/A611 2/A611 5/A611 5/A611 2/A611 2/A611 5/A611 9/A611 2/A611 2/A611 5/A611 2/A611 2/A611 2/A611 9,11/A622

10/A611 10/A611 10/A611 -

9/A611 9/A611 2/A622 1/A611 1/A611 1/A611 1/A611 2/A611 2/A611 1/A611 8/A611 8/A611 1/A611 1/A611 1/A611 4/A622 1/A611 1/A611 9/A611 -

10/A611 10/A611 7/A622 2/A611 5/A611 5/A611 5/A611 11/A321 11/A321 5/A611 9/A611 9/A611 2/A611 2/A611 5/A611 13/A622 5/A611 5/A611 7/A611 10/A611 7/A611

14/A622 SIM 10/A611 10/A611 15/A622 4/A352 -

8/A611 12/A611

9/A611 13/A611

10/A611 -

NOTES

19/A622

HARDWARE GROUP

FRAME TYPE

FRAME MATERIAL

HEAD DETAIL -

SILL DETAIL

1/2"

0.40

012

OPAQUE / SWINGING DOOR

0.70

0.30

N/A

100

ENTRANCE DOOR W/ > 50% GLAZING / SLIDING DOOR

0.80

0.30

0.40

103

NON-ENTRANCE DOOR W/ > 50% GLAZING / SWINGING DOOR

0.45

0.30

0.40

OPAQUE / SWINGING DOOR

0.70

0.30

N/A

OPAQUE / SWINGING DOOR

0.70

0.30

N/A

110B

NON-ENTRANCE DOOR W/ > 50% GLAZING / SWINGING DOOR

0.45

0.30

0.40

118

OPAQUE / SWINGING DOOR

0.70

0.30

N/A

118A

OPAQUE / ROLL UP (OVERHEAD) DOOR

0.46

0.40

N/A

118B

OPAQUE / SWINGING DOOR

0.70

0.30

N/A

AT SIM CONDITION NO STOP IN HM FRAME

2'-6"

25 23 23 PROVIDE ALARM W/HARDWARE -

(E) CONCRETE SLAB 1-1/2" DIA. HANDRAIL IPS-6, C-38

!"#$

TEMPERED GLASS GUARD

2 "N$$

'@ ]

$MG$NG$R %MGMNGM% %MGMNGM%

$ M

%MGMNGM% %2G$3GM%

3 2

%3GMNGM%

4<I=5J^BJ@8

FLUSH

.+O-(,&(//U+ .*/,&.+O-(,&O+H(/(*'/ #"'4&U/+&O+H(+! O+/.*'/+ .#"'&O+H(+!&O+/.*'/+ 4)'&$%3131SX%&M'4 O+/.*'/+&,*&)(,Q )*--+',/ 4)'&$%3123NX%

FACE OF RAISED FLOOR

2 !"#$

#W'X'#YU&W

1/2"

VARIES

3 (N) GUARD RAIL FL 1/2" X 2" IPS-6, C-38 TEMPERED GLASS GUARD

4 A213

3 "N$$

$&$GMZ&[&$\X%Z

SCALE:

SEE STRUCT FOR POST CONNECTION TO STRINGER STEEL STRINGER IPS-6, C-38

1/2" BLKG

RAIN DRIP - SET IN FULL BED OF SLNT-3

THRESHOLD SET IN SLNT-9

J TRIM

1/2"

5 3/4"

HDWR CLOTH

STEEL CHANNEL

C 8 X 11.5 FRAME GRIND WELDS SMOOTH BETWEEN HEAD & JAMBS

SLNT-3 W/ BACKER ROD

NOTE: CONTRACTORS OPTION TO CAST DOOR FRAMES INTO CONC PANEL

5 3/4"

(E) CMU WALL

LAP C6 1'-0" MIN ONTO C8 CENTER C6 ON C8 DEPTH. FIELD WELD C6 TO C8

HM JAMB PACKED W/ INSUL-9

TRAFFIC DOOR

@ SIM - JAMB DET 10/A611 DOES NOT APPLY

8 A611

PLYWOOD SLNT-3 W/ BACKER ROD

7/8"

5 7/8" HM JAMB MASONRY ANCHOR

4 "N$$

EXTERIOR HM HEAD @ EXTERIOR WALL SCALE:

5 "N$$

3Z&[&$\X%Z

EXISTING SUB-PURLIN EXISTING DECK

NOTE: 2x6's TO BRACE AGAINST C6. DO NOT FASTEN C6 TO 2x6'S VERTICAL SLIP CONNECTION

HM JAMB @ CONC PANEL SCALE:

6 "N$$

$&$GMZ&[&$\X%Z

EXISTING PURLIN

SILL @ HM EXT DOOR SCALE:

7 "N$$

$&$GMZ&[&$\X%Z

JAMB/HDWR CLOTH DOOR SCALE:

$&$GMZ&[&$\X%Z

8 "N$$

TRAFFIC DOOR JAMB (HEAD SIM) SCALE:

9 "N$$

$&$GMZ&[&$\X%Z

TRAFFIC DOOR FRAME SCALE:

15 "N$$

$G2Z&[&$\X%Z

HM JAMB @ CMU WALL (HEAD SIM.) SCALE:

$&$GMZ&[&$\X%Z

EXISTING SUBPURLIN

@ SIM CONDITION: DELETE OCD DOOR HOOD, GUIDES & BRACKETS BY MFR

3" MIN

JAMB C6 (ORIENTATION MAY VARY)

G20

SEE PLAN FOR PARTITION TYPE

C8 X 11.5 FRAME SEE

C6 (ORIENTATION MAY VARY)

NOTE: DECK NOT SHOWN FOR CLARITY

C8 X 11.5 FRAME SEE

.5@B@F'G" PREFINISHED STEEL TRAFFIC DOOR FRAME, FASTEN TO COOLER PANEL PER MFR'S INSTRUCTIONS

(2) 6" X 16 GA STUDS

DOOR GUIDE (BY DOOR MFR) FASTEN TO CHANNEL AS REQUIRED BY DOOR MFR

IPS-6, C-5

!"##

(E) PRECAST TEES

STEEL STRINGER IPS-6, C-38

3-5/8" STEEL STUD WALL 5/8" GYP BD C-202 PLASTIC PLAMINATE

(E) CONCRETE WALL L 3' x 3' x 1/2" X 0'-3" ANGLE WELD TO STRINGER & BOLT TO CONC SLAB W/ (1) 5/8" DIA x 2" EXPANSION ANCHOR

C-202 PLASTIC LAMINATE

"#$%&'(()%*)+"#$&), -!%&#$'%$) (#%'.+')/)0123

RB-1A

LEVEL 1 - T/O SLAB EL 100' - 0"

3 !"#$

ENLARGED GLASS GUARDRAIL DETAIL SCALE:

#W'X'#YU&W

4 !"#$

ENLARGED SECTION AT GUARDRAIL SCALE:

#W'X'#YU&W

6 !"#$

SECTION AT STAIR GUARDRAIL SCALE:

#W'X'#YU&W

(E) PRECAST TEES

5 !"#$

ENLARGED STAIR ELEVATION SCALE:

#W'X'#YU&W

,X331Y H<5IJ@8F'G"

)@8KJLF'G"

05@A<=B'(CDE<5

.W +)

45678&9: );<=><?&9:

05@B@F(G!

11 "N$$

TRAFFIC DOOR FRAME BRACING - WOOD ROOF SCALE:

$&$GMZ&[&$\X%Z

12 "N$$

HEAD @ RATED OVERHEAD COILING DOOR SCALE:

$&$GMZ&[&$\X%Z

13 "N$$

JAMB @ RATED OH COILING DOOR SCALE:

$&$GMZ&[&$\X%Z

14 "N$$

*@8KJLF(G!

0T -*

*;<=><?'9:

)(.-N)+N'N!/01'S 1.!)N1

COOLER DOOR FRAME SCALE:

.U$$%V H<5IJ@8F(G!

45678'9:

*.+'('T&/)P+4U#+ V&4+,"(#/ $&$GMZ&[&$\X%Z

PLAN NORTH

3" CLR.

M5 COOLER PANEL

4" PIPE BOLLARD SEE

$&$GMZ&[&$\X%Z

(2) 2x6 WITH (2) #12 WOOD SCREWS TO EA 2x6 ABOVE, TYP

.5@A<=B&'CDE<5

SLNT-4

SIM

(2) 6" X 16" GA STUDS

SCALE:

SEE PLAN FOR PARTITION TYPE

3/4" PLYWOOD ATTACH TO WALL W/4 SCREWS PER STUD

(2) 2x6 WITH LUS26-2 HANGERS BOTH SIDES OF C6 (4-THUS)

TRAFFIC DOOR FRAME BRACING - WOOD ROOF

T/O SLAB - RAISED LEVEL EL 104' - 3" (N) HANDRAILS SHALL CONTINUE TO SLOPE IN THE DIRECTION OF TRAVEL FOR THE DEPTH OF ONE TREAD

(2) 2x6

EXISTING PURLIN

10 "N$$

L 3' x 3' x 1/2" X 0'-3" ANGLE WELD TO STRINGER & BOLT TO CONC SLAB W/ (1) 5/8" DIA x 2" EXPANSION ANCHOR

(E) CONC SLAB

(E) GYP BD.

2%3%&'+&P"#/+Q&/,0&.*O,#"'40&*O&RSM3M

2 LAYERS 3/4" PLYWOOD

HM FRAME

3/8"

INSUL-9, 2 LAYERS

.*O,#"'4&P*##Q!**40&*O

C 8 X 11.5 JAMB - ANCHOR TO SLAB W/ L 4X3X1/4X 0'-6" LLV W/TWO 1/2" DIA X 3" EXP BOLTS

WOOD BLOCKING FOR STOP

SEE PLAN FOR PARTITION TYPE

(N) GUARD RAIL FL 1/2" X 2" IPS-6, C-38

CONCRETE-FILLED METAL PAN STAIR

(E) WALL (E) 7/8" HAT CHANNELS

HM DOOR

#W'X'#YU&W

PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38 STEEL ANGLE, SEE STRUCTURAL IPS-6, C-38

1/8"

J TRIM

SCALE:

HSS 1-1/2" X 1-1/2" X 1/4" IPS-6, C-38

T/O SLAB - RAISED LEVEL EL = 104'-3"

STEEL ANGLE, SEE STRUCTURAL IPS-6, C-38

"#$%&'(()%*)+"#$&), -!%&#$'%$) (#%'.+')/)0123

HDWR CLOTH

SLNT-3 W/ BACKER ROD

4<I=5J[BJ@8 0-N/).')11]0,!('N-H)-Q'N-10+(14*('#&$%$%RU&'"(4 N-10+(1-'.+'*).P *+//-(.1

STAIR SECTION

TEMPERED GLASS GUARD

ROUND BOLT COVER BUTTON

$&$GMZ&[&$\X%Z

(N) GUARD RAIL 3 FL 1/2" X 2" IPS-6, C-38 PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38

HSS 1-1/2" X 1-1/2" X 1/4" IPS-6, C-38

PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38

JAMB @ HM TIGHT TO WALL

(N) 1-1/2" DIAMETER HANDRAIL IPS-6, C-38

3 (N) GUARD RAIL FL 1/2" X 2" IPS-6, C-38 PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38

TEMPERED GLASS GUARD

1/2" BLKG

4 4

$ 3

NOTE: SEE STRUCTURAL FOR ADDITIONAL GUARDRAIL AND HANDRAIL DETAILS

FTS-20

2 2

(@ Z

JAMB ANCHORS

SEE STRUCT FOR POST CONNECTION TO ANGLE

EXTERIOR FACE OF WALL BEYOND

46B< #"G#\G#M &"G"\G"& &3G#$G"&

TYP

ENLARGED STAIR PLAN SCALE:

LEVEL 1 - T/O SLAB EL 100' - 0"

4 A213

T/O SLAB - RAISED LEVEL EL 104' - 3"

5 3/4"

(E) CONCRETE SLAB

46B<

SEE PLAN FOR PARTITION TYPE

1/2"

2X6 BLKG

SEE PLAN FOR PARTITION TYPE

362S125-30 MET STUD

JAMB @ HM/GYP BD SCALE:

T/O SLAB - RAISED LEVEL EL 104' - 3"

2 4

HSS 1-1/2" X 1-1/2" X 1/4" IPS-6, C-38

$&$GMZ&[&$\X%Z

CONCRETE-FILLED METAL PAN STAIR AND STRINGER IPS-6, C-38

PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38

SCALE:

HSS 1-1/2" X 1-1/2" X 1/4" IPS-6, C-38 (N) HANDRAILS SHALL CONTINUE TO SLOPE IN THE DIRECTION OF TRAVEL FOR THE DEPTH OF ONE TREAD SEE STRUCT FOR POST ATTACHMENT TO STRINGER

ROUND BOLT COVER BUTTON

HEAD @ HM_/ GYP BD

#&&&'()*+,,-.'/!,, /)((-!0+,)12'/('%%3&$

(N) GUARD RAIL FL 1/2" X 2" IPS-6, C-38 PL 1/4" X 1-3/4" X 3-1/4" IPS-6, C-38

6 A213

RF-215

SEE PLAN FOR PARTITION TYPE

3/8"

5' - 0 1/2" TYP.

1 "N$$

2'-3 1/2"

6 A213 8

VARIES

NOTE: ALL (N) EXTERIOR DOORS TO COMPLY WITH THE MAXIMUM AIR-FILTRATION, SGHC, AND U-FACTOR VALUES AS INDICATED IN TABLE 1.0. ALL (N) EXTERIOR GLAZED DOORS TO BE NFRC 100 AND 200 LABELED AND CERTIFIED BY THE MANUFACTURER.

2'-6 1/2"

$%%%&'()*##+,&-"## -(''+".*#(/0&-'&112%3

NOTES

AT SIM CONDITION NO STOP IN HM FRAME

1/2"

(N) HANDRAIL TO EXTEND 1'-0" BEYOND FIRST & LAST TREAD OF STAIR WHERE NOTED

ANTI-SLIP TAPE AT EACH TREAD G9

PROVIDE KEYPAD W/ HARDWARE PROVIDE KEYPAD W/ HARDWARE PROVIDE KEYPAD W/ HARDWARE 1 3 27, 28, PROVIDE DOORBELL & ALARM PANEL RELOCATED/SALVAGED (E) SLIDING DOOR 26 3

JAMB DETAIL

2 A213

(N) HANDRAIL TO EXTEND 1'-0" BEYOND FIRST & LAST TREAD OF STAIR WHERE NOTED

(E) EXTERIOR GATE EXTERIOR GATE EXTERIOR GATE EXTERIOR GATE, ADD KEYPAD 27, PROVIDE DOORBELL & ALARM PANEL PROVIDE EXIT DEVICE HARDWARE PROVIDE PANIC HARDWARE 3 PROVIDE PANIC HARDWARE

VARIES

SOLAR HEAT GAIN COEFFICIENT(SHGC)

107B 108

20 GA MET STUDS

*PER TABLE 502.1.1, 502.3 & 502.4.3 OF THE 2014 OEESC

U-FACTOR:

RUNNER TRACK

GENERAL NOTES 1. PUSH/PULL FORCE TO DOOR CLOSURES NOT TO EXCEED: INTERIOR = 5 LBS MAX; EXTERIOR = INDUSTRY STANDARDS FOR DOOR TYPE 2. ALL DOOR OPERATING HARDWARE IS LEVER STYLE OR PUSH TYPE, TYPICALLY INSTALLED @ 40 5/16" AFF 3. CHANGES IN ELEVATION AT THRESHOLDS OR AT FLOOR FINISHES DO NOT EXCEED 1/2 INCH IN HEIGHT AND ALL CHANGES IN ELEVATION BETWEEN 1/4" AND 1/2" SHALL BE PROVIDED WITH A BEVELED EDGE NOT TO EXCEED A SLOPE OF 1:2 4. ALUMINUM FRAMING SYSTEM , HM FRAMES, HM DOORS, AND HARDWARE ARE OWNER FURNISHED 5. DOOR WIDTH REQUIREMENTS FOR HINGES: DOORS UP TO 36" WIDE: 1-1/2 PAIR ( 3 HINGES) UNLESS DOOR IS HIGHER THAN 96 INCHES ( VERIFY FOR LARGER) DOORS 36+ TO 48" WIDE: 2 PAIR (4 HINGES) UNLESS DOOR IS HIGHER THAN 96 INCHES (VERIFY FOR LARGER)

FRAME MATERIAL

1 !"#$

TABLE 1.0 - NEW EXTERIOR DOOR MIN. PERFORMANCE REQUIRMENTS NUMBER:

FRAME TYPE

54.1

EXISTING OPENING SCHEDULE DOOR/ OPENING

SUFFIXES: (EXAMPLE - GROUP 20-A) A -ADD ARMOR PLATE EDGE PROTECTOR AND TRIM PROTECTOR BAR IN LIEU OF KICKPLATE C -ADD "HOLDER" FUNCTION TO CLOSER - 4041H T -ADD TRIM PROTECTOR BAR V -ADD OVERHEAD STOP (GJ-90) IN LIEU OF SPECIFIED STOP

HARDWARE GROUP

1' - 0"

4'-0" 3'-11" 3'-0" 4'-0" 12'-0" 6'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 9'-11 1/2" 14'-0" 14'-0" 6'-0" 6'-0" 6'-0" 6'-0" 3'-0" 3'-0" 3'-0" 11'-8" 10'-6" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 3'-0" 6'-0" 3'-0" 3'-0" 3'-0" 3'-0" 2'-0" 3'-0" 6'-0" 2'-0" 3'-0" 3'-0" 8'-0"

3&$&'(-'O!,1-P'1.2'0+N.,!(42'+N'MR"$"

AC ACCORDION DOOR

ALUM HM HM HM HM HM HM HM HM HM HM HM HM HM HM HM ALUM ALUM (FG) INSUL INSUL ALUM HM HM HM HM ALUM ALUM HM HM HM HM WD HM ALUM HM HM ALUM ALUM HC ALUM INSUL HC HM HM ALUM

D/ W WIDTH

0+N.,!(4'O+,,PQ++42'+N

WDFG WOOD/ FULLGLASS

SL F 1 F F F F F F F F F F F F F F SL SL TD-4 TD-4 FG (W) J F F F OCD OCD F F F F F F FG (W) F F HC TD-4 HC F F OHD

QTY

1'-0"

PANEL MATERIAL

3' - 6"

FG - FULL GLASS

D/ W TYPE

3' - 6"

3'-5"

ROOM NAME PARKING GARAGE PARKING GARAGE PARKING GARAGE PARKING GARAGE VESTIBULE MECHANICAL ROOM ELECTRIC ROOM ELECTRIC ROOM JANITORS FAMILY RESTROOM MEN WOMEN CORRIDOR VESTIBULE STORAGE ROOM MECH ROOM CONTROL FIXTURE STORAGE ELECTRICAL JANITOR ENTRY ENTRY SALES SALES CIRCULATION CIRCULATION AP OFFICE JANITOR/STORAGE PHARMACY PHARMACY PHARMACY CIRCULATION CIRCULATION MECH STORAGE MECH STORAGE ELECTRICAL VESTIBULE VESTIBULE OFFICE CONFERENCE ROOM FREEZER MEAT COOLER ABOVE COOLER DAIRY/PRODUCE COOLER AMBIENT ROOM ABOVE AMBIENT VESTIBULE RECEIVING RECEIVING

6 1/2"

H/C - HARDWARE CLOTH

ALUM W/FULL GLASS

001 001A 001B 001C 002A 003 004 004B 005 006 007 008 010 012 013 014 015 016 017 018 100 100A 101A 101B 103 103B 104 105 106 106A 106B 107A 107B 108 108A 109 110A 110B 111 112 113 114 114.1 115 116 116.1 117 118 118A

2'-4"

TRAFFIC DOOR TD-4 (GREY) TD-200 (CLOUD GREY) G7

3'-5"

3'-4" MAX

3'-7" MAX

4'-10"

1'-0"

DOOR/ OPENING

SDI TYPE "G" VISION PANEL

ALUM W/FULL GLASS OR COMPOSITE ALUM PANEL

SDI TYPE "N" VISION PANEL

2" TYP UNO

SDI TYPE "V" VISION PANEL

EQEQ

H/C BETWEEN 2 LAYER 3/4" PLYWOOD

VISION PANEL

1'-0"

DOOR TYPES

F-FLUSH

example of details and sections

"N$$ 2G$3GM%M%&3F22F$%&.-

PLAN NORTH

!"#$ 3G#$G"&"&'$F3$F3M'0/

SMALL FORMAT RETAIL STORE 2017-2018 REFERENCE: HOWARD SCHULIEN

programs used: REVIT / SKETCHUP / PROCORE / MS OFFICE SUITE / BLUEBEAM

Assisted with construction documentation, closeout, and construction administration work, including site visits and punchwalks, for this small format retail store in Portland, OR.

FOOD SERVICE RETAIL DESIGN 2017-2020 REFERENCE: HOWARD SCHULIEN

programs used: REVIT / SKETCHUP / adobe cc suite / MS OFFICE SUITE / BLUEBEAM

Coordinated with the clientâ&#x20AC;&#x2122;s in-house design team on their roll-out of a new food service prototype for hundreds of remodeled stores. This included extensive problem-solving, product & material research, due diligence and coordination with various local jursidctions, and assisting production teams with layout & design issues from SD through closeout.

LARGE format REMODEL PROGRAM 2017-2020 REFERENCE: HOWARD SCHULIEN

programs used: REVIT / PROCORE / MS OFFICE SUITE / BLUEBEAM / VARIOUS CLIENT-SPECIFIC PROJECT MANAGEMENT PROGRAMS

Served as the main project architect for a total of 34 large-format store remodels. Over the course of these programs (three years) I oversaw remodels in all portions of the store: restrooms, grocery, pharmacy/optical/clinic, cafe, Starbucks, sales floor, back-ofhouse, offices, guest services, and stockroom. This also included some extensive exterior remodeling and site work, along with parking layouts and ADA-compliance work. Responsibilities included overseeing the project from initial schematic design through to project closeout, developing construction documents, conducting due diligence research and implementation, providing guidance for coworkers, coordinating with consultants & jurisdiction, and managing internal project team ranging from 2-5.

MANAGED 34 STORE REMODELS IN 12 STATES OVER THREE YEARS

developed full sets of construction drawings, and oversaw construction administration

example of finish plans, elevations, details

example of reflected ceiling plans, ceiling feature detailing

example of code compliance / egress plan

example of details, sections, and shop drawings

drawings and entitlement coordination for exterior work

GROUND-UP RETAIL BANK BRANCH 2016-2017 REFERENCE: brad barbee

programs used: autocad / SKETCHUP / MS OFFICE SUITE / illustrator / indesign / photoshop

Worked with a team as a junior architect on this new bank branch in Tacoma, WA. My role included 3D modeling, creating renderings, developing construction drawings, researching products, construction administration and site visits.

RETAIL BANK HQ TI/REMODEL 2016-2017 REFERENCE: BRAD BARBEE

programs used: autocad / SKETCHUP / MS OFFICE SUITE / illustrator / indesign / photoshop

Worked with a team as a junior architect on this remodel of a retail bank headquarters in Seattle, WA. My roles included developing drawings based as-builts and measurements, 3D modeling, creating renderings, developing construction documents, researching products, construction administration and site visits.

BRIDGING THE INFORMAL AND FORMAL FINANCIAL SECTORS 4

SITE IS LOCATED IN A SECTION OF JOHANNESBURG WHERE THE INFORMAL AND FORMAL SECTORS ARE IN CLOSE PROXIMITY, BUT DO NOT REGUARLY ENGAGE.

EXAMPLE CASE In this instance, a community investor, financial advisor, and stokvel member agree to launch new redevelopment idea with a community stokvel. These diagrams showcase how the organization of the building and itsâ&#x20AC;&#x2122; spaces faciliate coordination and cooperation between the traditionally separate formal and informal banking systems of South Africa.

Investor discusses potential project with colleagues

Investor overhears community stokvel member discussing potential project before business lecture

SITE

KEY

PATH OF STOKVEL USER FROM SOWETO

AD HOC TRADING ESTABLISHED BANKING

CREATING A SPACE TO BRIDGE INFORMAL / FORMAL BANKING MONETARY FLOWS WITHIN THE BUILDING $

PATH OF COMMUNITY INVESTOR

PATH OF COMMUNITY BANK FINANCIAL ADVISOR FROM FINANCIAL DISTRICT

Community stokvel member and financial advisor discuss potential reinvestment project

FORMAL MONETARY FLOWS (RECORDED TRANSACTIONS)

INFORMAL MONETARY FLOWS

(UNRECORDED TRANSACTIONS)

Investor buys produce from informal trade stand on ground floor

All three meet at the community stokvel floor to research and plan a proposal

Investor, advisor, and stokvel member agree to launch new redevelopment idea with a community stokvel

INTERIOR BANKING CORE USE CASES AND PROGRAMMING, THE CORE OF THE BUILDING IS GENERALLY ORGANIZED AROUND THE CONCEPT OF AN INFORMAL TO FORMAL TRANSITION.

STOKVEL POTLUCK MEETING Stokvel members pool resources and funds at a potluck while planning a new business venture

PROGRAMMING DIAGRAM INCUBATOR OFFICE EQUIPMENT ROOM CLASSROOMS FOR INCUBATOR LESSONS TEACHER / ADMIN OFFICES LOUNGE/ GROUP WORKSPACES AUDITORIUM

FORMAL BANKING MEETING Investor, advisor, and stokvel member agree to launch new redevelopment idea with a community stokvel

FINANCIAL ADVISOR OFFICES ETF TRADING HALL COMMUNITY IMPROVEMENT HALL TOWN HALL MEETING INTENSIVE FINANCIAL COUNSELING STOKVEL LECTURE CLASSROOMS QUICK SERVICE ATMS/ FINANCIAL COUNSEL INFORMAL TRADING / RENTABLE STORE SPACE BANK VAULT

SELLER AND TRADER STALLS Spaces provided for street traders to sell goods and some services, equipped with necessary tech and equipment

CREATING SPACES WITH POTENTIAL FOR INTERACTION PROJECT IS POSITIONED BETWEEN THE CORE OF THE STOKVELS ON BREE STREET, AND THE FNB CAMPUS, ONE OF THE LARGEST BANKS IN SOUTH AFRICA.

FIg. 2

FORMAL SECTOR FINANCIAL WORKERS FROM JEPPE STREET

FIg. 1

INFORMAL TRADER TRAFFIC FROM BREE STREET

FIg. 1

FIg. 2

INFORMAL TRADER SELLING GOODS

INFORMAL, BRIEF FINANCIAL COUNSELING

Informal spaces at base of building are open for traders and sellers, being preequipped with display cases, financial devices

These spaces are dedicated to giving financial advice to bank customers and stokvel members.

scentrification fall 2013 advisor: phu hoang

programs used: rhino / indesign / illustrator / grasshopper + firefly / photoshop / adobe premiere / vray / blender

Gentrification of a neighborhood alters the properties of scent and the multiple layered electromagnetic radiation, influencing the behavior of inhabitants by affecting their perception of comfort, belonging, and connection on both the smaller and larger scales. The space is structured by the electromagnetic radiation, while the inner pockets of qualitative experience are define by scent. We chose to study the rapidly-changing neighborhood of DUMBO in Brooklyn, as it held many identities over the course of the last 200 years: bustling manufacturing and port center, abandoned de-industrialized zone in the mid 20th century, hub of artist lofts & creative spaces in the 1970s, and currently a gentrified neighborhood of glassy condos and new parks. We applied this investigation to the design of a health spa to be located in the core of the neighborhood.

DUMBO // BROOKYLN

SCENT DIFFUSION STUDY

PROGRAMMATIC SHIFTS OVER TIME 1900

1915

1945

1970

1980

1990

2000

2013

vacant industrial

SCENT ‘CORE SAMPLE’ FLUID MODELING SIMULATING SCENT MEMORY OF SPACE

illegal lofts

luxury mixed-use park INDUSTRIAL PEAK

ABANDONMENT

REVITALIZATION

(1900 - 1964)

(1965 - 1979)

(1980 - present)

cultural luxury residential industrial

cultural

low-rent residential

seaport

parking musty old building

deli

upscale store

vacant residential vacant land

urine

garbage pile rubber

smoke

EXPLODED DIAGRAMS SUSPENSION PROGRAM

ACCELERATION PROGRAM

MIXTURE PROGRAM

open source reality winter-spring 2012 REFERENCE: doug jackson

programs used: Rhino/ SKETCHUP / vray / adobe suite / grasshopper / firefly / arduino

Proposal for a framework that enables a multitude of spatially varied environments derived from algorithmic analysis of data captured from sensors, feeds, and users; applied to the form of a skyscraper in NYC. The conceptual basis also included the idea of translating the park typology, with itâ&#x20AC;&#x2122;s constantly shifting space usage and malleability; into a vertical city format.

creating the shifting ‘vertical park’ typology PROGRAMMATIC CROSS-SECTION OF WASHINGTON SQUARE PARK, SHOWCASING THE SHIFTING COMPOSITION OF USES OVER A PORTION OF A DAY.

provides spaces to meet others within the complex

1 gathering place interactive installation

chance encounter

2 communal viewing

protests are facilitated by addtional media content on spatial components

protest impromptu performance

spatial configuration shifts to create an enclosed, contextually aware space

individual reprieve group meeting

TRANSLATED TO THE ‘ACTIVE CORE’ TYPOLOGY

lecture

stair and path components combine to create a setting to view media

TRANSLATED TO A VERTICAL FORMAT

11:00AM intimate conversation

spatial components with embedded interactivity can form installations

performance

4:40PM

political protest

collaboration space

spatial components divide space for more private conversations

stair and path components create lecture space, combined with spatial components to buffer sound and add media

DETAIL/SITUATION

HOW THE MICROTUBULES CHANGE FLOOR TEXTURE

bubbles unfilled are flat

algorithms direct bubbles to fill, changing texture

PATH STRUCTURE

all bubbles filled to achieve new texture

whoa the texture just shifted!

The idea of a series of muscle fibers, and their ability to take on many different forms and tasks, all within the confines of a set form determined by the skeleton structure. I looked to the work of toronto architect and thinker phillip beesley for inspiration, specifically his hylozoic ground installation. The

ADJUSTABLE RAILING

corkscrew rod

STRUCTURAL + DISPLAY

LED + microspeakers

DETAIL

structural steel

SLIDING RAILINGS ALONG PATHWAYS

rotational motor

drive shaft

corkscrew rod

SLIDING MECHANISM

rotational motor mechanical

PATH SLIDING MOTOR

sliding wheel sliding motor

MOVEMENT MOTOR

drive shaft

sliding motors rotational motor + driveshaft

2 1

onboard processor

PATH STRUCTURE

LED + microspeakers structural steel

PROCESSING MODULE

wireless transmitter battery

RAILING MOVEMENT 2

hivemind winter-spring 2012 REFERENCE: doug jackson

programs used: Rhino/ SKETCHUP / vray / adobe suite / grasshopper / firefly / arduino / emotiv suite

Utilizing several emerging technologies, the film-making process can be redeveloped to incorporate the everyday citizen, whilst also democratizing the data that can be used to create films that are truly responsive to the ideas, thoughts, and emotions of the public. Using the Emotiv headset (Brain-Control Interface), a userâ&#x20AC;&#x2122;s brainwaves can be read as they encounter stimuli throughout the site. With a large enough user base, the system can develop an understanding of some stimuli-reaction relationships, allowing for the spaces within to become responsive to the users. This becomes a powerful tool to create spaces that have a much tighter connection to their occupants. A mutual relationship is develop between the two, and thus the spatial environment becomes a reflection of the userâ&#x20AC;&#x2122;s inner thoughts and feelings. This new dynamic is explored through the use of reactive surfaces in the program elements.

vertical farming Spring 2011 REFERENCE: doug jackson

programs used: Rhino/ SKETCHUP / vray / adobe suite / grasshopper / Kerkythea (renderer)

Inspired by the concept of ‘responsive’ architecture, and the idea of a truly ‘living structure, this proposal seeks to revive the connection that humans have with their environment, more specifically their food production. Realizing that the current relationship between humanity and their sustenance is almost non-existent, this design seeks to mend this disconnect through two main methods of production. One consists of human-led farming that occurs on the low rise living structure, which encourages a direct relationship between humanity and their food. The other consists of a larger scale operation that seeks to feed the much greater surrounding populace through means of advanced materials technologies working in harmony with systems derived from nature.

EXPLODED DIAGRAMS PROGRAMMING

CIRCULATION

WATER FLOW

4 2

FARMING

RETAIL

WIND

UTILITY CIRCULATION

RESIDENTIAL

SERVICES

VERT. FARM

VERTICAL FARMING

PUBLIC

PUBLIC (OBSERVATION & TOURING)

CANOPY

RESIDENTIAL UNITS

SITE WATER RECLAMATION

FARMING POD WATER SUPPLY

SUPPLY FROM CITY

ROOF GARDEN

4 Roof farming open to both residents and those interested in learning how to farm. It is run as a cooperative, and produce is distributed through the community.

Operable etfe panels on the southern facade with integrated shading devices

Operable panels climatically controlled farming zones in winter months.

GEOTHERMAL RADIANT FLOOR HEATING

WATER FLOW

Water cistern with algal filtration system, combined with a series of water pressure-powered elevators create a closed system that filters greywater used by living spaces above.

THE CONSUMER AESTHETICS RESEARCH INSTITUTE 2014-CURRENT REFERENCES: FROYO TAM + CINDY HERNANDEZ

TECHNIQUES used: RESEARCH TECHNIQUES, WEB ARCHIVES, ARCHIVAL WORK, CURATION, WRITING, presentation

CARI is an online community dedicated to developing a taxonomy of recent design aesthetics in modern consumer culture, interpreting and critiquing them in the context of societal trends. Weâ&#x20AC;&#x2122;re designing a centralized website to present our findings in an accessible and engaging manner. Over the past five years, we have established a large following on multiple online platforms, and have influenced various works of others, in the fields of fashion, music, graphic design, and video game design.

creating a taxonomy of design trends, and filling in archival gaps BELOW IS A SAMPLING OF THE VARIOUS AESTHETIC CATEGORIES WE’VE DEVELOPED THROUGH INTENSIVE ARCHIVAL WORK. THIS HAS INVOLVED SCANNING THOUSANDS OF PHYSICAL ITEMS: BOOKS, MAGAZINES, PRINT MATERIALS; ALONG COMBING THROUGH VARIOUS ONLINE ARCHIVES, WEBSITES, AND ASSOCIATED COLLABORATORS SITES. WE THEN WORK COLLECTIVELY TO FIND COMMONALITIES BETWEEN THE ITEMS; EVENTUALLY DEVELOPING INTO A COHESIVE AESTHETIC.

1970s Ultramodern

Factory Pomo

Utopian Scholastic

Plastics, curves, plush materials, rainbows, inflatables, shiny metals, fibreglass, prefab everything, supergraphics galore, pleasure furniture, helvetica, icons. This style was a huge influence on Y2K aesthetic in the 1990s.

A design aesthetic that coalesced in the late 1980s, merging Memphis motifs and the CAD technology boom with revivals of Bauhaus/ Deutscher Werkbund, Russian Constructivism, WPA graphics, and general industrial vernacular & iconography from the 1900s-1940s.

An emphasis on scholastic endeavors, ‘edutainment’, and an ‘end-of-history’ approach to learning. It uses classical and ‘timeless’ typography and imagery, adding in the aesthetic of ‘stock photography collage’.

Corporate Airbrush/Laser-Tech

Neon Ooze Surf Shack

Global Village Coffeehouse

Laser grids, glowing neon in a high-tech application (sometimes referencing art deco), boxy beige computers, chromed-out airbrush, robots, simple pomo shapes and compositions.

Bold, bright, neon-hypercolor, and radical; with proto-GVC shapes and squiggles, chunky-edged swirls, and paint splats, this aesthetic was both contemporaneous, and preceded GVC by several years. Potential Keith Haring and Prog/Punk/Zolo influences.

The common threads are a revival of ‘watered-down’ artistic movements, natural/whimsical themes, the appropriation of a hodgepodge of global aesthetics, and a reaction against the sleek, clean, synthetic, and luxurious designs of the early-mid 1980s.

Early Cyber

Frasurbane

Cyber/Gen-X Corporate

April Greiman, Susan Kare, Emigre, Pacific Wave, early rave flyer graphics, The Mind’s Eye, harsh pixelated thermographic imagery with warped fonts made newly possible through the proliferation of the first wave of desktop publishing and image manipulation software.

Serif fonts, warm sepia or black-and-white images of ‘timeless’/classical representations of basic concepts (sometimes in a surrealist manner), often in soft- focus and featuring heavily-staged product photography. Astrolabes, globes, ‘Vitruvian Man’ style diagrams, textured paper, Neo-traditional architecture, relatively ‘realistic’ illustrated representations of various items.

The typographical experimentation of Grunge, computer-generated and manipulated imagery of April Greiman-style graphics, and a corporate-friendly version of early 1990s rave flyers. These are paired with images that are heavily-saturated, blurred, overlaid on-top of each other with various Photoshop effects applied. Recurring colors are ‘acid/ infrared vision’ versions of green, yellow, orange, and purple.

ENGAGING ONLINE COMMUNITIES IN DESIGN RESEARCH WE’VE BEEN ABLE TO DEVELOP A WIDE NETWORK OF ONLINE COMMUNITIES DEDICATED TO ARCHIVAL WORK, DESIGN CURATION, AND HISTORICAL RESEARCH. THROUGH THESE YEARS OF WORK, WE’VE DETERMINED THE BEST WAYS TO UTILIZE CERTAIN PLATFORMS

PLATFORM FACEBOOK

25,000 (MULTIPLE GROUPS)

TUMBLR

52,300 FOLLOWERS

DISCORD ARE.NA

INSTAGRAM TWITTER

# OF USERS/FOLLOWERS

640 USERS

BEST TO USE FOR SOME CURATION, ACCESSIBLE RESEARCH, DISSECTING EXAMPLES, GROUP DISCUSSION HEAVILY-CURATED, FRONT FACING FEED OF RESULTS FROM RESEARCH, MUSEUM-LIKE FREE DISCUSSION AND SHARING OF EXAMPLES, SMALL COMMUNITY

620 USERS/FOLLOWERS

BLOCK-BASED, INTENSIVE RESEARCH WITHIN A SMALL COMMUNITY

8,600 FOLLOWERS

HEAVILY-CURATED, FRONT FACING FEED, BUT ALMOST PURELY VISUAL, LITTLE DISCUSSION

38,000 FOLLOWERS

HEAVILY-CURATED, FRONT FACING FEED, SHORT DESIGN THREADS AND DISCUSSION

coverage & articles with various publications WE’VE BEEN ABLE TO DEVELOP A WIDE NETWORK OF ONLINE COMMUNITIES DEDICATED TO ARCHIVAL WORK, DESIGN CURATION, AND HISTORICAL RESEARCH. THROUGH THESE YEARS OF WORK, WE’VE DETERMINED THE BEST WAYS TO UTILIZE CERTAIN PLATFORMS

WEATHER UNCONTROL 2013

programs used: rhino / grasshopper / firefly / scripting

REFERENCE: phu hoang (modu) Weather Uncontrol, presented with the Storefront for Art and Architecture, was an installation in the 2013 Marfa Dialogues/NY events. Coming just one year after Hurricane Sandy, the exhibit was a timely exploration of the invisible contaminants — silica, asbestos and gypsum — that linger in the air undetected, even by the insurance adjusters tasked with inspecting hurricane damage. The project recasts the term “air rights” as an interior issue, proposing that everyone has the right to breath uncontaminated air.

probe: thesis show june 2013 REFERENCE: doug jackson

programs used: rhino / grasshopper / aurasma / ubi interactive / laser cutter / cnc router

Conceptualized and oversaw the design for our end-of-year thesis show, featuring projected multitouch displays along with integrated augmented reality using ipads and aurasma software. Work also included developing prototypes and assisting other students with their interactive presentations through software training.

probe station components INTERACTIVE TOUCH PROJECTION PROJECTOR + KINECT BOX

IPAD + HOLDER

PROBE FRAME

ADJUSTABLE LIGHT

PHYSICAL MODEL