FARMER'S HOUSING PORTFOLIO. DESIGN PTOBLEM OF 7TH SEM. ARCHITECTURE DESIGN.

ARCHITECTURAL DESIGN VI
PORTFOLIO
TOPIC: Farmer’s Housing
Name:
M. Vaishnavi - 20171AA038
Mohita - 20171AA039
Varun - 20171AA044
R. Vaishnavi - 20171AA053
V. Haarthey - 20171AA069
Sem: VII; B

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA053-R.VAISHNAVI
20171AA069- V.HAARTHEY
20171AA044-N.VARUN
20171AA038-M.VAISHNAVI
20171AA039-MOHITHA
old construction techniques
Predominant Building material for Vernacular Houses
other vernacular materials used in south India:
1. Red oxide: mixed with concrete for flooring.
2. Burma teak
3. Terracotta- head roofing tiles.
4. Rosewood, teakwood, jackfruit tree wood.
5. Athan gudi tile, cement tiles.
6. silks, fine muslin.
7. wood, stone, cement, or granite (for columns in courtyard.)
Material Used for Construction
sloping
roof
. Built form of Vernacular Houses :
Vernacular houses are generally one storey high with
sloping roof. There is a single entrance door with no
or minimal window.
Elements of south Indian housing:
minimal
windows
single
entrance
Verandah with sloping,
tiled roof and columns.
Thinnai
sit-out with built-in seating
carved doors Traditional patterend
flooring
plan of vernacular housing :
rectangular plan circular plan
VERNACULAR HOUSING TYPOLOGY(INDIA)
STAT
E
TYPOL
OGY
KEY ELEMENTS
KERAL
A
NALUKE
TTU
CORTYARD,PORTICO,SLOPED
ROOF
MANIP
UR
MEITIE
YEMJAO
STRAW REINFORCED MUD
THICKWALLS
TRIPU
RA
TONGHA
R
THATCH AND BAMBOO HOUSE
ANDHR
A
PRADE
SH
CHITTUL
I
MULTIPLE
COURTYARDS,TYPICAL
ENTRANCES ,CARVED
DOORS,CARVED PILLARS
,ANTHAGUDI TITLES,PITCHED
ROOF
MEGHA
LAYA
NOKAIC
HIK,INGS
AD
MADE OF
BAMBOO,WOOD,STRAW
BENGA
L
HUTS
WITH
CHALA
ROOF
MADE OF HAY AND MUD
SIKKIM KHIM MADE OF STONE AND WOOD
GUJARA
T
RATHWA WATTLE DAUB WALL
CONSTRUCTION
TAMIL
NADU
TODA
HUTS
CONICAL STRUCTURE,NO
WINDOWS,SMALL DOORS
Metal idols,Traditional fabrics,
tulsi treein the courtyard
LITERATURE STUDY
SOURCE : NATIONAL BUILDING CODE (STANDARDS)
TIME SAVER STANDARDS
METRIC
BUILDING CONSTRUCTION ILLUSTRATED,DK CHING

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
LITERATURE STUDY
Static space requirements for stationary.
FARM VEHICLES
The gradients of farm roads should not exceed the following maxima:
5% for manually operated vehicles, 10% for motorised vehicles, with an
absolute maximum of 20% for short stretches. In laying out the
buildings the following minimum spacing should be maintained: at
least 10m between all buildings and 15m between the farmhouse and
stables or sheds -
MAJORLY USED TRACTORS
MIINIMUM TURNING RADIUS
REQUIRED FOR A TRACTOR
TO TURN
REQUIRED WITH LOADER
Vehicles should be able to move around the farm without needing
to use public roads.
WIDTH :1.8M
LENGTH : 3M
GRADIENT OF FARM LAND
REQUIRED WITH TROLLY
FARM EQUIPMENTS :
CULTIVATOR
PLOW
COMBINE OR
HARVESTER MOWERS
BALLER
MAJORLY USED AGRICULTURAL
MACHINERY.ACCORDING TO THERE SIZES AND
REQUIREMENTS THEY NEED TO BE PROPERLY PLACED
OR PARKED IN THE FIELD OR NEAR THE HOUSE .SHOULD
BE MAINTAINED AND INSPECTED REGULARLY
SPRAYER
Selecting a parking area for agricultural machinery :
Choose a location that is central to your farm
operations. This will minimize the amount of time
and fuel spent moving machinery around the
farm.
Avoid parking machinery in areas that are prone
to flooding.
Consider planting trees or shrubs around the
parking area to provide shade and wind
protection.
Install lighting to make the parking area safe and
accessible at night.
Mark off parking spaces for each piece of
machinery to help keep the area organized.
Regularly inspect the parking area for damage
and make repairs as needed.
Factors to be considered for agricultural machinery :
Size,Surface,Drainage,Security,Accessibility
STRATEGICAL MEASUREMENTS OF MAJORLY USED
AGRICULTURAL MACHINERY.BASED ON THIS
MEASUREMENTS MINIMUM PARKING AREA CAN BE
PROVIDED FOR PROPER PARKING OF MACHINERY
METRIC

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
LITERATURE STUDY
Farm Buildings :
Dust concentration not more than 10 mg/meter cube of air.
noise levels not more than 90db per 8 hours- day exposure.
Farm buildings are of three types namely,
slatted floor system.
1.
straw-bedded pens.
2.
cubicle systems.
3.
Reach of mouth of cattle
Typical dimensions of cattle
tank capacity required for 2 months storage of urine from high level
slat
STORAGE - SILOS
Flat silos for storing silage require ducts to allow the
liquor
to drain off. The walls must be able to withstand the
lateral
pressure of silage depths ranging from 2.0 to 3.5 m so
the
detailed design work should be done by a structural
engineer.
Slatted floor system
it is normally used for beef
cattle or suckler cows only.
for diary cows, use of slats is
limited to cubicle, passages,
feeding stances and
circulation areas.
Straw bedded pens
walls must be built to withstand the pressure of muck
and stock.
225 blockwork with piers at 3000 centres rising to
height of 1400 above max level of muck built-up.
height should preferably be 3700(min at eaves to
allow tractor headroom for mocking out).
CATTLE HOUSING
SYSTEMS
Cubicle system:
In this system, small quantities
bedding (500g/day chopped straw or
sawdust ) spread over resting area
equipped with cubicles and raised 150
above passage.
cubicle dimensions should be related
to animal weight
cubicle passage width (min): slatted-
1800mm; solid scraped- 2100mm.
based on the ergonomics of the cattle the farm building is
constructed and segregated by stall barn for each animal
TIE STALL
TIE STALL
AREA - 3.4M X 3.4M
ICLUDING SLAT -5M X 5M
Focus on a single stall,
showcasing its design elements
like partitions, chains or
stanchions for tethering,
bedding variations, and feeding
and watering mechanisms.
Capture details like animal
postures or name tags to
personalize the scene
length of stall is determined by the
rump height in inches multiplied by
1.2. In terms of width
SLAT
METRIC

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
LITERATURE STUDY
CROP STORAGE:
Tower and clamp silos Bulk and pallet box vegetable storage building.
Layout for grain storage bins
minimum space required for storing grains
storage: wheat 1.3, barley 1.4, oats 2 meter cube/t
Silos: air tight structure that encloses and projects
Eaves: the part of roof that meets or overhangs the walls of building.
Silos are of two types:
1. Tower silos.
2. clamp silos.
detailed section of Grain drying Space and
storage nest of bins with roof
TYPES OF STORAGE :
1. Bulk: within thrust resistant walls, usually steel, approx. 2500mm high, plus asbestos cement sheets
to eaves 1200mm, waterproof floor, with grain coned up at 30 degree to center of building. Normal
spans 14-18m filled by blower auger or overhead conveyor and emptied by portable auger: uninsulated
roof, small gable vents, artificial lighting, door 3700mmX3700mm
2. Bins: (mostly for small quantities or very mechanized units) square or circular thrust resistant steel
or timber sides set on 3500mm grid and 3800mm high, usually bins support roof, filed by conveyor
under ridge, emptied by gravity and shovel into below ground conveyor or by floor sloped 35 degree.
TYPES OF VENTILATIONS:
PROCESS CARRIED OUT BEFORE CROP
STORAGE
Drying:
1. In-situ: for bulk, in principle generally as for vegetables, for bins less than 4500mm high, slotted metal floor over plenum chamber approx. 600mm deep (special slots can
blow air to lift grain without manual work into bottom conveyor) connected to fan room by airduct, usually combined with bottom conveyor. Some circular bins have perforated
sides and central plenum vertical duct less than 1000mm dia.
2. Predryig: mostly by continuous flow or batch driers (electrical or oil fired) for less than 10 t/hr. Former may need 10000 X 3000X 2500 high plus perimeter access and latter
3000X 2500X 4000 high, intake pit (from bulk tanker truck) slopes to elevator which raises wet grain to drier equipment may need 80-100sqm. Elevator will need less than 2000
above top conveyor, probably as penthouse (vented). Driers need dust extract pipes, intake doors should be less than 3500 X 4500 high.
3. Refrigerated: better quality , if grain kept at 4.4 degree C by means of cold air blown through bulk or bin storage. Most layouts similar to warm air drying. Some have lateral
ducts at 3000 centres with external mobile refrigerator blower connected to each in turn
PROCESS CARRIED OUT INSIDE STORAGE UNIT
PROPER VENTILATION AND EXHAUST FANS TO BE
INSTALLED FOR PROPER MAINTAINANCE OF GRAINS

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
LITERATURE STUDY
Circulation for green grocery: small stock as most goods
delivered daily.
Typical boxes of fruits
and vegetables.
Pavement sales from trolleys (carts) or Infront of shop with attractive display.
Plan of fruit and vegetable shop: room with machine for cutting
and preparing vegetables.
Counter with stands and
boxes & wire baskets, drip
pan & dirt trap.
Fruits & Vegetables shop
To improve the air quality
within the bakery shop, it is
recommended to ensure the
shop is well-ventilated, ideally
with a steam extractor.
A common shop layout includes designated
areas for fish, fruits, and vegetable storage.
Here is a proposed strategy for a small bakery
that optimizes bread storage for convenient
access from the bakery, shop, and dispatch:
Locating bread storage in close proximity
to the bakery area to streamline the
baking process.
Placing additional storage units in the
shop area to ensure easy access for
customer purchases.
Establishing a dedicated storage area near
the dispatch zone for efficient loading and
unloading of bread products.
By implementing this strategy, the bakery can
ensure streamlined operations and optimize
customer satisfaction.
Sales counter with screen: brad
compartment with loaf size
Plan an assessment of the room, routes for
customers, and goods to determine cost-
effectiveness.
shop front layout variations: deep windows suitable
for fashion, furniture etc, shallow for jewellery, books
stationery etc.
Storage for tractors and implements, accompanied
by a workshop.
Static space requirements for stationary.
Design a practical display
stand that accommodates
various types of merchandise.
The stand should have units
running between equal
column centers.
Area
Front
setback
Remaining
setback
Max. coverage
100sqm 1m 1/2m 75%
100-300sqm 1m 1m 65%
300sqm+ 2m 2m 50%
plot area
(sqm)
Max. coverage
(%)
setback open space (m)
upto 200 80 1
200-300 70 2
300-1000 60 3
1000+ 50 -
Building Type
Front
setback
Remaining
setback
Assembly , Business,
Educational, Hospital.
5m 3m
Area(sqm)
Front setback
(m)
Remaining
setback (m)
Max. coverage
upto 100 6 4.5 40%
1000 - 5000 9 4.5 40%
5000+ 9 9 40%
For Residential Buildings:
maximum height of building is 3 storeys (11m)
For Commercial Building :
For Buildings above 10m, the same shall be increased by 1m for
every 3m height above 10m.
For Public and semi public Building :
The maximum coverage shall not exceed 60% .
maximum height og educational buildings shall be 3 storeys (11m). If the lift is not
provided.
Foe Industrial Buildings:
Maximum height of the building shall be 2 storey if the lift is
not provided.
METRIC

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
LITERATURE STUDY
AS PER NBC
Height Limitations:
Absolute height of any Building = 1.5 X width of front road+ front open space.
PLINTH:
The height of the plinth shall not be less than 45cm above central line of
street.
Every interior court yard shall be raised at least 15 cm the level of the
surrounding ground.
The Plinth of garage shall be minimum 15cm above the surrounding ground
level.
Requirements of parts of buildings:
sizes and area Requirements:
1. Habitable Rooms: a Habitable rooms shall have a floor area not less than 8
sqm. And the min. width of a room shall be 2.4m for plot sizes up to 120 sqm.
For larger plots, the min. size of Habitable room shall be 9.5 sqm.
2. Kitchen: the area of kitchen shall be not less than 5.5 sqm with the min. width
of 1.8m. where there is a separate store, the size of kitchen may be reduced to
4.5 sqm. For kitchen, which is intended to use as dining room also shall have
floor area not less than 10sqm with a min. width of 2.4m
3. Bathrooms: the size of the bathroom shall not be less than 1.8 sqm. With the
min. width of 1.2m. if it is combined bathroom and water closet, its floor area
shall not be less than 2.8sqm.
4. Mezzanine floor: The minimum size of a mezzanine floor if it is used as living
room shall be 8 sqm.
Height Requirements:
Habitable room: height of all rooms used for human habitation shall be
2.75m measured from the surface of floor to the lowest point of the ceiling
Where beams are provided, the minimum headroom shall be 2.4m.
Kitchen: the room height of the kitchen shall not be less than 2.75m and
where the beams are provided, the minimum headroom shall be 2.4 m.
Bathroom: Height of bathroom measured from surface of floor to the lowest
point of ceiling shall not be less than 2.2m
Loft: the headroom of the loft shall not be more than 1.5m.
Mezzanine floor: the minimum height of mezzanine floor shall be 2.2 m.
Staircase: the minimum headroom in a passage under the landing of a
staircase shall be 2.2m.
Boundary walls: Except for the special permission of authority, the
maximum height of the compound wall shall be 1.5m. above the central line
of main street.
PARKING
For car, the minimum parking space to be 3 m × 6 m when individual parking space
is required and 2.75 m × 5 m when common parking space is required.
Space for scooter/two wheeler and bicycle to be not less than 1.25 m2 and 1.00
m2 , respectively
BARRIER FREE WALKAWAY , PATHWAYS AND RAMPS STANDARDS
SI.NO
ROAD
TYPE
ROAD DESCRIPTION
ROAD
WIDTH
(M)
FUNCTION / REMARKS
1. R1
ROAD WHICH
CONNECTS VILLAGE
TO NEARBY AREAS
9 WIDEST ROAD
2. R2
ROAD WHICH TAKE
MAJOR TRAFFIC TO
THE VILLAGE
6
MAIN VILLAGE ROADS WITH DRAIN ON BOTH
SIDES TO FACILITATE DRAINAGE SYSTEM OF
THE VILLAGE
3. R3
INTERNAL VILLAGE
ROAD
4.5 OTHER VILLLAGE ROADS
4. R4
INTERNAL VILLAGE
ROAD
3 VILLAGE LANES
SPECIAL REQUIREMENTS FOR LOW INCOME HABITAT
PLANNING IN RURAL AREAS
SETTLEMENT AND ENVIRONMENTPLANNING
While planning for rural settlements the following
factors shall be taken into consideration:
a) Eco-system and biodiversity.
b) Topography with its direct effect on climate, likelihood of natural disasters, natural drainage,
etc.
c) Identity of the place rooted in its culture and heritage.
d) Nearness and connectivity with nearby urban centres.
e) Occupation related requirements.
f) Water management.
g) Waste management.
h) Land tenure.
j) Site selected shall be conveniently approachable and suitably developed and shall not be
subjected to water logging/flooding.
k) Plot size : 80 m2 Min
m) Density (Gross) : 60 plots per hectare, Max
n) Minimum frontage : 6 m
p) Ground coverage : 33 percent (subject to a maximum of 50 percent)
q) Floor area ratio : 2, Max (FAR)
r) Open spaces : 1.21 hectare open space for a village with 200 houses
s) Facilities like branch of cooperative bank, a fertilizer depot, a veterinary hospital, market place
and a branch of the cooperative consumer store besides facilities for educational and health care
should be available within a maximum distance of 5 km from any settlement.
Community Facilities FOR RURAL
HOUSING AS PER NBC
A community hall/Baraat Ghar shall be established
Rural development centre shall include Panchayat Ghar, a Mahila Kendra that may
also serve as a vocational training centre.
School, health centre, post office, police post, shopping, work sheds for the
artisans, telephone facilities, etc, should also be established.
6 The use (to the extent possible) of locally available building materials and cost
effective substitutes for scarce building materials should be deployed. Appropriate
technology inputs shall be introduced for improving the local materials or
conventional or traditional practices for improved efficiency.
Protecting and promoting our cultural heritage, architecture and traditional skills
should be given due importance.
MINIMUM AREA
REQUIRED FOR CATTLE
HOUSING,STORAGE,STAL
LS,ROADWAYS
METRIC

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SHEET NUMBER
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
DESKTOP STUDY
USER ANALYSIS
desktop study -international
SITE PLAN
ilocos agriculture hub
a pilot project for agriculture hub establishment in the philippines
bayanihan sa amianan
BAYAN (COMMUNITY) + ANIHAN (FARM), IN FILIPINO CONTEXT, INTRODUCES AN
INNOVATIVE WAY OF RECREATING A SENSE OF COMMUNITY FOR THE PHILIPPINE
AGRICULTURE SECTOR.
THIS PROJECT IS A FUNDAMENTAL ARCHITECTURAL INITIATIVE WHICH IS SPECIFICALLY
DEDICATED TO THE UPLIFTING OF FARMERS’ WAY OF LIVING AND PROVING TO THE
NATION AND TO THE WORLD THAT ARCHITECTURE CAN CREATE AN IMMENSE IMPACT
IN THE AGRICULTURE DEVELOPMENT.
SITE ADAPTION VIEW POINTS
PROGRAMMED SPACES
LOOPING THE PROGRAM
DESIGN DEVELOPMENT
ARCHITECT :- GENNA DOMINGO
LOCATION :QUEZON CITY, PHILIPPINES
SOURCE : WWW.ARCH DAILY.COM

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:- FARMERS
HOUSIN
DATE:-
SCALE:-
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
DESKTOP STUDY
INTERNATIONAL
AREAS AND AMENITIES HAVE BEEN PROVIDED WITH THE FARMERS' REQUIREMENTS AND
COMFORT IN MIND.
SUSTAINABLE AND ENVIRONMENT RESPONSIVE CONSTRUCTION TECHNIQUES HAVE BEEN IMPLEMENTED
KEY DESIGN CONSIDERATIONS:
TRANSFORMATION: ESTABLISHING PRO-FARMER DEVELOPMENT TO
ENHANCE THEIR WAY OF LIVING.
1.
CONNECTIVITY: BRIDGING THE GAPS BETWEEN DIFFERENT ACTORS
IN THE AGRICULTURAL SECTOR, CREATING A SYSTEMATIZED
NETWORK OF CONTACTS.
2.
MINDSET: ALTERING THE PERCEPTION OF AGRICULTURE BY
UNDERSTANDING FARMERS' STORIES THROUGH INTERACTIVE
LEARNING AND EXPERIENCES.
3.
PLACE-MAKING: INTEGRATING ARCHITECTURE AND URBAN DESIGN
AS THE CATALYST AT THE HEART OF DEVELOPMENT.
4.
INNOVATIVE FARMING: ENCOURAGING RESEARCH AND
DEVELOPMENT TO DRIVE CONTINUOUS ADVANCEMENTS IN THE
FIELD.
5.
SHEET NO:-
KEY PLAN:-
ORIENTATION:-

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
DESKTOP STUDY
desktop study -national
Half is More - A House in Progress
ARCHITECTS: ATELIER SHANTANU AUTADE, STUDIOBOXX
AREA: 2000 FT²
YEAR: 2023 , LOCATION :DHOTRE ,INIDA
LEGEND
SHINGLE ROOF
1.
SKELETON
2.
LANDSCAPE
3.
VERANDAH
4.
LIVING SPACE
5.
BEDROOMS
6.
COURTYARD
7.
KITCHEN
8.
ANCILLARY
SPACES
9.
SITE PLAN
FARMLANDS
ROAD
EXISTING STRUCTURES
PROPOSED STRUCTURE
EXISTING
INTRODUCING "THE HOUSE" PROTOTYPE: FUSING TRADITIONAL AND MODERN LIFESTYLES
"THE HOUSE" PROTOTYPE EPITOMIZES A LIFESTYLE THAT LIES BETWEEN TRADITIONAL AND MODERN, NEITHER FULLY RURAL NOR URBAN. THE PROJECT OFFERS INNOVATIVE
SOLUTIONS TO BUILDING, DRAWING ON RESEARCH INTO INCREMENTAL APPROACHES.
THIS FLEXIBLE AND ACCOMMODATING DESIGN IS AN APT RURAL RESPONSE. "THE HOUSE" CLOSELY EXAMINES THE LIFE OF AN AGRICULTURALIST AND REFLECTS THEIR
PHILOSOPHY: "HALF IS MORE!!!!".
IT RESEMBLES THE HOUSE FORM OF OLD HAVELIS FROM THE NORTH TO CHETTINAD HOUSES IN THE SOUTH OF INDIA. AS THIS HOUSE IS MEANT FOR THE
AGRICULTURALIST, WHO SEEKS A PLEURAL SPACE THAT ACCOMMODATES MANY THINGS.
IN THE RURAL CONTEXT, THE THRESHOLD/ VERANDAH PLAYS AN IMPORTANT ROLE WHERE IT IS CONNECTING WITH THE OUTSIDE WORLD. VERANDAH IS A KEY KINETIC
SPACE OF THE HOUSE BECAUSE OF ITS MULTIPLE USES THROUGHOUT THE DAYTIME
THE COURTYARD IN THE HOUSE, ALLOWS THE HOUSE TO BREATHE AND MAKE WAY FOR DAYLIGHT INSIDE.
IT PROVIDES AN ADDITIONAL ROOM SIZE IN A CRAMPED DWELLING SPACE, WHICH IS USED FOR STACKING GRAINS, SEATING OR TALKING WITH FRIENDS, SLEEPING AT
NIGHT, ETC.
THE OPENING OF THE COURTYARD FROM THE TOP IS COVERED WITH RECYCLED GLASS WHICH TRAPS THE HEAT AT THE TOP, WHILE THE PARALLEL WALL ON BOTH SIDES IS
PERFORATED WHICH ALLOWS HEATED AIR TO FLOW.
A TREE PLACED IN THE COURT PROVIDES SHADE AND KEEPS THE SPACE MOIST.
PERCPECTIVE VIEW OF THE COURTYARD
THE USERS ,OCCUPYING THE SEATING AREA
IN THE OUTDOOR COURTYARD.
SIDE VIEW
FRONT VIEW
DESIGN MODEL DESPLAYING THE SECTION OF THE
BLOCK
PERCPECTIVE VIEW OF THE BEDROOM IN THE
FIRST FLOOR
JALI WALL AT THE ENTRANCE
RAT TRAP BOND WITH JALI
SHEET NO:-

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
DESKTOP STUDY NATIONAL
SECTIONS AND FLOOR PLANS
LEGEND
ENTRANCE
1.
VARANDAH
2.
LIVING SPACE
3.
COURTYARD
4.
POWDER ROOM
5.
KITCHEN
6.
UTILITY AREA
7.
BEDROOM
8.
WC/TOILET
9.
BATH AREA
10.
TERRACE
11.
MULTIPLE USES OF THE SPACES ON THE LOWER FLOOR AND SINGULAR USES OF THE SPACES
ABOVE
LEGEND
ENTRANCE
1.
VARANDAH
2.
LIVING SPACE
3.
COURTYARD
4.
POWDER ROOM
5.
KITCHEN
6.
UTILITY AREA
7.
BEDROOM
8.
WC/TOILET
9.
BATH AREA
10.
TERRACE
11.
MAXIMUM DAYLIGHT ENTERING THE CENTRAL
INDOOR SPACE
TO ESTABLISH A CONNECTION WITH THE SURROUNDING
AGRARIAN FIELDS, CONSIDER CONSTRUCTING A VERANDAH IN
THE FRONT COURTYARD AND A TERRACE TOWARDS THE BACK.
RAIN WATER HARVESTING ALL WATER SLOPING DOWN FROM THE
ROOF IS COLLECTED IN THE WELL ON THE SOUTH SIDE OF THE
HOUSE
PRESENCE OF COUTYARD EXPANDS THE ROOM AND CREATES
A GOOD VENTILATED SPACE
TREE IN THE COURTYARD PROVIDES PRIVACY AND MOISTURE IN
THE SPACE AS WELL
VENTILATED BODY : BECAUSE OF THE GLASS LID ON THE
COURTYARD SPACE HEATED AIR RISES UP WHILE PEFROTION
ON BOTH PARALLEL WALL ALLOWS WIND TO ENTER INTO THE
SPACE TO BLOW AWAY RAPPED HOT AIR
BEYOND THE COURTYARD, ON THE UPPER FLOOR OF THE
HOUSE HAVE TWO BEDROOMS, WHICH SIT ON TOP OF THE
COOKING, AND SLEEPING SPACE BELOW.
THE BEDROOMS ABOVE EXTEND TO THE TERRACE, WHICH IS
OPEN TO THE SKY. THIS TERRACE FORMS AN IMPORTANT PLURAL
SPACE, ESPECIALLY FOR WOMEN TO CONDUCT VARIOUS
ACTIVITIES LIKE MAKING VARIOUS DRIED FOODS, PICKLES, ETC.
TERRACE ALLOWS A COOL BREEZE TO ENTER THE HOUSE
DURING THE NIGHT FROM THE WEST.
THIS HOUSE DISCUSSES THE IDEA OF A PROGRESSIVE RURAL
HOUSE MODEL WITH LIMITED RESOURCES AND PASSIVE
TECHNIQUES FOR CLIMATE CONTROL.
THE SPACE-MAKING EXERCISE ATTEMPTED TO MAKE A PLACE
FOR ALL, REALIZING THE LIFESTYLE OF THE OWNER.
SHEET NO:-

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TOPIC:
FARMER’S HOUSING
ORIENTATION
DATE:-
SCALE :-
SIGN & REMARKS
TITLE:
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
DESKTOP STUDY
INTERNATIONAL
ARCHITECTS: GAD
AREA: 15286 M²
YEAR: 2016
COST: 190 USD/ M2
COUNTRY: CHINA
THE TRADITIONAL STYLES AS JALI , AND SLOPED GABLE ROOF CLADDED WITH TILES
ARE IMPLEMENTED
SITE PLAN
6.KITCHEN
7.BATHROOM
8.BACKYARD
SENIOR ROOM
1.
STORAGE
2.
RELAXING ROOM
3.
LIVING ROOM
4.
DINNING ROOM
5.
desktop study -international
Dongziguan Affordable Housing for Relocalized Farmers
THIS PROJECT SEEKS TO ORGANIZE THE BUILDINGS IN THE VERNACULAR STYLE OF A COURTYARD TYPOLOGY, A TRADITIONAL LOCAL MORPHOLOGY.
THE DESIGN OF THE COURTYARD MAKES IT VARY INTO FOUR PROTOTYPES THAT LEARNT FROM THE TRADITION AND ITS DIVERSITY. THE PROTOTYPES COULD BE DEVELOPED INTO CLUSTERS, WHICH LATER
GROW INTO A LARGER RURAL SETTLEMENT.
THE DESIGN MADE IN UNITS OF BLOCKS WHICH INCLUDE BEDROOM, LIVINGROOM , KITCHEN , BATHROOM , DINNING HALL , ETC AND THESE UNITS ARE ARRANGED IN A MANNER WITH A COURTYARD IN
BETWEEN WHICH GIVES THE USERS THE OPPURTUNITY TO SOCIALIZE AND INTERACT WHEREAS IT CAN ALSO BE USED AS A MUTLIPURPOSE SPACE
THE PLAN LAYOUT BASED ON THE COMMON REQUIREMENTS FROM THE RELOCALIZED FARMERS TRIES TO BALANCE THE TRADITIONAL RURAL LIFE-STYLE AND HIGH-QUALITY MODERN LIVING CONDITION.
THE DESIGN OF THE HOUSINGS IS NOT A CARBON-COPY OF THE LOCAL HISTORIC BUILDINGS, BUT ABSTRACTS AND REFINES THE FEATURES OF THE TRADITIONAL LOCAL ARCHITECTURE WITH
CONTEMPORARY UNDERSTANDINGS, AND THEN INCORPORATES THEM INTO THE DESIGN OF THE NEW HOUSINGS.
THE DESIGN INTENTION OF AR.GAD IS DEDICATED TO THE PRESERVATION OF THE VERNACULAR MORPHOLOGY OF RURAL SETTLEMENTS THAT MAINTAIN ORIGINAL LOCAL LIVING STYLE
COMPONENTS OF THE DESIGN
"How to design and construct quality housing for relocalised farmers with such a low budget, while
maintaining their original lifestyle of collective living, becomes the major challenge of this project,"
the architect explained.
parking
fields
parking
activity centre
FLOOR PLAN
SHEET NO:-

NAME & ROLL NO. :
M. VAISHNAVI - 20171AA038
1.
MOHITA - 20171AA039
2.
VARUN - 20171AA044
3.
R. VAISHNAVI - 20171AA053
4.
HAARTHEY - 20171AA069
5.
TITLE: :- COMPARATIVE
ANALYSIS
TOPIC:FARMER’S HOUSING
SCALE: NTS
ORIENTATION:
SUBJECT: ARCITECTURAL
DEESIGN VI
KEY PLAN :
-
SIGN & REMARKS:
DATE:
SHEET NO. :
LITERATURE
STUDY
DESKTOP STUDY
(INTERNATIONAL)
DESKTOP STUDY
NATIONAL
INFERENCES
LOCATION
SITE AREA
GEOGRAPHICAL
DETAILS
CONCEPT
AMENITIES
DESIGN
CONSIDERSATION
SOCIO ECONOMIC
BUILDINGS
SOCIO CULTURAL
BUILDINGS
SOCIO INSTITUITIONAL
BUILDINGS
GOVERNMENT
BUILDINGS
RESEDENTIAL
STORAGE SPACES
PARKING
BAYANIHAN SA AMIANAN
QUEZON CITY,PHILIPPINES
185.81 SQUARE
METERS
‘The uplifting of farmers’
way of living and proving
to the nation. Bayan
(community) + Anihan
(farm).
DHOTRE,INDIA
CENTRAL PARK EVENT SPACE
ADMIN VISITORS CENTRE
AGRI BUSINESS ZONE
EDUCATION /TRAINING FACILITIES
SOCIAL HALL
OPEN AIR GASTRO NOMIC ZONE
POCKET GARDEN
KEY HOLE GARDEN
OUTDOOR EXHIBITION GARDEN
TRADING ZONE (KIOSKS)
LEARNING GARDEN
AGRI PARK
PARKING
GREEN HOUSES
DAP AYAN
BINHI CANOPY
GIANT SALAKOTS (PAVILION)
TOURISM ZONE
SHINGLE ROOF
LIVING SPACE
BEDROOMS
COURTYARDS
VERANDAH
KITCHEN
ANCILLARY SPACES
POWDER ROOM
TERRACE
“THE HOUSE” CLOSELY
EXAMINES THE LIFE OF AN
AGRICULTURALIST AND
REFLECTS THEIR
PHILOSOPHY “HALF IS
MORE”
INTEGRATIING
ARCHITECTURE
,URBAN DESIGN &
AGRICULTURE
A LIFESTYLE BETWEEN
TRADITIONAL AND
MODERN
ARCHITECTURE
AGRICULTURE LAND
WITH SEMI - ARID
CLIMATE
AGRICULTURE SECTOR
WITH TROPICAL AND
MARITIME CLIMATE
it involves specific concentration on
some design considerations like
ventilation , Durability and Low
Maintenance, farm vehicle parking
Space Efficiency ,Accessibility ,
storage , energy efficiency ,
adaptability , agricultural
infrastructure , budget ,
sustainability , safety and security ,
water facilities
Vernacular houses are generally
one storey high with sloping roof.
There is a single entrance door
with no or minimal window.
-
-
INDIA FORMS PENINSULA
MOST OF THE INDIA FALLS
UNDER TROPICAL MONSOON
-
CASE STUDY
IBRAHIMPUR
VIKARABAD,
TELANGANA,
INDIA
898 HECTARES
633M ABOVE SEA
LEVEL,SEMI-ARID,HOT
AND DRY CLIMATE
NUCLEATED
SETTLEMENTS
SOCIO ECONOMIC
BUILDINGS
SOCIO CULTURAL
BUILDINGS
BUILDINGS
GOVERNMENT
BUILDINGS
RESEDENTIAL
STORAGE SPACES
PARKING
Involves a
combination of
practicality,
functionality, and
comfort to meet the
specific needs and
challenges of
agricultural life.
VIKARABAD,
TELANGANA,
INDIA
25 ACRES
633M ABOVE SEA
LEVEL,SEMI-ARID,HOT
AND DRY CLIMATE
5 ELEMENTS OF
NATURE
SOCIO ECONOMIC
BUILDINGS
SOCIO CULTURAL
BUILDINGS
BUILDINGS
GOVERNMENT
BUILDINGS
RESEDENTIAL
STORAGE SPACES
PARKING
RECREATIONAL
SPACES
Involves a
combination of
practicality,
functionality, and
comfort to meet the
specific needs and
challenges of
agricultural life.

NAME & ROLL NO. :
M. VAISHNAVI - 20171AA038
1.
MOHITA - 20171AA039
2.
VARUN - 20171AA044
3.
R. VAISHNAVI - 20171AA053
4.
HAARTHEY - 20171AA069
5.
TITLE::- COMPARATIVE
ANALYSIS
TOPIC:FARMER’S HOUSING
SCALE: NTS
ORIENTATION:
SUBJECT: ARCITECTURAL
DEESIGN VI
KEY PLAN :
-
SIGN & REMARKS:
DATE:
SHEET NO. :
LITERATURE STUDY
DESKTOP STUDY
(INTERNATIONAL)
DESKTOP STUDY
NATIONAL INFERENCES
TECHNIQUES
MATERIALS
ROAD WIDTHS
NO OF FLOORS
AND HEIGHT OF
FLOOR
BAYANIHAN SA AMIANAN
PASSIVE TECHNIQUES FOR
CLIMATE CONTROL
(PLAYING WITH DAYLIGHT
THROIGH OPENINGS
BOTTLE BRICK
TECHNOLOGY
WOOD,BAMBOO,STONE,MUD,
GRANITE,RED OXIDE
RAT TRAP BOND,FILLER SLAB
,WATTLE AND DAUB,RAMMED
EARTH,USING COB ,SLOPED
ROOFS
WOOD,BAMBOO,STONE,
MUD,HAY,CEMENT,PLAST
IC BOTTLES,SAND
SUN DRIED
BRICKS,CEMENT,STONE,REC
YCLED
GLASS,SHINGLE,STEEL
KEY ELEMENTS
SLOPING ROOF
,VERANDAH,THINNAI,
CARVED DOORS,
COURTYARDS,
TRADITIONAL PATTERNED
FLOORING
RADIAL LAYOUT,
FIESTA WALK ,SWEEPING
LANDSCAPE.CANOPIES,
AGRI PARK,PAVILIONS,
VIEW POINT
SHINGLE ROOF( INCLINED)
,VERANDAH,COURTYARDS
RAP TRAP BOND WITH JAALIS,
SERVICES
-
AGRI LOOP,POCKET GARDENS,
SHADED PEDESTRIAN WALK
SOLAR PUMP DRIP IRRIGATION
SOCIO ECONOMIC BUILDINGS
RAIN WATER HARVESTING
OPEN SEWAGE SYSTEMS
OVERHEAD
WATERTANKS,SUBSTATIONS,
SOCIO ECONOMIC BUILDING
GOVERNAMENT BUILDINGS
MAJOR ROAD - 9M
MINOR ROAD - 6M
MAJOR ROAD - 9M
MINOR ROAD - -
ONE STOREY
HEIGHT = 1.5 X WIDTH OF
FRONT ROAD + FRONT OPEN
SPACE
ONE STOREY,TWO
STOREY
ONE STOREY WITH
MAZANINE
HEIGHT - - HEIGHT - 7.9 M
PLAN
RECTANGULAR PLAN
RECTANGULAR PLAN WITH
MEZANINE
FIRST FLOOR
GROUND FLOOR
CIRCULAR PLAN
-
CASE STUDY
IBRAHIMPUR
SLOPED
ROOFING,CROSS
VENTILATION,RAT TRAP
BOND,SOAK PITS
WOOD,BAMBOO,STONE,
MUD,GRANITE,SLATE
TILE
SLOPING ROOF
,VERANDAH,THINNAI,
CARVED DOORS,
TRADITIONAL
PATTERNED FLOORING
OPEN SEWAGE SYSTEM
WATERTANKS,
UBSTATIONS
MAJOR ROAD - 6M
MINOR ROAD - 3M
ONE STOREY
HEIGHT - 3 M
SLOPED
ROOFING,CROSS
VENTILATION,RAT TRAP
BOND,SOAK PITS
CLAY BRICK
TERRACOTA TILES
SLATE TILES
COB FOR PLASTERING
SLOPED ROOF
COURTYARD
JALI WALLS
VERNACULAR
MATERIALS
CUNDERGROUND
SEWAGE ,
SUBSTATION
ELEVATED WATER TANKS
WASTE MANAGEMENT
SOKE PITS
MAJOR ROAD - 6M
MINOR ROAD - 3M
PATHWAYS - 1M
DOUBLE STOREY
HEIGHT - 3M EACH
FLOOR

ROLL NO : 20171AA038
20171AA039
20171AA044
20171AA053
20171AA069
TITLE: CASE STUDY
MEDICAL STORE
GENERAL STORE
TAYLOR SHOP
HANUMAN TEMPLE
IPS IBRAHIM SCHOOL
TIFFIN CENTER
MASJID
BLACK SOIL
RED SOIL
SOIL TYPE
SOURCES: METABLUE, GOOGLE EARTH, THROUGH SURVEY
COMMUNITY HALL
SLOPED ROOF
ARUGU
(TRADITIONAL
OUTDOOR SEATING)
WATER TANK
GOVERNMENT BUILDING
GOVERNMENT SCHOOL
ANGANVADI SCHOOL
TEMPLE
MOSQUE
ORIENTATION: -
TOPIC: FARMERS HOUSE
SUBJECT:
ARCITECTURAL
DEESIGN V
SCALE: NTS
SIGN & REMARKS:
DATE:
SHEET NO. :
COLLEGE : JBR
ARCHITECURE COLLEGE
CASE STUDY : IBRAHIMPUR
INTRODUCTION:
Ibrahimpur village in Telangana's Vikarabad district is an architectural gem with a rich history shaped by
visionary Ibrahim Khan. The village centers around a pivotal lake, a testament to Khan's foresight, and
thrives due to effective implementation of government schemes like Pradhan Mantri Awas Yojana and
MGNREGA, ensuring sustainable development. Despite its picturesque charm, the village poses
challenges like narrow lanes and inadequate vehicle storage, urging architectural students to devise
innovative solutions for farmers' housing. Ibrahimpur invites exploration into its historical legacy,
government interventions, and practical community challenges, offering a creative platform for
architects to craft purposeful spaces for the village's agrarian community.
Locality Name : Ibrahimpur
Mandal Name : Pargi
District : Rangareddy
State : Telangana
ACCESSIBILITY:
TRANSPORTATION
NEAREST CITY: VIKARABAD (35KM) POSTAL
HEAD OFFICE: PARGI
NATIONAL HIGHWAYS REACHABLE TO IBRAHIMPUR:
1. NATIONAL HIGHWAY: NH163
2. NATIONAL HIGHWAY: OLD NH7
HOW TO REACH BY ROAD:
ROAD CONNECTIVITY IS FROM VIKARABAD BUS STOP: BARKATHPALLY BUS STOP,
ANNARAM – 6.2KM GOVINDAPUR BUS STOP, GOVINDAPUR, BABAPUR – 6.5KM
BY RAIL: MAILARAM RAILWAY STATION, DHARUR RAILWAY STATION (NEAREST)
VIKARABAD JUNCTION RAILWAY STATION, GODAMGURA RAILWAY STATION(FAR)
OPEN DRIANAGE
SURVEYING VILLAGE HRAD SURVEYING VILLAGE LOCALS

ROLL NO : 20171AA038
20171AA039
20171AA044
20171AA053
20171AA069
TITLE: CASE STUDY
SOURCES: METABLUE, GOOGLE EARTH, THROUGH SURVEY
WIND ANALYSIS
INFERENCE:
OPENINGS AT WEST, NORTH EAST , SOUTH EAST
TECHNIQUES - CROSS VENTILATION
TEMPERATURE ANALYSIS
INFERENCE:
PROPER PLACEMENT OF OPENINGS AND CONSTRUCTION
TECHNIQUES SHOULD BE USED TO WITHSTAND THE VARIATION
IN TEMPERATURE -
LOW COST TRADITIONAL MATERIALS CAN BE USED. PASSIVE
COOLINGS TECHNIQUE CAN BE USED
SUNPATH
INFERENCE:
RADIATION AT THE SOUTH SIDE WILL BE MORE HENCE PROVIDING
OPENINGS AT THE SOUTH WILL BE INCONVENIENT -
VARANDA , COURTYARD , NORTH KITCHEN
ORIENTATION: -
TOPIC: FARMERS HOUSE
SUBJECT:
ARCITECTURAL
DEESIGN V
SCALE: NTS
SIGN & REMARKS:
DATE:
SHEET NO. :
COLLEGE : JBR
ARCHITECURE COLLEGE
SEWAGE:
MAGIC SOAKPITS -------- INSPECTION CHAMBER ---------- TRAP
SOLID WASTE SOAKS PITS ARE COVERED TO PREVENT DEBRIS
FROM ENTERING SOAK PITS ------ HELPED IN RECHARGING
GROUNDWATER OPEN DRAIN SYSTEM: RUNS THROUGH HOUSES
AND ROADS
WATER SUPPLY:
OVERHEAD WATER TANKS:2 (SUPPLY: MORNING AND EVENING)
INDIVIDUAL SOAKPITS:273(RECHARGING GROUNDWATER)
DEPENDENT ON: GROUNDWATER (POTABLE AND NON POTABLE
USES ) IBRAHIMPUR LAKE: IRRIGATION PURPOSE
SERVICES:
HOUSES: 400+
ELECTRICITY:
PARGI SUBSTATION: 17KM (REACH TIME: 32 MINS)
ELECTRICAL SUBSTATION: 17KM (REACH TIME: 32 MINS) SUB
DIVISION PARGI: 15KM (REACH TIME: 31MINS) POWER
SUBSTATION: 18KM (REACH TIME:38MINS)
WATER SUPPLY: OVERHEAD WATER TANKS:2 (SUPPLY:
MORNING AND EVENING)
INDIVIDUAL SOAKPITS:273(RECHARGING GROUNDWATER)
DEPENDENT ON: GROUNDWATER (POTABLE AND NON POTABLE
USES )
IBRAHIMPUR LAKE: IRRIGATION PURPOSE
LAKE WATER USED FOR IRRIGATION

The facilities we need, such as shops and parks, are located far from
our homes. Waste is improperly dumped near the hospital, posing
health risks. The buildings are not well-maintained, reflecting a lack
of care. Additionally, the available facilities are insufficient compared
to what is needed for a good community. The current absence of
proper amenities further exacerbates the situation. The distance to
essential services, improper waste disposal, poor maintenance, and
inadequate amenities collectively contribute to a less-than-ideal living
environment, highlighting the need for improvements in accessibility,
waste management, maintenance practices, and the provision of essen-
tial community services.
inference
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: SITE ANALYSIS
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
04
mahavir institute of medical sciences masjid
government building
government building
hanuman mandir

In the city, there's not much new building happening. People are mostly selling places that are already there. But, there are problems in planning how things like roads and buildings should be, and this makes the city use land badly. Buildings are
put in strange places, and this makes the city messy, with neighborhoods not fitting well together. Also, it's hard for people to connect and talk because the buildings are not in good spots.
Even though things are a bit messy now, there's a chance to make it better. We can organize buildings in a smart way and make better connections in the city. It's important to have clear rules and plans for how the city should look so that it's tidy
and organized. Adding green spaces like parks can make the city look nice and help the environment. The people who live here should have a say in how things are planned because it's their home. Working together with the community is important to
make sure the city is smart and uses land in a good way for the future.
In a village with lots of open space and little
development, there's a chance to grow thought-
fully.
Designing eco-friendly structures, preserving the
rural charm, and fostering community ties are
essential. Sustainable elements like green spaces
and renewable energy can enhance the village's
appeal.
Adaptable designs for evolving needs, integration
of agriculture, and efficient infrastructure
placement should be considered.
Engaging the local community in the design
process ensures that new developments align with
their preferences.
It's an opportunity to shape a village that grows
harmoniously with nature and the people who call
it home.
SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
07
OPEN SPACE
82.6%
BUILT UP AREA
17.8%V

left over slate
tiles used for
roof
kacha house
buffer space
between the
houses
raw wood stock
used for
structural
the residences have traditional doors and windows , internal courtyard , thin
wodden columns outdoor storage , pitched roofs , big windows , there are chajjas to
the exterior walls which are used for seating , the houses have porch on the
entrances , most of the furniture and equipment in made of wood .
Historical Settlement:
Many older kacha houses, around 50+ years on
average, with the oldest at 150 years.
Shows a history of resilience and lasting settlement.
Rich Architectural Heritage:
Kacha houses have courtyards, jali ventilators,
traditional kitchens, and slate tiles.
Represents a rich architectural heritage and
understanding of culture.
Pragmatic Structural Stability:
Old houses lack foundations but have thick walls
(450-800mm) for stability.
Demonstrates practical structural stability.
Resourceful Use of Space:
Storage within walls of kacha houses.
Shows smart use of space and efficient design.
Issues with Pakka Houses:
Pakka houses lack planning, setbacks, and essential
features.
Points out problems in modern construction
practices.
Importance of Thoughtful Planning:
Emphasizes the need for careful planning and
consideration of local needs.
Blend of Traditional and Modern:
Integration of traditional elements reflects a mix of
old and new.
Suggests a possible gap between modern and
traditional styles.
steps built
without any
anthropometric
measures
kacha road
SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
09
PAKKA
HOUSE KACHA
HOUSE

KACHA ROAD LEADING TO
FARMS
ROAD BEHIND THE TEMPLE
LEADING TO THE FARMS
GRAINS ARE STORED ON
THE ROAD
OPEN SPACE BEING USED FOR
PARKING FARMING VEHICLES
section depicting
activities on road
Absence of
pedestrian zones
discourages
physical activity
and poses safety
hazards.
Existence of three
road types
suggests a lack of
uniformity in the
area's road
network.
Lack of designated
pathways increases
pedestrian safety
risks and accident
likelihood.
Inadequate parking
spaces lead to
haphazard parking,
traffic obstruction,
and reduced
functionality.
Narrow lanes
without setbacks
cause traffic
congestion, hinder
flow, and impact
emergency access.
Poorly placed
houses result in
insufficient
sunlight, poor
ventilation,v and
compromised privacy.
SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
08
CC
ROAD
55%V
KACHA
ROAD
45%V
6
3

EAST VIEW OF THE SITE WE HAVE EXTENDED NEW
VILLAGE FOLLOWED BY FARMS AND MOUNTAINS
west view of the farms is filled with
farmlands and greenery
NORTH VIEW OF THE SITE CONTAINS
BEAUTIFUL VIEW OF THE MOINTAINS
south view of the site contains
beautiful view of farmlands and a
ribbon of mountains
•Environmental Appreciation:
Trees used as interactive spaces show a
deep community appreciation for the
environment.
•Wastewater Disposal Concerns:
Disposal into a nearby canal poses risks to
the environment and public health.
Urgent need for improved waste manage-
ment practices.
•Agricultural Connection:
Village's natural setting, surrounded by
farmlands.
Implies a strong community connection to
agriculture.
•Growth and Expansion:
Mention of a new extended village to the
north.
Highlights growth and expansion.
Necessitates future planning for
infrastructure and environmental impacts.
SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
06

SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
10
CURRENT POLES
DRAINAGE SYSTEM
POWER STATION
WATER TANKS
550 m
541 m 553 m
550 m
542 m 544 m
543 m 549 m
549 m
547 m
555 m
5
5
0
m
5
5
0
m
542
m
542 m
5
4
3
m
5
4
3
m
5
4
3
m
5
4
4
m
5
4
5
m
5
4
5
m
546
m
546 m
547 m
5
4
8
m
548
m
5
4
9
m
5
5
0
m
5
5
0
m
552 m
554 m
555
m
556 m
556 m
540 m
558 m
551 m
551 m
551 m
545 m
546 m
547 m
5
5
8
m
5
5
6
m
5
5
3
m
550 m
541 m 553 m
550 m
542 m 544 m
543 m 549 m
549 m
547 m
555 m
5
5
0
m
5
5
0
m
542
m
542 m
5
4
3
m
5
4
3
m
5
4
5
m
5
4
5
m
546
m
546 m
547 m
5
4
8
m
548
m
5
4
9
m
5
5
0
m
5
5
0
m
552 m
554 m
555
m
556 m
556 m
540 m
558 m
551 m
551 m
551 m
545 m
546 m
547 m
5
5
8
m
5
5
6
m
5
5
3
m
water tank substation near
hospital sub station
open drainage
system beside
roads
Sewage collected behind the hospital
causes foul smell and infections in
open canals.
The drainage system should be closed
to prevent stagnant water accumulation.
Dump yard location needs to be
relocated outside the village.
Soak pits are essential for safe
wastewater disposal away from homes.
Irregular placement of electric poles
and random TV disks on houses may
pose a lighting hazard during heavy
rains.
Two power stations distribute electricity
among houses.
Three water tanks provide ground water,
but many wells are dismantled due to
safety issues.v

introduction
Nestled in the verdant landscapes of Telangana, Vikarabad district beckons with untapped potential and rustic allure. Among the state's least developed
regions, its villages echo the tale of neglect, marked by a dearth of construction knowledge and the swift demise of the region's indigenous architectural
style. Here, the heartbeat of agriculture persists, yet the absence of farmer-centric planning casts shadows on their livelihoods. Selecting a village for
a Farmer's Housing Project in Vikarabad is imperative. Beyond addressing shelter needs, it embodies a revival—a restoration of the fading vernacular
architecture. This project is not merely construction; it's a beacon of change. It envisages sustainable homes rooted in tradition, fostering community
cohesion. By bridging gaps in knowledge and embracing local wisdom, our endeavor seeks to transform Vikarabad into a resilient, culturally rich haven
that cherishes its farming legacy and cultivates a flourishing future.
HISTORY:
The history of the village goes back to 700 years ago approximately, a person named "Gottanna" started living around that area and for the livelihood of
his family, he started cultivation. Since water is essential for agriculture, he was in search of ground water. As they found out there was availability of
ground water, civilization has started.Hence in his remembrance, the village was named as 'GOTTIMUKKLA'.
SUBJECT:
ARCHITECTURAL
DESIGN -VI
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:1000
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
04
site analysis
TEMPERATURE & PRECEPETATION
Highest temperature – 41^
Lowest temperature – 15^
INFERENCE
-proper placement of openings and
construction techniques should be used
to withstand the variation in temperature
·as lowcost traditional materals can be
used make iteffortable and comfortable
windrows
INFERENCE
-opening – west , ne , se
-techniques like cross ventilation can be used
for stable room temperature at whole structure
sunpath
INFERENCE
·radiation at south side will be more
hence providing opening at southcan be
inconvineint
·varanda , courtyards – north
·kitchen – se
NATURAL FEATURES –
·Saranpally lake – 3.5km
·Ananthagiri hill station – 12 km
bus stop
• vikarabad bus depot – 11.6 km
• gottimukla bus stop
• pargi bus depot – 12km
highways
• vikarabad – dyacharam road
• vikarabad – pargi road
2022
RAILWAY STATION -
• godamguru station – 5.6 km
• vikarabad junction – 12km
• mailaram station – 12.6 km
AIR PORT –
• Rajiv Gandhi International Airport – 86 km
• Bidar Airport, , Chidri Rd, , Bidar, Karnataka 585401 -130 km
site plan
Location:GOTTIMUKLA,VIKARABAD,RANGARED-
DY,
TELANGANA
COORDINATES - 17°15'19"N 77°51'49"E
Elevation / Altitude: 633 meters. Above Sea
level
Site area : 25 acres
Present population : 1000
TYPE OF CROPS – cotton , turmeric , wheat , rIce
, seasonal crops etc
2019 2015 2011
550 m
541 m 553 m
550 m
542 m 544 m
543 m 549 m
549 m
547 m
555 m
55
0
m
55
0
m
542
m
542 m
54
3
m
54
3
m
5
4
3
m
544
m
54
5
m
54
5
m
546
m
546 m
547 m
54
8
m
548
m
54
9
m
55
0
m
55
0
m
552 m
554 m
555
m
556 m
556 m
540 m
558 m
551 m
551 m
551 m
545 m
546 m
547 m
5
5
8
m
5
5
6
m
5
5
3
m
550 m
541 m 553 m
550 m
542 m 544 m
543 m 549 m
549 m
547 m
555 m
55
0
m
55
0
m
542
m
542 m
54
3
m
54
3
m
54
5
m
54
5
m
546
m
546 m
547 m
54
8
m
548
m
54
9
m
55
0
m
55
0
m
552 m
554 m
555
m
556 m
556 m
540 m
558 m
551 m
551 m
551 m
545 m
546 m
547 m
5
5
8
m
5
5
6
m
5
5
3
m
LOWEST POINT
HIGHEST POINT

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: CONCEPTUAL SHEET
ORIENTATION
Our concept for farmer's housing design draws inspiration from the
profound connection between farmers and the natural environment
they cultivate. Understanding that the farmer's life is deeply inter-
twined with nature, we have crafted a design that harmonizes with
the five elements – Earth, Water, Fire, Air, and Ether. This holistic
approach not only provides a sustainable and functional living
space but also nurtures a sense of well-being and oneness with the
surroundings.
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
CONCEPT FARMER’S HOUSING
HARMONY IN FIVE
exploring the elemental balance
TERRACOTA TILED ROOF
rainwater harvesting
jali wall
courtyard
wind turbine
solar energy
SOAK PITS
INTERNAL COURTYARD
RAT TRAP BOND
fire
water
earth
space
air
Earth: Foundation and Stability
The architectural foundation is de-
signed using locally sourced, sustain-
able materials, grounding the struc-
ture in the essence of the Earth ele-
ment.
Incorporating terracota roofs and
gardens promotes cultivation directly
at home, fostering a connection to the
land and providing a source of fresh
produce. with low carbon emission
Fire: Warmth and Energy
Utilizing renewable energy sources, such as
solar panels and biomass, ensures a sus-
tainable and self-sufficient energy supply.
Efficient and eco-friendly cooking facilities,
powered by clean energy, create a warm and
inviting atmosphere within the living spaces.
land and providing a source of fresh produce.
Water: Fluidity and Vitality
Rainwater harvesting systems are inte-
grated into the design, emphasizing the
importance of water conservation in ag-
riculture.
Natural water features and ponds not
only contribute to the aesthetic appeal
but also serve practical purposes like
irrigation and aquaculture.
Air: Ventilation and Openness
The architecture prioritizes
cross-ventilation, optimizing natu-
ral airflow to create a comfort-
able and airy living environment.
Open verandas and large windows
connect the interior spaces with
the outdoors, inviting the farmer
to breathe in the freshness of the
surrounding fields.
Space and Connectivity
The design emphasizes open
spaces, creating a sense of
expansiveness and connec-
tion with the vast agricultur-
al landscapes.
Multi-functional communal
areas, such as gathering
spaces and marketplaces, en-
courage social interaction

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER PLAN
ZONING
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
11

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER PLAN
AMINITIES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
14

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER PLAN
VEGETATION
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
15

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER
SERVICES
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
17
SUBSTATIONS
SOAK PITS
SOAK PIT PIPES
DRAINAGE LINES
OVER HEAD WATER TANK
WASTE TREATMENT PLAN
WIND TURBINE
ELECTRIC POLES

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER PLAN
RESIDENCIAL
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
13

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE:MASTER PLAN
BUILT UP
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
12

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: MASTER PLAN
ROADS NETWORK
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
16

SECTION BB’ SECTION AA’
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 1BHK
PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
FIRST FLOOR PLAN
GROUND FLOOR PLAN
A
B
B’
A’
A
B’
B
B’
A’
A
A’

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 1BHK
ELEVATIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 2BHK
FLOOR PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
FIRST FLOOR PLAN
GROUND FLOOR PLAN
A
B
B’
B’
B
B’
A
A’
A
A’

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 2BHK
ELEVATIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA

FIRST FLOOR PLAN
SECTION AA’
SECTION BB’
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 3BHK
FLOOR PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
B B
B’ B’
A
A’
A
A’
GROUND FLOOR PLAN

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: 3BHK
ELEVATIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:50
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA

A’
A
B’
B
FIRST FLOOR PLAN
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: COMUNITY HALL
FLOOR PLANS , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1: 200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
A’
A
B
B’
GROUND FLOOR PLAN

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: COMMUNITY HALL
ELEVATIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA

B B’
A
A
’
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: COMMERCIAL
PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
GROUND FLOOR PLAN
SECTION AA’ SECTION BB’

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: COMMERCIAL
ELEVATIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
SOUTH ELEVATION
NORTH ELEVATION
EAST ELEVATION
WEST ELEVATION

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: GOVERNMENT BLOCK
PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
B
B’
A
A’
GROUND FLOOR PLAN FIRST FLOOR PLAN
B
B’
A
A’
um

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: GOVERNMENT BLOCK
ELEVATIONS VIEWS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:200
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA

B B’
A
A’
B B’
A
A’
SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: TEMPLE
PLAN , SECTIONS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:100
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
GROUND FLOOR PLAN
FIRST FLOOR PLAN

SUBJECT:
ARCHITECTURAL
DESIGN -VI
TITLE: TEMPLE
ELEVATIONS , VIEWS
ORIENTATION
TOPIC:
FARMER’S HOUSING
DATE:- 22/1/2024
SCALE :- 1:100
SIGN & REMARKS
SHEET NUMBER
ROLL NO & NAME
20171AA044-N.VARUN
20171AA039-MOHITHA
B
B’
A
A’

FARMER'S HOUSING PORTFOLIO. DESIGN PTOBLEM OF 7TH SEM. ARCHITECTURE DESIGN.

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