One of the nicest things about houses is
that they are uniquely designed, and each unique design calls for unique
considerations. Design considerations for houses include several factors, but
since the final set of design drawings, also known as construction drawings or
working drawings, guide the actual construction, these residential construction drawings are
critically important. Let’s try and understand exactly what construction
drawings are and how they may change according to the different type of houses
under construction.
What construction drawings aim to do is
provide contractors, fabrication suppliers and even owners an accurate
dimensional and graphical representation of the finished structure. The
contractor uses these for the actual construction, the suppliers can use these
to fabricate, assemble or install components, and the owners can view in detail
what their building will look like. These drawings include ‘production
information’, specifications and bills of quantities provided by designers to
the construction team. Residential
construction drawings are part of tender documentation and contract
documents. They are legally important and constitute a major part of the
agreement between employers and contractors.
What makes construction drawings so crucial
is their accuracy and the fact that they are concise and coordinated. Details
specified include the
materials, standards, techniques, etc. needed to start and maintain
construction. Graphic details include component arrangement, detailing,
dimensions, layouts and installation methods. All of the details are drawn to
scale as part of elevations, plans, sections and detail drawings.
Construction drawings typically contain
separate trade drawings, e.g. mechanical, electrical, plumbing and fire. Standard
architectural hatchings and symbols enable trade professionals to easily
decipher and understand them.
Using Building Information Modelling (BIM) facilitates
the development of coordinated 3D models with sufficient information to
manufacture, install or construct each element represented in the models, and
these models help develop clash-free drawings.
In brief, construction drawings include the
following information:
- Foundation Plans – plans that include
footing dimensions and locations
- Wall Framing Plans – plans that include
lumber sizes - usually 2x4 or 2x6
- Sub-floor Plans – plans that show the
arrangement of services
- Roof Plans – plans of the building’s
roof, including type, pitch and framing
- Interior Elevations - drawings of interior
walls
- Detail Drawings – drawings of built-in
shelving, mouldings and columns
- Schedules – lists of the quantities of
each element, such as windows and doors
- Structural Layouts
- Electrical and Telecoms Drawings - plans
that show where outlets, TV sockets, switches and fixtures are located and
where electric lines should run
- Plumbing Schematic Drawings – plans that show piping and plumbing fixtures
An additional type of drawing included in the set of construction drawings for most projects
are reflected ceiling plans. A reflected
ceiling plan is a view while looking up at the ceiling, involving the location
of light fixtures, ceiling level changes and moulding locations.
Considering the major drawings in detail,
we look at exactly what information lies within.
Exterior & Interior Elevations
Exterior elevations are straight scale
drawings of exterior sides – front, rear and both sides. Information included are
the exterior shapes, floor-to-floor heights, building height, openings,
exterior wall doors or windows, the fall of the land, exterior finishes, ridge
heights, roof pitches and exterior architectural styling details. Interior
elevations include the inside view of each wall, room height, wall openings,
finishes, cabinets and wall-mounted elements.
Building & Wall Sections
The view resulting from an imaginary vertical
cut or cross section of a house’s interior is known as a section. These include
internal finishes, ceiling height, ceiling type (flat or vault) and window and
door dimensions.
Exterior & Interior Details
Exterior and interior details consist of
elements, materials and information resulting from zooming into specific exterior
or interior areas through a horizontal cut, vertical cut or elevation.
Schedules
Information about materials used in a specific
area defines a schedule. An example would be a door schedule. This would
represent information such as the total number of such doors, different door
types, their location and material types on a single drawing. Similarly, there
are schedules for windows, room finishes, cabinetry, plumbing fixtures and
appliances.
Framing & Utility Plans
Structural drawings that show the floor and
roof framing members, the material size and the location of the weight acting
on the framing members (or loads) are known as framing plans. Elements of the
major trades – mechanical, electrical, plumbing and fire – and the element
locations and appliances are part of the utility plans.
Site Plans
A view of the building from the top that
includes the construction site, lot boundaries, location of utility services, setback
requirements, easements, driveways, walkways and topographical data with the
terrain slope make up the site plans.
Floor Plans
This overhead view shows wall width with
scaled parallel lines, room dimensions, doors, windows, built-in elements, such
as plumbing fixtures, cabinets, water heaters and furnaces. Floor plans can
include data regarding finishes, construction methodology or electrical element
symbols.
Completing a set of construction drawings
involves regular and constant dialogue between the project’s stakeholders and
depend on the type of house being constructed. The considerations vary for
different types of houses, such as: single story vs multi story, built on site
vs prefab, smart houses vs traditional houses, environment friendly, etc. Types
of houses can also be dependent on the number of stories they have. For
instance, single-storey houses consist of just one floor, and a multi-storey
building features multiple storeys and has vertical circulation, such as ramps,
stairs and lifts.
Multi-storey buildings can be classified
as:
- Low-rise - buildings of 4 storeys or
less
- Mid-rise - buildings of 5 to 10 storeys,
with lifts
- High-rise - more than 10 storeys
- Skyscraper: 40 storeys or more
- Super-tall: more than 300 m
- Mega-tall: more than 600 m
- Access and circulation
- Fire safety and evacuation
- Structural design
- Ventilation
- External air movement
- Shading, views and right to light
- Construction methods
- Access for maintenance and cleaning
Houses built on site and prefab houses are
different in a number of ways and thus must be designed accordingly. Site-built
homes are built entirely on the site. They typically use 2 by 4s and 4 by 6s
precut wood for framing and trusses and follow all state, local or regional
codes at the site’s location. Prefab homes or modular homes are manufactured in
sections at a factory, transported to the site and joined by contractors. These
homes can be built on non-removable steel chassis.
Modular homes are becoming an increasingly
popular choice for several reasons. They are manufactured with sustainable materials
and have many features, such as house orientation, good ventilation, insulation and shading,
designed during the early stages. Solar power and greywater systems can be
easily incorporated into modular homes during design, resulting in less time
and money being spent on the actual construction.
Modular houses can be created using
recyclable materials and do not typically use timber, making them
environmentally friendly. Also, modular houses can use ‘green’ lighting and
HVAC options. These homes can be designed for further future expansion, helping
to relocate them, if required.
For all its advantages, design
considerations for modular homes must take into account certain restrictions imposed
by the location of its site and the incompatibility of luxury buildings. Some
zones specify that only brick houses can be constructed there, mainly in
housing estates, though it is possible to build a modular home with a brick
façade. Some sites are not easy to access, making it difficult to transport
modular houses to the site. The materials and style that are compatible with
modular houses may not depict luxurious design.
Besides prefabricated homes, trends
indicate an upward trajectory in the use of smart buildings. A building that
employs automation to remotely/automatically control heating, ventilation, air
conditioning, lighting, security and other systems can be considered a smart
building.
These buildings use sensors, actuators and
microchips to collate and manage data for the functions and services of a
house. Intelligent and adaptable software is installed to link the core systems
of lighting, power meters, water meters, pumps, heating, fire alarms and
chiller plants with sensors and control systems. Smart houses are fully
integrated and can have automated/sensor-driven elevators, access systems and
shading.
Energy use can be minimised by utilising
chilled water systems to continuously monitor HVAC set points, heat loads and
demands. Smart systems connected to weather stations can use information on
heat, humidity, wind, rain and cold for optimum and energy-efficient HVAC
usage. Occupants of a smart home enjoy a higher quality of life with smart
lighting, thermal comfort, improved air quality, security and sanitation, with
lower costs and leaving a smaller carbon footprint than those living in a
traditional home.
An important part of residential construction drawings is ensuring conformity to codes and standards of specific
areas. In general, there are few restrictions on site-built houses other than
minimum sizes and restricted covenants. Developments are increasingly allowing
modular houses and smart homes.
To conclude, accurate and precise drawings for building design
can be created by experienced and technically qualified professionals, which helps
to ensure that any kind of house type can be developed with adequate design
consideration. With the ease of outsourcing procedures, high-quality building and planning drawings
are affordable and technically near-flawless.
