Exhaust Fans for Commercial Property Ventilation.
HVAC and Various Mechanical Heating and Cooling Systems.
Ventilation for the Industrial Work Place.
High Ceiling Work for Warehouse, Auditorium and Gymnasium.
Industrial Paddle Fans, Ceiling Mounted Fans, Cooling Fans for High Ceilings - Philadelphia.|
Bigger than residential fans, they are different in other ways. In the picture to the right, you notice that
there are only 3 blades. They are manufactured with only three because, unlike residential fans, they are operated with an exceedingly high speed.
High Ceiling Fans for Cooling / High Ceiling Fans for Heating.|
|Ask the Industrial Facility Experts.
||Commercial and industrial fans are powerful and long-lasting.
They push out much more air than traditional ceiling fans and are used in many offices, factories, warehouses, gymnasiums and auditoriums.|
When it comes to installations for the workplace...nothing beats our work and cost.|
WE GOT YOUR FANS.
.....Therefore, the weight of more than three blades would use more electricity,
as well as put more stress on the motor, causing it to burn out more quickly. Unlike residential fans, decoration is not a concern.
They are usually produced only in the colors black, white, or gray. As you can see in the photograph, it is simplified to the bare
necessities: a long down-rod, 3 large blades, and an electric motor.
All fans are made up of the same basic parts:
~ in the center of the fan; the control center for all of the other parts.
Gets its energy source from a few different alternatives,
differ in noise levels, and vary in sizes and strength (see motor size).
B. motor housing~
mainly used on residential fans, it is a decorative covering to conceal the motor. In association with the motor housing, the switch housing
is also used to hide the inner-workings of the fan. Also known as a “switch cup,” the switch housing is metal cylinder installed
underneath and in the center of the motor. Its purpose is to hide and protect wires, switches, capacitors, etc.
C. blades~ the paddles positioned around the fan that force the air to circulate.
Are attached to motor by blade irons
and a flywheel
, or rotor.
They vary in material, size, and amount. As mentioned above, residential fans
generally have four to five blades, while commercial fans generally use three.
blade materials ~
wood, metal, plastic, and
Most popular residentially, are wood blades. Many kinds of wood can be used, such as cherry, oak, walnut, maple, teak, etc.
Though the weights can slightly vary from one another, the
consumer usually decides the kind of wood by its color,
since it’s being used in a home. Plastic blades (typically made of fiberglass) and the metal blades
are used industrially and commercially.
It wasn't until the late 1970's until people began noticing that these
energy-efficient ceiling fans were a much cheaper alternative to air-conditioning. And as we all know today, not only
cheaper but more eco-friendly. In the present day, we now have several types of ceiling fans, which vary in shape,
size, and devices. They are used residentially, commercially, and industrially
and will continue to grow and change for years to come.
blade irons~ also known as “blade brackets,” “blade arms,”
“blade holders,” or “flanges.” These are the metal supports that hold the
blades to the motor.
flywheel~ a metal or a tough rubber ring that attaches the blade irons to the shaft of the motor.
The inside of the ring fastens to the shaft with a lock screw, while the outside of the ring connects to the blade
irons with bolts. A substitution for the flywheel is a
which is mounted below
the fan’s motor housing, as opposed to level with the motor housing.
downrod~ the pipe used to hang the fan from the ceiling. They come in all different lengths, depending on whether the fans are for
residential or industrial use, or simply the height of the room.
G. canopy~ the piece that is mounted onto the ceiling, and connects with the downrod.
an alternative part
of the fan; can be used instead of the blade irons. As opposed to attaching
the blades to the blade irons, the blade irons to the flywheel, and the flywheel to the motor, the rotor connects the blades right into the motor.
This method decreases balance problems and
more efficiently hides fasteners.
“MDF” stands for “Medium Density Fiberboard.” This is an engineered wood, that’s produced by breaking down
and combining it with wax and resin. Recently, more eco-friendly materials have been used such as, recycled paper, straw,
bamboo, steel, and glass. Most popularly the straw and bamboo are used, due to their fast growth. Some of these blades are manufactured to be
moisture-resistant or flame-retardant. Definitely recommended given that they can be less expensive than most
woods, they’re earth-friendly, reliable in strength yet flexible, and have a lesser chance of splitting.
a good mechanism for vaulted ceilings
since the piece that connects to the downrod, moves freely which enables it to be placed on a slanted ceiling.
close-to-ceiling mount~ similar to the ball-and-socket system.
The difference is that it connects from the canopy straight to the motor housing, so that the whole fan can be attached to the mounting bracket.
J-hook system~ also known as the claw-hook system.
A metal hook is mounted to the ceiling with a metal bolt and then the fan is attached to the hook.
Usually a rubber bushing is placed in between the hook and the bolt to minimize noise.
low ceiling adapter *
~ This is a must for rooms with low ceilings since there is no need for a downrod.
However, this adapter must be purchased separate from the fan.
pull chain~ the original control for fans. It’s very basic, controlling both the fan speed and the light
fixtures. Usually a bead chain or a cloth cord, the pull chain generally turns on the fan and goes directly to the “high” position.
After another pull, the fan slows down. It continues this process until the fan turns back off. It usually cycles through three speeds - high, medium,
and low; but sometimes it can have from one to four speed(s).
wall-mounted~ 2 different types:
used for all of the fan’s functions; a computerized wall control that needs no special wiring and has
anywhere from three to six speeds.
comes in different forms. It establishes how much power is being sent to the fan, controlling how fast it spins.
a dial is mounted on the fan. Similar to a dimmer switch, this dial can be rotated and the blades speed up or slow down depending on which way you turn the
dial, as opposed to having set speeds (high, medium, low…). This can be installed in 3 different ways:
the dial can power the entire fan
speed, off/on, and light fixtures.
the dial is accompanied by a pull chain
pull chain controls whether it’s off or on while the dial controls the speed.
Light fixtures can be controlled by either of them.
dial and pull chain; pull chain has two modes
“variable.” When the fan is in the “variable” mode, the dial can then control the range of speed.
wireless remote control~
included with new luxury fans. Like any other remote control, it sends frequencies that the fan recognizes and it operates accordingly.
This can also be purchased separately and installed into your current fan.
Ceiling Fans are well-known for their Cooling Abilities but few know about their Heating Abilities...
Fans have assorted switches, which have many controls, such as turning the fan on or off, adjusting the speed,
changing the blades’ direction,
and operating light fixtures that may be on the fan.
direction set clockwise, pulls air upward; takes advantage of hot air rising and cold air sinking; pulls the cold air up from the
floor to mix with the warm air from the ceiling
direction set counter-clockwise, air is blown downward; doesn’t actually lower the temperature of the room, but it has a cooling effect
because the breeze helps evaporate sweat and keeps the air from feeling thick.
Usually the blades spin counter-clock wise. This enables air to be propelled downward.
This is how it keeps us cool in the summer since it causes airflow in the room. Contrary to this “cooling effect,”
when the blades spin clock wise, it pulls the air up.
This is essential in the winter since cold air sinks and hot air rises.
This way, the fan pulls the cold air up from the floor and combines it with the hot air from the ceiling.
with ceilings that are two or more stories high the directions would be reversed (
counter-clock wise → winter;
clock-wise → summer).
This is because the ceiling would be too far above the ground for the cooling effect, therefore hot air must be
pushed down in the winter and hot air pulled up in the summer.
Many ceiling fans are available with light fixtures.
Also known as “light kits,” these lights come in a few different styles.
installed on top of the motor, facing upward.
They shine light upward onto the ceiling.
light fixtures that are mounted below the motor and shine down, adding more light to the room.
Decorative light bulbs
mounted inside the motor housing. In this case, the motor housing has glass panels so when the light bulbs are switched on, the light shines through
Types of Ceiling Fans
“hugger" or a “low
used for low ceilings,
goes hand-in-hand with the
It’s installed just low enough that the blades don’t scrap the ceiling. Cannot be used in a room with
“Outdoor ceiling fans”
meant for porches, sunrooms, or any other room that’s partially outdoors since they are made of material that can endure cold, heat,
and humidity. It’s important that water cannot reach the fan or the motor; they should have a rust-proof finish and non-warp blades.
“Spinner fans” and “Spinner-motor fans”
~ differ only in the fact that the spinner fan does not have a motor housing.
This is because spinner fans are primarily
~ uses a “Spinner / Pancake”
motor and is designed with a shell that circles around an immobile central piece. The blades are connected to this shell.
Along with different fans come different motors...
~ highly recommended due to its energy efficiency and its powerful drive. It uses a basic
stator (see vocab),
a ‘squirrel cage’ rotor, and a standard flywheel.
~ least expensive to produce, yet they are the most likely to break and are the noisiest. However, they have improved over the years and
now standard for today’s fans. There are a few types of these motors:
the “Pancake motor”; used in direct-drive fans. Designed with a shell that circles around an immobile central piece.
The blades are connected to this shell. (see direct-drive fans.)
the best of the direct-drive motors; generally used in high-quality fans.
They are developed with an open “skeletal” design, which enables maximum ventilation resulting in an extensive duration of the fan.
FOR YOUR SAFETY:
When installing a fan, it should be hung minimally seven feet off of the ground to decrease risk of injury.
However, depending on the activities that might occur in the room, seven feet may not be high enough. For example, carrying tall
objects or high reaching can either damage the fan and/or cause injury.
“WHY DOES MY FAN WOBBLE ?”:
When a fan wobbles, it is irrelevant to the
way the fan was mounted or the ceiling that the fan is mounted on.
Causes for wobbling include warped blades, bent blade irons, blades or blade irons not being screwed on straight, or blades being different weights, shapes,
or sizes. Though a “balancing kit” is included with the purchase of a ceiling fan, the kit is only capable of evening the weights of the
blades as opposed to fixing the other problems
DOES WOBBLING CAUSE MY FAN TO FALL ?”:
No, your fan will not fall from wobbling. When installed, a fan uses
clevis pins*, which are locked with
cotter pins*, to secure the fan. On the other hand, light kits may loosen
and possibly fall. Just make sure to follow all directions carefully and completely. Also, use the appropriate
mounting screws and fasten them firmly. Light fixtures should be correctly put together and securely fastened. It’s
also important to sporadically check its security, for instance making sure that it’s tight, undamaged, etc.
that cause this.
SOME EXTRA VOCAB to help you further understand the terminology of ceiling fans and related topics.
rotary electrical switch in certain types of electric motors that periodically reverses the ‘current’ direction between the rotor and the
~ steady rotating force
~ stationary part of the rotor system; may act as a field magnet (or electromagnet) interacting with the armature to create motion;
may act as the armature in some cases if positioned (manufactured?) in contact with the
moving field coils
on the rotor
aka the field winding; it energizes the electromagnet, aka the stator.
~ generally refers to one of the two principle electrical components of a motor
~ a type of fastener that will allow rotation of the connected parts on the axis of the pin;
consists of a head, shank, and hole; secure and less apt to come loose during vibration
~ a metal fastener with two ‘tines’ that are bent during installation used to fasten metal together,
like a staple or rivet; typically made of thick wire with a half-circular cross section; inserted through the hole of the clevis pin to keep it in
place after the assembly of the parts to be fastened
Balance ~ “auto-balancing fan”; uses a flexible disc that ensures fan blades operate
smoothly and evenly with each rotation – even when weighted, tweaked, or warped
Safety ~ typically weigh between 15 and 50 lbs;
a fan in motion exerts many additional stresses on the object in which it is hung, causing an improper junction box
to fail; all ceiling fans must be supported by junction box to prevent this; sometimes homeowners replace a light fixture on a
fan without upgrading to a proper junction box.
An electrical junction box is a container for electrical junctions, usually intended to conceal them from sight and to
some extent to eliminate tampering. It can be a small metal or plastic container, such as those intended to form part of wiring, junction boxes
form an integral part of a circuit protection system.
A fan must have a proper electric junction box when installed. A typical fan weighs between 15 to 50 lbs,
and though a junction box can support a fan that’s still, when in motion it puts stress on the box, therefore an improper
junction box can cause damage and possible injuries