 |
MC Magazine |
 |
|
Concrete Placement Equipment
A drop in the bucket.
By Alex Morales
You
have just produced a high-quality concrete batch and you are
absolutely certain that you know the exact water-cementitious
ratio of the mix. It is properly mixed and being discharged
from the mixer, ready for transport to be placed in formwork.
This moment is critical – do you know where this batch
is going? How’s it getting there?
Let’s assume the following:
- The concrete is discharged from the
mixer onto a conveyor belt
- The conveyor belt transports the fresh
concrete to a bucket
- An overhead crane lifts and transports
the bucket to the form
Albeit simplified, this scenario is useful
in highlighting three important pieces of equipment used in
the typical precast concrete production facility – conveyor
belts, concrete buckets and overhead cranes – and you
should be familiar with their characteristics and maintencance
requirements.
Conveyor belts
Conveyor belts have been termed “the lifeline of concrete
plants.” The term likens conveyor belts to arteries
and veins in the body that carry blood to important organs
to sustain life. The analogy is appropriate because without
the ability to effectively transport concrete around the plant,
a precast concrete business cannot thrive.
So if you’re using a conveyor belt
system to transport fresh concrete, you need to ensure you
understand it and care for it properly. A conveyor system
is made up of various components including belts, idlers,
pulleys and drives.
It is best if the entire system is capable
of starting under full loads. Of course the system is not
designed to start under a full load each time it is used,
but in the event of a power outage or a sudden work stoppage,
you will need to restart the system while it is loaded and
it should be designed to handle this additional stress.
The belts typically get the most attention,
since they are the most visible part of the system. Many purchase
used belts, and these must be properly sized. As always, follow
the manufacturer’s recommendations for use and maintenance
of conveyor belts; however, if installing used conveyor belts,
it often is difficult to know for sure who the manufacturer
is, so take extra time to ensure you identify the original
manufacturer. Your supplier of used equipment can be helpful
in determining this information.
There are two types of splices used to piece
together a conveyor belt: mechanical and vulcanized. Mechanical
splices are quick, easy and inexpensive. However, they need
to be filed smooth and may lack sufficient strength. Vulcanized
splices are more difficult and expensive, but they are very
strong and can have a long life. A system can function properly
if a mechanical splice is used on the belt, of course, but
vulcanized splices are preferable. Check with your manufacturer
to ensure the proper type of splice.
Two important considerations for belts used
to transport fresh concrete are the “edge distance”
and the “angle of surcharge,” and you should take
both of these into consideration when determining the correct
size for your operation. The edge distance is the amount of
space from the edge of the fresh concrete on the belt to the
edge of the belt itself. The minimum edge distance is calculated
according to this
formula.
The angle of surcharge is the angle formed
by the pile of fresh concrete on a moving belt with the horizontal.
For concrete slumps of approximately 2 to 6 inches, the angle
of surcharge should be between 0 and 10 degrees. The angle
of surcharge is influenced by various factors, including aggregate
type, the water/cement ratio of the concrete batch being transported
and any additives (mineral or chemical admixtures) used. You
should work closely with the conveyor manufacturer in order
to determine proper belt sizing to ensure that your conveyor
system can handle your concrete batches effectively.
Wipers are part of the belt system and are
typically located directly behind the discharge pulley. Wipers
direct mortar for proper discharge and must be kept clean.
Do not underestimate the importance of clean wipers –
much like the wipers on your vehicle, the wipers on your conveyor
system are often neglected until they are not functioning
properly.
Maintaining a clean conveyor system is important
to ensure its smooth operation. However, never clean or adjust
any part of the system while the system is operating. Use
lockout/tagout (LOTO) procedures to disconnect the system
from its power source prior to any maintenance. Never water-wash
the belts. Light tapping followed by wire brushing and oiling
is typically sufficient, or follow the manufacturer’s
recommended procedure.
One final consideration for a conveyor system
is the speed at which it runs. The speed of the belt, expressed
in feet per minute (fpm), is based on the size of the belt
and the angle of surcharge as expressed in the chart below.
For instance, a
belt size of 16 inches moving at a speed of 500 fpm and carrying
fresh concrete at an angle of surcharge of 0 degrees can convey
115 yards of concrete per hour. This
charge should be used as a guide, but final determination
of belt speed should be confirmed with the manufacturer.
Concrete buckets
Concrete buckets are an important part
of the concrete placement process. They are typically made
of metal (usually steel) and are transported with the aid
of an overhead crane that suspends the bucket over formwork
for final placement.
As with conveyor systems, it is important
to keep the buckets clean, free from concrete buildup –
and free of water. If you water-wash these buckets, ensure
that the buckets are completely dry before putting them back
into service, since you should at all costs prevent the potential
tampering of the water/cementitious ratio of the concrete
batch.
Never allow concrete to harden within or
on the bucket. This not only impedes the natural effect of
gravity on the concrete batch during discharge, but it also
affects the overall weight of the bucket. For safety reasons,
unnecessary additional weight should be eliminated from loads
that will be suspended.
Yes, buckets may be moved with cranes, forklifts,
pallet lifts and rollers to the casting locations. While these
are popular means of moving concrete to forms, it is labor-intensive
and time-consuming. Although not part of the scenario listed
at the beginning of this article, traveling buckets are an
alternative.
Traveling or flying buckets are automatic
devices that go between the mixer and drop locations via rail
systems. While they can run without direct supervision, their
flexibility is generally limited to the predetermined locations.
Also, the rails can limit building use and access. When designing
a plant, all of these things should be taken into consideration.
Overhead cranes
Overhead cranes provide efficient movement
of equipment and raw materials in precast concrete facilities.
However, an overhead crane also represents a high risk for
personal injury, and operators of overhead cranes should be
properly trained on the correct use of this equipment. Operators
must use good judgment and common sense when using an overhead
crane to carry a full concrete bucket to the formwork.
Overhead cranes are typically operated by
handheld pendulum controls that move loads laterally (front
and back), longitudinally (side to side) and vertically. The
essential parts are the crane bridge, the trolley and the
hoist hook assembly. The bridge is supported by an end truss
and travels the length of the bay on rails. The trolley travels
from side to side in the bay and carries the hoist hook assembly.
Obviously, although the system is stationary,
the overhead crane is capable of carrying loads in three-dimensional
movements within the bay. Manufacturers of overhead cranes
recommend varying degrees of inspections, which should be
followed unless more stringent requirements are specified
by OSHA
or some other local safety governing body.
Back
to the MC Magazine Nov/Dec 2005 Table of Contents
|
