| Hinged Steel Belting |
|
| Endura-Veyor, Inc. hinged steel
belting is stocked in 2 1/2" and 4" pitch sizes. Both sizes are
available in multiple standard belt widths. Designed for any
standard Endura-Veyor steel belt conveyor frame, as well as some
other manufacturers frames. Contact an Endura-Veyor Sales Engineer
for assistance with interchange dimensions when used as
replacement belting in other manufacturers conveyor frames. |
|
|
2-1/2" Pitch Steel
Belting - "W" Series (Welded Wing Style) |
|
|
Side Wings: |
MIG Welded to Apron Pans |
|
Construction: |
Pin and Cotter |
|
Axles: |
Manufactured from high quality stress proof cold rolled
steel. Ends milled with flats to interlock in outside side
bars. |
|
Rollers: |
Made from medium carbon steel and heat-treated for greater
wear resistance. |
|
Roller Bushings: |
Roller bushings are made from tubing, not rolled. By using
tubing, the bushing maintains more roundness, which
creates a more even wear surface. Bushings are heat
treated for increased wear resistance. |
|
Welded Side Wings: |
Welding the side wings to the pans keeps material from
dropping through gaps between the wings and the pans. This
feature reduces the amount of material allowed to migrate
to the chain and tracks, which causes increased wear. |
|
Side Bars: |
Constructing the chain with inside and outside side bars
results in the load being carried by the chain as opposed
to applying pressure to the thru axles and pan loops,
which occurs when side bars are eliminated. Greater belt
pull capacity is achieved with the use of side bars. "D"
style outside bars keep the milled end axles from wear
caused by the "scrubbing" action that occurs when the
chain goes though curves and around sprockets. This
feature eliminates that area as a wear point. |
|
|
|
|
2-1/2" Pitch Steel
Belting - "S" Series (Slide On Wing Style) |
|
Without Outside
Side Bars
With Outside
Side Bars |
|
Side Wings: |
Slide onto axles |
|
Construction: |
Pin and Cotter |
|
Axles: |
Manufactured from high quality stress proof cold rolled
steel. |
|
Rollers: |
Heat-treated for greater wear resistance. |
|
Side Wings: |
The overlapping construction of the precisely formed side
wings reduces the amount of material that would otherwise
migrate to the chain and tracks. This feature
ensures longer belt life and higher performance.
These special heavy gauge steel side wings slide onto the
belt axle using closely toleranced holes. This cost
cutting design enables the belt to be easily disassembled
in minutes! |
|
Side Bars: |
When equipped with outside side bars, belt pull increases
up to 2,500 lbs. This feature not only doubles belt
performance, it adds even longer life to this already
durable design.
|
|
|
|
|
2-1/2" Pitch Low Profile Steel
Belting (Welded Wing Style) |
|
|
Construction: |
Pin and Cotter |
|
Axles: |
Manufactured from high quality stress proof cold rolled
steel. Ends milled with flats to interlock in outside side
bars. |
|
Rollers: |
Made from medium carbon steel and heat-treated for greater
wear resistance. |
|
Roller Bushings: |
Roller bushings are made from tubing, not rolled. By using
tubing, the bushing maintains more roundness, which
creates a more even wear surface. Bushings are heat
treated for increased wear resistance. (Some belt
manufacturers do not even use bushings.) |
|
Welded Side Wings: |
Welding the side wings to the pans keeps material from
dropping through gaps between the wings and the pans. This
feature reduces the amount of material allowed to migrate
to the chain and tracks, which causes increased wear. |
|
Side Bars: |
Constructing the chain with inside and outside side bars
results in the load being carried by the chain as opposed
to applying pressure to the thru axles and pan loops,
which occurs when side bars are eliminated. Greater belt
pull capacity is achieved with the use of side bars. "D"
style outside bars keep the milled end axles from wear
caused by the "scrubbing" action that occurs when the
chain goes though curves and around sprockets. This
feature eliminates that area as a wear point. |
|
|
|
|
4" Pitch Steel
Belting (Welded Wing Style) |
|
shown w/heat bars
shown less heat bars |
|
Pans: |
Plain,
Pimpled, or Pimpled/Perforated |
|
Side Wings: |
MIG Welded
to Apron Pans |
|
Construction: |
Pin and
Cotter |
|
Axles: |
Manufactured
from high quality stress proof cold rolled steel. Ends
milled with flats to interlock in outside side bars. |
|
Rollers: |
Made from medium carbon steel and heat-treated for greater
wear resistance. Flange rollers every other roller
block to guide belt on track. |
|
Roller Bushings: |
Roller
bushings are made from tubing, not rolled. By using
tubing, the bushing maintains more roundness, which
creates a more even wear surface. Bushings are heat
treated for increased wear resistance. (Some belt
manufacturers do not even use bushings.) |
|
Welded Side Wings: |
Welding
the side wings to the pans keeps material from dropping
through gaps between the wings and the pans. This feature
reduces the amount of material allowed to migrate to the
chain and tracks, which causes increased wear. |
|
Side Bars: |
Constructing
the chain with inside and outside side bars results in the
load being carried by the chain as opposed to applying
pressure to the thru axles and pan loops, which occurs
when side bars are eliminated. Greater belt pull capacity
is achieved with the use of side bars. "D" style outside
bars keep the milled end axles from wear caused by the
"scrubbing" action that occurs when the chain goes though
curves and around sprockets. This feature eliminates that
area as a wear point. |
|
|
|
|
Welded
Belt Loops
Improves overall
belt pull
Impact
Pads
Adds impact
resistance
|
Wiper Cleats
Sweeps the return side of the frame
Top
Plates
Increases heat
and impact limitations
|
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