Gates Delta Classic™ C-Section V-Belt (Uniset Match): The Delta Classic™ V-belts have a classical V-shaped profiles and are built for reliability and durability. For use in all industrial applications which use standard classical C section drives including compressors, pumps, aggregate screens, alternators, saws, milling, processing machines, fans etc...
The belts have anti-static properties to ISO 1813 (electrical resistance and antistatic standard) and are REACH, RoHS 2 and ATEX compliant. High-strength polyester tensile cords provide resistance to flexing forces, fatigue and shock loads.
The belts are oil and moisture resistant and offer good grip and protection against abrasion.
Suitable for use in operating temperatures of -30 deg C to +70 deg C. All sizes in this range meet the Gates UNISET tolerance standards and can be installed without matching. The belts are manufactured in the EU and conform to the requirements of DIN 2215 / ISO 4184 / RMA IP22 / BS 3790. Benefits: Good belt flexibility, stability and smooth-running operation, antistatic.
Brand / Quality: Gates - High Quality Belt Number: C208 Inside Length Approx: 208 inch = 5283mm Outside Length Approx: 212 inch = 5385mm Belt Width Approx: 22mm Belt Depth Approx: 14mm Belt Datum Length Approx: 210.05 inch = 5335mm C and SPC Pulleys
For your safety and that of others around you, before commencing work on any drive please be sure to isolate all sources of power to the installation, electrical, engines, mechanical, water power, wind and stored energy sources such that systems with cams or springs may have.
Isolate and lock off the machinery and make sure you clearly label the apparatus you are working on.
Please make sure your work area is clear from debris and clutter before commencing work.
It is advisable to wear gloves when handling pulleys and belts to reduce the risk of injury to your hands, equally important is correct work wear with no loose clothing which may get caught in the equipment.
Understanding correct belt installation
Loosen the belt tension to facilitate removal of the old belts easily.
The pulleys should be inspected for wear or damage and replaced as deemed necessary, badly worn pulleys will cause premature failure of the new belts.
Where possible the alignment of the pulleys should be checked and rectified if required, the permissible industry standard is a maximum of 1mm misalignment.
Clean any debris from the grooves of the pulley, rubber deposits can be cleared with a wire brush etc.
The new belts should be placed over the pulleys and not "Run On". Run on is a term used when belts are forced onto pulleys under tension over the grooves, this causes damage to the belts.
The diagram below shows a straight edge along the faces of pulleys to check alignment. No gap greater than 1mm should be noted at the arrow points.
Correct belt alignment, fitting and tension ensures proper system performance, long belt and bearing life expectancy and reduced energy costs.
Understanding Proper Belt Tension
The correct tension of a V-belt drive is the lowest tension at which the belt will not slip at peak load conditions.
For installations without a variable speed drive (direct online or star delta starters), the belt must be tensioned to handle increased motor torque during startup.
For slow start variable frequency drive applications (inverter drives), the belt must be tensioned to handle the actual brake horsepower of the driving force.
Engines are classed as variable speed drives because they don't start at full speed or load.
Under tensioned belts can slip, generating heat that results in belt cracking and eventual failure.
Over tensioned belts stretch excessively and also generate heat, which reduces belt and bearing life, and increases energy costs as system loads increase.
After tensioning the belts should be run around several times to relieve any stresses and re-checked before operating.
There are many factors involved in calculating the correct tension for a given belt, the speed it will operate at, the smallest pulley it will run around, the span length of the belt, it's operating temperature etc.
As a general rule of thumb, we should be looking for 1/64 inch deflection per span inch length or 0.0156mm per span mm length.
e.g.: Measured in inches a 32 inch span length = 32 / 1/64 = 1/2 inch e.g.: Measured in mm a 813mm span length = 813 / 0.0156 = 12.7mm
The following are generic approximations of the required forces to achieve the correct tensions. Please refer to the original manufacturers manual for the actually required belt tension for your equipment.
After the initial installation tensioning, re-checking and re-tensioning is recommended after one to two days. After that, belt tension should be checked periodically - about every three to six months or more frequently, if noise or vibration occurs. Whilst checking of the belt tension, checks should be made for cracks or fraying, as these indicate belt wear.
Notes:
Belts should be stored flat and not hung up, they are best stored in a cool dry place away from direct sunlight.
Do not run equipment without adequate guarding.
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