These rugged conveyors save you maintenance expense with easy replacement of idlers and afford the lowest horsepower per bushel ratio required in any conveying system.
Long spans are common in grain handling installations and Union Iron Idler Belt Conveyors provide all the advantages of belt systems while allowing long span applications. These rugged conveyors save you maintenance expense with easy replacement of idlers and afford the lowest horsepower per bushel ratio required in any conveying system.
Belt Troughing Idler systems have been in the past the most popular bulk material conveyors. Idler conveyors are the most economic because of higher capacities and greater distances than any other mechanical conveyors. Belt conveyors are capable of handling a wide variety of materials from very fine to granular or lumpy, from very free flowing to sluggish, from non-abrasive to very abrasive. The only type of material to watch out for in belt conveyors are materials of irregular shape or having sharp edges. The single most expensive item on a belt conveyor is the belt itself. The belt can represent about a third of the total cost. The repair and replacement is the biggest maintenance expense. One way to insure maximum belt life is to select the right conveyor idler, and the proper idler spacing. HP calculations are based on frictional and gravitational forces acting on the belt.
The distance required to form a flat belt into the shape of a trough or back to a flat belt usually located at head and tail pulleys. Transition Idlers are not used with 20 degree idlers. Transition Idlers are used on 35 degree and 45 degree Troughing Idlers. The quick transition from a flat to a trough shape places stress on belt edges and draws the belt into the idler gap which will cause the greatest amount of damage to a belt. Transition Idlers eliminate this problem by troughing the belt gradually.
The area where material comes in contact with the belt, which can cause high impact loads on the belt. Material with coarse lumps may even cut the conveyor belt, so Impact Idlers are used in this area. The idlers are spaced close together to absorb impact loads.
Normal Troughing Idlers
Idler spacing, other than transition and impact area, is based on the weight of material, size of idlers and allowable belt sag. Care should be taken in picking out proper idlers. Such items as operating time and atmosphere conditions, should be considered in selecting idlers.
Return Idlers are mounted on the underside of the conveyor. The idlers have only the weight of the belt to carry. When the return idler has belt tension acting on the rollers, a bend pulley with a larger shaft is recommended.
Return Idler and Troughing Idler trainers are used to prevent belts from misalignment. Training Idlers should be placed a minimum distance from terminal pulleys and at appropriate distances for the balance of the conveyor.
Use on light-duty, short centers or frequently adjusted conveyor. They should be used only when, due to space limitations or other conditions, it would be impossible to use the gravity type. Screw Take-Ups put a greater amount of tension on belts causing wear on shafts and bearings.
Are far better for belt conveyors than Screw Take-Ups. Some advantages are maintaining constant belt tension, adding no more belt tension than to prevent excessive sag, minimizing power requirements and wear on shafts, bearings and driving equipment, and reducing the number of times a belt must be shortened and spliced.
The method of loading the belt is important. Proper loading helps prolong belt life, reduce spillage and keep the belt trained. The Belt Loader's design is varied by such conditions as capacity, material characteristics, belt speed and belt inclination. The object of a Belt Loader is to:
Head And Tail Pulleys
Pulleys should be of the crown face type for belt training. Heavy-duty shafts to take normal running belt tension plus any surges in power requirements. Head Pulleys should be lagged to prevent belt slippage.
Miscellaneous Items To Consider
Miscellaneous items to consider for a complete system are: Discharge hoods, conveyor hoods, belt wipers/cleaners, side skirts, belt alignment devices, motion speed switches, snubber pulleys, take-up frames, trussed bridge work, support frames and loading/unloading chutes.