Bushings are made to precise tolerances.
Provides excellent clamping push for secure shaft connection.
Obtainable in popular and standard bore sizes.
Stainless steel bushings are corrosion resistant, avoiding rust buildup to increase product life.
This Ever-Power’s size 3030 taper lock bushing with a torque capacity of 24000 in-lbs is made from steel and is used for installation a taper lock pulley, sheave, or sprocket on a drive shaft. It is flush installed for reduced installation width and includes a split taper for a tight clamp to shafts. The bushing is constructed of steel for greater strength and shock resistance than cast iron. It really is keyed to the shaft to avoid the shaft from rotating in the bushing, and it is interchangeable with taper lock bushings from numerous manufacturers. This taper lock bushing is used in automobiles, construction devices, agricultural machinery, and kitchen appliances, among others. Bushings are cylindrical parts utilized to mount pulleys, sheaves, sprockets, or other parts to drive shafts for the tranny of mechanical power. Many bushings are split and have a tapered outside surface so they will clamp to the shaft when tightened against the tapered bore of the powered component. They are constructed of durable metals such as for example cast iron and metal. Bushings are used in automobiles, construction apparatus, and machine tools, among others. Ever-Power’s manufactures bushings, pulleys, couplings, and electronic engine controls.
1. Before setting up the bushing, polish the next components:
a. Surface of shaft
b. Bore of the bushing
c. Tapered inside diameter of the Taper-Lock hub
d. Tapered outside diameter of the Taper-Lock bushing
Remove all burrs and foreign materials. Any particles left on the mating areas may cause improper installation.
Note: Usually do not lubricate mating surfaces.
2. Being careful not to harm bore or hubs, slide shaft into pulley.
3. Slide bushings onto shaft and into hubs. Oil thread point of arranged screws or thread and under head of capscrews. Place screws
loosely in the holes that are threaded upon the hub side.
4. Locate shaft constantly in place desired and hands tighten screws in each bushing somewhat to ensure that bushings are snug in hubs.
5. Tighten screws alternately and evenly in one bushing only until all screws are very tight. Use a piece of pipe on the wrench to
increase leverage. See desk on the back for wrench torque.
Avoid extreme wrench torque to avoid harm to the threads. After that use a hammer against much steel or bronze bar held
against bushings. Hammer initial next to the screw farthest from the bushing split and hammer on the bushing opposing side of
the screw. Avoid hammering near to the OD of the bushing to avoid damage. Functioning toward the split, hammer on bushing on
each side of each screw. After that hammer on each aspect of the bushing split. Make certain the surfaces on both sides of the split are also.
Screws can now be tightened a little more using the specified torque. Continue doing this alternate hammering and screw re-tightening
until the specified wrench torque no more turns the screws after hammering.
Check to make sure the top on both sides of the split are even. Fill the various other holes with grease to exclude dirt.
Taper-Lock bushings are split through the flange and gradual taper to provide a true clamp suit on the shaft this is the equivalent of a shrink fit.
Dodge Taper-Lock bushings are flangeless for clean, small application. They are engineered with an 8° taper and a flush-installed design without protruding parts providing protected locking and elimination of wobble. Furthermore, Dodge Taper-Lock bushings are available with an optional Gemstone D integral key in well-known sizes for a more precise fit.
Stock sizes offered up to 12” shaft diameter
Globally acceptance and availability inch and metric bores
Flush Mounting-No 
Protruding Parts
Diamond D Integral Key for Added Value and Convenience
Materials available in sintered metal, cast iron, ductile iron, steel and stainless
L – Space necessary to tighten bushing or loosen to eliminate hub with puller using brief hex key.
M – Space required to remove bushing using screws as jackscrews – short hex key – no puller reuired.
Listed needed hub diameter is for reference just. Severe conditions may require bigger hub and in some instances a slightly smaller sized hub could be satisfactory. Inquire about specific application.
Make use of a tapered or QD bushing from Ever-Power with sheaves, pulleys, sprockets and many other power transmitting applications. Flanged quick-disconnect bushings include a completely split style to greatly help provide easy set up and disassembly. A tapered bushing with directly edges uses an interior screw to help drive the bushing in to the shaft, while a split taper includes a flange and an integral on the bushing to help provide more drive. Grab the tapered and QD bushings you need at Ever-Power!
The Taper-Lock bushing size is defiined by 4 digits representing two numbers. The 1st two digits represent the utmost bore size and the second two digits represent the bushing duration. For example, product number 1008 includes a max bore of 1 1.0″ and a complete amount of 0.8″
In . bore sizes are specified with the complete inch followed by the fraction. For instance a 1.5″ diameter bore would be 1-1/2. Metric bore sizes are designated with “MM” after the metric dimension. These bushings are simple to install and remove, these bushings match flush into tapered bushing sprockets and or pulleys. The bushing contacts and wedges inward, gripping the shaft and bore of the sprocket. Bushings possess an 8° taper, are made of steel and come with a black oxide coating.
Gates Taper-Lock bushings are used to attach pulleys, sprockets and sheaves on shafts. The long lasting stainless steel construction is perfect for meals and beverage applications or where non-corrosive sprockets are had a need to prevent rust.