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Mount these sprockets onto your shaft and secure with a set screw—no machining necessary.
For a custom fit on your shaft, these sprockets can be machined to your exact specifications.
Hardened teeth give these steel sprockets increased wear resistance for a long service life.
Made of nylon, these sprockets are lightweight, quiet, and corrosion resistant.
Also known as A-plate and weld sprockets, these have a slim profile that fits in narrow spaces and are often welded directly to a shaft.
These sprockets have two rows of teeth for use with double-strand ANSI roller chain.
Reduce assembly time when setting up a system to drive two different roller chains from a single sprocket.
Three rows of teeth make these sprockets compatible with triple-strand ANSI roller chain.
Designed to meet ISO 606 and DIN 8187 international dimensional standards, these sprockets are for use with compatible ISO and DIN roller chain.
Machine the center of these sprockets to fit the exact dimensions of your shaft. The teeth are sized to fit into metric ISO roller chain.
With metric teeth and slim profile, these sprockets allow your ISO roller chain to reach narrow spaces. They're commonly referred to as A-plate sprockets.
The double row of teeth on these sprockets are designed to fit into metric ISO double-strand roller chain.
Often used in electronic equipment, instrumentation devices, printers, and other compact machinery, these sprockets are made for use with our miniature roller chain.
Transfer power in one direction with these sprockets, which spin freely in the opposite direction.
The teeth on these sprockets are sized to fit Harsh Environment Flat-Edge Roller Chain.
Machine the center of these sprockets for a custom fit that matches your shaft. The teeth are sized to fit into silent-drive chain.
These sprockets are made of steel.
A wide hub provides these sprockets with stability under heavy loads.
Keep constant tension on your drive with these sprockets that press against your metric ISO roller chain to take up slack and reduce wear and vibration.
These idler sprockets have two rows of teeth for use with double-strand ANSI roller chain.
Get the same sizing versatility as quick-disconnect sprockets while using less space.
Use these sprockets with compatible QD bushings.
Since these sprockets grip bushings more tightly than taper-lock sprockets, they’re often used in high-torque applications.
Switch out the bushing to install these sprockets on shafts with different diameters—no machining necessary.
While their teeth fit into metric ISO roller chain, these sprockets use taper-lock bushings to grip shafts.
Roller chain links engage with matched sprocket teeth to transmit power between rotating shafts.
Thick side plates allow this chain to handle greater capacity than standard chain.
This 304 stainless steel roller chain is more corrosion resistant than treated steel roller chain.
This treated steel chain has over eight times the capacity of stainless steel chain.
Made of 316 stainless steel, this is our most corrosion-resistant chain.
This acetal chain is suitable for general purpose applications.
Plastic bushings as well as stainless steel pins and outer side plates give this chain a longer service life than other lightweight chain.
A rubber ring seals grease between the bushings and pins and keeps out dust and other contaminants.
With oil-embedded bushings and oil-coated pins, this chain is self-lubricating, which means it requires less maintenance than standard ANSI roller chain.
This self-lubricating nickel-plated steel chain has better corrosion resistance than steel chain and does not require regular maintenance.
Through-hardened pins keep these chains strong over time while handling frequent jolts from motor startups, emergency braking, and sudden reversing.
The flat, oblong side plates on this chain make it ideal for conveying items in manufacturing and packaging lines.
This treated steel chain has over six times the capacity of stainless steel chain.
Made of stainless steel, this chain has excellent corrosion resistance.
With wide gaps between each side plate, debris in dirty environments falls through this chain instead of building up.
Also known as leaf chain and counterbalance chain, this chain is used with pulleys rather than sprockets for low-speed pulling and as counterweight chain for machine tools, elevator and oven doors, and forklift masts.
This steel chain handles higher loads than stainless steel chain.
Also known as side bow chain, this chain has extra clearance between components for flexing from side to side on systems with curved tracks and sprockets that aren’t exactly aligned.
These links are made of steel.
Made of treated steel, these links offer increased corrosion resistance over steel attachment links.
Flat, oblong side plates make these links ideal for use with flat-edge ANSI roller chain.
Attach brackets and guides to these chains—or move material directly—for use in conveying, timing, and aligning applications.
Replace lost or damaged spring clips to secure the pins on your connecting links.
Keep an assortment of extra steel links on hand for maintenance and repairs. Assortments include connecting, adding, and adding-and-connecting links.
This chain is made of steel.
This treated steel chain has over seven times the capacity of stainless steel chain.
This acetal plastic chain is light, quiet, and nonconductive. Its links snap together, so you don't need connecting links.
Made of stainless steel, this chain has excellent corrosion resistance and can handle heavier working loads than plastic miniature roller chain.
Also known as inverted tooth chain, this chain smoothly transmits power between rotating shafts with minimal vibration and noise.
Replace the pins in your silent drive chain to link two chains together.
A former industry standard, 14½° pressure angle gears are often found on older machinery.
The current industry standard, these 20° pressure angle gears have thicker, stronger teeth than 14½° pressure angle gears. They're also known as spur gears.
For smooth, quiet operation at high speeds under heavy loads, helical gears have curved teeth that engage gradually and stay in contact longer than straight teeth.
With straight, conically shaped teeth and a 1:1 speed ratio, miter gears connect two shafts at a right angle without changing shaft speed or torque. They're more efficient than spiral miter gears because they create less friction.
Worm gears use screw threads to reduce shaft speed by ratios of 10:1 and greater while transmitting motion at a right angle.
Also known as spiral miter gears, these gears have curved teeth that gradually engage and stay in contact longer than straight teeth so they handle heavier loads at higher speeds. Speed ratio is 1:1.
Made from carbon steel with spiral teeth, these gears handle heavier loads at higher speeds than bevel gears with straight teeth because their teeth stay in contact longer.
A type of miter gear where one gear is smaller than the other, bevel gears provide right-angle speed reduction at ratios ranging from 2:1 to 5:1. They’re more efficient than worm gears because they create less friction.
The current industry standard, gears with a 20° pressure angle have thicker, stronger teeth than gears with a 14½° pressure angle.
Connect two shafts at a right angle without changing shaft speed or torque.
These plastic gears are lighter and quieter than metal gears—pair them with metal worms for lubrication-free operation. Worm gears use screw threads to make large reductions to shaft speed while transmitting motion at a right angle.
Reduce speeds where noise, corrosion, and frequent lubrication are a concern. Compared to metal gears, these nylon gears run more quietly, won't rust, and don't need to be lubricated.
Machine your own gears to fit the exact face width and shaft diameter required.
Compared to plastic gears, metal gears are better for high-load, high-speed, and heavy duty applications.
A light duty alternative to metal, plastic gears have good corrosion and chemical resistance.
Sprockets transmit power to drive belting.
Also known as sprocket-driven conveyor belting, sprockets drive the belt.
Idler wheels keep the belt moving and prevent sagging.
Choose these sprockets when you need to expand your Ammeraal Beltech MPB conveyor line or replace its worn sprockets.