・ Eccentric retaining rings for general use. ・ Ring-shaped retainers to be set in the groove machined on the shaft or in the hole so that the retained part such as bearing may not drop out in the thrust direction that is parallel with the shaft. ・Generally, these retaining rings are fit in or on as compressed or spread using special pliers. This study investigates the effect of various retaining ring slot designs, conditioning schemes and conditioning disc types on the width of the slurry bow wave formed at the leading edge of the retaining ring during polishing. A method using high-speed videography is employed for visualizing and quantifying slurry bow wave width. As shown in Fig. 1, the first retaining ring with a sharp angle slot design was referred to as the PEEK-1, and the second one with a rounded angle slot design was referred to as PEEK-2 retaining ring. Both rings had 18 equidistant 3-mm wide parallelogram slanting slots on their contacting surface and the average slit depth was 3.1 mm.
- Machined Retaining Ring Slot Tool
- Machined Retaining Ring Slot Extruded
- Machined Retaining Ring Slot Holder
- Machined Retaining Ring Slot Machine
Jonathan Slass
General Manager
Rotor Clip Co. Inc.
Somerset, N.J.
Edited by Martha K. Raymond
Retaining rings are mechanical fasteners that form fixed shoulders to secure components in place. The rings deform during installation or removal, yet spring back to their original shape. Because of the spring characteristics, retaining rings can be used in a wide variety of applications.
Retaining rings can also be a cost-saving fastener alternative. For example, one retaining ring can often replace two or more parts. In addition, they typically use less raw-material than other fasteners. Because their installation doesn’t require threads, retaining rings eliminate complex machining.
Another advantage is that assemblies with retaining rings generally are more compact compared to assemblies that use other fastening processes. In addition, assemblies developed for retaining rings usually can be put together rapidly. And, workers don’t need elaborate training sessions to learn how to assemble components held by retaining rings. They are lightweight, easy to install, and work for most fastening requirements. Their proper application requires consideration of several factors to ensure that a ring functions properly and will be problem-free once the design reaches production.
The first step is to determine the type of ring to use. Retaining rings are available in a variety of styles that are installed either axially or radially in a housing or on a shaft. Internal rings, also called housing rings, are assembled into grooves or recesses in bores and housings. In comparison, external types or shaft rings are installed on the outside diameter of pins, studs, shafts, and similar parts.
Other applications use the retaining ring to take up end-play and to act as a spring or as a preload on parts to reduce chatter or vibration. These rings are either bowed or beveled. The bowed rings are curved and exert a preload on the assembly when installed in the groove. Another type of curved retaining ring is beveled and functions as a wedge. These rings look exactly like their housing and shaft counterparts, only they feature a 15° beveled or angled edge. This angle lets the ring wedge itself between the groove and the retained part until it can go no further, effectively locking everything in place.
Another type of retaining ring is self-locking. This retaining ring works well in applications that require very little thrust to retain the assembly. Self-locking rings don’t need a groove and are ideal for shaft or housing diameters of 1 in. or less.
Machined Retaining Ring Slot Tool
The second factor in ring selection is deciding whether to use an axially assembled ring or a radially assembled ring. An axial retaining ring is installed into a groove in a shaft or bore along an axis centerpoint. Axial rings have lugs and lug holes that are used for installation. Once installed, they contact virtually the entire groove. They transmit loads into the groove wall around most of the groove circumference, which lets them withstand significant thrust loadings.
On the other hand, a radially assembled ring is installed along the radius of a circle. Radially assembled rings don’t have lugs or lug holes. They also don’t extend as far around the circumference of the groove as their axial counterpart. Because of the gap portion, they accept less thrust loads to the groove wall.
After selecting the type and installation style, the third consideration is ring size, which is determined by the diameter of the housing or shaft. In addition, retaining rings are made to many standards such as inch, DIN, ANSI METRIC, and JIS.
Machined Retaining Ring Slot Extruded
The fourth step in the process is to select the retaining ring material. Retaining rings are generally available in three types of material. One is carbon spring steel (SAE 1060-1090), which is the most widely used material. It has high strength, good ductility, and an excellent surface for plating to ensure corrosion resistance. The second most common material is stainless steel (PH 15-7Mo). This is a strong, corrosion-resistant steel that’s capable of preventing atmospheric oxidation at temperatures up to 900°F. The third material is beryllium copper, which is nonmagnetic, conducts electricity, and is highly corrosion resistant to sea air and saltwater.
Not only is the material important, but the finish on a retaining ring is another consideration. Finishes are applied basically to prevent corrosion. Standard is a phosphate finish because it offers shelf-life protection against rust. Another finish is mechanical zinc plating. It resists corrosion up to 96 hr in salt spray, and is particularly effective for applications exposed to corrosive environments. In addition, zinc dichromate lacquer offers corrosion protection of up to 240 hr of salt spray. In some applications, it is a low-cost substitute for costly noncorrosive materials such as stainless steel.
Machined Retaining Ring Slot Holder
Once a retaining ring is selected, the next step is to choose installation tools. Retaining rings can be installed by a variety of manual and automatic tools, including pliers and pneumatic tools for axial retaining rings, and applicators and dispensers for radial retaining rings. Avoid using fingers, hammers, and makeshift devices as tools because they can cause injury as well as damage components. For high-volume installation, automatic assembly equipment is often used.
Machined Retaining Ring Slot Machine
The final consideration is packaging. Retaining rings are supplied in two ways. One is bulk-packaging in varying-size boxes or bags, depending upon the part size. Bulk packaging will probably work best if the part will be installed with a manual installation tool. The other packaging method stacks the rings onto one another by using automated equipment, then they are taped in that position. The resulting cartridges can be fed into automated assembly equipment for easy more efficient ring installation.