All EPT shaft collars, including quick-clamping collars, are one point faced to make sure perpendicularity and proper alignment. This critical manufacturing stage assures precise shaft collar face to bore relationship resulting in correct component positioning on the shaft and even pressure on interfaced ingredients.
Quick-clamping shaft collars from EPT are produced from high quality metal with type-II sulfuric anodized finishes, with a dark finish in the collar and a precious metal finish in the clamping lever for added visibility. Aluminum collars are corrosion resistant, lighter than different metals, have low inertia and also have nonmagnetic properties. All EPT products are RoHS and REACH compliant. Available typical sizes for the quick-clamping shaft collars will be 0.375” to 1 1.5” in the inches series and 8 mm to 38 mm in the metric series.
This EPT two-piece clamping shaft collar is made of black oxide steel. It is a two-piece clamping shaft collar for applications requiring a more robust holding power and larger axial load capacity than setscrew or one-part clamping collars. The two-piece style separates into two halves, allowing installation or repositioning everywhere on the shaft without disturbing existing components. It accommodates a larger selection of shaft diameters than setscrew collars and is effective on both hard and soft shafts. It is made of metal for weldability and rust resistance with a black oxide end for a decorative appearance and level of resistance to white-colored corrosion, chipping and flaking, and stick-slide of the screw during torqueing, bettering the collar’s grasp on the shaft. Black oxide also provides slight corrosion resistance and better lubricity. This collar includes forged socket-head cap screws for securing the collar onto the shaft. The functioning temperatures for this collar range between -40 to 176 degrees C (-40 to 350 degrees F). This shaft collar is suitable for use in a variety of applications, which include in the car industry to situate elements in automobile electrical power steering assemblies, the production industry to locate parts on a conveyor belt system, and the hobby craft market to hold wheels on axles in remote control vehicles, among others.
Allows assembly / disassembly on and off the shaft with no need to eliminate other ancillary ingredients. cast aluminium china Clamps firmly in place once tightened to the shaft. Ideal for positioning parts such as for example bearings or sprockets onto shafts.
The position is easily adjusted when fitted onto a shaft. Clamps firmly set up when tightened to the shaft. Ideal for positioning parts such as for example bearings or sprockets onto shafts.
The double split shaft collar made of steel browned (clamp collar) is simple to install. The shaft collars do not harm the shaft. They are also insensitive to exterior forces and vibrations and distribute the having forces evenly over the complete shaft circumference.
Clamp-style and establish screw shaft collars from Grainger can be indispensable to power transmission. They can keep bearings and sprockets on shafts, situate components in motor and gearbox assemblies and provide as mechanical stops. A two-piece clamping shaft collar can simply wrap around a hard or very soft shaft without marring. Collection screw collars use a cup stage socket establish screw to lock onto a very soft or predrilled shaft.
The collar clamping mechanism works fast and successfully with simple palm opening of the integral clamping lever, positioning the collar on the shaft, and closing the lever flush with the external area of the collar. The look of the cam on the lever and the mating machined surface area on the collar assure a tight fit with a optimum axial load of 35 to 120 lbs / 133 to 489 N depending on the collar bore size. In circumstances where higher holding electric power can be or clamp axial load is necessary, the quick-clamping collar isn’t the recommended decision. EPT offers a complete line of industry-leading one-piece and two-part shaft collars made for these applications.