The shape of the mechanical cam affects the cam profile. For example, a profile with fast acceleration and long dwell time has a steeper profile. A shallower profile has lower acceleration and longer dwell time.

The loaders have both a rotary axis and x and y axes. As the machine slows down, all of the axes that are cammed to one central constant speed–the line shaft –all of them slow down and speed up in perfect timing with the master line shaft of the machine.

Mechanicalelements

One of the most common examples of mechanical camming is the camshaft of an automobile, which takes the rotary motion of the engine and converts it into the reciprocating motion necessary to operate the intake and exhaust valves of the cylinders.

The camming system: Four modified-standard ball-screw linear actuators (B3S10) precisely position the incoming bags before they are inserted into the filling/sealing line. Two actuators adjust for vertical position and two horizontal actuators center the bags in their trays. A set of the actuators are coupled together, incorporating right hand/left hand screws, to get 2 axes of motion from one motor.

Mechanicallinkage

Mechanical camming is ubiquitous in factory automation system systems. But how do you switch from a mechanical camming system to an electronic one? And why would you? In this blog, we’ll review mechanical camming, look at dwell times and cam profiles, and then examine how mechanical camming translates to electronic camming and what advantages it provides.

Mechanical cam systems consist of a master input, which is typically driven by a constant-speed motor; a cam; and a follower. The master provides continuous motion. The follower creates intermittent motion.

CAM

Mechanical cams are used throughout manufacturing, on production lines such as bottle-filling and case packing. Most assembly systems with rotary indexing tables use mechanical cams. The cams are frequently driven by a single constant-speed line shaft. As the speed of the line shaft increases or decreases, everything scales to the speed of that one line shaft.

The purpose of all mechanical cam systems is to convert continuous rotary motion into intermittent linear or rotary motion.

Computer-aided manufacturing

Using electric linear actuators and electronic camming boosts packaging productivity and accuracy, and provides flexibility for many different sizes of bags.

Scotch yoke

Want to know more about how you can benefit from electronic camming? Contact a Tolomatic engineer and start a conversation.

The positions and dwell times of camming mechanisms are plotted on graphs called cam profiles. A cam profile depicts the master axis position along the horizontal axis, and the follower position along the vertical axis.

A leading packaging-machine builder had to accommodate bags of different sizes for filling and sealing. Their customers had begun to switch from standard sized, high-quality bags to lower-cost bags with inconsistent dimension. This led to problems with improper filling and sealing. The solution needed to allow for quick adjustments to accommodate varying bag sizes accurately and consistently.

The main benefit of electronic camming is that you don’t need to change out the mechanical cams in your machine when you change different product sizes because the cam profiles are stored digitally in your motion controller.

Cammechanism examples

That’s one of the beauties of mechanical camming or camming in general: The motion and dwell times all scale depending on the line speed of your constant-speed input.

When you implement electronic camming, it really simplifies the programming for your machine. Instead of having to have different velocity profiles for each different speed of the machine, you just cam every axis to one master axis, and then as the speed of that master axis changes, all of your cams slow down or speed up in perfect synchronism with the master axis. It makes machine motion-control profiling much easier. Really cool!

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There are two common types of cam profiles. A constant acceleration cam profile (acceleration is constant as you go from positivity velocity to negative velocity) shows the cam profile as an s-curve and the velocity profile as linear. A cycloidal cam profile produces an s-curve velocity profile. In other words, a constant acceleration cam provides a linear velocity profile and a cycloidal cam provides a s-curve velocity profile.

Another advantage of electronic camming is that all of the different cam profiles for different product sizes or different machine variations can all be changed as you select different I/O or network commands or motion program conditions.