SMAC Moving Coil Actuators

SMAC Moving Coil Actuators:

    • Cost competitive 
    • Airless and quiet operation
    • Long life expectancy over 100 million cycles
    • Programmable position, velocity and force
    • Fast cycle time >2000 CPM
    • “Soft-Land” function gives extremely accurate sensing of product location
    • 100% data feedback for all operations as a standard feature
    • Compact design with optional on-board controller (shown above)
    • Optional IP65 & IP67 ratings

 

SMAC offers a wide range of programmable electric actuators based on Moving Coil linear servo motors. All SMAC actuators are fully programmable permitting the user to exert complete control over force, acceleration, position and velocity. This makes it ideal for implementation in industries where SMAC’s patented ‘Soft-Land’ procedure allows the actuator to both measure and manipulate very delicate and high value components with ease.


High Speed/Inline Leak Test with SMAC

SMAC Logo

SMAC Moving Coil Actuators can verify the sealing process was successful by leak testing. Whether it’s a filled bottle, foil sealed tray/ container, or bagged food, SMAC “Soft-Lands” on the package surface, programmed for the container’s optimal pliancy and applies force to detect leaks in line. Higher position displacement means a bad seal (or leak). Since the SMAC actuator can apply programmable force and monitor position of movement, we are a game changing solution.

SMAC Leak Test is Great For:

  • Nitrogen Filled Bottles
  • Pouches
  • Plastic Jugs
  • Soft Cases
  • Bags

Vacuum Conveyors from MK Solutions

Vacuum Conveyors

Vacuum belt conveyors, or conveyors with a vacuum in them, are essential in today’s manufacturing environment. Vacuum conveyors can be used to hold flat parts to the belt’s surface, for elevation changes, or overhead conveying and are ideal for carrying small parts and operating at high speeds. A variety of vacuum sources can be used.

Vacuum Conveyor Specifications

North America offers a wide variety of vacuum conveyors, from widths of 50 mm (2”) all the way to 1200 mm (48”) and in a variety of lengths. Vacuum belt conveyors are made by using a perforated belt, and drawing air through a perforated or grooved slider bed; in either the GUF-2000 or GUF-P 2041 series flat belt conveyors. Because vacuum conveyors from mk are based on these popular flat belt conveyors, a wide variety of conveyor options are possible including drive type and location, motor voltage, idler diameter, and elevation. Furthermore, these conveyors are fully compatible with mk’s line of t-slot aluminum extrusion framing. The vacuum portion of the conveyor is also highly customizable to meet your specific needs. Conveyors can be designed with a single vacuum chamber (or area) or with multiple areas. The vacuum source can come from a number of different places, including fans built within the frame of the conveyor or from an external pump and blower. The conveyor can be supplied with or without the vacuum source depending on your particular needs.

Vacuum Conveyor Video and Contact

Check out this video from mk North America to see one of their vacuum conveyors in action. This particular model shows how it is possible to carry product from above using a vacuum conveyor and how rejected parts can be knocked out of the flow.


IAI Introduces the Remote I/O Unit

Introducing the Remote I/O Unit, Which Allows You to Easily Expand the Number of I/O Points on the Controller

Remote I/O Unit

  • Capable of Expanding the Number of I/O Points on the Controller
  • Small Product Size Easy Installation with DIN Rails
  • Easy Connection and Less Cables
  • The Front Panel LED Lights Make Unit Status Apparent
  • Compatible Controllers


Selecting a Rotary Indexing Table

Rotary indexing table use is widespread in automated assembly machinery and selecting the proper mechanism is essential for both maximizing performance and minimizing the cost of this critical component. This how-toguide will explore two common devices that can be used for rotary indexing and give advice for proper selection. These two popular devices are cam indexing drives and servo rotary tables.

Cam indexers are a ubiquitous mechanism that have been used for rotary tables for many decades. They are a great fit for applications that will always index the same angle and that require high-precision positioning at a very reasonable cost.

Servo Rotary TableA cam indexer uses a mechanical cam to provide the motion control to position the load. A mathematical motion curve is machined onto the cam that provides extremely smooth and repeatable motion.

A cam indexer has two main modes of operation. One mode is referred to as “Cycle-on-Demand”. This indicates that the camshaft will be cycled one revolution at a time to advance the output one position at a time. This is typically achieved by using an inexpensive camshaft sensor package to detect camshaft position and a VFD to stop and start the motor. The camshaft dwell period offers a wide window for the camshaft to stop without affecting the position of the output. To cycle the indexer, a PLC gives a command to the VFD to accelerate the drive motor to a preset speed, the cam rotates one revolution indexing the output, a sensor sends an in-position signal to the PLC, and the PLC signals the VFD to stop the camshaft during the cam dwell position. The table will be in the dwell position for however long is necessary to complete the work at each station. The dwell time can range from a fraction of a second to several minutes or hours depending on the application. This combination allows very accurate positioning with an inexpensive drive system.

A cam indexer can also be run in a more traditional “Continuous” mode where the camshaft spins at a constant speed and the indexing and dwell time is controlled solely by the cam motion profile. Continuous mode is useful when other equipment will be mechanically synchronized with the camshaft timing or when the indexer needs to run at cycle rates faster than a motor can be stopped and started. A continuous indexer can run at rates in excess of 1,000 cpm. The limitation of continuous mode is that it may be impossible to machine a cam that requires a quick indexing motion followed by a long dwell time.

A fully programmable servo rotary table is another common option. There are two specific cases where a servo rotary table is advantageous. The first is when a flexible motion pattern is required. An example is two different products being run on one machine that each require different indexing patterns. The other situation that suits a servo indexer is when extremely fast positioning is required followed by a long dwell period. A cycle-on-demand cam indexer is limited by the need to accelerate the camshaft up to speed during the dwell period Cam Indexing Mechanismbefore output motion is started. There are practical limitations to how fast the camshaft can be accelerated so there will be a delay before motion is started. With a servo rotary table, the output rotates as soon as the servomotor starts moving. A practical example would be a load being indexed 90 degrees in 0.25 seconds. This is not difficult for a continuous cam indexer or a zero-backlash servo indexer, but a cycle-on-demand cam indexer may struggle with that motion. For quick servo indexing applications, a preloaded gear reducer with zero-backlash is critical to achieving smooth indexing motions with minimal settling time. A zero-backlash RollerDrive mechanism would be an optimal choice to achieve accurate positioning with great dynamic response.

For either style of indexer, application information including moment of inertia, indexing angle, indexing time, and dwell time is required. A reputable manufacture should then be able to properly size the rotary table for the application.


Contact

317-862-9580

Location

Blettner Engineering Co., Inc.
8919 Southeastern Ave.
Indianapolis, IN 46239

Questions about assembly or automation solutions? Request Info