PC Based Universal Life Testers



The PC Based Life Tester is a very flexible control system intended for endurance testing of either mechanical devices with 12 VDC motors (requiring up to 70 amperes), or non-powered mechanical devices, using suitable fixturing and pneumatic actuators.

The basic form of this tester operates only D.C. motors and can accommodate up to four motors. This can take the form of a single 4-motor assembly (such as a six-way power seat track with a two-way power recliner), or four single-motor assemblies (such as a stand-alone seat recliner, or a power window regulator), or a combination of both.  Also, not all of the four output channels need to be used.  Note that suitable mechanical fixturing is necessary in almost all test situations.  The customer can either supply test fixtures, or we can provide them at very competitive prices.  The top surface of the tester is ground steel (for attaching magnetic devices), and has integral mounting holes for attaching mechanical fixtures.

The upgraded version of this tester has an additional valve pack at one end that includes four double solenoid air valves with a single pressure regulator under each station and quick disconnect fittings.  Each valve operates in tandem with a motor output so that all of the capabilities mentioned above can be simply applied to a pneumatic actuator on a test fixture instead of a motor.  This means that the tester can accommodate up to four actuators. It is even possible to mix motors and pneumatic actuators!

Once the mechanical test arrangement is set up, the tester is manually programmed using a keyboard and mouse to operate any or all of the motors (or actuators) concurrently, in any directional combination, based on any of four operation modes: current, time, voltage, or limit switches.  These four modes refer to what input is required to cause the tester to go to the next step in the desired sequence.  In the case of "current", the tester is looking for motor stall current (such as the end of travel) which is set in the test sequence and can be a different value for any step in the sequence for each motor channel.  In the case of "time", the time in seconds for which a motor is turned on in a given direction is set.  When the motor has moved for the predetermined time it is shut off and the next step in the sequence for that motor is executed.  For "voltage" control, an analog output device such as an LVDT, load cell, linear pot, or other analog (+10VDC to -10VDC) output device is connected to the "quick connect" panel on the front of the tester and a set voltage, as defined by the user in the test sequence, from the device moves the test to its next step.  Finally, the "limit switch" mode allows the test to be operated between two limit switches with the tester looking only for an electrical contact closure of almost any type or a two wire prox or three wire prox.

The tester can be set up to run over 1000 sequential steps.  There are provisions within each step for inrush current ignore (since motors will often draw stall current upon start-up), minimum stall time (to sense a jammed mechanism), stall time (some test specifications require this feature), and motor cooling time (since any type of endurance testing usually generates excessive heat build-up).  The test sequence can also include wait periods, data saving steps (for saving data to a .csv file for Excel analysis), test blocks, and nested sequence loops.

The main screen includes provisions for local or remote voltage sensing (as some specifications require), which operating mode is desired (see above), voltage setting, and cycle count and reset functions.  There are also fault detecting provisions and messages displayed on the main screen as well as a test sequence display designed to show the current step in the sequence (in case the tester is "in-cycle" and nothing is happening at the moment).

The software in these testers includes help screens and operational instructions.  Generally, because this software appears so intuitive, most operators are able to quickly program relatively complicated tests with little or no training!

The entire tester operates on 115 VAC (requiring a 15 ampere circuit), and shop air if equipped with the air valve upgrade.  The tester weighs slightly over 500 pounds, and is mounted on full swivel locking casters that allow it to be rolled in any direction and through standard doorways.  It has integral forklift tubes and can be transported in the back of a pick-up truck or van.

We usually maintain a stock of both new and used Life Testers for immediate delivery or customer demonstration.  They are also available for short or long term rental, with a portion of the rental price applied toward eventual purchase.

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Available for Rent

This item is available for rent. For more information, please contact Chad Weavers by calling 616-846-6530.

Email:

cweavers@schapmachine.com



Rental Terms

  • Minimum rental period is 1 month. After the first month, rentals can be prorated in 1/4 month intervals.
  • Schap Specialty Machine, Inc. handles maintenance issues during the rental period(s).
  • For the first 3 months, 100% of the rental payment for each unit is applied toward purchase of that unit.
  • After 3 months, 20% of the rental payment for each unit is applied toward purchase of that unit.
  • The minimum purchase price of each unit is 50% of its original value.
  • Schap Specialty Machine, Inc. will review the condition of the rental equipment upon return, and any repairs that exceed normal wear and tear will be charged to the renter.

More Information

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Schap Laboratory Services

Let Schap Laboratory Services run this test for you. Schap Lab is an independent, third-party test lab accredited to ISO/IEC 17025 by A2LA*. We are built on over 50 years worth of executing test programs, and building test machines. We offer a wide range of capabilities to test materials such as leather, fabric, foam, rubber, plastic, and adhesives. We also offer mechanical, durability and life cycle testing of subcomponents, full assemblies and mechanical systems.

For more information, please contact Erik Johnson by calling 616.844.8259 or send an email to ejohnson@schaplab.com.

* Not every test offered by Schap Lab is covered by our A2LA accreditation. Please consult our Scope of Accreditation ( Certificate #3611.01 ) for a list of accredited services.