PMX as a Central Measurement and Control System for the Investigation of Haptic Actuators with Shape Memory Effect

What Is the Shape Memory Effect?

Concept: Intelligent Automobile-Human Communication via Feel

System Development and Experimental Setup

To evaluate the concept, a pattern was built in a men's shoe. The FG actuator was installed in the area of the rear foot arch in a groove machined in the shoe. The FG actuator is mounted so that the haptic pin has to penetrate the shoe sole in order to reach the resting foot arch in the shoe.

The test is controlled by a universal measuring amplifier PMX with integrated PLC, which was programmed with Codesys. The actuating path of the FG actuator and thus also the stimulus intensity of the haptic signal is detected by a potentiometric sensor and sent to the measuring amplifier. The triggering of the FG actuator is event-controlled, so that, depending on the servo-motor excited shoe load, the travel of the FG actuator can be measured.

At the start of a cycle, the controller issues a signal to close the relay, closing the circuit between the power source and the actuator being tested. As a result, the FG wire shortens, creating a stroke as shown in the sketch in Figure 2. The experimental setup is shown in Figure 4.

PMX a Component for Control and Data Recording

The PMX measuring amplifier system provides a tailor-made solution for operating the test bench. Its flexible design allows precise measurement with a wide variety of sensor types and can control the entire test bench via digital inputs and outputs and the integrated CODESYS Soft-PLC. All measured values are sampled at 20kHz and visualized and stored via the integrated Ethernet interface on the HBM DAQ software CATMAN.

In the following experiment, a pressure load in the shoe was simulated in addition, similar to when walking. Two servo motors were used to create the foot pressure on the shoe sole (from the top of the shoe). Figure 6 shows the associated dynamic measurement (over time). The load forces were measured below the shoe soles and occur independently of the travel of the FG actuator.

If the shoe is loaded, the load on the FG actuator also changes. If the travel reaches the zero position in the attempt, the current supply of the FG wire is switched off and the load is switched on. If the actuator is still in the austenitic state, it is elongated by the mechanical force, or experiences a pseudoelastic strain. After switching off the counterforce, the FG actuator now jumps back to an extended position, depending on its temperature to the transformation temperatures. Due to the opposing force results in a lower, noticeable for the user, pulse time of only 4 seconds.

About the ZAF

The ZAF, the Center for Applied Shape Memory Technology, is a member of the Forschungsgemeinschaft Werkzeuge und Werkstoffe e.V. Its main objective is industrial research and development for the tool and cutlery industry, solid forming, automotive, precision mechanics, machine tools and valve technology. It is an institute of the Bergische University in Wuppertal where Dr.-Ing. Alexander Czechowicz is employed.

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