Your search keyword '"Reinhard Degen"' showing total 10 results

1. Precision Positioning down to Single Nanometres Based on Micro Harmonic Drive Systems.

Author

Andreas Staiger and Reinhard Degen

Published

2008

2. High Speed and Low Weight Micro Actuators for High Precision Assembly Applications - Micro Actuators with the Micro Harmonic Drive®.

Author

Reinhard Degen and Rolf Slatter

Published

2006

3. The Micro Harmonic Drive Gear

Author

Reinhard Degen and Rolf Slatter

Subjects

Materials science, law, Mechanical engineering, Harmonic drive, LIGA, law.invention

Published

2008

4. Extreme aspect ratio NiFe gear wheels for the production of commercially available Micro Harmonic Drive® gears

Author

Rainer Engelke, Varshni Singh, Udo Kirsch, Reinhard Degen, Martin Bednarzik, Bernd Loechel, Gabi Gruetzner, Christoph Waberski, Jost Goettert, and Gisela Ahrens

Subjects

Engineering, business.industry, Mechanical engineering, Condensed Matter Physics, Aspect ratio (image), Electronic, Optical and Magnetic Materials, law.invention, Resist, Hardware and Architecture, law, Harmonic, Production (economics), Harmonic drive, Electrical and Electronic Engineering, business, Actuator, LIGA, Engineering design process

Abstract

In a close collaboration the team of Micromotion, micro resist technology, BESSY, and LSU-CAMD have successfully mastered the challenges of LIGA production of ultra-precision microparts for Micro Harmonic Drive® gears. The complementary expertise ranging from design and application know-how to process research and technical support resulted in high quality LIGA microparts and superior Micro Harmonic Drive® gears taking advantages of the free 2D design capability and material choice. It is also an excellent example that through contributions from partners with different background and expertise LIGA precision parts can be produced with high quality and yield and for a market competitive price.

Published

2008

5. PARVUS – miniaturised robot for improved flexibility in micro production

Author

Reinhard Degen, Jürgen Hesselbach, Jan Wrege, Arne Burisch, and Annika Raatz

Subjects

Flexibility (engineering), Electric motor, Microelectromechanical systems, Engineering, business.industry, Robotics, Control engineering, Workspace, Industrial and Manufacturing Engineering, Microcontroller, Control and Systems Engineering, Scalability, Robot, Artificial intelligence, business

Abstract

PurposeUntil now, the size range of most machines for precision assembly was much larger than the size of the pieces to be handled or the necessary workspace. Flexibly scalable miniaturised production machines can help to develop much more flexible micro production systems. The paper aims to describe the development of a micro‐parallel‐SCARA robot adapted in size to MEMS products.Design/methodology/approachThe robot consists of a miniaturised parallel structure, which provides a high level of accuracy in a workspace of 60 × 45 × 20 mm3. It has a base area of 130 × 170 mm2 and offers four degrees of freedom.FindingsBased on simulations, the degree of miniaturisation in terms of a smaller structure and a high level of accuracy is determined. The results show that a miniaturised hybrid robot with a plane parallel structure driven by miniaturised zero‐backlash gears and electric motors can reach a theoretical repeatability better than 1 μm.Research limitations/implicationsThe first prototype provides good prospects that the concept will be used in a visionary desktop‐factory. As regards the accuracy parameters of the robot, there will be further efforts to optimise the robot's structure and drive mechanism.Practical implicationsThe repeatability of this first prototype is better than 14 μm. A better stiffness of optimised micro‐gears and joints of the structure will guarantee a much better repeatability.Originality/valueThe paper illustrates that the Parvus is one of the smallest industrial robots for micro assembly equipped with a full range of functionalities like conventional industrial robots.

Published

2007

6. High Speed and Low Weight Micro Actuators for High Precision Assembly Applications

Author

Rolf Slatter and Reinhard Degen

Subjects

Previous generation, Micro actuator, Computer science, Miniaturization, Investment goods, Actuator, Automotive engineering, Servo

Abstract

The trend to miniaturization cannot be overseen. The use of very small electronic and electro-optical components in a variety of consumer and investment goods is leading to an increasing demand for small-scale servo actuators for micro assembly applications in production equipment. The previous generation of micro gears and micro actuators was not suited to this type of application, because of unacceptable accuracy.

Published

2006

7. SU-8 based deep x-ray lithography/LIGA

Author

Yoonyoung Jin, Martin Bednarzik, Georg Aigeldinger, Gisela Ahrens, Linke Jian, Gabi Gruetzner, Ralf Ruhmann, Varshni Singh, Jost Goettert, Reinhard Degen, Yohannes M. Desta, and Bernd Loechel

Subjects

Materials science, business.industry, Extreme ultraviolet lithography, Nanotechnology, law.invention, Resist, law, Optoelectronics, X-ray lithography, Photolithography, LIGA, business, Lithography, Next-generation lithography, Maskless lithography

Abstract

Poly-methylmethacrylate (PMMA), a positive resist, is the most commonly used resist for deep X-ray lithography (DXRL)/LIGA technology. Although PMMA offers superior quality with respect to accuracy and sidewall roughness but it is also extremely insensitive. In this paper, we present our research results on SU-8 as negative resist for deep X-ray lithography. The results show that SU-8 is over two order of magnitude more sensitive to X-ray radiation than PMMA and the accuracy of the SU-8 microstructures fabricated by deep X-ray lithography is superior to UV-lithography and comparable to PMMA structures. The good pattern quality together with the high sensitivity offers rapid prototyping and direct LIGA capability. Moreover, the combinational use of UV and X-ray lithography as well as the use of positive and negative resists made it possible to fabricate complex multi-level 3D microstructures. The new process can be used to fabricate complex multi-level 3D structures for MEMS, MOEMS, Bio-MEMS or other micro-devices.

Published

2003

8. Electromagnetic driving units for complex microrobotic systems

Author

Felix Schmitz, Frank Michel, Reinhard Degen, Wolfgang Ehrfeld, and Udo Berg

Subjects

Electric motor, Engineering, Precision engineering, Grippers, business.industry, Linear motion, Mechanical engineering, Linear stage, Belt drive, Actuator, business, Backlash

Abstract

Electromagnetic actuators play an important role in macroscopic robotic systems. In combination with motion transformers, like reducing gear units, angular gears or spindle-screw drives, electromagnetic motors in large product lines ensure the rotational or linear motion of robot driving units and grippers while electromagnets drive valves or part conveyors. In this paper micro actuators and miniaturized motion transformers are introduced which allow a similar development in microrobotics. An electromagnetic motor and a planetary gear box, both with a diameter of 1.9 mm, are already commercially available from the cooperation partner of IMM, the company Dr. Fritz Faulhaber GmbH in Schonaich, Germany. In addition, a motor with a diameter of 2.4 mm is in development. The motors successfully drive an angular gear and a belt drive. A linear stage with a motion range of 7 mm and an overall size as small as 5 X 3.5 X 24 mm3 has been realized involving the motor, a stationary spur gear with zero backlash and a spindle-screw drive. By the use of these commercially available elements complex microrobots can be built up cost-efficiently and rapidly. Furthermore, a batch process has been developed to produce the coils of micro actuator arrays using lithographic techniques with SU-8 resin. In applying these components, the modular construction of complex microrobotic systems becomes feasible.© (1998) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1998

9. Extreme aspect ratio NiFe gear wheels for the production of commercially available Micro Harmonic Drive® gears.

Author

Bernd Loechel, Jost Goettert, Gabi Gruetzner, Martin Bednarzik, Christoph Waberski, Gisela Ahrens, Rainer Engelke, Varshni Singh, Reinhard Degen, and Udo Kirsch

Subjects

HARMONIC drives, MICROMECHANICS, NICKEL, IRON, POWER transmission, PRODUCT quality

Abstract

Abstract  In a close collaboration the team of Micromotion, micro resist technology, BESSY, and LSU-CAMD have successfully mastered the challenges of LIGA production of ultra-precision microparts for Micro Harmonic Drive® gears. The complementary expertise ranging from design and application know-how to process research and technical support resulted in high quality LIGA microparts and superior Micro Harmonic Drive® gears taking advantages of the free 2D design capability and material choice. It is also an excellent example that through contributions from partners with different background and expertise LIGA precision parts can be produced with high quality and yield and for a market competitive price. [ABSTRACT FROM AUTHOR]

Published

2008

10. PARVUS - miniaturised robot for improved flexibility in micro production.

Author

Arne Burisch, Jan Wrege, Annika Raatz, J³rgen Hesselbach, and Reinhard Degen

Subjects

MANUFACTURING process automation, MACHINERY, INDUSTRIAL robots, MICROELECTROMECHANICAL systems, MINIATURE electronic equipment

Abstract

Purpose - Until now, the size range of most machines for precision assembly was much larger than the size of the pieces to be handled or the necessary workspace. Flexibly scalable miniaturised production machines can help to develop much more flexible micro production systems. The paper aims to describe the development of a micro-parallel-SCARA robot adapted in size to MEMS products. Design/methodology/approach - The robot consists of a miniaturised parallel structure, which provides a high level of accuracy in a workspace of 60?Î?45?Î?20?mm3. It has a base area of 130?Î?170?mm2 and offers four degrees of freedom. Findings - Based on simulations, the degree of miniaturisation in terms of a smaller structure and a high level of accuracy is determined. The results show that a miniaturised hybrid robot with a plane parallel structure driven by miniaturised zero-backlash gears and electric motors can reach a theoretical repeatability better than 1?Ám. Research limitations/implications - The first prototype provides good prospects that the concept will be used in a visionary desktop-factory. As regards the accuracy parameters of the robot, there will be further efforts to optimise the robot's structure and drive mechanism. Practical implications - The repeatability of this first prototype is better than 14?Ám. A better stiffness of optimised micro-gears and joints of the structure will guarantee a much better repeatability. Originality/value - The paper illustrates that the Parvus is one of the smallest industrial robots for micro assembly equipped with a full range of functionalities like conventional industrial robots. [ABSTRACT FROM AUTHOR]

Published

2007