Engineering

Leading development skills for spring solutions tailored to specific requirements

Quality

In addition to our manufacturing processes, we develop test methods and equipment to ensure the quality of our products. From special testing facilities through development assistance to 100% inspection during the manufacturing process, we can provide a wide range of test equipment.

Create quality

  • We want more than satisfied customers – we want to inspire our customers
  • For us, quality is more than the product, quality is everything we do
  • Quality is the responsibility of all employees
  • Managers are role models for their employees
  • We plan the quality of our product development until the end of series production
  • You can find our quality certificates here

Customer orientation

  • Competent and friendly cooperation
  • Optimal customer service and short reaction times
  • Fast control loops for quality and costs
  • Error-free products and services
  • Dependable schedules and commitments

Errors don't have a chance

  • Preventive quality assurance
  • Stable and reliable processes
  • Continuous improvement and employee suggestion system
  • Training of the skills of all employees towards quality-oriented action
  • We analyse risks and implement preventive actions along the value chain to ensure highest quality and product safety

Competitiveness and market leadership

  • Open-mindedness with regard to new processes and methods
  • Continuous research and development to maintain marketability
  • Building development partnerships with customers
  • Uniform quality standards and systems in all companies within the group
  • In-company training of skilled personnel and continuous training of all employees
  • Sustainable use of resources

The requirements for compression, tension and torsion springs in applications such as automotive fuel injection systems or complex electrical switches sometimes makes it necessary to measure the properties of the springs with 100% inspection. We have special machines available to do this, sometimes integrated into the work process. Separate spring setting and testing machines can take care of a wide range of testing procedures as required:

  • Acquisition of force-displacement characteristics
  • High-precision length measurement and force measurement system
  • Integrated geometry measurement using a camera system
  • Fully automatic test sequence
  • Reliable selection
  • High testing performance

High-performance dynamic fatigue test systems are available for testing the service life of wire springs and the fatigue strength of spring wires.

  • High-speed test machines for testing service life
  • Simultaneous testing of multiple springs
  • Variable test frequency
  • Different amplitudes (lift height)

Inspection of surface, shape and hardness

  • Traditional and computer-aided contour and hardness tests
  • Traditional and computer-aided contour and hardness tests
  • Microscopic surface examination
Springs often have to meet a complex requirement profile. In addition to the minimum requirements with respect to life cycles, the spring behavior must also tested under conditions similar to the application for which it is intended. To do this, we develop dedicated testing systems in consultation with our customers,which are often designed to determine the number of load cycles until failure of the spring or to demonstrate that a guaranteed minimum number of cycles can be met.

In serial testing, we ensure high levels of quality through continuous spot checking and control.
MEDER has a consistent approach to quality, from product development through to final inspection and shipping. Modern methods of quality planning, such as APQP and FMEA, are used extensively to support the planning process. Test planning is integrated into the planning process during the product development phase. The in-process tests for products are derived from the control plan. Our machines and test equipment can meet complex testing requirements. At the end of the manufacturing process, our high quality levels are documented in the final inspection to ensure their traceability.

We design our production workplaces in accordance with ergonomic principles, and ensure that the most important product features are tested during the production process.

Our first-class supplier ratings testify to the success of our quality assurance strategy.
MEDER has a consistent approach to quality, from product development through to testing during production and shipping. Modern methods of quality planning, such as APQP and FMEA, are used extensively to support the planning process. Test planning is integrated into product development. The in-process tests for products are derived from the control plan. Our machine and test equipment engineers can meet the specific testing requirements for every workpiece, including poka-yoke solutions where appropriate. The quality data is archived in the CAQ system and available for tracing when required.

We design our production workplaces in accordance with ergonomic principles, and ensure that the most important product features are tested during the production process.

Our first-class supplier ratings testify to the success of our quality assurance strategy.

In modern precision mechanical systems, the avoidance of dirt and particles is of great importance. In these systems, the smallest movements could potentially be blocked, lead to failure of the system. Given that these systems are closed and designed for lifetime use, subsequent cleaning is no longer possible.The residual dirt analysis serves two purposes: to detect and eliminate potential causes of dirt, and to provide evidence to the customer that the shipped components are clean.

There are a wide range of testing requirements, both national and international. We adapt to customer-specific test variants.

The test results are documented and assessed in accordance with specified criteria such as VDA Volume 19.

At MEDER, FMEA plays an important role. An early and systematic feasibility analysis is carried out during the tendering stage. The use of FMEA is designed to identify and avoid potential sources of error at an early stage.

Our hardware and software specialists adapt geometry control by high-resolution vision systems with specific lighting systems to each particular application.

Our in-line process monitoring or 100% final inspection has a cycle time neutral repeat measurement accuracy of a few microns.

We use laser-based measurement processes for sampling, for in-line process control or for 100% final inspection.

Examples

  • Camera systems
  • Vision sensors
  • High-speed camera for process analysis

2D measurement processes, tests in goods receipt and issue

  • Optical, tactile and laser-based 2D measurement processes
  • In-process tests integrated into the production line (operator self inspection), some fully automatic measuring cells integrated into production
  • Adapted measurement solutions for specific applications

Customer-specific resistance measurements for

  • Inductors
  • Contact springs
  • Antennas

Industry applications

Automotive

Electrical engineering

Precision engineering

Building services engineering

Consumer goods

Mechanical engineering and equipment manufacturing

Medical technology

Textile industry

Other