Robot automation, which is in the
Manufacturing really works
Robots in manufacturing are not an end in themselves. They are particularly beneficial where cycle time, quality, and availability are ultimately not just "nice to have," but are instead hard-nosed requirements. That's precisely where we come in: We help industrial and manufacturing companies plan and implement automated production processes in such a way that they work in practice and don't require constant readjustment later.
With modern robotic systems, we take over typical tasks such as handling, assembly, placement, packaging, or individual process steps. The goal is not "more technology," but measurably higher throughput and a stable process. We tailor the systems to your parts, the variety of variants, and your production objectives, and we build them so that they can be seamlessly integrated into existing lines without requiring a complete overhaul of the production area.
Your lever for maximum performance
Robotics from the feasibility to service
This approach avoids a patchwork of individual components: robotics, grippers, sensors, and controls are integrated into a complete system. Robust, suitable for continuous operation, and reliable. The bottom line: shorter cycle times, less scrap, and consistently high quality, even when batch sizes vary and the same part isn't produced every day. Standardized modules and intelligent programming ensure flexible manufacturing without compromising stability.
And yes, it's also about people: less manual strain, greater workplace safety, and finally, time again for activities that truly create value. We support the project from the initial feasibility study and simulations to commissioning – structured, transparent, and without unnecessary embellishment. And after launch, we don't leave you in the lurch: service, optimization, and training ensure that availability and performance not only look good on day one, but remain consistently excellent.
In the end, robotics will become what it should be: a real lever for competitiveness, predictable costs, and manufacturing processes that will still be competitive in a few years.
An Overview of Our Services
Request a free consultation now – we'll provide you with practical advice.
Are you planning a new plant or would you like to automate an existing process? Whether it's special-purpose machinery, plant engineering, or targeted automation solutions: We develop a solution that fits your requirements, interfaces, and target values – transparently, structurally, and with a clear focus on cost-effectiveness.
Use the contact form for a non-binding inquiry. Briefly describe your task, and we will get back to you promptly to discuss how we can sustainably improve your production with a customized machine.
Your questions answered quickly
Here you will find answers to the most important questions.
What advantages does robot automation offer for efficient manufacturing processes?
Robot automation improves manufacturing efficiency through consistent quality, faster cycle times, and reduced scrap. Industrial robots operate precisely and with high repeatability, even in multi-shift operations, stabilizing automated manufacturing processes. Simultaneously, process reliability increases because critical parameters are consistently maintained. Companies benefit from shorter lead times, better capacity planning, and reduced workload for employees performing monotonous or ergonomically challenging tasks.
For which applications is production automation with industrial robots particularly suitable?
Production automation with industrial robots is particularly suitable for repetitive, standardized tasks with clear quality requirements. Typical applications include machine tending, pick-and-place, assembly, palletizing, welding, gluing, deburring, and quality inspection. Robot automation can also be beneficial for products with high product variety, provided the grippers, sensors, and programming are appropriately designed. This results in robust, automated manufacturing processes that measurably increase performance and quality.
How is robot automation integrated into existing systems?
Integration begins with a process analysis: cycle times, component handling, interfaces, and safety requirements are defined. This is followed by the concept, simulation, and design of the robot cell, gripper technology, and sensors. Seamless integration with controllers (e.g., PLCs), peripherals, and quality data is crucial. Finally, commissioning, safety acceptance testing, and training are conducted. In this way, robot automation is integrated into existing production automation without unnecessarily interrupting manufacturing.
What requirements must automated manufacturing processes meet to ensure stable operation?
Stable automated manufacturing processes require defined part feeding, repeatable clamping and gripping points, and clear quality characteristics. Equally crucial are appropriate cycle time buffers, reliable sensors, and a well-designed failure prevention concept (e.g., for part defects or positional deviations). In robot automation, standardized interfaces and clean data communication increase availability. A realistic risk and safety assessment completes the overall picture and ensures sustainable process reliability.
How do you assess the economic viability of robot automation in manufacturing?
Economic viability is determined by comparing costs and benefits over the entire product lifecycle. Key factors include higher output, reduced error costs, less scrap, fewer downtimes, and consistent quality. Additional benefits include improved ergonomics, better planning, and the ability to flexibly scale capacity. A structured analysis of cycle time, overall equipment effectiveness (OEE), personnel requirements, and process risks reveals where production automation offers the greatest leverage for efficient manufacturing.
Overview:
- What advantages does robot automation offer for efficient manufacturing processes?
- For which applications is production automation with industrial robots particularly suitable?
- How is robot automation integrated into existing systems?
- What requirements must automated manufacturing processes meet to ensure stable operation?
- How do you assess the economic viability of robot automation in manufacturing?
The Team
Here you can find our team members.
Jens Collin
Management
Thomas Tepp
Operations Manager & Authorized Signatory
Kai Marquardt
Project Management
Michel Meinhardt
Design Management
Torben Schubert
Assembly Management
Andree Meißner
Quality Assurance
Arne Becker
Work Preparation
Robin Hordan
Production / CAM Specialist
Peter Hubrecht
Automation
Our process chain at a glance
Here you will find our process chain
Inquiry / Initial Contact
Feasibility Study / Concept Development
Quotation Preparation
Project Launch
Design & Development
Manufacturing of components
Programming & Control Panel Construction
Installation & Wiring
Internal commissioning
Delivery
Installation and Commissioning at the Customer's Site
Documentation