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Our robotics systems are planned and implemented in a modular system, which means that each analysis device can be viewed independently and can be arranged and integrated in a modular manner, giving you greater flexibility when planning the entire infrastructure. Such automation can work fully autonomously and ensure supply in accordance with RilliBäk for 22 hours, considering the appropriate maintenance. The system is completely constructed, from the floor space to special laboratory furniture to operating aids and analysis devices.
The stationary robot system was our first robot development and has been tested in hospital routine for more than 2 years. When configuring a stationary application, the motto is “less is more”, in this case this means the space required. With a stationary solution you can place all your diagnostics in just 13m2 (at least). In this case, all modules are planned around the robot, which, thanks to its reach of 1.30 m, can easily operate the devices while adhering to all maintenance and safety areas. The limitations of such a system always depend on the choice of robot hardware (range) as well as the spatial dimensions of the selected modules. The stationary solution is particularly interesting for laboratories that cannot provide much space for automation or want to mirror their routine in a small space.2 (mindestens) platzieren. In diesem Fall werden alle Module um den Roboter geplant, welcher durch seine Reichweite von 1,30 m unter Einhaltung aller Wartungs- und Sicherheitsbereiche, die Geräte problemlos bedienen kann. Die Limitierung eines solchen Systems hängt immer von der Wahl der Roboterhardware (Reichweite), sowie den räumlichen Dimensionen der gewählten Module ab. Die stationäre Lösung ist vor allem für Labore interessant, die wenig Platz für Automation bereitstellen können oder Ihre Routine auf kleinem Raum spiegeln wollen.
Semi-mobile laboratory robotics is a quantum leap in terms of infrastructural planning within the laboratory. Laboratory Robotics 7.0 describes the expansion of the entire system by a 7th linear axis, which can be configured for any length. On this 7th linear axis, the robot including the base can move horizontally in space to the appropriate length. This also makes it possible to place the individual modules in a row and facilitate hybrid work between humans and machines or to have several robots work on one axis at the same time and thus integrate several analysis devices in the robotics system. The integration of immune hematology into the automation, which requires corresponding space, also becomes a realistic possibility. This means that the entire spectrum of clinical emergency analysis can be accommodated in automation and can be processed using robotics and integrated into a semi-mobile system.
Our mobile system is an intralogistical transport system that acts as a pick-up and delivery service between hospital wards and the laboratory. With intelligent route planning, our mobile robot can travel to up to 17 stations and not only open automatic doors on its way, but also use an elevator and intuitively avoid smaller obstacles. The transport system provides a logistical interface between the laboratory and its environment.
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