20240025656. CONVEYOR WITH LINEAR AXIS DEVICES simplified abstract (Manz AG)
Contents
CONVEYOR WITH LINEAR AXIS DEVICES
Organization Name
Inventor(s)
Martin Freundt of Esslingen (DE)
CONVEYOR WITH LINEAR AXIS DEVICES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240025656 titled 'CONVEYOR WITH LINEAR AXIS DEVICES
Simplified Explanation
The conveying system described in the patent application includes three axis devices that are used to transport component receiving portions along a main transport direction in a component station. Each axis device consists of a carriage assembly with a component receiving portion and a feed apparatus for moving the component receiving portion from an avoidance state to a transport position. Additionally, each axis device has a linear shaft apparatus for moving the component receiving portion along the station path in the main transport direction and for returning it to the avoidance state in the reverse direction.
Key points of the patent/innovation:
- The conveying system includes at least three axis devices for transporting component receiving portions in a component station.
- Each axis device has a carriage assembly with a component receiving portion and a feed apparatus for moving it from an avoidance state to a transport position.
- The axis devices also have a linear shaft apparatus for moving the component receiving portion along the station path and returning it to the avoidance state.
- Two of the axis devices are linear displacement axis devices that move the component receiving portion in different spatial directions.
- The spatial directions define different projection directions in a projection plane perpendicular to the main transport direction.
Potential applications of this technology:
- Assembly lines: The conveying system can be used in assembly lines to transport components and component holders efficiently and accurately.
- Manufacturing processes: It can be applied in various manufacturing processes where precise movement and positioning of components are required.
- Packaging industry: The system can be utilized in packaging lines to transport and position different packaging components.
Problems solved by this technology:
- Improved efficiency: The system allows for smooth and precise transportation of components, reducing the time and effort required for manual handling.
- Accurate positioning: The axis devices ensure accurate positioning of the component receiving portions, minimizing errors in assembly or manufacturing processes.
- Space optimization: The different spatial directions provided by the axis devices allow for efficient use of space in the component station.
Benefits of this technology:
- Increased productivity: The system enables faster and more efficient transportation of components, leading to increased productivity in assembly or manufacturing processes.
- Improved accuracy: The precise movement and positioning capabilities of the axis devices result in higher accuracy in component placement and assembly.
- Space-saving: The system's ability to move components in different spatial directions allows for better space utilization in the component station.
Original Abstract Submitted
a conveying system including at least three axis devices for transporting component receiving portions for receiving a component and/or a component holder on a station path along a main transport direction in a component station. the axis devices each have a carriage assembly having one of the component receiving portions and having a feed apparatus for feeding the component receiving portion from an avoidance state to a transport position, and each have a linear shaft apparatus for moving the component receiving portion in the transport position along the station path in the main transport direction and for returning the component receiving portion in the avoidance state in a reverse direction. at least two of the axis devices are linear displacement axis devices which linearly move the component receiving portion in a spatial direction of the feed apparatus. the spatial directions each define a different projection direction in a projection plane perpendicular to the main transport direction.