Size and space are common roadblocks when it comes to placing inductive sensors in their ideal positions. For these tight spaces and hard to operate areas, we have an ideal solution – the new Contrinex model, MiniMini M4 Inductive Sensor (Threaded).
The best part about the miniature inductive sensors from Contrinex is that they’re the perfect sizes for limited spaces, like robotic position sensing, micro-mechanism controls, and tool selection.
Suitable for use in industrial brakes and tool spindles, the MiniMini M4 measures just 12mm long, which is about 10mm shorter than original sensors. The threaded MiniMini M4 fits in limited spaces perfectly, still boasting an impressive operating distance.
MiniMini M4 inductive Sensors Are:
- Extremely accurate
- Available plain or threaded
- Durable and reliable
- Smallest self-contained miniature inductive sensors on the market
- Available in sizes from ø3 to ø4 mm and 5 x 5 mm
- Able to sense up to 2.5mm
The MiniMini M4 comes equipped with an IO-Link, switching functions between NC and NO mode.
Available in Two Versions
The MiniMini Threaded M4 inductive sensors are available in two standard versions: The DW-AD-623-M4-960 with cable connection and the DW-AV-623-M4-966.
Popular Sensor Uses
Many modern operating plants and machining centers improve productivity by performing many operations in one place. This means they’ll need to employ separate tools for each individual task. Changing the tools yourself would cost time and defeat the purpose of multi-tasking. Automatic tool-changes dramatically increase productivity.
These machines, and many others like them, call for small inductive sensors. The MiniMini M4 sensors are ideal for any machine with limited operating space.
Regardless of your sensor needs, Locon Sensor Systems, Inc. can provide you with a solution for your application. Keep in mind, we often make custom sensor solutions for our clients, and we can do the same for your business. For more information, please contact us.
Source Used: http://www.contrinex.com/index.html