Mannesman Demag Datasheets for Air Motors
Air motors are powered by compressed air. They operate at relatively high speeds in industrial and spark-prohibited applications.
Air Motors: Learn more
| Product Name | Notes |
|---|---|
| All air motors rotating clockwise are also available in rotating direction anti clockwise. | |
| For installation in transfer lines, machine tools and robot stations Stainless steel housings Stainless steel spindles Ideal for drilling or brushing Without valve for central remote control Small housing diameter... | |
| For installation in transfer lines, machine tools and robot stations stainless steel housings With collets for high precision Ideal for drilling or brushing Without valve for central remote control Small... | |
| Reversible air motors can be used in rotating direction clockwise and anti clockwise. It is very important that if the air motor is pressurized with connection turning the air motor... | |
| The air motor is for a robust and an unproblematic drive for all industrial applications. It is a proven solution for many drive engineering requirements. The air motor is fully... | |
| The angle motors are alternatively available with a cylindric drive shaft Ø 12 h6. When chosing the required motor the maximum allowed torque under load must be considered. The air... | |
| The grinding spindle models ES 450 to ES 170 are available as counter clockwise running spindels upon request. Unless you should not find a suitable spindle from our broad range... | |
| The high torque motors are standard versions of the respective model rangewith an additional reduction gear. This ensures a high torque at a low speed. The air consumption is equivalent... | |
| The models MUB 17 and MUB 23 are equipped with a brake actuated by force. This brake is controlled directly with the ingoing air line. No further guiding hoses are... | |
| These motors are designed for the use at very low speeds and have a small size and low torques under load. Motors with low speed are not resistant to stalling. | |
| To adjuste the optimal speed under load To compensate the wear of tools To inform that the tools need to be changed to to wear To prevent collision To recongize... | |
| Oilfree, nearly no wear Spindle floating support conserves inserted tools Compensation of unbalanced mass Precision bearings with steel balls Resistant to remaining cooling fluids Maximum speed at small design High... |