ariety of Sizes: The OMT series offers a variety of motor sizes to meet different application requirements.
This includes displacement options ranging from 8.2cc/rev to 50.9cc/rev.
High Efficiency: OMT motors are designed for high efficiency, which helps in reducing energy consumption and operating costs. They provide smooth and reliable operation even under heavy loads.
Compact Design: The compact design of OMT motors allows for easy integration into tight spaces and machinery. This makes them suitable for equipment where space is limited.
Excellent Controllability: These motors offer good controllability, making them ideal for applications where precise speed and torque control are necessary.
Durability: Danfoss constructs OMT motors with high-quality materials to ensure durability and long service life, even in demanding environments.
Wide Range of Mounting Options: OMT motors come with a variety of mounting options, making them adaptable to different equipment configurations.
The OMV series is a higher-performance variant of Danfoss Orbital Motors, suitable for more demanding applications.
These motors are known for their robustness and ability to handle higher pressure and flow requirements.
Higher Torque and Speed Range: The OMV series offers a broader range of displacement options compared to the OMT series, ranging from 80cc/rev to 800cc/rev. This allows for higher torque and speed capabilities, making them suitable for heavy-duty equipment.
High Pressure Capability: OMV motors are designed to operate at higher pressure levels, which is essential for applications that require greater power output.
Superior Controllability: Like the OMT series, OMV motors also provide excellent controllability, ensuring precise control over speed and torque.
Robust Construction: These motors are built to withstand tough working conditions, including exposure to dust, debris, and extreme temperatures. They are highly durable and require minimal maintenance.
Multiple Shaft Options: OMV motors come with a variety of shaft options, including splined and tapered shafts, to accommodate different connection requirements.