Exactly what is a Linear Motor?
Serie ROBOT
A linear motor is-simply speaking-an electric motor which uses a linear force mechanism to build the power required for a said application. As opposed to a rotational electric motor (seen in automobiles, appliances, and commonly-used electrical equipment), a linear motor generates its energy output through exclusively linear scientific principles; i.e. there isn't any torque or rotation to produce accelerated force through the electrical current magnetic field relationship. Linear motors can be used for many different purposes, which include high velocity trains, military weaponry, spacecraft exploration, robotic technologies, medical advancement, and automated engineering systems whose job is to produce mass quantities of a nominated product.
Serie ROBOT
There are two basic forms of linear motors: low-acceleration and high-acceleration. Low-acceleration motors are generally used for applications where endurance is favored over high bursts of electromechanical power or energy. These kinds of linear motors are engineered for Maglev trains, automated applications systems, etc. High-acceleration motors are the more prevalent of these two, and provide higher velocity outputs for shorter intervals; for example utilized in firearms, military equipment, spacecraft propulsion, and stuff like that. Low-acceleration linear motors are designed to accelerate a physical object up to continuous stabile speed, while high-acceleration linear motors will accelerate a physical object up to a quite high speed after which release the object. Typically, the low-acceleration linear motor will be engineered with one winding system somewhere of the motor and magnets on the other side to create the electromagnetic repulsion required for successful application force; this is known as linear synchronous design. The high-acceleration linear motor will generally be made of a three-phase winding on the one hand plus a conductor plate on the other hand from the motor to meet the intended engineering objective; this is known as linear induction design.
Linear motors offer a variety of advantages in this ever-evolving technological world. Whether the high power application your business or organization requires necessitates a low- or high-accelerated lateral motor system, linear motors assure faster acceleration and higher velocities as well as higher success in automated accuracy, repeatability, and long-term reliability.
