News

Servo Electric Linear Motors are Finished for UK Client

Servo Electric Linear Actuators are Servo Electric Linear Motors that directly convert electrical energy into linear motion. Unlike traditional rotary motors, linear motors move along a straight line.
In practical applications, when selecting servo electric linear motors, specific application requirements need to be considered, such as load, speed, accuracy, acceleration, as well as factors such as motor performance parameters and controller compatibility. Meanwhile, factors such as cost, reliability, and maintenance also need to be considered. Servo electric linear motors have wide applications in industrial automation, robotics technology, semiconductor manufacturing, medical equipment, and other fields.

Servo Electric Linear Actuators Servo Electric Linear Actuators Servo Electric Linear Actuators

The stroke and load capacity of Servo Electric Linear Actuators are determined based on application requirements and design requirements.

The following are some factors that may affect travel and load capacity:

  • Travel: Travel refers to the maximum distance that a servo electric linear driver can move. Usually, the itinerary is determined based on the application requirements, such as the length or distance of the object that needs to be moved. When designing, it is necessary to consider the mechanical structure of the driver and the load-bearing capacity of the material to ensure that the stroke meets the application requirements.
  • Load capacity: Load capacity refers to the maximum load weight that a servo electric linear drive can withstand. Load capacity is determined based on application requirements, such as the weight or mass of objects that need to be moved. When designing, it is necessary to consider the mechanical structure of the driver and the load-bearing capacity of the material to ensure that the load capacity meets the application requirements.
  • Speed: Speed refers to the maximum speed that a servo electric linear driver can move. Usually, speed is determined based on application requirements, such as the movement speed of objects that need to be moved. When designing, it is necessary to consider the motor power and mechanical structure of the driver to ensure that the speed meets the application requirements.
  • Precision: Precision refers to the maximum precision that a servo electric linear driver can move. Usually, accuracy is determined based on application requirements, such as the positional accuracy of objects that need to be moved. When designing, it is necessary to consider the control system and mechanical structure of the driver to ensure accuracy meets application requirements.

When designing Servo Electric Linear Actuators, it is necessary to comprehensively consider the above factors to ensure that the stroke and load capacity meet the application requirements. At the same time, factors such as the reliability, durability, and cost of the drive also need to be considered.

  • Servo Electric Linear Actuators and stepper motor linear drivers are two different types of linear drivers, with some differences in performance and application.
  • Servo electric linear driver is a closed-loop control system characterized by high accuracy, fast response speed, and good controllability. Servo electric linear drives usually use servo motors as the driving source, and real-time monitoring and control of the motor’s position and speed are achieved through feedback components such as encoders and sensors, thereby achieving high-precision linear motion. Servo electric linear drives are suitable for situations that require high precision, high speed, and high stability, such as automated production lines, robots, medical equipment, etc.
  • Stepper motor linear driver is an open-loop control system characterized by simple control, low cost, and high reliability. Stepper motor linear drivers typically use a stepper motor as the driving source to achieve linear motion by controlling the stepper angle and speed of the motor. Stepper motor linear drivers are suitable for situations that require low cost, simple control, and high reliability, such as toys, printers, scanners, etc.

In general, there are some differences in performance and application between Servo Electric Linear Drives and stepper motor linear drivers, and the choice of which driver needs to be determined based on specific application requirements and cost considerations.

Youtube: https://www.youtube.com/@tallmanrobotics

Facebook: https://www.facebook.com/tallmanrobotics

Linkedin: https://www.linkedin.com/in/tallman-robotics

 

Prev:

Next:

Leave a message