SLINE Linear Actuator

SANLAB's SLINE is a high-tech 3DOF linear actuator. It creates realistic motion for many applications. We use SLINE in simulation, training, research, and entertainment. It integrates with advanced sensors for real-time responsiveness. SLINE uses heave, pitch, and roll motions. It creates an immersive experience. It boosts user engagement across various fields.

Realistic Motion Experiences with the Servo Linear Actuator Systems

Servo Linear actuators create realistic user experiences by adding movements and vibrations. Simulators and entertainment systems use them. These systems have various features to improve the user experience. 3DOF (Degrees of Freedom) actuators are key to these systems. Designers created these devices to deliver dynamic, realistic movements.

Key Features of Electric Linear Actuator Systems

Linear actuator systems can have various degrees of freedom. They determine the range of movements that the system can provide.

• 2DOF (Degrees of Freedom): Moves along two axes, usually horizontal and vertical. Suitable for simple simulations and training applications.

• 3DOF (Degrees of Freedom): It allows movement along the Heave, Pitch, and Roll axes. It usually includes rotation. It allows for more dynamic, complex movements. It's often used for 76 complex simulations.

Heave Movement: Vertical movement along the up and down direction.
Pitch Movement: Rotation around the horizontal axis, tilting forward and backward.
Roll Movement: Rotation around the longitudinal axis, tilting side to side.

SLINE Linear Actuator's Motion Capabilities and Performance Parameters

Servo Linear Actuator is an advanced technology used in simulation and training applications. This actuator is mechanical and has the following technical characteristics and advantages:

Heave: The vertical movement of the system (up-down). Heave can move up or down by ±0.0381 meters.
• Roll: The lateral tilting (side-to-side) movement of the system. Roll can rotate at ±19.8°/s.
• Pitch: The forward-backward tilting movement of the system. Pitch can accelerate at ±1400°/s².
• Pos (Position): Maximum and minimum position values for each axis. For example, Heave is ±0.0381m.
• Vel (Velocity): Maximum and minimum speed values for each axis. For example, Roll is ±19.8°/s.
• Acc (Acceleration): Maximum and minimum acceleration values for each axis. For example, Pitch is ±1400°/s².

SLINE servo linear actuators technical specs: 3dof (heave, roll and pitch) and 2dof (roll and pitch) 220V operating voltage and 0-100 Hz frequency range.

Voltage, Temperature and Weight values of the SLINE Servo Linear Actuator

• Operating Voltage: 220V AC. A common voltage source compatible with many systems.
• Operating Temperature: 0-55°C. This range ensures reliable performance in different environments.
• Frequency Range: 0-100 Hz. The 3DOF motion simulator's frequency range is critical. The system enables the Linear Actuator to mirror complex vibrations and movements.
• Connection Interface: Ethernet. It enables fast, reliable data transfer and seamless device communication.
• Maximum Weight: 450 kg. Indicates the maximum weight the Stewart platform can support, ensuring safety and durability.

Motion, Response and Energy Efficiency Advantages of Linear Actuators

Realistic Motion Simulation: It creates natural, immersive movement. For example, it simulates a vehicle's turning motion.
Dynamic Responses: Reacts to simulation data in real time. This provides a more realistic experience.
Scenario Versatility: It has customizable motion profiles for various scenarios. This improves its use for training and entertainment.
Motion Profiles and Synchronization: It provides motion profiles for various scenarios. This makes the system effective across many applications.
Feedback Mechanisms: Allow users to experience real-time responses to simulation events.
Energy Efficiency and Noise Levels: It uses little energy and makes little noise. So, it's suitable for indoor use.

Applications of Servo Linear Actuator Systems

Entertainment and Gaming: Used in entertainment and gaming to boost realism and interactivity for players.

Gaming Equipment: It can be used in gaming chairs and motion-based systems. They simulate effects such as acceleration, braking and vibration.

Heavy Construction Machinery: Used in it to boost performance and comfort.
• Bucket and Excavator Controls: They enable precise movement of buckets and excavators in construction machines. This makes excavation and transport operations more efficient and accurate.

• Machine Lifting and Lowering Systems: They lift or lower machines to suit different working conditions. This allows machines to operate effectively at various heights.

Research and Development (R&D): Servo linear actuators are preferred in R&D fields where precision and control are required.
• Experimental Devices: Used in labs to ensure test devices move precisely. This enhances the accuracy of measurements and tests.
• Prototype Development: It enables precise movement and control for testing new product prototypes. This helps developers optimize product performance.

• Automation Systems: In industrial automation and robotics, they control moving parts. This ensures more efficient and repeatable processes.

Military Vehicles: Servo linear actuators are used in various applications within military vehicles:
• Weapon Systems: Used for precise targeting and aiming of weapons on armored vehicles, tanks, or warships.
• Vehicle Lifting and Lowering Systems: It raises or lowers armored vehicle bodies to adapt to different terrains.
• Door and Shutter Systems: They secure and quickly move armored vehicle doors and shutters.

Teleoperation (Remote Control) Systems: Servo linear actuators enable precise control of remote devices.
• Robotic Arms and Hands: Used for precise movement of robotic arms and hands operating in hazardous or hard-to-reach areas.
• Remotely Operated Vehicles: They improve the precision of tasks in teleoperated vehicles.
• Simulation Training: Servo linear actuators are used in simulation training. They provide a realistic experience.
• Simulator Seats: They create realistic motion and vibration in driving simulators for pilots or drivers.
• Simulation Equipment: It synchronizes test devices and platforms to achieve precise operation.

Detailed system monitoring dashboard showing real-time data and performance metrics of the actuator system.
Settings dashboard for S-Line configurations, allowing users to adjust and customize actuator parameters.

SLine 3DOF Servo Linear Actuator Software Interface Overview

The S-Line 3DOF servo linear actuator software interface is for advanced motion systems. It's designed for a seamless user experience in control and monitoring. This software is for you if you need precise motion control. It works in simulation, automation, or any similar industry. It provides the tools for high-performance operation.

Configuration Selection Info:

• Intuitive Configuration: The interface lets you customize actuator settings for various positions, such as Front Left, Front Center, and Back Right. Each configuration is designed to achieve optimal movement and alignment for your specific application.

• Visual Feedback: The software provides visual indicators that show whether a configuration is selectable or currently selected, simplifying the setup and adjustment process.

Game Center Integration:

• Seamless Game Integration: The software seamlessly integrates with popular games, such as Assetto Corsa, DiRT 2, and EuroTruck Simulator 2. The Game Center feature allows users to easily manage games, including the ability to add custom games and update the list of installed games.

• Instant Start: With just a click, users can start any installed game, making the transition from setup to simulation quick and effortless.

System Monitoring:

• Real-Time Monitoring: The system panel shows real-time data on critical parameters. These include motor temperature, current, torque, position, velocity, and system errors. This ensures that any issues are quickly found and fixed.

• Comprehensive Data: Each motor’s position and velocity are monitored. This provides detailed insights into the system’s performance. The software also tracks axis errors and system positions, allowing for precise adjustments and diagnostics.

Actuator Limit Info:

Safety and Performance: The software shows the limits for each servo linear actuator. It displays the maximum position, velocity, and acceleration, ensuring all components operate within safe and optimal ranges. This feature is vital for the actuators' long life and reliability.

Users can access specifications such as the maximum position limit (e.g., 76.5 mm), maximum velocity limit (e.g., 0.1 m/s²), and maximum acceleration limit (e.g., 1 G). These specifications help in fine-tuning the system for specific applications and load conditions.

License Management:

• Easy Activation: The software includes a license management section where users can quickly activate and verify their license. The interface includes a QR code that links to licensing information and ensures compliance with the latest software standards.

• Version Control: Stay updated with the latest features and improvements. The license section also includes the software version (e.g., Version 1.0.1), ensuring users are aware of their software status.

3dof three degrees of freedom

Outstanding Features of Linear Actuators

• Personalization: Allows adjustment of motion intensity and other parameters according to user preferences.
• Advanced Sensors: It uses sensors for precise data collection. They ensure accurate movement reflection.
• Synchronization: The Linear Actuator aligns movements and vibrations with simulations. This creates a more natural experience.
• User Safety: Durable design and safety features ensure long-term use and security.
• Resistance: Provides physical resistance to enhance the realism of the simulation experience.
• Advanced Sensors and Detection Technologies: It uses accelerometers and gyroscopes to detect movement and orientation. This improves system performance.

Why 2DOF and 3DOF Linear Actuators?

Advanced Simulation Technology: Both 2 DOF and 3 DOF platforms have advanced motion control.
Flexibility and Adaptability: Their modular designs allow easy integration into various applications.
High Efficiency: Servo linear actuators are a cheap, energy-efficient solution. They have low maintenance costs, too.
User-Friendly Design: They offer a great experience. They are easy to calibrate, quiet, and have a simple software interface.

Experience tomorrow's simulation tech today with 2DOF and 3DOF servo linear actuators. These platforms take your simulation experience to the next level. They provide top performance in the most demanding scenarios.

sline: 3dof linear actuators.

S-LINE Servo Linear Actuators: Technical Details and Specifications

S-LINE servo linear actuators are designed to provide precise and reliable linear motion for various applications, including simulators, robotics, and automated machinery. Here are the key specifications and features:
• Maximum Extension: 334.6 mm Ensures versatility in applications requiring precise positioning and control.
• Minimum Retraction: 258.5 mm Allows for compact configurations when space is limited.
• Nominal Torque (M0): 2.37 Nm Represents the motor's continuous torque capacity, generating 2.37 Newton meters of torque.
• Nominal Speed (nN): 6000 rpm The motor operates efficiently at 6000 revolutions per minute, providing fast and precise movement.

• Nominal Current (I0): 2.95 Arms Indicates the effective current drawn by the motor, measured at 2.95 Amperes RMS.
• Nominal Voltage (UN): 400 Vrms Operates with a nominal voltage of 400 Volts RMS, ensuring stable performance.
• Nominal Power (PN): 1.38 kW Delivers a nominal power output of 1.38 kilowatts, suitable for tasks requiring substantial force and speed.
• Protection Rating (IP54): Provides resistance against limited dust ingress and water splashes from any direction, enhancing durability.

These specifications make S-LINE servo linear actuators an excellent choice for applications requiring high precision, reliability, and robust performance.

Established in 2009, SANLAB is a pioneer in its sector and offers unique solutions in the field of Real Time Robotic Applications. 

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