Revolutionize Your Research with an Affordable Shake Table

Looking for a powerful yet cost-effective shake table for your earthquake simulation, vibration testing, and research needs? SHAKEBOT is here to deliver exceptional performance without breaking your budget.

The SHAKEBOT is a compact, single-axis shake table engineered for earthquake research, structural testing, and educational purposes. With its impressive payload capacity, user-friendly interface, and robust performance features, SHAKEBOT is an invaluable tool for institutions and researchers worldwide.

Key Features of SHAKEBOT

  1. Single-Axis Movement: Simulates realistic ground motion up to 150 seconds.
  2. High Precision Control: Feedback control for accurate and consistent displacement.
  3. Customizable Waveforms: Supports standard and user-defined waveforms via CSV files.
  4. User-Friendly Interface: Compatible with Windows, macOS, and Ubuntu through SHAKEBOT Client software.
  5. Safety First: Equipped with emergency stop features, torque-limited shutoff, and displacement limits.
  6. Compact and Portable: Lightweight design with aluminum platform and included mounting brackets.

Technical Specifications

Maximum Displacement: ± 280 mm

  • Maximum Velocity: 0.6 m/s
  • Payload Capacity: Up to 50 kg
  • Frequency Range: Up to 25 Hz
  • Power Consumption: 600 W (110V or 220V AC input)
  • Dimensions:
    • Table: 81 x 31 x 12 cm
    • Control Box: 33 x 26 x 15 cm
    • Total Weight: 15 kg

These specifications make SHAKEBOT an ideal choice for simulating seismic activity and testing light structures or sensors under controlled vibration.

Applications

Earthquake Education: Engage students with real-world seismic simulations.

  • Structural Testing: Assess material behavior under controlled shaking conditions.
  • Sensor Calibration: Perfect for researchers needing precise vibration settings for calibration.

Year-End Sale: Special Offer on SHAKEBOT

To celebrate the end of the year, we’re offering SHAKEBOT at a discounted price:

  • Contact us NOW for special academic price, click the link below.

Why Choose SHAKEBOT?

  • Affordable Excellence: Industry-leading features at a fraction of the cost.
  • Customizable Testing: Flexible software supports unique experimental requirements.
  • Reliable Support: Backed by QuakeLogic’s trusted service and expertise.

Specifications:

  • Degree of Freedom: Single 
  • Movement Degree: Horizontal Table 
  • Dimensions: 290 x 810 mm (excluding control box)
  • Payload: 50 kg @ 1 g 
  • Velocity: 2,000 mm/s 
  • Stroke: +/-140 mm (380 mm) 
  • Max. Operating Frequency @ 1kg 10mm: 25 Hz 
  • Position Precision: 0.08 mm
  • Max. acceleration at 5 kg and 2,000 mm/s: 5 g
  • Software: Python (supported by Robot Operating System)

Seeing is Believing

Watch the demonstration video of SHAKEBOT by clicking the link below:

Recent Clients

Get Started with SHAKEBOT

Don’t miss out on this incredible opportunity to elevate your seismic research or education program. Contact us today to learn more about SHAKEBOT, request a datasheet, or schedule a demonstration.

Let’s shake up your research together!

QuakeLogic Customer Satisfaction

To take advantage of the year-end sale or discuss custom solutions, reach out to us at sales@quakelogic.net

MOTIONMASTER-6 Stewart Platform for Advanced 6-DOF Testing Across Industries

The Stewart Platform, commonly known as a hexapod, has revolutionized motion simulation with its six degrees of freedom (6-DOF) capabilities. Originally developed as a parallel manipulator, the Stewart Platform enables high-precision movement across three translational and three rotational axes, making it the ideal choice for advanced shake table applications across multiple industries.

In this post, we’ll delve into how Stewart Platforms, specifically QuakeLogic’s MOTIONMASTER-6, enable powerful 6-DOF motion simulations, advancing research and testing in fields from earthquake engineering to aerospace, automotive, and beyond.

What is a Stewart Platform?

A Stewart Platform is a robotic manipulator featuring six actuators arranged in a parallel configuration between a fixed base and a movable platform. This unique setup allows for six degrees of freedom, with movements in three translational directions (X, Y, Z) and three rotational axes (pitch, roll, and yaw). This complex, multi-axis control makes Stewart Platforms highly suitable for replicating real-world dynamic environments.

Why Use Stewart Platforms as 6-DOF Shake Tables?

Stewart Platforms offer unparalleled control and flexibility that traditional shake tables cannot match. By enabling precise multi-directional movement, they simulate the complex motions essential for various engineering and research applications. From earthquake testing to flight simulation, Stewart Platforms serve as highly adaptable 6-DOF shake tables that meet the rigorous demands of today’s research.

Introducing QuakeLogic’s MOTIONMASTER-6

QuakeLogic is proud to offer the MOTIONMASTER-6, a cutting-edge 6-DOF shake table designed to meet high-performance testing requirements across industries. The MOTIONMASTER-6 includes:

  • 6 Servo Actuators for precise control and high accuracy
  • 6-DOF System for comprehensive simulation of real-world movements
  • Top Table Dimensions: 320 mm in diameter
  • Payload Capacity: 12.5 kg
  • Velocity: Up to 40 mm/s
  • Stroke: 200 mm total for wide-range movement
  • Software: Ready-to-use GUI, API interface (Python and MATLAB), with LabView and MATLAB source codes

Applications of Stewart Platforms and the MOTIONMASTER-6

  1. Earthquake Engineering and Structural Testing
    The MOTIONMASTER-6’s six degrees of freedom allow it to replicate the ground motions experienced during earthquakes, aiding researchers in studying the resilience of buildings, bridges, and infrastructure. The platform helps engineers validate seismic models, test structural designs, and enhance building codes to improve safety.
  2. Aerospace Simulation and Pilot Training
    In aerospace, Stewart Platforms like the MOTIONMASTER-6 are essential for flight simulators, allowing pilots to experience realistic motion scenarios, including turbulence, takeoffs, and landings. This tool is invaluable for training and testing in controlled environments, helping pilots and engineers prepare for real-world conditions.
  3. Automotive Testing and Design
    Stewart Platforms are used to simulate vehicle dynamics, from braking and acceleration to cornering on various surfaces. The MOTIONMASTER-6 helps automotive engineers optimize suspension systems, chassis designs, and drivetrain components, enhancing safety, stability, and performance.
  4. Drone Development and Testing
    The MOTIONMASTER-6 provides a controlled environment to simulate real-world flight conditions, such as turbulence and rapid changes in orientation. This enables engineers to assess drone stability and refine control algorithms for safer, more reliable designs.
  5. Satellite and Antenna Alignment
    For precise positioning, the MOTIONMASTER-6 simulates the movements of satellites and antennas. This platform is used in telecommunications and space exploration to test and calibrate positioning systems, ensuring accurate communication links and data transmission.
  6. Biomedical Device Testing
    Stewart Platforms are used in biomedical research to test devices like prosthetics and surgical instruments. The MOTIONMASTER-6’s precise motion control allows for realistic simulations, ensuring devices can withstand dynamic loads and perform reliably.
  7. Entertainment and Virtual Reality
    The 6-DOF motion capabilities of Stewart Platforms make them ideal for creating immersive experiences in VR and theme park applications. The MOTIONMASTER-6 replicates real-world activities, providing a realistic experience that enhances both entertainment and training programs.

Advantages of Using Stewart Platforms and the MOTIONMASTER-6 as 6-DOF Shake Tables

  • High Precision and Realism: The MOTIONMASTER-6 offers precise control, enabling detailed studies and realistic testing that mirrors real-world conditions closely.
  • Flexibility Across Applications: With its multi-axis capabilities, the platform is versatile enough to meet the needs of various industries, from research to VR simulation.
  • Load Capacity and Structural Stiffness: The platform’s parallel actuator design distributes loads evenly, supporting heavy payloads without sacrificing accuracy.
  • Customizable Motion Parameters: The MOTIONMASTER-6 can be programmed to recreate specific motion patterns or events, such as earthquakes, enabling finely tuned simulations.
  • Real-Time Data Collection and Analysis: Integrated with advanced data acquisition, this platform allows real-time monitoring and analysis, which is essential for applications requiring immediate feedback.

About QuakeLogic

QuakeLogic is a leader in advanced seismic monitoring solutions, offering a range of products and services designed to enhance accuracy and efficiency in testing, data acquisition, and analysis. Our team is committed to pushing the boundaries of motion simulation, providing customizable solutions that meet the specific needs of each industry.

Contact Information

  • Email: sales@quakelogic.net
  • Phone: +1-916-899-0391
  • WhatsApp: +1-650-353-8627
  • Website: www.quakelogic.net

Whether for seismic testing, pilot training, or VR experiences, the MOTIONMASTER-6 unlocks new possibilities in research, development, and training. Contact us to learn how our 6-DOF shake table solutions can elevate your projects.