XYZ Gantry Systems will Reach Thailand Client

XYZ Gantry Systems from Tallman Robotics Limited have been finished and are on the way to Thailand Client. XYZ gantry systems, also known as gantry robots or gantry coordinate measuring machines, are mechanical systems that consist of a movable gantry structure with three linear axes (X, Y, and Z). These systems are commonly used in various applications, including manufacturing, material handling, and additive manufacturing (3D printing).

It takes us 12 days in drawing design, 2D and 3D design confirmation of this XYZ linear Systems with client, Production and Delivery. Now you are welcome to check this pictures and video of test

Linear gantry robot

The project of this XYZ Gantry has following technical features:

XYZ Gantry Systems X Axis
Efficient stroke 600mm
Screw /lead 1620(ball screw)
Max payload Horizontal:30KG,vertical:8KG
Max speed 1000mm/s
repeatability ±0.01mm
Motor brand and power Delta 400W(Synchronization function)
Linear module types  semi-closed linear modules, motor in direction connection
Sensors 3pcs,NPN
XYZ Gantry Robot Y Axis
Efficient stroke 800mm
Screw /lead 1620(ball screw)
Max payload Horizontal: 20KG,vertical: 4KG
Max speed 1000mm/s
repeatability ±0.01mm
Motor brand and power Delta:400W
Linear module types  semi-closed linear modules, motor in direction connection
Sensors 3pcs,NPN

When choosing an XYZ gantry system, here are some factors to consider to ensure it meets your specific requirements:

1. Payload and workspace size: Determine the weight and dimensions of the objects or materials that the system needs to handle or work with. Ensure the gantry system has the capacity to support the payload and provides sufficient workspace for your application.
2. Accuracy and repeatability: Precision is crucial in many applications. Consider the required accuracy and repeatability of the gantry system to meet your quality standards.
3. Speed and acceleration: The speed and acceleration capabilities of the system will affect productivity. Determine the necessary speed and acceleration for your specific process.
4. Axis travels and range of motion: Evaluate the travel distances and range of motion along the X, Y, and Z axes to ensure it covers the required workspace.
5. Control system and software: The control system and associated software play a significant role in system operation and programming. Look for a user-friendly interface and features that align with your needs.
6. Build quality and reliability: A well-constructed gantry system with reliable components is essential for long-term performance and minimal downtime.
7. Customization options: Some applications may require specific customizations or accessories. Inquire about the available options and whether they can be tailored to your unique requirements.
8. Manufacturer reputation and support: Research the reputation of the manufacturer and their after-sales support. A reputable manufacturer can provide technical assistance and warranty coverage.
9. Cost and budget: Consider the overall cost of the gantry system, including initial investment, maintenance, and potential upgrades. Balance the features and performance with your budget limitations.
10. Integration and compatibility: If the gantry system needs to integrate with other equipment or existing systems, ensure compatibility and ease of integration.

It’s recommended to consult with gantry system manufacturers or suppliers, and share your specific application details and requirements. They can provide expert advice and recommend the most suitable system based on your needs. Additionally, if possible, request demos or visit installations to get a firsthand experience of the systems in action. This will help you make an informed decision and select the XYZ gantry system that best fits your application.



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