Robot Linear track
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Description
Gantry System Robot Motion Track Customized 20M length 10000KG Payload Linear Guide Rail SW-X-Z-L
The industries where our products are most commonly used are the automotive industry and the construction machinery industry. All industries have supporting equipment, and we have cooperated with all robot brands. the production process is complete, and robots weld track and positioner structural parts.
Unlock Your Automation Potential with Our Robot Positioners and Linear Tracks
All the robot positioners, guide rails, and gantry system, are customized according to the system and application
The servo travel guide is a semi-closed structure, which is assembled by standardized modules. It is mainly composed of mechanical parts, power mechanisms, lubrication systems, and protection systems.
The mechanical part is a standard modular structure, which is convenient for assembly and splicing. It is welded with high-quality profiles and steel plates. After professional heat treatment, mechanical processing, and post-processing, it can ensure the stability and durability of use; the surface is sprayed with anti-rust and purchased paint, and the appearance is beautiful and generous. Due to the modular design, it is convenient to upgrade it later.
The power system adopts a precision planetary reducer and a servo motor as its power mechanism. The power is transmitted by a high-precision helical rack and pinion, and guided by a high-precision linear guide and a matching sliding seat, which can ensure the stability and positioning of the sliding table movement. of high precision.
Equipped with an automatic lubrication system, the guide rails and racks and racks are regularly lubricated with oil to ensure their normal use environment.
Using sheet metal bending protective cover, the surface is sprayed, durable, and not deformed, and the appearance is beautiful and generous.
2-axis gantry system,2 light payload guide rails, Equipped with Kawasaki robots, arc welding workstation
Advantages
- Increased accuracy: Robot motion tracking can improve the accuracy of the manufacturing process by allowing the robot to maintain a consistent distance from the workpiece or object. This can lead to more precise and accurate results.
- Reduced setup time: With robot motion tracking, the robot can automatically adjust its position and orientation to match the movement of the workpiece or object. This can reduce the setup time required for the manufacturing process.
- Improved productivity: Robot motion tracking can help to improve productivity by allowing the robot to work more efficiently and effectively. The robot can move faster and more accurately, which can increase the speed of the manufacturing process.
- Greater flexibility: Robot motion tracking can provide greater flexibility in the manufacturing process by allowing the robot to handle a wider range of workpieces or objects. The robot can adjust its position and orientation to match the movement of the workpiece, which can increase the range of products that can be manufactured.
- Consistent quality: Robot motion tracking can help to ensure consistent quality in the manufacturing process. The robot can maintain a consistent distance from the workpiece or object, which can lead to more consistent results.
- Improved safety: With robot motion tracking, the robot can monitor the movement of the workpiece or object and adjust its position accordingly. This can help to improve safety in the manufacturing process by reducing the risk of collisions or other accidents.
Specs
SW-X-Z-L robot guide rail
| No. | Item | SW-X-Z-L-XXX light load ground rail | SW-X-Z-M-XXX medium load ground rail | SW-X-Z-CZ-XXX heavy load ground rail
|
| 1. | Product name | Single-axis servo ground rail
(light load) |
Single axis servo ground rail
(medium sized) |
Single axis servo ground rail
(Heavy duty) |
| 2. | Main use | Welding, light loading | Welding, handling and loading | Welding, handling, multi-axis walking base |
| 3. | Model | SW-X-Z-L-Length | SW-X-Z-M-Length | SW-X-Z-CZ-Length |
| 4. | Number of control axis | Single axis (X direction) | Single axis (X direction) | Single axis (X direction) |
| 5. | Control method | Control based on precision AC servo motor | Electrical Control Based on Precision AC Servo Motor | Electrical Control Based on Precision AC Servo Motor |
| 6. | Installation form | Ground-mounted formal installation | Ground-mounted formal wear | Ground-mounted formal wear |
| 7. | Drive mode | Gear and rack drive | Gear and rack drive | Gear and rack drive |
| 8. | Gear and rack form | Precision helical teeth | Precision helical teeth | Precision helical teeth |
| 9. | Guide type | Linear guide and slide | Linear guide and slide | Linear guide and slide |
| 10. | Reducer | Precision planetary reducer | Precision Planetary Reducer | Precision Planetary Reducer |
| 11. | Reducer speed ratio | i=20 | i=20 | i=40 |
| 12. | Repeat positioning accuracy | ±0.08mm | ±0.10m | ±0.15m |
| 13. | Moving speed | 0-40000mm/min | 0-40000mm/min | 0-20000mm/min |
| 14. | Effective stroke length | length-800mm | Length-1400mm | Length-1500mm |
| 15. | The effective installation size of the slide table | 450mm×500mm(length×width) | 900mm×750mm(L×W) | 1000mm×1100mm(L×W) |
| 16. | Maximum load | Total load≤800kg
The end load of the handling robot≤50kg |
Total load≤3000kg
The end load of the handling robot≤300kg |
Total load≤10000kg
The end load of the handling robot≤1000kg |
| 17. | Dimensions | Length x 900mm x 800mm (height of the shield) | Length x 1270mm x 900mm (shield height) | Length×1700mm×1100mm (shield height) |
| 18. | Cable drag chain position | center/external (towline inner cavity 45×75+45×75) | Central/external (drag chain inner cavity 45×75+45×75) | Central/external (drag chain inner cavity 45×125+45×125) |
| 19. | Weight | Length×150kg/m+150kg (weight of slide assembly) | Length×300kg/m+420kg (weight of slide assembly) | Length×450kg/m+800kg (weight of slide assembly) |
Application
- Enhanced Precision: Robot guide rails provide a fixed and stable track for the robot to move along. This ensures precise and repeatable positioning, resulting in accurate and consistent operations.
- Extended Reach: By using guide rails, the effective working range of the robot can be extended. The rail allows the robot to move beyond its regular reach, enabling it to access a larger workspace without the need for additional equipment or repositioning.
- Increased Payload Capacity: Guide rails can support heavy loads, allowing robots to handle larger and bulkier workpieces. This expands the robot’s capabilities and enables it to perform tasks that require higher payload capacities.
- Flexibility and Adaptability: Robot guide rails can be designed in various configurations, including straight, curved, or multi-axis paths. This flexibility enables the robot to navigate complex work environments, adapt to different production layouts, and perform tasks in confined spaces.
- Separation of Robot and Operator: Guide rails provide a physical barrier between the robot and the operator, enhancing safety in collaborative work environments. It helps ensure that humans and robots can work side by side without the risk of accidental collisions.
Packing details
