Festo 50 mm, 2kg, 8162070 0.133m/s
- RS Stock No.:
- 195-562
- Mfr. Part No.:
- EGSC-BS-KF-25-50-2P
- Brand:
- Festo
Subtotal (1 unit)*
£573.79
(exc. VAT)
£688.55
(inc. VAT)
Stock information currently inaccessible - Please check back later
Units | Per unit |
|---|---|
| 1 + | £573.79 |
*price indicative
- RS Stock No.:
- 195-562
- Mfr. Part No.:
- EGSC-BS-KF-25-50-2P
- Brand:
- Festo
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | Festo | |
| Product Type | Electrical Linear Actuator | |
| Maximum Load | 2kg | |
| Stroke Length | 50mm | |
| Maximum Speed | 0.133m/s | |
| Series | EGSC | |
| Motor Technology | Servo Motor, Stepper Motor | |
| Duty Cycle | 100% | |
| Maximum Force | 669N | |
| IP Rating | IP40 | |
| Spindle Type | Ball Screw Drive | |
| Minimum Operating Temperature | 0°C | |
| Maximum Operating Temperature | 50°C | |
| Standards/Approvals | VDMA464, RoHS, ISO 146441 | |
| Weight | 269g | |
| Select all | ||
|---|---|---|
Brand Festo | ||
Product Type Electrical Linear Actuator | ||
Maximum Load 2kg | ||
Stroke Length 50mm | ||
Maximum Speed 0.133m/s | ||
Series EGSC | ||
Motor Technology Servo Motor, Stepper Motor | ||
Duty Cycle 100% | ||
Maximum Force 669N | ||
IP Rating IP40 | ||
Spindle Type Ball Screw Drive | ||
Minimum Operating Temperature 0°C | ||
Maximum Operating Temperature 50°C | ||
Standards/Approvals VDMA464, RoHS, ISO 146441 | ||
Weight 269g | ||
The Festo Mini slide effectively combines precision engineering with a compact design, ideal for high-performance applications. Designed for efficiency, this innovative product harnesses the power of a ball screw drive, ensuring smooth and reliable operation across varying loads.
Positive fixed stop blocks enhance safety during operation
Corrosion resistant materials ensure durability in various environments
Cleanroom compatibility supports applications in sensitive industries
Dynamic load ratings reflect robust performance under rigorous conditions