In sourcing discussions, DSNU-20-125-PPV-A-19240 is often placed next to Festo Festo, Festo Dsnu 25 50 P A 19221 and Festo Valves so procurement teams can align budgets and technical requirements effectively.
Festo DSNU-20-125-PPV-A Round Cylinder
The Festo DSNU-20-125-PPV-A Round Cylinder offers M8 rod thread, Male thread piston rod end, 20 mm diameter, andPiston; Piston rod; Cylinder barrel. Manufactured by Festo under the Festo Round Cylinder category, this model belongs to the DSNU Series.
| Brand | Festo |
| Product Type | ISO Cylinder |
| Product | DSNU-20-125-PPV-A |
Festo DSNU-20-125-PPV-A Round Cylinder – Technical Specifications
| Specification | Value |
|---|---|
| Stroke | 125 |
| Piston diameter | 20 mm |
| Piston rod thread | M8 |
| Cushioning | Pneumatic cushioning, adjustable at both ends |
| Mounting position | optional |
| Conforms to standard | CETOP RP 52 P; ISO 6432 |
| Design | Piston; Piston rod; Cylinder barrel |
| Piston-rod end | Male thread |
| Position detection | Via proximity switch |
| Variants | Piston rod at one end |
| Operating pressure | 1; 10 |
| Mode of operation | Double-acting |
| Operating medium | Compressed air to ISO 8573-1:2010 [7:4:4] |
| Corrosion resistance class CRC | 2 - Moderate corrosion stress |
| LABS (PWIS) conformity | VDMA24364-B1/B2-L |
| Cleanroom class | Class 6 according to ISO 14644-1 |
| Ambient temperature | -20; 80 |
| Impact energy in end positions | 0.2 |
| Theoretical force at 0.6 MPa (6 bar, 87 psi), return stroke | 158.3 |
| Theoretical force at 0.6 MPa (6 bar, 87 psi), advance stroke | 188.5 |
| Moving mass for 0 mm stroke | 44 |
| Additional moving mass per 10 mm stroke | 4 |
| Basic weight for 0 mm stroke | 186.8 |
| Additional weight per 10 mm stroke | 7.2 |
| Type of mounting | With accessories |
| Pneumatic connection | G1/8 |
| Note on materials | RoHS-compliant |
| Material cover | Wrought aluminium alloy; Colourless anodised |
| Material seals | NBR; TPE-U(PU) |
| Material piston rod | High-alloy stainless steel |
| Material cylinder barrel | High-alloy stainless steel |
| Cushioning length | 15 |
Festo – Trusted Worldwide for Industrial Pneumatics
Festo is a global leader in automation and control technology, known for delivering reliable pneumatic components backed by German engineering precision. Across Indian industries—from automotive to pharmaceutical—Festo products are chosen for their long life, ISO-standard compatibility, and ease of integration. Engineers and educators alike rely on Festo’s cylinders for building efficient machines and teaching real-world automation skills.
DSNU-20-125-PPV-A – Technical Overview
The DSNU-20-125-PPV-A is a double-acting round pneumatic cylinder designed according to ISO 6432 standards, offering a 125 mm stroke and a 20 mm piston diameter. It features adjustable pneumatic cushioning at both ends, allowing engineers to fine-tune deceleration based on load and speed—minimizing wear and shock during operation. The unit delivers a theoretical force of 188.5 N (advance) and 158.3 N (return) at 6 bar pressure, and operates within a 1–10 bar range using clean compressed air (ISO 8573-1:2010 [7:4:4]). Equipped with a G1/8 port, M8 male-thread piston rod, and support for proximity sensor-based position detection, it ensures smooth integration with existing automation systems. Built from high-alloy stainless steel and anodised aluminium, the cylinder is RoHS-compliant, offers CRC Class 2 corrosion resistance, and is suitable for cleanroom Class 6 environments.
Applications of DSNU-12-70-P-A in Industry and Learning Environments
The DSNU-12-70-P-A is ideal for applications where long stroke, controlled motion, and compact design are needed—such as pneumatic pick-and-place units, gate lifters, and small material handling systems. The adjustable cushioning helps reduce mechanical stress during fast cycles, making it especially useful in high-frequency automation tasks. Indian maintenance engineers appreciate this feature for minimizing downtime and optimizing performance in systems with changing loads. In engineering labs, students use this model to learn how adjusting cushioning, stroke, and pressure impacts the motion profile. Its smart balance of control, compatibility, and performance makes it a reliable component for both modern industrial setups and hands-on education.
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