EMERSON – AVENTICS Pneumatic Piston Rod Cylinder - 0822406400, 12mm Bore, 4mm Stroke, KHZ Series, Single Acting

Subtotal (1 unit)*

£58.97

(exc. VAT)

£70.76

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 26 November 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units
Per unit
1 +£58.97

*price indicative

RS Stock No.:
271-749
Mfr. Part No.:
0822406400
Brand:
EMERSON ? AVENTICS
Find similar products by selecting one or more attributes.
Select all

Brand

EMERSON ? AVENTICS

Manufacturer Series

KHZ

Model Number p

0822406400

Bore

12mm

Stroke

4mm

Action

Single

Port Connection

M5

Pneumatic Connection

M5

Piston Rod Thread Gender

Female

Cushioning Type

Elastic

Maximum Operating Pressure

10 bar

Maximum Operating Temperature

+80°C

Minimum Operating Temperature

-25°C

COO (Country of Origin):
HU
The Aventics Series KHZ short-stroke cylinder is a highly efficient solution designed for applications requiring precise movement in constrained spaces. With its compact design, this cylinder excels in environments where traditional cylinders may struggle to fit efficiently. Engineered for durability and reliability, it incorporates an elastic cushioning system to ensure safe operation while reducing wear and noise. The single-acting, retracted model functions effectively without any pressure, making it an ideal choice for various industrial applications. The integration of a magnetic piston aids in seamless operation, allowing for smooth positioning and consistent performance. This innovative cylinder is made with industry-standard materials, ensuring it stands up to demanding operational environments, all while being easy to install and maintain.

Compact design perfect for tight installations
Single-acting operation for efficient functionality
Elastic cushioning reduces noise and wear
Magnetic piston enhances smooth operation
Industry standard materials guarantee durability
Easy integration into existing machinery
Reliable performance in varying environmental conditions
Low weight contributes to overall system efficiency

Related links