Norgren RM/92063/JM/10 Pneumatic Cylinder - 63mm Magnetic
Part Number: RM/92063/JM/10
Quick Summary
RM/92063/JM/10 is a compact pneumatic cylinder designed for automation systems with a 63 mm bore. Space constraints and frequent seal wear can drive downtime; this model reduces footprint while enhancing seal longevity. Certification details such as CE, SIL, or IP ratings are not specified in the provided data, but the design uses non-corrodible materials and a magnetic piston to enable reliable sensing and control. This translates to faster installation, lower maintenance, and dependable operation in pick-and-place, clamping, and transfer tasks across packaging and assembly lines. Secondary keywords such as compact actuator and magnetic position sensing align with modern Industry 4.0 workflows.
Product Information
Extended Description
RM/92063/JM/10 Norgren: One third the basic length of a corresponding ISO/VDMA model | Low friction, long life seal design | Fully non-corrodible specification | Standard magnetic piston for full control system versatility
Medium
Compressed air
Operating Temperature
-5 ... 80 °C, 23 ... 176 °F
Operating Pressure
1 ... 10 bar, 14 ... 145 psi
Port Size
G1/4
Cylinder diameter
63 mm
Stroke Length
10 mm
Operation
Double acting
Cushioning
No cushioning
Magnetic/Non-magnetic
Magnetic
Theoretical Force
1870 N
Materials - Barrel
Anodised aluminium alloy
Materials - Piston Rod
Stainless steel (martensitic)
Range
RM/92000/M
Brand
IMI Norgren
One third the basic length of a comparable ISO/VDMA cylinder translates to a reduced footprint, enabling denser layouts and easier mounting in tightly constrained automation cells. This compact double acting cylinder directly improves cycle density and minimizes bracket complexity, supporting higher throughput in conveyor lines and robotic pick-and-place stations. The business impact is lower installation time and reduced capital expenditure on supporting hardware, with the added benefit of compatible operation in existing pneumatic networks using standard G1/4 ports.
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FAQs
This model offers a notably compact form factor with a 63 mm bore and a 10 mm stroke, which reduces footprint and bracket complexity. The G1/4 port size supports common compressed air connections, and the non-cushioned travel suits high-speed cycles typical in pick-and-place cells. For installation, ensure the mounting face is clean and aligned, then verify that system pressure is within 1 to 10 bar to prevent plunger sticking or under-pressurization.
The magnetic piston enables reliable position sensing with standard magnetic sensors or PLC inputs, improving feedback and repeatability in automated cycles. This reduces misindexing and improves button-tushing alignment in end-of-stroke detection. In practice, engineers can integrate the RM/92063/JM/10 into existing control schemes without additional sensing hardware, shortening setup times and boosting diagnostic visibility.
Yes. With a robust seal design and corrosion-resistant materials, the cylinder is engineered for long life, minimizing preventive maintenance in high-cycle environments. Theoretical force of 1870 N supports demanding push and pull loads, while the 63 mm bore provides stable performance under 1–10 bar supply. Operators can expect consistent stroke, reduced downtime, and predictable wear patterns in packaging lines.
The provided data does not list CE, SIL, IP, or other certifications. Customers should verify applicable regulatory requirements for their region and application with their supplier, especially in safety-critical or washdown environments. In practice, the unit’s non-corrodible construction and magnetic piston support reliability, but certification assurance should be confirmed on a per-project basis.
The long-life seal design and non-corrodible materials reduce routine maintenance and replacement cycles, translating to lower operating costs and faster throughput. Magnetic sensing simplifies diagnostics and reduces downtime during changeovers. Over a typical automated line, these features contribute to higher line uptime, more consistent cycle times, and a faster return on investment when upgrading compact actuators in space-constrained layouts.