KOGANEI CORPORATION
Koganei Linear Orifice Shock Absorber KSHY Series
Manufacturer: KOGANEI CORPORATION
Features
Maximize industrial productivity with our high-durability pneumatic cylinders and precision shock absorbers designed to extend service life and reduce maintenance time. Our eco-friendly solutions minimize resource usage and waste generation, contributing directly to energy savings and reduced environmental impact. Featuring long-life cylinders with standard external dimensions for easy replacement, these units operate efficiently across wide speed and pressure ranges without required lubrication. Additionally, specialized KSHW shock absorbers ensure peak performance by absorbing heavy impacts in harsh environments containing cutting oil, water, or dust.
Specifications
CS-KSHC Shock Absorber Specifications (Series Overview)
| Model | CS-KSHC3×3-A | CS-KSHC3×3-AB | CS-KSHC3×3-B |
|---|---|---|---|
| Max. absorption capacity J (in.lbs) | 0.1 (0.885) | 0.2 (1.770) | 0.3 (2.655) |
| Absorption stroke mm (in.) | 3 (0.118) | ||
| Impact speed range m/s (ft/s) | 0.1 to 1.0 (0.33 to 3.28) | 0.1 to 0.8 (0.33 to 2.62) | |
| Max. operating cycle cycle/min | 60 | ||
| Operating temperature range °C (°F) | 0 to 60 (32 to 140) | ||
KSHW Series Shock Absorber (Harsh Environment)
| Model | KSHW8×5-01,-11 | KSHW10×6-01 | KSHW12×6-01 | KSHW14×8-01 |
|---|---|---|---|---|
| Max. absorption capacity J [ft·lbf] | 1 [0.738] | 1.5 [1.106] | 3 [2.213] | 5 [3.688] |
| Absorption stroke mm [in.] | 5 [0.197] | 6 [0.236] | 6 [0.236] | 8 [0.315] |
| Impact speed range m/s [ft/sec] | 0.1 to 1.0 [0.328 to 3.280] | |||
| Deflection angle | 1° or less | |||
Pneumatic Cylinder Specification Overview
| Cylinder bore [mm] | 12 | 16 | 20 | 25 | 32 | 40 | |
|---|---|---|---|---|---|---|---|
| Operating type | Double acting type | ||||||
| Operating pressure range | MPa [psi] | 0.1 ~ 1.0 [15 ~ 145] | |||||
| Operating speed range | mm/s [in/sec] | 30 ~ 500 [1.2 ~ 19.7] | |||||
| Lubrication | Not required | ||||||
| Cushion | Rubber bumper | ||||||
