MQQ C J G5-S 150 cm3/min or less 200 cm3/min or less 300 cm3/min or less Supply pressure 0.1 MPa Total allowable leakage 800 cm3/min or less 1000 cm3/min or less 1200 cm3/min or less Weight/Standard Type: MQQT Supply pressure 0.3 MPa CV 1500 cm3/min or less 2000 cm3/min or less 3000 cm3/min or less Supply pressure 0.5 MPa (g) Note 1) Use clean, dry air with no freezing.
Double acting 125, 140 160, 180 200 Double rod CQ2W 7-6-115 10 to 300 Long Stroke 32, 40, 50 63, 80, 100 Single rod CQ2 Double acting 7-6-121 125 to 300 Anti-lateral Load Single rod CQ2S 32, 40, 50 63, 80, 100 Double acting 32 to 40/5 to 100 50 to 100/10 to 100 7-6-132 With End Lock 20, 25, 32 50, 63, 80 100 Single rod CBQ2 Double acting 20 to 63/10 to 100 80, 100/25 to 100 7-6-142 Air-hydro
Part No. 25 350, 400, 450, 500 75, 100, 125, 150, (Band and screw are included.) 32 350, 400, 450, 500, 600 Ball bushing bearing MLGCL 200, 250, 300 Bore size (mm) Auto switch model D-C7/C8 D-H7 D-B5/B6 D-G5/K5 D-B7/B8 D-G7/K7 40 350, 400, 450, 500, 600, 700, 800 20 25 32 40 BMA2 -020 BA -01 BA -02 BA -32 BA -04 BM1 -01 BM1 -02 BM1 -32 BM1 -04 Intermediate strokes and short strokes other
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 3.52739 lb
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 2.78516 lb
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 2.64554 lb
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 7.78800 lb
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 3.72035 lb
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the ability
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, CYL, HIGH POWER, ACTUATOR, RHC ROUND BODY HIGH POWER, IE, 25MM RHC DBL ACT SW CAPABLE, 3.52496 lb
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the
High speed or high load cylinder applications frequently require additional speed and flow control devices to control the stopping of the load. SMC's RHC series features a longer cushion design which is capable of stopping heavy or high speed loads while maintaining the simplicity of a standard air cushion cylinder. This enhanced cushion allows the kinetic distance, which results in the