The CQS compact cylinder is available for those small bore cylinder applications where saving space is a concern. The CQS offers standard long strokes * in four bore sizes from 12 to 25mm. Long stroke versions incorporate a wear band and thicker piston to handle the increased bearing needs of the longer strokes. Both switch capable and non-switch capable body styles are the same, and switches
The CQS compact cylinder is available for those small bore cylinder applications where saving space is a concern. The CQS offers standard long strokes * in four bore sizes from 12 to 25mm. Long stroke versions incorporate a wear band and thicker piston to handle the increased bearing needs of the longer strokes. Both switch capable and non-switch capable body styles are the same, and switches
The CQS compact cylinder is available for those small bore cylinder applications where saving space is a concern. The CQS offers standard long strokes * in four bore sizes from 12 to 25mm. Long stroke versions incorporate a wear band and thicker piston to handle the increased bearing needs of the longer strokes. Both switch capable and non-switch capable body styles are the same, and switches
The CLS series cylinder with lock is ideal for applications requiring intermediate and emergency stop and drop prevention. The compact lock unit is lightweight and saves space. A switch is optional on the brake cylinder so the operating state of the lock unit (brake piston) can be detected using the switch signal. By separating the lock mechanism and the brake cylinder, SMC has minimized
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat GRIPPER. Gripper, MHK, Wedge Cam Slide Guide. 562 lb.
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is enhanced
The MHK2 series parallel gripper was designed to accommodate applications that require a high degree of accuracy in a wide range of environments. The finger action accuracy is accomplished through the use of a wedge cam mechanism, which allows repeat ability to +/-0.01mm and yields much higher axial load characteristics which permits use in insert press procedures. The gripper body is