0 Time (sec.) Amplitude (mm) 0.5 1 1.5 2 2.5 0.5 0.4 0.3 0.2 0.1 0 .0.1 .0.2 .0.3 .0.4 .0.5 0 Time (sec.) Amplitude (mm) 0.5 1 1.5 2 2.5 0.5 0.4 0.3 0.2 0.1 0 .0.1 .0.2 .0.3 .0.4 .0.5 Supply port Workpiece Air is discharged radially. Outer body diameter (mm) o40 o60 o80 o100 l120 l150 Air consumption [L/min (ANR)] 98 98 98 156 291 291 Lifting force (N) 2.2 4.1 5.1 7.8 17 14 Supply pressure: 0.4 MPa �� Bernoulli Type Original groove-channel design allows the Bernoulli effect with suppressing the amplitude of the workpiece during gripping! !Reduction of rotation load * No directionality of whirlwind air !Standardization of multi-port* * Except o40 !Grease-free !Can be disassembled and cleaned the inside. !Reduced amplitude of the workpiece Size: l120 Size: o100 How to calculate !Various workpiece suction methods are available. Air from the supply port is blown off radially from the nozzle on the convex suction surface side. The radial flow is discharged to the atmosphere from the gap between the non-contact gripper and the workpiece, and the air between the non-contact gripper and the workpiece is pulled in the peripheral direction. As a result, a vacuum zone is generated in the center, enabling the workpiece to be lifted without physical contact. Also, the original groove-channel design allows the air to be discharged radially, thus suppressing ripples caused by pulsations and whirlwind flow, and enabling the amplitude of the workpiece to be minimized. !Bernoulli Type Solar battery cell, etc Electrode materials, etc Insulating sheet, etc Thickness of workpiece (μm) 300 0 Laser displacement needle Non-contact gripper Displacement Guide Workpiece (Solar battery silicon cell) Solar battery silicon cell l125 mm Thickness: 250 μm Supply pressure: 0.1 MPa Amplitude Vibration reducing type Body material: Resin Working Principle 3 Series XT661