Air Slide Table Series MXS 46 43 27 48 46 46 Shock absorber at retraction end A Shock absorber at extension end MXF Maximum 35 MXW Shock absorber at retraction end MXJ MXP Other dimensions are the same as the basic style.
The rotation range under the adjustment of an angle at 60 is indicated below.
In such a case, carry out an adsorption test for confirmation. The vacuum pressure when using an ejector is approximately 60 kPa as a guide. The theoretical lifting force of a pad can be found by calculation or from the theoretical lifting force table.
In such a case, carry out an adsorption test for confirmation. The vacuum pressure when using an ejector is approximately 60 kPa as a guide. The theoretical lifting force of a pad can be found by calculation or from the theoretical lifting force table.
In such a case, carry out an adsorption test for confirmation. The vacuum pressure when using an ejector is approximately 60 kPa as a guide. The theoretical lifting force of a pad can be found by calculation or from the theoretical lifting force table.
46 43 27 48 46 46 Stroke 100 to 150 A Shock absorber at extension end Max. 35 Shock absorber at retraction end Dimensions not indicated are the same as basic type.
With an ejector When a few air cylinders are locally used.
Note 1) This cylinder cannot perform an intermediate stop using an air pressure circuit in vertical operation. In this case, an intermediate stop can be performed only by using an external stopper, etc. Note 2) Made-to-order products should be considered, too, depending on an operating environment, etc.
Therefore, if the actuator motor is used in an environment where strong magnetic fields are present, malfunction or failure may occur. Do not expose the actuator motor to magnetic fields with a magnetic flux density of 13 mT or more. When installing an electric actuator and an air cylinder with an auto switch (ex.
The graphs are based on operation using an SMC DC power input type driver with halfstep energization.
(mm) With auto switch B Without auto switch Stroke range (mm) A Bore size (mm) BP C OA Rc NPT G D E F G H I J K L M N O OB P Q RA RB T V Z B A 10 to 50 82 36 15.6 14 63 92 46 1/8 M5 x 0.8 15 20 77 10.5 38 M10 x 1.5 103 7 17 8 60 9 M8 x 1.25 1/4 53 16 4.2 1.6 16.5 19 depth 12 depth 10.5 75, 100 92 46 10 to 50 96.5 43.5 19.6 17.5 80 106.5 53.5 1/8 1/8 21 25 98 12.5 43 M16 x 2.0 132 6 22 10
Install an air dryer, aftercooler, etc. Excessive condensate in a compressed air system may cause valves and other pneumatic equipment to malfunction. Installation of an air dryer, after cooler etc. is recommended. 3. Drain flushing If condensate in the drain bowl is not emptied on a regular basis, the bowl will over flow and allow the condensate to enter the compressed air lines.
error in unit 0. 1 There is an error in unit 1. 2 There is an error in unit 2. 3 There is an error in unit 3. 2 4 There is an error in unit 4. 5 There is an error in unit 5. 6 There is an error in unit 6. 7 There is an error in unit 7. 0 There is an error in unit 8. 1 There is an error in unit 9. 2 Reserved 3 Reserved 3 4 Reserved 5 Reserved 6 Reserved 7 Reserved : The data of diagnostic
How to Order Type 46 (5 Port/Base mounted) Applicable solenoid valve SYJ340SYJ343SS5YJ3 46 05 M5 Type 46 Type S46 ( ) Single solenoid coil is on same side as the A, B port. M5 x 0.8 R1 R2 port Applicable blanking plate assembly SYJ3000-21-2A Stations Valve mounting direction 02 2 stations Single solenoid coil is on opposite side as the A, B port.
Use caution, because an external action such as an impacting load, strong vibration or turning force, may damage the locking mechanism or reduce its life. 20Data Stop signal Amount of overrun 6-12-29 30 Series C95N Specific Product Precautions 2 Be sure to read before handing. Adjustment Pneumatic Circuit Mounting Warning Warning Warning 2. Do not apply an offset load to the piston rod.
Never use in an atmosphere of explosive gases. The structure of auto switches is not intended to prevent explosion. Never use in an atmosphere with an explosive gas since this may cause a serious explosion. 2. Do not use in an area where a magnetic field is generated. Auto switches will malfunction or magnets inside cylinders will become demagnetized. 3.
Furthermore, an abnormal temperature rise due to adiabatic compression can cause tubing to burst. Note 3) The minimum bending radius indicates the value at a temperature of 20C (68F) with an outside diameter rate of change of 10% or less. At higher temperatures the outside diameter rate of change may exceed 10% within the minimum bending radius.
Furthermore, an abnormal temperature rise due to adiabatic compression can cause tubing to burst. Note 3) The minimum bending radius indicates the value at a temperature of 20C (68F) with an outside diameter rate of change of 10% or less. At higher temperatures the outside diameter rate of change may exceed 10% within the minimum bending radius.
Furthermore, an abnormal temperature rise due to adiabatic compression can cause tubing to burst. Note 3) The minimum bending radius indicates the value at a temperature of 20C with an outside diameter rate of change of 10% or less. At higher temperatures the outside diameter rate of change may exceed 10% within the minimum bending radius.
In the graph, find where the lines representing a load weight of 40 kg and an eccentric distance of 80 mm intersect.