CY1F m3 x g x X m4 x g x Y M3 m4 x g g: Gravitational acceleration Dynamic moment z Mounting orientation Horizontal Ceiling Wall Vertical M1 x a x mn x g 1.4 100 Dynamic load FE 1 3 a Dynamic moment M1E x FE x Z a M2E Dynamic moment M2E is not generated. 1 3 M3 M3E Note) Regardless of the mounting orientation, dynamic moment is calculated with the formulas above.
Use 0.3 to 0.7 times the thrust (differs depending on the operating speed) as a guide for actual use. g: Gravitational acceleration Dynamic moment M Mounting orientation Dynamic load FE Horizontal Ceiling Wall Vertical Z 1.4 100 x a x mn x g a a 1 3 x FE x Z ME Dynamic moment Dynamic moment ME does not occur.
Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24-M3 x 0.5 B phase J A B C D A COM COM COM B 12 VDC GND F.G.
Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24-M3 x 0.5 B phase J A B C D A COM COM COM B 12 VDC GND F.G.
Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24-M3 x 0.5 B phase J B C D A A COM COM COM B 12 VDC GND F.G.
mm; X, Y, Z for 2 hours each Endurance 10 G; X, Y, Z directions, 3 times each Impact resistance 350 g or less Weight 1) 90 phase difference input Multi-counter/Dimensions A phase I 24 x M3 x 0.5 B phase J B C D A t A COM COM COM B 12 VDC GND F.G.
17 17 40 A 20 20 15 45 60 25 45 60 A Applicable clamp cylinder A Applicable clamp cylinder Part no.
Calculate the load factor for each direction. x = Xc/Lx, y = Yc/Ly, z = Zc/Lz 5. Confirm the total of x, y and z is 1 or less. x + y + z 1 When 1 is exceeded, please consider a reduction of acceleration and work load, or a change of the work load center position and series. Acceleration [mm/s2]: a Work load [kg]: m Work load center position [mm]: Xc/Yc/Zc z y 1. Horizontal 3.
Connection of piping to products When connecting piping to a product, refer to its instruction manual to avoid mistakes regarding the supply port, etc. 6. Steam generated in a boiler contains a large amount of drainage. Be sure to operate it with a drain trap installed. 7.
Rear plate N C D T A 2 x P (Rc, NPT, G) Q B E W S U M K L R I AP AB J AA A V Y + Stroke X Z + Stroke 8 x AF AC AD AE WH (Max.)
When using a stopper cylinder for intermediate stopping of a load connected directly to a cylinder, etc. The operating ranges shown in this catalog apply only for stopping of a pallet on a conveyor. When using a stopper cylinder to stop a load connected directly to a cylinder, etc., the cylinder thrust will become a lateral load.
Display (PF2D30/31) Sensor 40 Brown 15 6 2 Analog output Switch output or Pulse output Main circuit Main circuit Main circuit Main circuit 8 4 Load + 12 to 24 VDC ZSE ISE White 7 3 Black PSE A 62 52 42 5 1 Blue Z I SE3 PF2D5--1 A Model PF2D520 12.7 Display (PF2D30/31) PS PF2D504 4-4.5 9.52 Sensor Brown 2 6 Z I SE1 2 52 1 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco
Formula for Obtaining the Set Value A B ZSP P_1 or P_3 P_2(H_1) or P_4(H_2) PSE200 PSE300 P_1(P_3)=A-(A-B)/4 P_2(P_4)=B+(A-B)/4 Hi Auto-shift input PS H_1(H_2)=(A-B)/2 Lo ISA B Switch output response time at time of auto-shift input A Auto-shift input time C Precision indicator setting PSE PSE200 PSE300 15 ms or less 10 ms or more This function eliminates slight differences in the output
(2) NC / Analog output 54 44 34 Blue (3) DC() Use this sensor by connecting to P/A remote type display unit Series PF2A3. 4-4.5 2-Port size 30 40 50 Connector pin numbers 2 1 (43.5) A 4 3 (mm) A B Output specification Pin no.
3 39.5 12 14 20 19 8 3 6 24.5 10 8.5 6.5 7.5 24 10 M5 x 0.8 M14 x 1.0 M5 x 0.8 19.5 4 43.5 Built-in magnet: CDJP2B6 to 16 Z + Stroke S + Stroke H A' F GB GA 2 x P A F' Mounting nut Width across flats B1 A' Rod end nut Width across flats B2 30 D-1 D E J C MM Without rod end thread NN W B (mm) Symbol A A' B B1 B2 C D E F F' GA GB H J MM NN P S W Z Bore size 6 10 16 7 9 14 14 5.5 2 3 16.5 8
cable O.D.: 6.8 to 11.5) CE1 CE2 Proper Auto Switch Mounting Position D-H7 D-H7C D-H7NF D-H7W D-H7BAL D-C7 D-C80 D-C73C D-C80C ML2B D-G39 D-K39 D-A33/A34 D-A44 D-B5 D-B64 D-B59W D-G5NTL Bore size (mm) C J G5-S A B A B A B A B A B A B CV 20 56.0 31.5 50.0 25.5 55.0 30.5 51.5 27.0 53.0 28.5 49.5 25.0 25 MVGQ 56.0 31.5 50.0 25.5 55.0 30.5 51.5 27.0 53.0 28.5 49.5 25.0 32 59.5 36.5 53.5 30.5
VXD2 Z 1A VXD2 Z 3 0 A A VXK Enter standard product number.
Auto Switches/Proper Mounting Positions for Stroke End Detection D-Z7, Z80 D-Y59, Y69, Y7P D-Y7NW, Y7PW, Y7BW D-Y7BAL Approx. 1 5 Bore size (mm) B A 32 1 4 40 1 4 50 2 4 63 2 4 80 7.5 5.5 100 7.5 5.5 A B Mounting of Auto Switches 1Nm: approx. 10.2kgfcm When attaching an auto switch, first take a switch spacer between your fingers and press it into a switch mounting groove.
In the graph, find where the lines repres-enting a load weight of 10 kg and a stroke of 300 mm intersect. A 50 bore size is selected.
Type Home position return method Features With Deceleration started at the detection of front edge of a proximity dog switch signal, the position where the first Z-phase signal is given past the rear edgeof the dog signal or a motion has been made over the home position shift distance starting from the Z-phase signal is defined as a home position.