KJ Reset (RES) Keeping RY(n 1)A or RY(n 3)A (RES) ON for 50ms or longer RY(n 1)A RY(n 3)A 1 allows an alarm to be deactivated. Some alarms cannot be deactivated by Reset RY(n 1)A or RY(n 3)A (RES). (Refer to section 10.4.1.) If RY(n 1)A or RY(n 3)A (RES) is turned ON with no alarm occurring, the base circuit will not be shut off.
It is again necessary to connect a contact protection box in order to extend its life. Please contact SMC in this case.
It is again necessary to connect a contact protection box in order to extend its life. Please contact SMC in this case.
L1 From V = 1.4 Va We = W V = 4/100 10 1.4 300 = 168 [N] Me3 = 1/3 We (L2 A) = 1/3 1680.032 = 1.8 [Nm] 3 = Me3/Me3 max = 1.8/7.2 = 0.250 cDynamic moment Examine Me3. Find the load equivalent to impact We. Damper coefficient = 4/100 (urethane damper) Me3 Guide central axis L2 We W A Find the value of Me3 max when V = 1.4 and Va = 420 mm/s from Graph (2). Me1 Examine Me1.
l b --" ,m'i$;:f, 4ra 20 Standard Stroke lmm) 30 40 50 60 75 100 125 175 200 225 250 275 300 350 400 150 Y f r N t * w -l Yw Y Ns a a a a a a a a a a a a a o a a a a a a a a a a a a a a a a a '*?
32 32 41 44 LS 50.3 50.3 62.7 66.2 B 10 10 17.5 17.5 A 22 22 29.5 32.5 LS 40.3 40.3 51.2 54.7 B 5 5 7.5 7.5 A 17 17 19.5 22.5 12 16 20 25 35.3 35.3 41.2 44.7 35 to 100 35 to 100 75 to 200 75 to 300 5 to 30 5 to 30 5 to 50 5 to 50 A + Stroke LS + Stroke CUJ Bore size (mm) L Y X LZ LY LX LT LH LG L1 LD CU 12 16 20 25 4.5 5 5.8 5.8 8 8 9.2 10.7 44 48 62 66 29.5 33.5 42 46 34 38 48 52 2 2 3.2
As a standard, the mesh count for the strainer is 100 mesh. However, the size and shape of foreign objects that occur depends on the operating environment. Check the fluid status and choose an appropriate mesh count. The supply water to a boiler includes materials that create a hard sediment or sludge such as calcium and magnesium.
Type] Size: 20 Size: 40, 60, 80, 100 A A A A-A r q e w A A-A e r q w Component Parts No.
are assuming a 100 PSI pneumatic system to carry air at a 1 PSI loss per 100 feet.
are assuming a 100 PSI pneumatic system to carry air at a 1 PSI loss per 100 feet.
10 6 0.01 0.1 0.01 0 20 40 60 80 100 0 20 40 60 80 100 0 20 40 60 80 100 Overhang L (mm) Overhang L (mm) Overhang L (mm) Graph b b Load Eccentricity 100 mm Graph , Load Eccentricity 100 mm Graph 1 Load Eccentricity 100 mm 1 10 10 Mass m (kg) Mass m (kg) Mass m (kg) 1 20 16 20 16 20 16 10 6 0.1 1 10 0.1 10 6 6 0.01 0 20 40 60 80 100 0.01 0.1 0 20 40 60 80 100 0 20 40 60 80 100 Overhang L
slow speed from A to B due to the fixed throttle of the SSC valve.
Even if a proper plier (tool for installing type C snap ring) is used, it is likely to inflict damage to a human body or peripheral equipment, as a Allowable kinetic energy 1000.0 100.0 Load weight (lbs) 250 (2-1/2") 200 (2") 10.0 150 (1-1/2") 106 (1-1/16") 1.0 075 (3/4") 056 (9/16") 0.1 1 10 100 Piston speed (inch/sec) Allowable lateral load at rod end Without Auto Switch With Auto Switch
a 2 port solenoid valve is connected to the right: When 2 air catch sensors are connected or when a 2 port solenoid valve is connected to the left: Joint bracket ISA-3-A Lead wire with connector (Individual wiring type) ISA-8-A ISA-8-B Bracket ISA-4-A DIN rail mounting bracket ISA-9-A Straight, 5 m A pair consists 1 set.
rate) M For Digital Flow Switch for Water / PF3W511 B A B PF3W504 0 4 PF3W520 0 16 PF3W540 0 40 PF3W511 0 100 Display A Set A and B to the values shown in the table on the left.
[mm] Bore size O1 R 50 M6 x 1.0 10 63 M6 x 1.0 10 80 M10 x 1.5 18 100 M10 x 1.5 18 Auto switch Minimum lead wire bending radius 10 F Q 2 x P (Rc, NPT, G) (Port size) 4 x N through H thread effective depth C I D M E Z A + Stroke B + Stroke L W E M K J 2 x P (Rc, NPT, G) (Port size) 100 Auto switch Minimum lead wire bending radius 10 H thread effective depth C 4 x N through F Q I E M Z A +
300 500 1000 70 100 300 500 1000 70 100 300 500 1000 Stroke (mm) Stroke (mm) Stroke (mm) 2.
B-1 2 L A A-1 1 B B-2 6 1 1.5m B A-2 5 COM-A/COM B-3 3 3 3m COM-B/ A-3 4 5 5m Shield Vcc B-4 12 GND A-4 13 A B-5 7 A A-5 6 B B-6 S 9 B A-6 8 3 14.2 2 1 (8) 14 18 B1 A1 17.7 5 6 2 1 A6 B6 15 16 11 30.7 112 [820m] A B-1 2 A A-1 1 L B B-2 6 8 8m B A-2 5 COM-A/COM B-3 3 A 10m COM-B/ A-3 4 B 15m Shield C 20m Vcc B-4 12 GND A-4 13 A B-5 7 A A-5 6 B B-6
x mn x g 1.4 100 Dynamic load FE 1 3 Dynamic moment a x FE x Z M1E a Dynamic moment M2E is not generated.