RSH/RS1H RB J D-X 20Data 10-9-15 15 10-9-16 16 Stopper Cylinder Series RSA 50, 63, 80 RE A B Stops pallets gently. Stopper cylinder with built-in shock absorber. REC CX Energy absorption can be adjusted to accommodate varying loads CY MQQ M Transferred articles are gently stopped with a built-in adjustable shock absorber.
RB J D-X 20Data 10-9-15 15 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 10-9-16 16 Stopper Cylinder Series RSA 50, 63, 80 RE A B Stops pallets gently. Stopper cylinder with built-in shock absorber.
code, Socket, Straight 2 m, SPEEDCON compatible PCA-1564930: Cable with M12 connector, B code, Socket, Straight 6 m, SPEEDCON compatible PCA-1564943: Cable with M12 connector, B code, Socket, Right angle 2 m, SPEEDCON compatible PCA-1564969: Cable with M12 connector, B code, Socket, Right angle 6 m, SPEEDCON compatible (8)EtherNet/IPTM communication cable PCA-1446566: Cable with M12 connector
8370: JIS B 8361: JIS B 9960-1: 1 ) JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4
(process data) a: Inclination b: Intercept [Inclination and intercept to the unit specification] Series Unit Flow range Inclination a Intercept b 1000 L 0.25 0 L/min 2000 L 0.50 0 PF3A7#H 1000 L 0.0088275 0 cfm 2000 L 0.0176575 0 [Calculation example] (1) Conversion from the process data to the flow measurement value (For PF3A701H series, unit L/min, flow range 1000 L and PD = 2800) Pr =
JXC-OMT0032CN TM) (GW)(DeviceNet / LEC-GDN1 . 4 2. . 6 2.1 . 6 2.2 . 6 2.3 . 7 2.4() . 8 (1) . 8 (2) . 8 (3)(LEC) . 8 (4) . 8 (5) . 8 (6) . 9 (7) . 9 3. . 10 3.1 . 10 3.2 . 12 3.3 . 13 (1)(LECGDN1) . 13 (2)DIN(LECGDN1D) . 13 3.4 . 14 (1) . 14 (2) . 14 4. . 15 4.1 (NODE ADDRESS,B RATE) . 15 4.2(CN2SW) . 15 4.3(LEC) . 16 5. . 18 5.2 CN3 . 18 5.3 CN1CONT . 18 5.4 CN2PC/TB . 19 .CN4 . 20
(extension) A B Air pressure supplied from B operates on surface 3. (retraction) A B Mounting accuracy improved Positioning holes are provided on the work piece mounting surface for easy alignment.
How to Calculate the Set Value A = Max. pressure value in auto preset mode B = Tentative min. pressure value in auto preset mode P1 = A (A B)/4 P2 = B + (A B)/4 Manual adjustment is possible after finishing in the auto preset mode. Ex.) When an error count (number of the failure predict) (EC) is set to be 3.
M1 0Xl.5 15 50 131 20 28 22 SO.6 44 B " M l 0)(1.5 M10)(I .S 63 138. 5 18 124 .5 SO.6 44 I. 8 Ml0Xl .5 15 20 30 22 " M12xl .75 M1 2x 1.75 lB 150 27 M1 6X2.0 21 80 168 22 38 28 64 56 18 10 10 0SM:: Series CDQ2BP High Magll8lic Field Resistance ," , [).P70 ' , D-~i4,,;'; ' ; ::~::Y_iidiz!C:::i Auto SWitch No.
Find the moment of inertia I for the rotation of shaft (B). B 2. I is converted to the rotation of the shaft (A). B 2 r I = m2 2 b a I I = A B Number of teeth=b 5.
(2) Conversion formula from the flow gauge measurement value to the process data: (PD) = (Pr b) / a Pr: Flow measurement value and pressure set value PD: Flow measurement value (process data) a: Inclination b: Intercept [Inclination and intercept to the unit specification] Series Unit Flow range Inclination a Intercept b 1 L 0.00025 0 2 L 0.0005 0 5 L 0.00125 0 L/min 10 L 0.0025 0 25 L 0.00625
Supply NC output NO output Exhaust of NC exhaust of NO Pilot tor NC Pilot for NO P A B R s z Y P A B R1 R2 z Y P A B EA EB PA PB 1 2 4 3 5 12 1 4 Table 7.2 Typical port identitications M O N O S T A B L E A N D B I S T A B L E Spring returned valves are monostable. They have a defined prefened position to which they automatically retum.
Supply NC output NO output Exhaust of NC exhaust of NO Pilot tor NC Pilot for NO P A B R s z Y P A B R1 R2 z Y P A B EA EB PA PB 1 2 4 3 5 1 2 1 4 Table 7.2 Typical port identitications M O N O S T A B L E A N D B I S T A B L E Spring returned valves are monostable. They have a defined prefened position to which they automatically retum.
1 34 FLAT WASHER (8) In case of 80,100 13 HEXAGON SOCKET CAP BOLT 4 35 BUMPER A 1 14 HEXAGON SOCKET CAP BOLT 2 36 BUMPER B 1 15 WEAR RING A 2 37 WEAR RING B 1 16 PISTON SEAL A 1 38 ROD END NUT 1 17 ROD SEAL A 1 39 MAGNET (1) In case of CP96ND* 18 GASKET 1 40 ROD SEAL B 1 19 ELEMENT 1 41 PISTON SEAL B 1 20 RELEASE BOLT 1 42 CUSHION SEAL A 1 21 SEAL WASHER 1 43 CUSHION SEAL B 1 22 HEXAGON
3 contact (CLOSE During Alarm) Alarm Output Temperature Alarm a connector 6 7 8 9 6 contact (OPEN During Alarm) D-sub 9 pin (Pin type) 7 Temperature Alarm Fixed screw: M2.6 Common Temperature Alarm b 8 contact (CLOSE During Alarm) 3 Resistance Bulb Terminal A 8 1 4 Resistance Bulb Terminal B External temperature 5 Resistance Bulb Terminal B 15 9 sensor D-sub 15 pin (Socket type) connector
Furthermore, when mounting supply/exhaust block assemblies on both sides of type B with a 2 to 10 station manifold, calculate the weight W using the formula for 11 to 16 stations.
Calculate the moment of inertia for A and B separately as shown in the figures on the right. A part B part Procedure Calculation Calculation example 1. Check the operating conditions, dimensions of attachment, etc. Operating model: MHY2-16D Opening time: 0.15 s a = 40 (mm) b = 7 (mm) c = 8 (mm) d = 5 (mm) e = 10 (mm) f = 12 (mm) A part a b c B part e f d 2.
Model Model Model Port size Effective area Weight Dimensions (mm) R(PT) (mm2) (g) Model Port size Effective area Weight Dimensions (mm) R(PT) (mm2) (g) AN103-01 10 1 23.5 11 3 36 16 14 17 66 22 19 A B D A B D 1 8 1 4 2504-002 33.9 111 62 30 24 106 64 30 24 113 68 30 24 AN203-02 15 1 4 AN303-03 35 3 8 25 84 25 22 AN403-04 60 1 2 2505-003 45.9 3 8 2506-004 50.0 1 2 310 88.5 48 35 2507-006
D Applicable tube b Bulkhead Connector: KQB2E Mounting plate thickness 7 mm or smaller Note) Effective area (mm2) Applicable tube O.D.