HRX-OM-X084 Description Qty Applicable model Anti-quake bracket A Anti-quake bracket B 2 2 4 4 HRR010-A/W-10/20-Y HRR012/018-A/W-10/20-Y HRR-TK001 Nut (M8) HRR024/030-A/W-20-Y Bolt (M8) HRR050-A/W-20-Y Mounting of anti-quake bracket 1. Remove the cap from M8 stud bolt. (4pcs) 2. Mount the anti-quake bracket A. (Recommended torque : 12.5Nm) 3. Mount the anti-quake bracket B.
3 b b Nm a Nm 1 2 4 XLD-25 1.5 0.3 -40 2.5 -50 6 -63 6 -80 15 -100 20 -160 102 a M M0.2MPa b b O a 19 XL-OMY0002 Revision history 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPAN Tel: + 81 3 5207 8249 Fax: +81 3 5298 5362 URL https://www.smcworld.com Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer. 2020 SMC Corporation
fluid power -General rules relating to systems IEC 60204-1: Safety of machinery -Electrical equipment of machines (Part 1: General requirements) ISO 10218-1992: Manipulating industrial robots-Safety JIS B 8370: JIS B 8361: JIS B 9960-1: -1) JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4. 3 A / 1 1.5 *3) *3)1 1 () 4 IP8000ExdBT5 1. 1 IP8000 IP8100 420mADC()*1 23515(420mADC) 0.140.7MPa
Position loop P constant A 140 110 110 1 to 200 B 100 80 80 C 110 80 80 H 80 140 140 Sets the speed loop P constant. *Please perform the actuator operation after changing this parameter setting under the responsibility of the user. Speed loop P constant A 110 140 140 1 to 200 B 120 75 100 C 150 120 120 H 50 80 80 Sets the speed loop I constant.
. 2018 SMC Corporation All Rights Reserved VT317-OMH0002-B
Latching Operation Indicator light A-C ON (Set) Generates vacuum Orange B-C ON (Reset) Stops generation of vacuum Green N.C.
On B side SY3000-37-80A-7 On A side 1 to 8stations SY3000-37-80A-3 On B side SY3000-37-80A-10 On A side 9 to 12stations SY3000-37-80A-6 On B side SS5YJ7-21,41SA SY3000-37-80A-12 On A side 13to16stations SY3000-37-80A-9 On B side Note 1) The above is for station addition or maintenance.
Bore size(mm) Auto switch model 20 50 40 32 25 D-M9(V) D-M9W(V) D-A9(V) Note 1) Note 1) Note 1) Note 1) Note 1) BMA3-020 BMA3-025 BMA3-032 BMA3-040 BMA3-050 (A set of a,b,c,d) (A set of a,b,c,d) (A set of a,b,c,d) (A set of a,b,c,d) (A set of a,b,c,d) Note 2) D-M9A(V) BMA3-020S BMA3-025S BMA3-032S BMA3-040S BMA3-050S (A set of b,c,d,e) (A set of b,c,d,e) (A set of b,c,d,e) (A set of b,c,d
on the part of the manufacturer. 2008 SMC Corporation All Rights Reserved VG300-OMH0002-B
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. Solid sphere Position of rotational axis: Through the center of diameter 2 2 r I = m5 27 - Kinetic energy Table (9) shows the allowable kinetic energy of the rotary actuator. The end angular speed is obtained by: Table 9.
The set values for OUT1 are displayed in auto-preset mode as follows: Normal output Reversed output P_1 = A-(A-B)/4 n_1 = B+(A-B)/4 A = Max. pressure H_1 = (A-B)/2 H_1 = (A-B)/2 B = Min. pressure The set values of OUT2 become as follows "_", i.e. "P_2", "n_2", "H_2".
A Hs 32 to 63 D-P3DWA B A Hs Auto Switch Proper Mounting Position Auto Switch Mounting Height (mm) (mm) D-M9 D-M9V D-M9W D-M9WV D-M9A D-M9AV Auto switch model Auto switch model D-A9V D-P3DWA D-M9V D-M9WV D-M9AV D-A9 D-A9V D-P3DWA Bore size (mm) Bore size (mm) B 11 12.5 13 15 16 20 A 11 10.5 12 14 13.5 16.5 B 7 8.5 9 11 12 16 A 6 7.5 9.5 9 12 B 8 8.5 10.5 11.5 15.5 Hs 24.5 26 29 33 38.5
Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).
The most suitable piping position can be selected by choosing each 1 port from A, B, C and combining them.
The most suitable piping position can be selected by choosing each 1 port from A, B, C and combining them.
Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a 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 e B part f d z f1 x.Calculate the inertial moment of the attachment.
Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.
20.5 (28.5) A B 15 (22.5) A B 17.5 (25.5) A B 19.5 (27.5) A B 18 (26) A B 16 (24) B 20 27.5 27 24.5 31 25.5 27.5 29 27 24 30 21.5 (29.5) 20.5 (28.5) 15 (22.5) 17.5 (25.5) 19.5 (27.5) 18 (26) 16 (24) 25 30 29.5 27 31 25.5 27.5 29 27 24 30 22.5 (30.5) 21.5 (29.5) 15.5 (23.5) 18.5 (26.5) 20.5 (28.5) 19 (27) 17 (25) 32 33.5 33 30.5 32 26.5 28.5 30 28 25 31 25 (34) 24 (33) 18 (27) 21 (30) 33 (
Referring to case u where "W2" is a sphere, 4a +b 2 2 2 4a +b 2 1 2 1=m1 +m2 12 12 2 r K=m2 5 2 tThin rectangle board (Parallelogram) !0Gear transmission Position of rotation axis: Passes through center of gravity and perpendicular to the board. (Same formula regardless of board thickness.) 1. Find moment of inertia1B around the rod (B). 2.
Proper Auto Switch Mounting Position (Detection at stroke end) C D A B D-A9, D-A9V D-M9, D-M9V, D-M9W, D-M9WV B B Series model A Series model A Operating range Operating range MY2C16 MY2C16 44 116 48 112 MY2H16 MY2H16 46 114 50 110 MY2HT16 MY2HT16 11 8.5 70 90 74 86 MY2C/H/HT25 MY2C/H/HT25 54 156 58 152 MY2C/H/HT40 MY2C/H/HT40 85 245 89 241 Series model C Series model C D D Operating range