HRX-OM-X010 Figure 5-48 Mode Selection screen 5. Press the [ENT]key. HRZ Series 5.4 Examples of System Operation 5-39 5-39 HRX-OM-X010 Chapter 5 System Operation 5.4.3 Example 3: PUMP IV is switched from FLOW to FREQ. POWER ON Figure 5-49 Swiching of pump operation from FLOW to FREQ 1. Press the [SEL] key to display the Menu screen. Figure 5-50 Menu screen 2.
80 100 160 H4100 XLA25-60S-1 XLA25-60S-1 XLA25-60S-2 XLA25-60S-3 XLA25-60S-2 XLA25-60S-2 (2 ) (3 H5120 XLA25-60S-1 XLA25-60S-2 XLA25-60S-2 XLA25-60S-3 XLA25-60S-2 XLA25-60S-2 XLA25-60S-2 2 3 4 XLD-80H5 2 XLA25-60S-2 8 XL-OMY0002 4. 4-1 XLD-25 XLD-40 XLD-50 XLD-63 XLD-80 XLD-100 XLD-160 25 40 50 63 80 100 160 [] 5605150 -6 Pa abs 110 14 45 80 160 200 300 800 L/S 1 0.53 28 2.511 48
Specifications Model XLDV-25 XLDV-40 XLDV-50 XLDV-63 XLDV-80 XLDV-100 XLDV-160 Flange (valve) size 25 40 50 63 80 100 160 Actuating type Normally closed Fluid Vacuum of inert gas Operating temperature oC 5 to 60 Operating pressure Pa Atmospheric pressure to 1 x 10-6 Main pumping 14 45 80 160 200 300 800 Conductance l/s Note 1 Initial pumping 0.53 28 2.511 48 418 6.531.5 6.531.5 Internal 1.3
XMC Exterior dimensions C D L1 L2 Fn Fc C (Fc) (KF Flange) (CF Flange) J H B A G A Unit:mm Model A B C D Fn Fc G H J P.C.D L1 L2 XMC-16 40 110 38 1 30 34 17 40 26 P.C.D 27 6x4.4 XMC-25 50 120 48 1 40 26 39 28 XMC-40 65 171 66 2 55 70 41 63 36 P.C.D. 58.7 6x6.6 C D L1 L2 Fn Fd Fc C (Fc) (KF Flange) (K Flange) (CF Flange) H J K B A G A Unit:mm Model A B C D Fn Fc Fd G H J K P.C.D L1 L2 XMC-
L1 L2 XMD-25 50 123 48 1 40 26 41 16 7.5 XMD-40 65 170 66 2 55 70 41 63 20 15 P.C.D 58.7 6x6.6 XMD-50 70 183 79 2 75 52 68 20 17.5 XMD-63 88 217 100 3 87 95 114 70 72 20 19.5 P.C.D 92.1 8x 8.4 XMD-80 90 256 117 3 114 110 83 98 20 26.5 D G C C K J H B Fd (K Flange) 45 Fn (KF Flange) A E Unit: mm Model A B C D E Fn Fd G H J K XYD-25 100.2 86.7 48 1 23.5 40 26 66 16 7.5 XYD-40 130 114 66 2 38
A E Table 6 Unit:mm Model n J XYH-25 100.2 75.8 48 1 23.5 40 26 41 21.5 XYH-40 130 102.5 66 2 38 55 41 57 30 XYH-50 178 119 79 2 53 75 52 70 35 8 XM-OMP0005-A 6.
48 MXQ20(A) 32.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 22.9 23.9 23.9 23.9 29.9 38.9 63.9 63.9 63.9 MXQ25(A) 34.4 25.4 25.4 25.4 25.4 25.4 25.4 25.4 25.4 30.7 29.7 29.7 29.7 42.7 42.7 28.7 67.7 67.7 A 10 20 30 40 50 75 100 125 150 10 20 30 40 50 75 100 125 150 MXQ6B 18 7.4 7.4 7.4 7.4 7.4 3 13.6 13.6 19.6 36.6 13.6 MXQ8B 29 13.9 13.9 13.9 13.9 13.9 13.9 4 11.1 11.1 19.1 19.1 38.1 38.1
When the input, value is blinking, press READ once to shift the operation back to P1. 48 11-2 Program Setting Input desired cylinder positions. 11-2-1 Input Method Turn the controller switching mode to PROGRAM. Note: Step 0 for every program is END. Program no 1 will start blinking. Set the program no. through UP & DOWN buttons. Program No.
OUTPUT 35 9-3-5. 36 10 3744 11 11-1. 11-1-1. 45 11-1-2. 4548 11-1-3. 48 11-2. 11-2-1. 4952 11-2-2. 53 11-3. 11-3-1. 53 12 12-1. 54 12-2. 54 13 13-1. 5557 13-2. () 5758 14 14-1. 5960 - 1 1 1 1 (ISO/IEC)(JIS) 1) 2) *1) ISO 4414:Pneumatic fluid powerGeneral rules relating to systems ISO 10218-1:2006Robots for industrial environments-Safety requirements-part1
Bore size (mm) Bolt Hexagon wrench size Tightening torque (Nm) 32, 40 MB-32-48-C1247A 4 4.8 50, 63 MB-50-48-C1249A 5 10.4 80, 100 Foot MB-80-48AC1251A 6 18.2 Other MB-80-48BC1251A 5) When replacing the support brackets, the tie-rod nuts on the cylinder body will be loosened. Mount the support brackets after tightening the tie-rod nuts at the specified tightening torque.
Bore size (mm) Bolt Hexagon wrench size Tightening torque (Nm) 32, 40 MB-32-48-C1247A 4 4.8 50, 63 MB-50-48-C1249A 5 10.4 80, 100 Foot MB-80-48AC1251A 6 18.2 Other MB-80-48BC1251A 5) When replacing the support brackets, the tie-rod nuts on the cylinder body will be loosened.
The end angular speed is obtained by: Table8 Allowable kinetic energy Size Allowable kinetic energy mJ Cushion angle No cushion Cushion type 10 0.25 15 0.39 20 25 120 40 30 48 250 40 40 81 400 40 Allowable kinetic energy of cushion type is max. adsorption energy when the cushion needle adjustment is optimum.
Allowable load a b Allowable thrust loadN Allowable momentNm Size Allowable radial load a b Basic type High precision N type 1 31 41 41 0.56 0.84 2 32 45 45 0.82 1.2 3 33 48 48 1.1 1.6 7 54 71 71 1.5 2.2 Unit used as flange mount Rotary table can be mounted from three directions-Two side of axial direction and one side of lateral face.
MHF2-8D MHF2-12D MHF2-16D MHF2-20D mm 8 12 16 20 MPa 0.150.7 0.10.7 oC -1060 mm 1) 0.05 120 c.p.m. 120 60 2) 1 N 19 48 90 141 8 12 16 20 () mm 16 24 32 40 32 48 64 80 65 155 350 645 85 190 445 850 3) g 120 275 650 1,225 1) 0.15mm 2) 0.5MPaL=20mm 3) 4 2 2-1 1. ( ) 2. 3. 4. 2-2. 1. 2. (1) (2) (3) 5 3. 4. 5. 6. (1) (2) ,2 , 7.
(Even if both IN0 and IN1 commands are turned OFF at reset, the operation commanded at the generation of the alarm will be performed.) 48 - . Operation Examples ..
Pushing operation . 48 .. Reset . 51 . Operation Examples . 52 .. Positioning operation . 52 .. Pushing operation . 53 Operation Mechanism.54 1 - . Positioning operation . 54 . Pushing operation . 54 . Return to the origin . 56 . Response time in receiving an electric actuator input signal . 57 . Methods of interrupting operation . 57 Alarm detection .58 .
43 48 104 Max. instantaneous power consumption [W] *8 Type Non-magnetizing lock specifications Lock unit Holding force [N] 20 39 78 78 157 108 216 *9 Power consumption [W] *10 2.9 5 Rated voltage [V] 24 VDC 10% * 1 The speed is dependent on the workload.
.**. 29 (2-3) LECPLECA .32 1 - (2-3-1) LECPA . 32 (2-3-2) LECPA . 32 (2-3-3) LECPA . 34 5.4 .36 5.4.1 .36 (1) .36 (2) .38 5.4.2 .40 (1) .40 (2) .41 6. .42 6.1 .42 (1) .42 (2) .44 (2-1) LECPLECA .44 (2-2) LECPLECA .45 (2-3) LECPA .46 6.2 .47 (1) .47 (2) .47 (3) .48 (4) .50 (5) .51 (6) .52 (7) .54 (8) .54 6.3 .56 (1) .56 (2) .56 (2-1) .56 (2-2) .56 (3) .57 (3-1) .57 (3-1-a) TB Ver1.**. 57 (
Memory map . 42 2 - 10.1 Remote IO (Rx and Ry) . 42 10.2 Remote register (RWr and RWw) . 48 11. Setting Data Entry . 59 11.1 Step data . 59 11.2 Basic parameter . 62 11.3 Return to origin parameter . 65 11.4 Operation parameters . 66 12.
Wiring of cables/Common precautions.48 15. Electric actuators/Common precautions .49 15.1 Design and selection .49 15.2 Mounting.50 15.3 Handling.51 15.4 Operating environment .52 15.5 Maintenance .53 2 - 15.6 Precautions for actuator with lock.53 16.