HRX-OM-W002 Operation at occurrence of circulating fluid discharge pressure rise alarm RUN HIPRS ALARM(Alternately displayed) HRR Series 5.5 Advanced setting mode 5-33 HRX-OM-W002 Chapter 5 Display and Setting of Various Functions The user can decide the chiller behaviour if alarm "AL 09: circulating fluid discharge pressure rise" occurs.
RUN Alarm setting menu TOP screen HRR Series 5.5 Advanced setting mode 5-33 HRX-OM-X071 Chapter 5 Display and Setting of Various Functions Changing of circulating fluid discharge pressure rise alarm behaviour 2. Press the [] key. Displays screen for changing the chiller behaviour when the circulating fluid discharge pressure rise alarm occurs.
XL-OMY0001 L // XLA-2 2 11 4 , 2.2 5 , , , , 33 7 4. 9 5 11 6. 13 7 14 1 XL-OMY0001 *1) *2) (ISO/IEC) (JIS) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules relating to systems IEC 60204-1: Safety of machinery -Electrical equipment of machines (Part 1: General requirements) ISO 10218: Manipulating
No.IP8S-OM09 33 (on) and (oFF) of forced fully-close / fully-open setting can be set independently for fully-close side and fully-open side. (on) is set for fully-close setting and fully-open setting for the default value at ex-factory.
Fig. 33 No.DIG-31900-OM002 39 Parameter Setting Procedure This parameter is fixed when shipped out of the factory. User can not change it. (000) Actuator type (200) Operation direction Customer can select direct (dir) or reverse (rvs).
25.4 25.4 25.4 25.4 28.7 27.7 27.7 27.7 40.7 40.7 42.7 65.4 65.7 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 1 11.6 11.6 17.6 34.6 11.6 MXQ8B 29 13.9 13.9 13.9 13.9 13.9 13.9 2 9.1 9.1 17.1 17.1 36.1 36.1 MXQ12B 16.5 16.5 16.5 16.5 16.5 16.5 16.5 16.5 24.1 18.1 18.1 25.1 25.1 31.1 50.1 50.1 MXQ16B 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.6 20.6 33
Wiring method and examples of auto switches 33 - 4. Maintenance 4-1. Consumable parts Fig. 14 Replaceable seals 4-1-1. Seal kit Bore size (mm) Order No. Operation 32 MWB32-PS 17 Rod seal 1 pc 36 Rod seal 1 pc 37 Piston seal 1 pc 38 Cushion seal 2 pcs 40 Cylinder tube gasket 2 pcs 40 MWB40-PS 50 MWB50-PS 63 MWB63-PS 80 MWB80-PS 100 MWB100-PS Lock part is replaced as an entire unit.
. # 0 0 O R [CR] No. 0 0: 1: # 0 0 O W [CR] No. 0 0: 1: # 0 0 O W [CR] No. 33 - # 0 0 I R [CR] No. # 0 0 I R [CR] No. 0 0:A /B 1:UP/DOWN # 0 0 I W [CR] No. 0 0:A /B 1:UP/DOWN # 0 0 I W [CR] No. 34 - # 0 0 B R [CR] No. # 0 0 B R [CR] No. 0 0:OFF 1:ON # 0 0 B W [CR] No. 0 0:OFF 1:ON # 0 0 B W [CR] No. 35 - # 0 0 R S [CR] No. # 0 0 R S [CR] No. # 0 0 H R [CR] No. # 0 0 H R
The Directi on of Memory 33 9-3-2 Input Signal Content Start One started, setting position will be inputted. One step of movement per one shot (above 50msec). Next : Start signal (above 50msecs signal) will be received and activated to carry out subsequence step, only if homing has been performed and origin signal has been fed back to controller.
No.CE*-OMQ0011-A : : ML2B CEU2 SMC 1 4 2 2-1. 10 2-2. 11 2-3. 11 2-4. 11 3 3-1. 1213 3-2. 14 3-3. 1516 4 4-1. 17 4-2. 1819 4-3. 2021 5 5-1. () 22 5-2. 22 5-3. 23 6 6-1. () 24 6-2 24 6-3 25 7 7-1 26 7-2 27 7-3 28 8 8-1 29 8-2 29 - 9 9-1 9-1-1. 3031 9-1-2. 32 9-2. 9-2-1. 32 9-2-2. 32 9-3. 9-3-1. 33 9-3-2. 34 9-3-3.
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.
Note 5) Leave an interval of 15ms (the recommendation is 30ms) or more between input signals and maintain the state of the signal for 15ms (the recommendation is 30ms) or more, because PLC processing delays and controller scanning delays can occur. 29 - 2) Signals when Stopped: In the event when EMG is used / See 5.1 Warning (9) on p. 33 The operating sequence is 1. Stop 2.
LEF-OM00601 / / / LEF Series LECSeries /LEC6 . 2 1/. 4 . 4 . 5 . 7 2 . 9 LEF / . 9 LEF/ . 12 . 14 . 15 3 . 17 . 17 . 18 . 21 . 27 4 . 30 5 . 31 51 . 31 52 . 32 53 . 32 54 . 33 55 . 34 56 . 34 6. 35 61 . 35 62 . 35 63 . 36 64 . 36 65 . 38 . 39 LEF Series/ (ISO/IEC) (JIS)1)2) *1) ISO 4414:Pneumatic fluid power -General rules relating to systems.
/LEHS .20 4.1 . 20 4.2 . 21 4.3 . 22 5.23 5.1 . 23 5.2 . 24 5.3 . 27 . 27 . 29 (1). 31 (2). 32 (3). 33 . 34 5.4 . 36 . 36 . 38 1 - 6.39 7.40 7.1 . 40 7.2 . 41 7.3 . 41 7.4 . 42 7.5 . 44 7.6 . 44 8.45 8.1 . 45 8.2 . 46 8.3 . 50 8.4 . 53 .54 2 - LEH Series / (ISO/IEC)(JIS)1) 2) *1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General
control) 22 12 6 26 13 7 34 17 9 34 17 9 Supplement 1.2 Initial setting of LEFS series Model LEFS16 LEFS25 Lead symbol A B H A B Lead [mm] 10 5 20 12 6 Stroke (mm) 500 500 500 600 700 800 600 700 800 600 700 800 Max. speed [mm/s] 500 250 100 900 630 550 500 420 330 250 230 180 0 Min. speed [mm/s] (Independent and interpolation) 10 5 20 12 6 Min. speed [mm/s] (Speed tuning control) 17 9 33
CN5I/O . 23 6.1 . 23 6.2 (NPNPNP ) . 23 (1) I/O (NPNPNP ) . 23 (2) I/O . 23 6.3 . 24 6.4 I/O . 27 7. . 28 7.1 . 28 7.2 . 31 7.3 . 33 8. . 34 8.1 . 34 8.2 . 34 8.3 . 35 (1) . 35 (2) (). 35 (3) . 35 8.4 . 36 8.5 . 36 9. (). 37 9.1 . 37 9.2 . 38 10. . 39 10.1 . 39 10.2 I/O . 39 (1) . 39 (2) . 40 (3) . 41 (4) HOLD. 42 (5) . 42 2 - 6 . 42 (7) . 43 11. . 44 11.1 . 44 11.2 (). 45 11.3 I/O . 46 11.4
CN5I/O .23 6.1 /.23 6.2 /(NPNPNP ).23 (1) I/O (NPNPNP ).23 (2) I/O .23 63 /.24 64 I/O .27 7 .28 71 .28 72 .31 73 .33 8 .34 81 .34 82 .34 83 .35 1 .35 2 (.35 3 .35 84 .36 85 .36 9 .37 91 .37 92 .38 10 .39 101 .39 102 I/O .39 1 .39 2 .40 3 .41 4 HOLD.42 5 .42 2 - 6 .42 7 .43 11 .44 111 [5m ].44 112 [820m].44 113 [5m ].45 114 [820m] .45 115 I/O .46 116 .46 117 .47 12. .48 12.1 .48 12.2 .49 13
Note that when the SETON output is OFF, the AREA signal will also be OFF. *1) It maybe takes about ten seconds from turning on SVON to SVRE turned on when after the power supply. *2) The ALARM and ESTOP become the negative-true logic output. 33 - The change of output signal under the condition of the driver.
LED display.32 10. 1 LED display.32 10. 2 Controller IF communication status and LED display.33 11. Mode.34 11. 1 Outline.34 11. 2. Step data input mode .34 11. 3. Numerical data input mode.34 11. 4. Data writing mode.36 12.
LED display.32 10. 1 LED display.32 10. 2 Controller IF communication status and LED display.33 11. Mode.34 11. 1 Outline.34 11. 2. Step data input mode .34 11. 3. Numerical data input mode.34 11. 4. Data writing mode.36 12.