VVXA21/22 .-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com VX3 VXA VN LVC How to Order Manifold Base Table (1) Orifice Size LVA Model Orifice size (No.) 2 (3 mm) VXA21 VXA22 3 (4.5 mm) 4 (6 mm) VVXA22 VVXA21 LVH LVD Number of stations 02 2 stations LVQ 10 10 stations Manifold base Manifold type Nil V Common
Note 1) How to Order Sub-plate Note 2) VQ4000 Note 3) Electrical entry Port size P S Plug-in conduit terminal Plug lead 02 03 Rc1/4 Rc3/8 Piping B Side piping Note 1) Bottom piping type is applicable to only Rc1/4. Refer to p.1.11-46 for thread standard.
41 50 135 164.5 200 219 50 60 79 90 77 1 8 1 2 3 x 3 4 3 x 1 1 4 95.5 111 119 VNH VNH 1 4 VND Note) ( ): CE-compliant product (-Q) VCC Model J K L M N O P Q R S T U VNH1 -10A A B VNH2 -15A A B VNH3 -20A A B VNH4 -25A A B M5 x 0.8 depth 5.5 M6 x 1 depth 6 M8 x 1.25 depth 6 M8 x 1.25 depth 6 20 24 24 29 36 48 51 25 30 35 38 30 40 50 56 37 43 50.5 58.5 75 100 126 141 88 118 148 163 36 44.4
: 4-48 32 : 1-12 65 : M5 x 0.8 93 : M30 x 3.5 05 : 5-40 33 : 1 1/8-7 66 : M6 x 0.75 94 : M36 x 4.0 06 : 5-44 34 : 1 1/8-12 67 : M6 x 1.0 95 : M16 x 1.25 07 : 6-32 35 : 1 1/4-7 68 : M8 x 1.0 96 : M36 x 1.5 08 : 6-40 36 : 1 1/4-12 69 : M8 x 1.25 97 : M36 x 2.0 09 : 8-32 37 : 1 3/8-6 70 : M10 x 1.25 10 : 8-36 38 : 1 3/8-12 71 : M10 x 1.5 11 : 10-24 39 : 1-14 72 : M12 x 1.5 12 : 10-32 40 : 1
3.3 . 13 (1)(LECGEN1) . 13 (2)DIN (LECGEN1D) . 13 3.4 . 14 (1) . 14 (2) . 14 4. . 15 4.1GW (B RATE) . 15 4.2 (CN2SW) . 16 4.3LEC . 16 4.4GW EtherNet/IP . 22 5. . 26 5.1 CN4 . 26 5.2 CN3 . 26 5.3 CN1CONT . 26 5.4 CN2PC/TB . 27 6.CN4 . 28 1 - 6.1 . 28 6.2 . 29 6.3 . 30 . 30 7.CN1(CONT) . 31 7.1 . 31 7.2 . 33 8.CNTB/PC . 34 8.1 . 34 9.LED . 35 9.1LED . 35 9.2 LED . 35 10. . 36
No FOR 36 NEXT command was executed without executing FOR command. No operation program 37 Trying to execute a program/step with no commands. Invalid movement command 38 Trying to execute a command other than MOVA, MOVI, or ASET with a step (position movement) designated operation. Format error 39 An error is found in the attached value of a command being programmed.
F 3 COMPRESSED AIR THEORY Units Pressur Prooerties of Gases lsothermic change (Boyle's Law) lsobaric change Charles Law Law of Gay Lussac lsochoric change Adiabatic (lsentropic) change Standard Volume Flow Bernoulli's Equation Air Humidity Relative humidity Pressur and Flow Use of the diagram: Formulae: 6 6 I 1 0 1 0 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 5 1 6 1 6 AE 36 36 5 AIR TBEATMENT
: 4-48 32 : 1-12 65 : M5 x 0.8 93 : M30 x 3.5 05 : 5-40 33 : 1 1/8-7 66 : M6 x 0.75 94 : M36 x 4.0 06 : 5-44 34 : 1 1/8-12 67 : M6 x 1.0 95 : M16 x 1.25 07 : 6-32 35 : 1 1/4-7 68 : M8 x 1.0 96 : M36 x 1.5 08 : 6-40 36 : 1 1/4-12 69 : M8 x 1.25 97 : M36 x 2.0 09 : 8-32 37 : 1 3/8-6 70 : M10 x 1.25 10 : 8-36 38 : 1 3/8-12 71 : M10 x 1.5 11 : 10-24 39 : 1-14 72 : M12 x 1.5 12 : 10-32 40 : 1
5 x 1.5 t5 73.2 36 32 0.28 5t427fi( It_433?96(tR)0tMl.0[l 25.0 38 30 M27x3 t3.2 36 32 0.28 A dimensions in millimeters. Notes: 1. To be lsed wth non-button models on y. 2. Max mum sideoad angle is 30'. I 6ffi. Adjustable Hydraulic Series lmperial Accessories JAM NUT (JN) fttolog llo. P.rt trrbo/ ljlodel 0el) lA JI JH Wsighl [.rJ Jlllill0xl J?44?
View A PFW31(-M) PFW3-B DIN rail type 8-M3 3 x 7.2 (= 21.6) 36 2-3.4 6.4 15 1 2 3 4 6.5 26 FLOW SWITCH SMC 35.5 30 56 (4.5) 44 UNIT RESET SET 5 6 7 8 29 38 15.2 26
(Default) Spare (SW2-2) Rotary axis setting switch (SW1) Description Display 0 Axis No.1 01 1 Axis No.2 02 2 Axis No.3 03 3 Axis No.4 04 4 Axis No.5 05 5 Axis No.6 06 6 Axis No.7 07 Down 7 Axis No.8 08 (Be sure to set to the 8 Axis No.9 09 "Down" position.) 9 Axis No.10 10 A Axis No.11 11 B Axis No.12 12 C Axis No.13 13 D Axis No.14 14 E Axis No.15 15 F Axis No.16 16 -12- 5.
Note2): Please purchase a commercially available button battery Y92S-36/OMRON or CR2477/Panasonic. Regular maintenance parts (major parts requiring replacement depending on operating conditions) Check the following parts regularly, and replace based on the referential timing. Description Qty./pc.
3.1 INOUT R INOUT 3.2 ONON IN OUT 5 IDF100150F-W 3.1 3 1 IDX-OM-Z004 3 ONOFF 0.05MPa 3.3 OFF OFF 3.4 3 3 5 3.5 OFF IDF100150F-W 3.3 3 2 IDX-OM-Z004 3 3.6 0 1 0 1 0 1 2 3 2 3 4 5 4 5 6 7 6 7 2 3 4 5 6 7 0 1 3 4 5 OFF OFF5.2 3 3 IDF100150F-W 3.6 3 3 IDX-OM-Z004 3 3.7 2A 80VA 100W DC5V,2mA IDF100150F-W 3.7 3 4 IDX-OM-Z004 4 4 4.1 5 310 4.2 4.2.1 (1) (2) JRA-GL-02
IDF240D-3-W Parts marked with square brackets are included in the package (900) 1647 (80) 770 1550 10K 100 Flange 10K 100 Compressed air inlet (730) 10K 100 Flange 10K 100 1640 Terminal block Compressed air outlet Power supply port signal connection port (36) R1 Cooling water outlet R1 Cooling water inlet R1 (273) (223) (703) C1/2 R Grommet with membrane (Lower hole 36) (467) Rc 1/2 R1
F 3 COMPRESSED AIR THEORY Units Pressur Prooerties of Gases lsothermic change (Boyle's Law) lsobaric change Charles Law Law of Gay Lussac lsochoric change Adiabatic (lsentropic) change Standard Volume Flow Bernoulli's Equation Air Humidity Relative humidity Pressur and Flow Use of the diagram: Formulae: 6 6 I 1 0 1 0 1 1 1 1 1 1 1 1 1 2 1 2 1 2 1 2 1 2 1 3 1 5 1 6 1 6 AE 36 36 5 AIR TBEATMENT
KPGL06-M5 KPGL06-01 KPGL06-02 KPGL08-01 KPGL08-02 KPGL10-02 KPGL10-03 KPGL12-03 KPGL12-04 17 21 25 18.5 23.5 27.5 26 30 33 34.5 37 39.5 KPQL04-M5 KPQL04-01 KPQL04-02 KPQL06-M5 KPQL06-01 KPQL06-02 KPQL08-01 KPQL08-02 KPQL10-02 KPQL10-03 KPQL12-03 KPQL12-04 8 15.3 22 26 15.8 23.2 27.2 24.4 28.4 29.9 31.9 33.1 37.1 8 10 14 8 10 14 12 14 4 10 19 6 12 20 13 21 26 36 38 65 4 18 4 4 10.4 20.7 D1
KPGL06-M5 KPGL06-01 KPGL06-02 KPGL08-01 KPGL08-02 KPGL10-02 KPGL10-03 KPGL12-03 KPGL12-04 17 21 25 18.5 23.5 27.5 26 30 33 34.5 37 39.5 KPQL04-M5 KPQL04-01 KPQL04-02 KPQL06-M5 KPQL06-01 KPQL06-02 KPQL08-01 KPQL08-02 KPQL10-02 KPQL10-03 KPQL12-03 KPQL12-04 8 15.3 22 26 15.8 23.2 27.2 24.4 28.4 29.9 31.9 33.1 37.1 8 10 14 8 10 14 12 14 4 10 19 6 12 20 13 21 26 36 38 65 4 18 4 4 10.4 20.7 D1
KPGL06-M5 KPGL06-01 KPGL06-02 KPGL08-01 KPGL08-02 KPGL10-02 KPGL10-03 KPGL12-03 KPGL12-04 KPQL04-M5 KPQL04-01 KPQL04-02 KPQL06-M5 KPQL06-01 KPQL06-02 KPQL08-01 KPQL08-02 KPQL10-02 KPQL10-03 KPQL12-03 KPQL12-04 17 21 25 18.5 23.5 27.5 26 30 33 34.5 37 39.5 8 15.3 22 26 15.8 23.2 27.2 24.4 28.4 29.9 31.9 33.1 37.1 8 10 14 8 10 14 12 14 4 10 19 6 12 20 13 21 26 36 38 65 4 4 4 18 10.4 20.7 D1
KPGL06-M5 KPGL06-01 KPGL06-02 KPGL08-01 KPGL08-02 KPGL10-02 KPGL10-03 KPGL12-03 KPGL12-04 17 21 25 18.5 23.5 27.5 26 30 33 34.5 37 39.5 KPQL04-M5 KPQL04-01 KPQL04-02 KPQL06-M5 KPQL06-01 KPQL06-02 KPQL08-01 KPQL08-02 KPQL10-02 KPQL10-03 KPQL12-03 KPQL12-04 8 15.3 22 26 15.8 23.2 27.2 24.4 28.4 29.9 31.9 33.1 37.1 8 10 14 8 10 14 12 14 4 10 19 6 12 20 13 21 26 36 38 65 4 4 4 18 10.4 20.7 D1
Air Flow/Effective Area Model AS12l1FM AS13l1FM AS22l1FM-01 AS23l1FM-01 AS22l1FM-02 AS23l1FM-02 6, 8 Tube O.D.