VM (mm) Model H Bracket mounting dimensions Q Weight (g) 1(P) R 2(A) 2(A) R 3(R)* L1 L2 L3 L4 L5 L6 M1 M2 Bracket assembly no.
3 EA EA y A A P P r q B EB B !4 EB !7 !1 !2 t Component Parts Aluminum alloy NBR Note No. !0 Description Material PBT ADC Material Note No. q Description Black zinc chromated Metallic plated Pilot body Body Piston guide B Valve Metallic plated !1 !2 w e Return spring Cushion Cushion Valve spring Return spring Piston B Head cover r Stainless steel Spool/sleeve Stainless steel ZDC !
When a system hazard can be expected due to a drop in vacuum pressure caused by power loss or vacuum pump trouble, install a safety circuit and configure the system so that it can avoid the danger. 2. When a system hazard can be expected with a malfunction of the vacuum regulator, install a safety circuit and configure the system so that it can avoid the danger. 1.
In the graph, find where the lines repres-enting a load weight of 10 kg and a stroke of 300 mm intersect. A 50 bore size is selected.
Metric size Inch size Model Port size Pilot port 6 8 10 12 1/4" 5/16" 3/8" 1/2" ASP330F-01 ASP430F-02 ASP530F-03 ASP630F-04 ASP430F-F02 ASP530F-F03 ASP630F-F04 ASP330F-N01 ASP430F-N02 ASP530F-N03 ASP630F-N04 R 1/8 M5 x 0.8 R 1/4 Rc 1/8 R 3/8 Rc 1/8 R 1/2 Rc 1/4 R 1/4 G 1/8 R 3/8 G 1/8 R 1/2 G 1/4 NPT 1/8 10-32 UNF NPT 1/4 NPT 1/8 NPT 3/8 NPT 1/8 AS NPT 1/2 NPT 1/4 Note
Refer to the AR-A/AR-B/AR-D series catalog excerpt, which has been reproduced below.
The part number of the standard AR20 to AR60 round type pressure gauge is “G36-10-01,” or “G46-10-01”(for the R thread type).
For example, the part number of the AR30-03BG-A pressure gauge is “G36-10-01.”
Refer to the AR-A/AR-B/AR-D series catalog excerpt, which has been reproduced below.
The part numbers of standard AR20 to AR60 round type pressure gauges are “G36-10-01” and “G46-10-01”(for the R thread type).
For example, the part number of the AR30-03BG-A pressure gauge is “G36-10-01.”
AR10-A: Rc1/16
AR20-A to AR40-A, AR20(K)-B to AR60(K)-B, and AR20(K)-D to AR40(K)-D: Rc1/8
Old AR10: Rc1/16
Old AR20(K) to AR30(K): Rc1/8
Old AR40(K) to AR60(K): Rc1/4
Old AR1000: Rc1/16
Old AR2000 to AR3000: Rc1/8
Old AR4000 to AR6000: Rc1/4
AR10-A: Rc1/16
AR20-A to AR40-A, AR20(K)-B to AR60(K)-B, and AR20(K)-D to AR40(K)-D: Rc1/8
Old AR10: Rc1/16
Old AR20(K) to AR30(K): Rc1/8
Old AR40(K) to AR60(K): Rc1/4
Old AR1000: Rc1/16
Old AR2000 to AR3000: Rc1/8
Old AR4000 to AR6000: Rc1/4
, d e t e r i o r a t i o n o f a c c u r a c y, a n d breakage of parts.)
H E R M A N I F O L D O P T I O N S : L A T C H I N G S O L E N O I D T Y P E L A T C H I N G T Y P E V A L V E L A T C H I N G T Y P E V A L V E W I T H M A N U A L O V E R R I D E M A N I F O L D O P T I O N P A R T S A V A I L A B L E : P E R F E C T C H E C K B L O C K P E R F E C T C H E C K B L O C K W I T H V A L V E O R M A N I F O L D Courtesy of Steven Engineering, Inc. !
*sure dlsplay Accuracy J3% (lull span) Minimum unit [ i l P a : 0 . 0 1 . k a f / c m ' : 0 . 0 1 , b a r : 0 . 0 1 .
Millirrfeter size 1{1' Q I1'SiZeJ' , 0.6' r'~ '" 0Ur 0~ '2. , ~1/4' a!;'16" 03/4" 'ol/2~ AsP330F'!U R(PT)1/8 M5 X 0.8 J\SP. 4;JOF~02 R(PT)I /4 Rc(PD1 /8 IIS'P530F:03 R(PT)318 Rc(PT)lIS 'ASi"!)30l"'lJ4 " R(PT)1!2 Rc(PT)1I4 ASP;l3OF:,FO~ RIPT)114 G(PF)1I8 I\Sps:ioFf;03' R(PT)318 G(PF)118 ),I'SPsJOF;;04: R(PT)1 /2 G{PF)1/4 A~P33!1F" 'l Il1 NPT1 /8 10-32UNF ,~Sp430FNO,?
The pressure in the pilot chamber e increases and operates on the upper surface of the diaphragm r. As a result, the air supply valve t linked to the diaphragm r opens, and a portion of the supply pressure becomes output pressure. This output pressure feeds back to the control circuit i via the pressure sensor u.
HS 40, 50 25, 32 D-A73C D-A80C D-J79C Approx. 30.5 Approx. 26.6 A A A A 25, 32 40, 50 D-A79W D-F7WV D-F7V D-F7BAVL Approx. 30.5 Approx. 22 A A A A 40, 50 D-P5DW Approx. 31 A A Approx.
Fluororubber is used for rubber seal materials. 80 IR 0 Ozone resistant X170 IR 0 Compatible with modular connection brackets Modular Combination Example Description Applicable model IR100--X170 AF20-A AFM20-A Y200-A Y200T-A IR20--X170 AF30-A AFM30-A Y300-A Y300T-A IR30--X170 AF40-A AFM40-A Y400-A Y400T-A qRegulator wAir filter eMist separator rInterface tInterface with bracket Note 1) The
HS D-A7H D-A80H D-F7 D-J79 D-F7W D-J79W D-F7F D-F7NT D-F7BAL 40, 50 25, 32 Approx. 30.5 A A Approx. 22 A A Approx. HS 40, 50 25, 32 D-A73C D-A80C D-J79C Approx. 30.5 Approx. 26.6 A A A A 25, 32 40, 50 D-A79W D-F7WV D-F7V D-F7BAVL Approx. 30.5 Approx. 22 A A A A 40, 50 D-P5DW Approx. 31 A A Approx.
Then, a correct operation works until a vacuum pressure proportional to the input signal is reached, and a vacuum pressure is obtained which is always proportional to the input signal.
If a directional switching valve (solenoid valve, mechanical valve, etc.) is mounted on the supply side of the regulator and repeatedly switched ON and OFF, wear of the nozzle/flapper section will be accelerated and a discrepancy in the setting value may occur. Therefore, avoid using a directional switching valve on the supply side.