Digital pressure switch for energy-saving control ejector P_1 = A-(A-B)/4 A = Maximum pressure value H_1 = | (A-B)/2| B = Minimum pressure value To clear the stored auto-preset settings, press the and buttons simultaneously for 1 second or longer. -31NO.ZK2-OM00501-B [F 6] Fine adjustment of display value This function is used to manually perform fine adjustment of the displayed pressure. It is adjustable within the range 5% R.D.
D1 Port B min. port size Weight (g) a b H (Hex.)
P_1 = A-(A-B)/4 A = Maximum pressure value H_1 = | (A-B)/2| B = Minimum pressure value To clear the stored auto-preset settings, press the and buttons simultaneously for 1 second or longer. -29No.TQ0010298-OM003-B [F 6] Fine adjustment of display value This function is used to manually perform fine adjustment of the displayed pressure. It is adjustable within the range 5% R.D.
B-1 A-1 B-2 A-2 B-3 A-3 Signal Cable color S Brown Red Orange Y ellow Green Blue A A B B COM-A/COM COM-B/ 2 1 6 5 3 4 Cable color Connector D terminal no.
Push Button (Mushroom)/VM120-01-30R, B, G, Y/VM130-01-30R, B, G, Y Panel mounted hole JIS Symbol 2 port 3 port 21N F.O.F. 0.5MPa supply 4.9mm P.T. 1.6mm O.T. 6.5mm T.T. Push Button (Extended)/VM120-01-32R, B, G, Y/VM130-01-32R, B, G, Y Panel mounted hole JIS Symbol 2 port 3 port 21N F.O.F. 0.5MPa supply 4.9mm P.T. 1.6mm O.T. 6.5mm T.T.
20 0.19 b 0.3 37 30 0.39 b 0.48 19 40 0.79 b 0.8 1.3 1 Compared with existing products (AFFmC, AMmC, and AMDmC series) 2 Compared with existing products (AMFmC series) 50 1.25 b 1.3 4 60 1.50 b 2.0 25 Color-identifiable elements This eliminates the accumulation of condensate.
Hold either body A (1) or body B (2), and separate the body A and B by pushing the vane shaft (3) out. 4. Take out the vane shaft (3), stoppers (4). (The stopper pin must not be removed from the stopper.) B
Change of fluid passage Flow Characteristics Flow characteristics 1 2 (P A) C [dm 3/(sbar)] 27 38 Port size 2 3 (A R) C [dm 3/(sbar)] 27 40 2 1 (A P) C [dm 3/(sbar)] 25 40 3 2 (R A) C [dm 3/(sbar)] 26 38 b 0.38 0.30 b 0.37 0.32 b 0.36 0.22 b 0.37 0.20 Cv 7.0 9.8 Cv 7.4 9.8 Cv 7.3 9.8 Cv 6.8 9.6 1/2 3/4 N.C. N.O.
NPTF PodLocallon P A B EA EB sP0101/sP01r r 1/B s S sPot0zsP0112 S sP01m/sP0113 1/6 9B S/B S/B s/B S/B sPoto4/sP0114 1/. B B B sPor05/sP011s la S S S Electrictl Conncllons: Class 1 suFplates provide access of alectri(El solenoid leads from the vatue bass inlothe conduitcavitywithinthe sub-platediecasting.
240 VAC 50/60 Hz 9 Other Option Accessory Function plate (D sealing, with thread): DXT060-32-4A 17-4-32 3 Series VNH High Pressure Coolant Valve 3.5 MPa, 7.0 MPa Specifications 3 port valve 2 port valve A B Model A B VNH211 -15A A B VNH311 -20A A B VNH411 -25A A B VNH113 -10A A B VNH213 -15A A B VNH313 -20A A B VNH413 -25A A B VNH133 -10A A B VNH233 -15A A B VNH333 -20A A B VNH433 -25A VNH111
Applicable cable O.D. 6 to 8 (D, DZ) P Pg9 J (DIN terminal: D, DZ) I (Grommet: G) F (Air operated) Pilot port 12 (P1) 2 x (Back side 10 (P2)) 4 x M 8 1 Manual override (Non-locking push type) P1 D S Q E 15 B A H (DIN terminal: D, DZ) G (Grommet: G) A R B C Main port 1 (A) (Back side 2 (B)) Port side: refer to table below Model Main port 1(A), 2(B) A B C D E F G H I J K L M N P Q R S VNB2V
When connecting wire, be careful because using lead wire that is outside of compatible lead wire ranges, or that are tightened to anything other than the proper torque, creates a risk of defective contact and other problems. -15No.SJ2000-OMM0001-B -16No.SJ2000-OMM0001-B -17No.SJ2000-OMM0001-B -18No.SJ2000-OMM0001-B -19No.SJ2000-OMM0001-B -20No.SJ2000-OMM0001-B -21No.SJ2000-OMM0001-B -22No.SJ2000
Dimensions Meter-out type Meter-in type F E D B A C J G K H L B Model A MIN. MAX. MIN. MAX.
HED003-W2 A B 13 19 HED003-C2A B (Temperature Controller) HED003-HW13 19 (Heat Exchanger) HED005-W2 A B 13 19 HED005-C2A B (Temperature Controller) HED005-HW13 19 (Heat Exchanger) HED007-W2 A B 13 19 HED007-C2A B (Temperature Controller) HED007-HW13 19 (Heat Exchanger) Keep this manual available whenever necessary.
8370: JIS B 8361: JIS B 9960-1: -(1 ) JIS B 8433-1993: *2) 1. 2. 3. 1. 2. 3. 4. 3 - LEH Series / / *3) ,, 3) 1 1 1 1.5 () 4 - 1./ 1.1 (1) -1.
Without brake C section details Cross section BB l\rodel D F L 1 5 4 231 LXPB B-50 L X P B B . 7 5 173 256 52 L X P B _ B _ 1 0 0 204 281 246 323 LXPB B -.125 L X P B B 1 5 0 271 348 120 90 L X P B _ B _ 1 7 5 296 373 LXPB_B_-200 321 394 ?$rc zs S8[i8$ [10 Camraclnectl' 0i|llomiom $lift $crExi tlE LXPB S With brake I I shows the localion at which origin point swiich operates.
A built-in pressure gauge, mountable at any angle, depending on the piping direction ensures good visibility of the pressure gauge, even when the AWG is mounted at an overhead or underfoot location. Equipped with a special mechanism, the pressure gauge will not be revolved even after the handle is operated. Due to the unique design, substantial space reduction is achieved when the AWG is
A built-in pressure gauge, mountable at any angle, depending on the piping direction ensures good visibility of the pressure gauge, even when the AWG is mounted at an overhead or underfoot location. Equipped with a special mechanism, the pressure gauge will not be revolved even after the handle is operated. Due to the unique design, substantial space reduction is achieved when the AWG is
A built-in pressure gauge, mountable at any angle, depending on the piping direction ensures good visibility of the pressure gauge, even when the AWG is mounted at an overhead or underfoot location. Equipped with a special mechanism, the pressure gauge will not be revolved even after the handle is operated. Due to the unique design, substantial space reduction is achieved when the AWG is
A built-in pressure gauge, mountable at any angle, depending on the piping direction ensures good visibility of the pressure gauge, even when the AWG is mounted at an overhead or underfoot location. Equipped with a special mechanism, the pressure gauge will not be revolved even after the handle is operated. Due to the unique design, substantial space reduction is achieved when the AWG is