NVEPA|VEFseies P O H o w t o O r d e r . . . . . . . . . P @ Dimensions/ Handling Instructions . . . . . P@, @, @ External Connections P@, @ Features and Functions P@ Sample Applications . . .
Applied voltage 24 V 0 V Electric waveform 6 W 1.5 W 0 W 5 ms Residual voltage of the surge voltage suppressor If a diode surge voltage suppressor is used, there will be a residual voltage of approx. 1 V. Pay attention to the surge voltage protection on the controller side.
7 Piston rod A Piston seal w Note) Hard chromium electroplated Carbon steel NBR !8 Piston rod B Rod seal e Aluminum bearing alloy NBR !
Operation principles
7 Piston rod A Piston seal w Note) Hard chromium electroplated Carbon steel NBR !8 Piston rod B Rod seal e Aluminum bearing alloy NBR !
Dynamic moment Me3 We W L2 = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
Dynamic moment Me3 We W L2 = 1/3 14.7 (50 + 27) 103 Review Me3. = 0.38 [Nm] 3 = Me3/Me3 max = 0.38/3 = 0.13 Guide central axis A Me1 W We Me1 = 1/3 We (L1 + B) 103 = 1/3 14.7 (50 + 48) 103 L1 B = 0.48 [Nm] 4 = Me1 /Me1 max = 0.48/3 = 0.16 Review Me1.
Calculation Pad W P S t : Lifting force (N) : Vacuum pressure (kPa) : Pad area (cm 2) : Safety factor Horizontal lifting: 4 or more Vertical lifting: 8 or more Horizontal lifting Vertical lifting W = P x S x 0.1 x 1 t This type of application should basically be avoided.
W (44) Z (X) (V) T R (Y) T 25 IN port 2-3/8 l=280 l=300 2.5 (N) E A (U) S Q D G C C B L1 L2 L3 16 D side U side Stations 1 2 3 4 5 n 21 5.5 16 OUT port n-1/4 n-1/8 H H P=J (Pitch) 2 : Thread type L dimensions (mm) n (stations) Model Dimension 2 3 4 6 9 7 5 8 10 L1 69 103.5 138 207 310.5 241.5 172.5 276 345 VV2CW2 L2 81 115.5 150 219 322.5 253.5 184.5 288 357 L3 93 127.5 162 231 334.5 265.5
/W valve for vacuum applications.
Item XL -25 XL -40 XL -50 XL -63 XL -80 Rated heater voltage 90 to 125VAC 200/10 200/20 400/40 400/60 600/100 Heater power W (nominal value) In-rush/Normal (Option symbol) H1 80C (176F) 200/40 200/60 400/100 600/150 H2 100C (212F) 200/30 400/70 400/80 600/130 800/180 H3 120C (248F) Note) In-rush current will flow to the heater for approximately 30 seconds and will then subside.
D side U side Stations 1 2 3 4 5 n 21 16 H H P=J (Pitch) OUT port n-1/4 n-1/8 T : Thread type 2 5.5 25 IN port 2-3/8 l=280 l=300 (V) (X) 2.5 (N) (U) E C D G Q S A C B L1 L2 16 L3 (44) W T R Z (Y) L dimensions (mm) n (stations) Model Dimension 4 3 5 9 2 6 10 7 8 138 103.5 172.5 310.5 L1 69 207 345 241.5 276 VV2CW2 150 115.5 184.5 322.5 L2 81 219 357 253.5 288 162 127.5 196.5 334.5 L3 93 231
Conduit terminal w/ indicator light For obtaining the flow rate, refer to page 4-1-6.
Refer to gauge guide (P.94,95). t t r w w w q q q Sample Order Number Port t r q 4 4 4 4 4 w 4 4 4 4 4 AK1002S e 2P 3P 4P 4PL 5PC 2P 3P 4P Pressure gauge unit 2) MPA MPA MPA MPA V3 V3 V3 V3 t r t 1 Unit psig/bar MPa Code 0 0 No code MPA w w q q 1 2) Pressure gauge unit MPa or psig/bar selectable.
w t t q q IN OUT IN OUT e y y e r u r u Drain Drain Component Parts No.
w t t q q IN OUT IN OUT e y y e r u r u Drain Drain Component Parts No.
Power dissipation (W): For AC , W = V/A cos. For DC, W = V/A (Note) cos shows power factor. LVD LVQ 2. Surge voltage The surge voltage is a high voltage generated momentarily when cutting the power supply. LQ 3. Hum sound The hum sound is a noise generated through repeated adsorption and releasing on an armature adsorption surface.
2 @6 t @4 w @8 r !1 @5 @3 @2 e !6 A A C B M(D)LUB25 y !9 i o !5 @0 Extension locking w q Section A-A !
P O H o w t o O r d e r . . . . . . . . . P @ Dimensions/ Handling Instructions . . . . . P@, @, @ External Connections P@, @ Features and Functions P@ Sample Applications . . .