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A smooth vent valve with an adjustable flow rate for both the initial and main air supplies.
[Features]
· An integrated valve and needle valve structure that requires on 1/4 the piping space of previous models.
· Uses a metal diaphragm for the seat section, greatly reducing the generation of particulate matter.
· Valve type: Normally closed (pressurize to open, spring seal).
Fluids: Nitrogen, air, inert gas.
· Operating temperature: 5 to 60°C (baking temperature, 150°C or less).
· Weight: 0.5 kg.
Part Number
Configured Part Number is shown.
XVD2-02S external appearance
XVD2-02V external appearance
Smooth Vent Valve (Supply Line) XVD Series symbols
Model | XVD2-02V | XVD2-02S | |
---|---|---|---|
Operating Pressure (Pa) | 1 × 10-6 (abs) to 0.2 MPa (G) | ||
Orifice Diameter (mm) | ø3 (Orifice diameter 3 mm) | ||
Effective Area mm2 | Main Air Supply | 4.6 | |
Initial Air Supply | 0.2 to 4.6 | ||
Amount of leakage Pa·m3/s | Internal | 5 × 10-9 | At normal temperature and excluding gas permeation |
External | 1.3 × 10-11 | At normal temperature and excluding gas permeation | |
Fitting | 1.3 × 10-11 | 1.3 × 10-10 | |
Piping Connection Method | For VCR | For Swagelok | |
Piping Size | 1/4 | ||
Main Material | Body: SUS316L, Major parts: SUS316L, SUS304, FKM (sealing material) | ||
Internal Surface Treatment | Body: EP Treatment | ||
Pilot Pressure MPa (G) | 0.4 to 0.7 (both main and initial air supplies) | ||
Pilot Port (M, S) Connection Port Diameter | M5 × 0.8 |
(Unit: mm)
Smooth Vent Valve (Supply Line) XVD Series dimensional drawing
Smooth Vent Valve (Supply Line) XVD Series
Use a flat-head screwdriver to gently turn the initial air supply lock screw (15) counterclockwise, loosening it until it stops. Continue to turn the initial air supply adjustment nut (4) clockwise. The location where the nameplate and the mark on the adjuster nut align and where you feel the rotational torque is where the minimum flow rate for the initial air supply is found. (Set by default when shipped to the minimum flow rate position. Note that tightening the initial air supply adjustment nut (4) any further than this position may prevent the fluid from flowing or damage internal parts. Structure/Operation)
After confirming the position of the initial air supply adjustment nut (4) and the angle alignment scale of the initial air supply scale plate (17), adjust the initial air supply amount by turning the nut counterclockwise. The initial air supply flow rate is set according to the rotation count and flow rate characteristics. After setting, lock by tightening the initial air supply lock screw (15) to a torque of 0.5 N·cm.
Use a flat-slot screwdriver to gently loosen the main air supply lock screw (16) and also to confirm that the main air supply adjustment nut (5) is rotating freely. Continue turning the main air supply adjustment nut (5) clockwise. The point where it stops is the initial air supply setting amount. After confirming the position of the main air supply adjustment nut (5) and the angle alignment scale of the main air supply scale plate (18), adjust the main air supply amount by turning the nut counterclockwise. After setting, lock by tightening the main air supply lock screw (16) to a torque of 0.3 N·cm.
Gas supplied from the IN (1) port side pushes down the valve open/close piston (10) via the initial spring (11), sealing the diaphragm (7) and valve seat (6) and stopping the gas. Apply pilot force to the pilot port S (20). Pilot pressure fills the lower portion of the open/close piston (10) which then moves by a specified amount and stops. The movement of the open/close valve piston (10) separates the diaphragm (7) from the valve seat (6), allowing the gas to flow. The flowing gas passes through the gap between the poppet valve (8) and a poppet seat (9) (initial air supply setting amount) and flows to the OUT (2) port.
With pilot pressure applied to the initial air supply valve pilot port (20), pilot pressure is applied to pilot port M (19). Pilot pressure fills the lower section of the poppet valve piston (12). The poppet valve piston (12) moves upward until it contacts the main air supply adjustment nut (5) and stops. The movement of the poppet valve piston (12) causes the connected poppet valve (8) to move further from the initial air supply adjustment position, allowing even more gas to flow to the OUT (2) port.
Number of rotations and flow rate characteristics
The initial and main air supplies can be stopped at the same time. The force of the main spring (13) activated by the exhaust from pilot port S (20) causes the open/close valve piston (10) to move downward, closing the diaphragm (7) and valve seat (6), stopping the supply of gas. The force of the initial spring (11) activated by the exhaust from pilot port M (19) causes the poppet valve piston (12) to move downward and the initial air supply to revert to its previous setting position.
Note 1: The feed for the main air supply is carried out with the initial air supply valve pilot port S (19) in a pressurized state.
Note 2: Mechanically, increasing the initial air supply amount will decrease the main air supply range.
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Type | Manual Vacuum Valve | Application | Single Use | Mounting Orientation | Direct |
---|---|---|---|---|---|
Number of Ports | 2-Port Valve | Switching Type | 2-Position Normally Closed | Effective Sectional Area(mm2) | 4.6 |
Plumbing Thread Nominal | 1/4 | Seal Type | Elastic Seal | CV Value | 84.87 |
Orifice Diameter(ø) | 3 |
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