Datasheet

ManualsBrandsSMC ManualsAutomationProcess Valve G3/4 230 VAC ≤ 1.5 MPa 2/2 Opener (N.C.)

Fig. (1) Test circuit based on ISO 6358, JIS B 8390

ød2

ød1

3d3

3d210d23d110d1≥ 10d3

ød3 ≥ 3d1

Pressure gauge or

pressure convertor

Differential pressure gauge or

differential pressure converter

Thermometer

Flow control

valve

Pressure control

equipment

Pipe for

measuring

pressure in the

downstream side

Pipe for

measuring

pressure in the

upstream side

Equipment

for test

Pipe for measuring

temperature

Flow meter

Shut off

valve

FilterAir

supply

: Sonic conductance [dm

/(s·bar)]

: Critical pressure ratio [—]

: Upstream pressure [MPa]

: Downstream pressure [MPa]

: Temperature [°C]

Note) Formula of subsonic flow is the elliptic analogous curve.

Flow-rate characteristics are shown in Graph (1) For details, please make use of SMC’s “Energy Saving

Program”.

Example)

Obtain the air flow rate for P1 = 0.4 [MPa], P2 = 0.3 [MPa], t = 20 [°C] when a solenoid valve is performed in

C = 2 [dm

/(s·bar)] and b = 0.3.

293

According to formula 1, the maximum flow rate = 600 x 2 x (0.4 + 0.1) x ————— = 600 [dm

/min (ANR)]

273 + 20

0.3 + 0.1

Pressure ratio = ————— = 0.8

0.4 + 0.1

Based on Graph (1), the flow rate will be 0.7 when the pressure ratio is 0.8 and b = 0.3.

Hence, flow rate = Maximum flow rate x flow rate ratio = 600 x 0.7 = 420 [dm

/min (ANR)]

(4) Test method

Attach a test equipment with the test circuit shown in Fig. (1) while maintaining the upstream pressure to a

certain level which does not go below 0.3 MPa. Next, measure the maximum flow to be saturated in the first

place, then measure this flow rate at 80%, 60%, 40%, 20% and the upstream and downstream pressure. And

then, obtain the sonic conductance C from this maximum flow rate. Besides that, substitute each data of

others for the subsonic flow formula to find b, then obtain the critical pressure ratio b from that average.

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1

Equipment

C, b

b = 0.1

0.2

0.5

0.6

0.3

0.4

Pressure ratio (

P2 + 0.1) / (P1 + 0.1)

Graph (1) Flow-rate characteristics

Flow rate ratio

Series VXZ