STA-RITE J Series, Руководство пользователя

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3
PIPING - GENERAL
Support both suction and discharge piping indepen-
dently at a point near the pump to avoid putting a strain
on the pump housing. Start all piping AT THE PUMP.
Increase pipe diameter at both the suction and dis-
charge by one (1) standard pipe size (minimum) to
obtain desired performance and flow rate. Refer to
Table I when sizing pipe for your pumping system.
NOTE: Do not use pipe with smaller diameter on the
suction side of pump.
Do not allow pump or any system component to freeze.
To do so will void warranty.
TABLE I
Pipe Tapping Recommended
Size On Pump Pipe Size
Suction Discharge Suction Discharge
1-1/4 1 1-1/2 1-1/4
1-1/2 1-1/4 2 1-1/2
2 1-1/2 3 2
SUCTION PIPE
Increase pipe size from pump tapping as show in Table I.
Figure 1 (Page 2) depicts a recommended run of pipe
and fittings for the suction side of a centrifugal pump.
Please refer to this illustration when choosing pipe and
fittings for your suction connection.
IMPORTANT: All connections must be air tight!
Figure 2 (Page 2) depicts conditions that are NOT
DESIRABLE on the suction side of a centrifugal pump
and may cause problems in flow rate and priming.
Please look this illustration over carefully before choos-
ing pipe and fittings for your suction connection.
DISCHARGE PIPING
Increase pipe size from pump tapping as show in Table
I. Figure 1 (Page 2) depicts a recommended run of pipe
and fittings for the discharge. Install tee with priming
plug as close to pump as possible. Figure 2 (Page 2)
notes conditions that should be avoided. Please read
over carefully before making discharge connection.
PRIMING THE PUMP
A pump is primed when all air in the suction line and
pump volute has been evacuated and replaced with
water.
To Prime:
1. Close valve in discharge line.
2. Remove priming plug from tee and fill pump and suc-
tion line with water until water is flowing back out of
tee.
3. Replace priming plug.
4. Start pump and slowly open valve until desired water
flow is achieved.
NOTE: If water is not being pumped, turn off pump,
close valve, and repeat steps 1 thru 4.
If pump volute is rotated as shown in Figure 1 (Page 2),
loosen vent plug when priming to evacuate air trapped
inside volute and tighten when volute is completely
filled with water.
Never run pump against closed dis-
charge. To do so can boil water inside pump causing
hazardous pressure in unit, risk of explosion and possi-
bly scalding persons handling pump
Never run pump dry. Running pump with-
out water may cause pump to overheat, damaging seal
and possibly causing burns to persons handling pump.
Do not run the pump dry. This will dam-
age mechanical seal and void warranty.
Motor normally operates at high temper-
ature and will be too hot to touch. It is protected from
heat damage during operation by an automatic internal
cutoff switch. Before handling pump or motor, stop
motor and allow it to cool for 20 minutes.
TABLE II - RECOMMENDED FUSING AND WIRING DATA - 60 CYCLE MOTORS
DISTANCE IN FEET FROM MOTOR TO METER
BRANCH 0’ 51’ 101’ 201’ 301’ 401’
MOTOR MAX. LOAD FUSE* TO TO TO TO TO TO
HP AMPERES RATING 50’ 100’ 200’ 300’ 400’ 500’
AMPS
WIRE SIZE
SINGLE PHASE - 115/230 VOLT
1/3 8.2 15 14 14 12 10 8 8
1/2 8.2/4.1 15/15 14/14 14/14 12/14 10/14 8/14 8/14
3/4 11.6/5.8 15/15 14/14 14/14 12/14 10/14 8/14 6/12
1 14.2/7.1 20/15 12/14 12/14 10/14 8/14 6/12 6/12
1-1/2 18.0/9.0 30/15 10/14 10/14 8/14 6/12 6/12 4/10
THREE PHASE - 230/460 VOLT
1/2 2.2/1.1 15/15 14/14 14/14 14/14 14/14 14/14 14/14
3/4 2.9/1.45 15/15 14/14 14/14 14/14 14/14 14/14 14/14
1 3.6/1.8 15/15 14/14 14/14 14/14 14/14 14/14 14/14
1-1/2 4.8/2.4 15/15 14/14 14/14 14/14 14/14 14/14 14/14
*A Fusetron is recommended instead of a fuse in any motor circuit