© Copyright 2017 Zoeller
®
Co. All rights reserved.
3
Model
HP
Service
Factor
RPM
Voltage
Phase
Hertz
Amps
KVA
Code
Winding
Resistance
Line-to-Line
Full Load
In Air
Shut Off
Locked Rotor
EX611
1
1.2
1750
230
1
60
6.9
4.1
4.7
48.0
M
2.5 / 4.8
JX611
1
1.2
1750
200
3
60
4.8
3.3
3.7
32.0
M
2.2
FX611
1
1.2
1750
230
3
60
4.2
2.2
2.6
28.0
M
3
GX611
1
1.2
1750
460
3
60
2.1
1.1
1.3
14.0
M
12
BAX611
1
1.2
1750
575
3
60
1.7
1.0
1.1
11.5
M
18
EX621
1-1/2
1.2
1750
230
1
60
8.9
4.3
5.3
48.0
J
2.5 / 4.8
JX621
1-1/2
1.2
1750
200
3
60
5.9
3.3
3.7
32.0
J
2.2
FX621
1-1/2
1.2
1750
230
3
60
5.1
2.3
2.9
28.0
J
3
GX621
1-1/2
1.2
1750
460
3
60
2.6
1.2
1.5
14.0
J
12
BAX621
1-1/2
1.2
1750
575
3
60
2.0
1.0
1.3
11.5
J
18
EX631
2
1.2
1750
230
1
60
14.5
7.2
8.0
86.0
L
.94 / 3.8
JX631
2
1.2
1750
200
3
60
7.8
4.5
5.0
46.0
J
1.5
FX631
2
1.2
1750
230
3
60
6.8
2.3
4.4
41.0
K
2
GX631
2
1.2
1750
460
3
60
3.4
1.2
2.2
20.5
K
8
BAX631
2
1.2
1750
575
3
60
2.7
1.4
1.8
16.2
K
12
EX641
3
1.2
1750
230
1
60
17.0
7.2
8.9
86.0
H
.94 / 3.8
JX641
3
1.2
1750
200
3
60
11.0
4.5
5.6
46.0
F
1.5
FX641
3
1.2
1750
230
3
60
9.6
2.3
4.7
41.0
F
2
GX641
3
1.2
1750
460
3
60
4.8
1.7
2.4
20.5
F
8
BAX641
3
1.2
1750
575
3
60
3.9
1.4
2.0
16.2
F
12
EX651
5
1.2
1750
230
1
60
28.0
16.1
19.7
139.0
H
.9 / 3.1
JX651
5
1.2
1750
200
3
60
17.5
6.1
7.6
64.0
D
1
FX651
5
1.2
1750
230
3
60
15.2
6.1
7.4
58.0
E
1.3
GX651
5
1.2
1750
460
3
60
7.6
3.1
3.7
29.0
E
5.2
BAX651
5
1.2
1750
575
3
60
6.1
1.5
3.4
23.0
E
8.0
JX661
7-1/2
1.0
1750
200
3
60
25.3
17.9
18.3
83.0
C
0.5
FX661
7-1/2
1.0
1750
230
3
60
22.0
15.0
15.7
72.0
C
0.7
GX661
7-1/2
1.0
1750
460
3
60
11.0
7.5
7.9
36.0
C
2.8
BAX661
7-1/2
1.0
1750
575
3
60
9.0
5.3
5.8
29.0
C
5.4
G661
7-1/2
1.0
1750
460
3
60
11.0
7.5
7.9
36.0
C
2.8
BA661
7-1/2
1.0
1750
575
3
60
9.0
5.3
5.8
29.0
C
5.4
*Consult Factory.
Preinstallation Information
Electrical Data
1
. Check to be sure your power source is capable of handling the voltage requirements
of the motor, as indicated on the pump nameplate.
2.
The float switches must be connected to an intrinsically safe circuit in the control
panel. The installation of float switches is the responsibility of the installing party
and care should be taken that the tethered float switch will not hang up on the pump
apparatus or pit peculiarities and is secured so that the pump will shut off. It is
recommended that rigid piping and fittings be used and the pit be 36" (91.4 cm) or
larger in diameter.
3. INFORMATION - VENT HOLE PURPOSE.
It is necessary that all submersible pumps
capable of handling various sizes of solid waste be of the bottom intake design to
reduce clogging and seal failures. If a check valve is incorporated in the installation,
a vent hole [approx. 3/16" (4 mm)] must be drilled in the discharge pipe below the
check valve and pit cover to purge the unit of trapped air. Water stream will be visible
from this hole during pump run periods. This vent hole should be checked periodically
for clogging and cleaned as necessary. Trapped air is caused by agitation and/or a
dry basin.
4.
Water hammer creates momentary high pressure surges. These surges can cause
severe damage to check valves and the piping system. Consideration for water
hammer must be included in the piping system design. Reference ASPE Data Book,
Chapter 2.33. Some systems may require external spring or lever weighted check
valves or other engineered solutions.
5.
Three phase pumps must be connected for proper rotation, which is counterclockwise
looking into impeller inlet. See page 5 for instructions for checking 3 phase rotation.
6.
Care should be taken during the initial installation to be sure that adequate air supply
is available whenever any person is in the basin. Always follow OSHA guidelines on
confined space requirements.
1. Inspect your pump.
Occasionally, products are damaged during shipment. If the unit is damaged, contact your distributor before using.
DO NOT
remove the test plugs in the cover nor the motor housing.
2. Carefully read the literature
provided to familiarize yourself with specific details regarding installation and use. These materials should be retained for future reference.
3. National Electrical Code (NEC) articles 500 through 503 explain in detail the requirements for the installation and wiring of electrical equipment in hazardous locations.
1.
Not for use in acidic atmospheres.
2.
Do not lift, carry, or hang pump by the electrical cables. Damage to the electrical cables
can cause shock, burns or death.
3. Make sure there is a properly grounded connection available.
All pumps are furnished
with provisions for proper grounding to help protect you against the possibility of electrical
shock.
4.
Make certain that the control box is within the reach of the pump’s power supply cord.
DO NOT USE AN EXTENSION CORD.
Extension cords that are too long or too light do
not deliver sufficient voltage to the pump motor. But, more importantly, they could present
a safety hazard if the insulation were to become damaged or the connection end were to
fall into the sump.
5. Make sure the pump electrical supply circuit is equipped with fuses and disconnect
or circuit breakers of proper capacity.
A separate branch circuit is recommended, sized
according to the “National Electrical Code” for the current shown on the pump nameplate.
6.
Risk of electric shock - These pumps have not been investigated for use in swimming
pool areas.
7.
According to the state of California (Prop 65), this product contains chemicals known to
the state of California to cause cancer and birth defects or other reproductive harm.
8.
Electrical wiring and protection
must
be in accordance with the National Electrical Code
per NEC articles 500 through 503 for installation in Class
I
, Division 1, Group C & D
environments, and any other applicable state and local electrical requirements.
CAUTION
SEE BELOW FOR
LIST OF CAUTIONS
SEE BELOW FOR
LIST OF WARNINGS
NOTE: CSA Certified pumps are certified to CSA Standard C22.2 No. 145.
Summary of Contents for X611
Page 28: ...28 NOTES ...
