PUMP SALES CATALOG
P.O. Box 190 •• 101 Main 51. •• Parma, Idaho 83660 " (2()S) 722S 116
DESCRIPTION
SECTION
Introduction, Safety, Pump Selection
Performance Curves
Dimension Data
Parts Data
1
2
3
4
Pump/Ordering Instructions
5
Accessories
'
V-Belts, Sheaves, BUShings
Electrical Components
Wholegoods Prices
7
8
9
Repair Parts Prices
General (Terms, Discounts) Delivery
6
10
& Warranty Registration
11
INTRODUCTION
The PARMA WATER LIFTER has been manufactured
since 1907. This means you
can have confidence in our products based on the many years of reliable performance
from
PARMA PUMPS. Our engineers are continually seeking improvements and new ideas to
make today's PARMA PUMP the most modern and practical pump in the industry.
Their
simplici ty of design and quality construction make them virtually trouble-free
pumps that
are adaptable to almost any job in agriculture or industry where liquids and semi-liquids
need to be moved.
The PARMA PUMP is a submerged type of centrifugal pump which stands in the liquid
it is pumping. This fact makes it possible to completely eliminate the suction pipe, foot
valve, strainer and packing gland found in most pumps of this type. Since the PARMA
PUMP does not require a vacuum inside the bowl, all of these troublesome parts have been
left out of its design. It also produces more reliable operation, as weeds, trash, sewage
wastes, manufacturing
wastes, etc., can pass right through the pump without causing
damage or obstructing the flow.
CONDITION OF SALES
1. PRICES -NOTICE
The list prices of all items in this price book cover PARMA COMPANY's standard
design and the various parts are constructed of standard materials.
All prices are
FOB Parma, Idaho and subject to change without notice.
Prices charged shall be
prices in effect at the time of shipment regardless of date of order.
2. TAXES
These prices do not include sales, use, excise or similar taxes. Consequently,
in
addition to the price specified herein, the amount of any present or future sales, use
excise or other similar tax applicable to the sale of the equipment hereunder shall
be paid by the Purchaser, or in lieu thereof, the Purchaser shall provide PARMA
COMPANY with a tax exemption certificate
acceptable to the taxing authorities.
3. PACKING
Prices include packing for rail or commercial truck shipment only. Any special
packing required for export or other means of transportation
must be referred to the
factory for special pricing.
4. WEIGHTS
Weights given are approximate shipping weights.
5. SHIPMENTS
All promises of shipment are estimates contingent upon strikes, fires or other elements beyond our control.
The time of shipment shall be computed from the date
when PARMA COMPANY has received, from the Purchaser, a formal order with all
and complete details pertaining to the construction
of the pump and/or accessories.
6. DESIGN
All designs covered by this catalog are subject to minor modifications by PARMA
COMPANY at the time of manufacture
to meet the latest price and most efficient
operation.
If the pumps to be installed are to be used with an existing installation,
PARMA COMPANY shall furnish pumps to be interchangeable
as near as may be
feasible.
However, PARMA COMPANY reserves the right to substitute the latest
materials and designs.
7. RESPONSIBILITY
PARMA COMPANY will not be responsible for defects in parts or equipment not
manufactured
by it, beyond the guarantee of the outside manufacturer
or such parts.
-------
-~
1-1
~A DANGER
~~~~~~~~~~
~
1. KEEP ALL SHIELDS, HOODS AND COVERS IN PLACE..••••
~
2. DISCONNECT POWER SOURCE TO ADJUST OR SERVICE.
~
3. MAKE CERTAIN EVERYONE IS CLEAR OF EQUIPMENT BEFORE ~
~
APPLYING POWER.
IlIIIIIIIIII
IIllIIIIIII
~
4. DISCONNECT POWER BEFORE RESETTING MOTOR OVERLOAD. ~
~
5. KEEP HANDS, FEET, AND CLOTHING AWAY FROM POWER DRIVEN
~
~
PARTS IN MOTION.
IlIIIIIIIIII
~
BEWARE
OF MANURE
GAS
IN PIT.
6.
7. WARNING!
KEEP ALL PIT
OPENINGS
COVERED
WHEN
NOTDOINNOT
USE.ENTER. ~
••..
1-2
A_
GAS CAN BE FATAL.
~~~~
..•..
~
..•..
_
~~
1. Do not attempt to agitate liquid manure unless the ventilation system is in
full operation andlor windows and doors are all open. Gases are more apt to
be disseminated during the agitation than during the pumping period.
2. Do not enter a liquid manure tank of any type unless you have a special
breathing apparatus. In addition, a rope should be tied around the waist and
held by a person outside the danger area so that if the person is overcome
by the poisonous gases or from the lack of oxygen, he may be pulled to
safety without his rescuers also being overcome.
3. If an operator does feel faint, get him out into the fresh air and give him
artificial respiration if required.
4. Use portable fans to expel gases and replace them with fresh air.
5. Reduce possible danger to livestock by using a two-fan system of
ventilation. The small fan should operate continuously while the large one is
controlled by a thermostat.
CONCLUSION:
1-3
SELECTING YOUR PARMA PUMP
There are two basic types of PARMA PUMPS
applications.
All pumps are available
with electric
suited for a wide
or PTO drive.
variety
of
Parma Multi-Service (M-S) Pump
MODELS:
11, 12, 13, 14-, 15, 16 & 18
- HEADS:
to 50 feet
CAPACITY:
to 4-,500 GPM
-Low lift irrigation
-Manure transfer
and agitation,
particularly
hog manure
-General
pumping of materials
with moderate
sized solids
Parma Chopper Pumps
MODELS:
33, 34-, & 35
HEADS:
to 50 feet
CAPACITY:
to 1,200 GPM
-Pumping
of stringy, fibrous materials
-Particularly
suited for dairy, beef and poultry
-Pumping
of processing
plant wastes
manure
The following pages provide the method used to select
PARMA PUMP best suited for the requirements.
and order
For each type of pump,. a typical example
is developed
the selection
process.
A proper order entry is also included
and solved
with each
the
to better
example.
Part I
SELECTION
OF PUMP
Pages 1-5 and 1-6.
Part
TYPICAL
LOW LIFT IRRIGATION
FOR
MANURE
HANDLING
II
SELECTION
OF PUMP
Pages 1-6 and 1-7.
1-4
FOR
SYSTEMS
show
Part
I
Selection of pumps for typical lift irrigation systems
The selection
best accomplished
per minute.
of a pump for low lift flood irrigation or general liquid transfer is
by first determining the volume of liquid to be moved in gallons
The next step is to determine the amount of vertical lift that the liquid will be
moved. If the liquid will be pumped through pipe for any distance, the friction loss
through the pipe and pipe fittings should be calculated and added to the lift to give
the total dynamic head (TDH).
Next, study the various performance curves found in "Performance
Curves" section.
Select the PARMA pump which requires the lowest horsepower.
Record the pump model
number, RPM, and horsepower required.
A reference chart on page 2-3 may also be
used to select the required pump.
Next, determine if electric or PTO drive is needed and select the components
required.
PUMP NEEDED TO PROVIDE 700 GPM OF WATER FROM A CANAL TO A FIELD 500
FEET AWAY. The installation may look like:
500'
Elbow
E!bow
IIleyel of liquid varies, vertical
distance should be 10 lowest leyel.
Find:
A. Size of Piping Recommended
B. TDH at Pump
C. Model, Speed, and HP of PARMA Pump Best Suited
D. Proper Order Entry
Solution:
A. Determine size of pipe from tables (steel pCige 2-1, plastic page 2-2) noting that
liquid velocity should not be over 5 ft./sec.
The correct size for steel pipe for 700 GPM
would be 8" diameter.
B. TDH (total dynamic head) at pump = vertical
VER TICAL LIFT from example = 12 feet.
lift
+
friction
loss.
FRICTION LOSS for steel pipe are shown on page 2-1. Friction loss for plastic pipe are
shown on page 2-2. Friction loss for fittings are approximately
the same for steel or
plastic and such losses are shown on page 2-1. Assume for this example that steel pipe
is used. THEREFORE:
1. Determine friction loss in fittings (from table on page 2-1). Three 8" elbows at
20.2 equivalent feet of pipe each = 60.6 equivalent feet.
This amount must be added.
to the 500 ft. of pipe making a total of 56'0.6 feet.
1. Total friction loss in the system (from table on page 2-1) =560.6 x 1.54 divided
100 = 8.6 feet TDH (total dynamic head) = 12 £t + 8.6 ft. :: 20.6 ft.
by
--13
C. Find pump model, speed, HP using the performance
and 700 GPM.
HP
11
MODEL
SPEED
7t
9t
800
610
rpm
1180
rpm
--
curves
in section
2 for 21 ft.
14
15
In checking the Models 13, 14 and 15, it is readily seen that the Model 15 pump is
best suited in that it requires the least horsepower.
A 7t HP motor would be used.
(Lower RPM as well, will lengthen bearing life of the pump.)
For the electric drive a sheave/belt
selection would then be necessary to produce
610 RPM pump speed. Find instructions for find the following required items on
page 7-2.
1- 2B6.4 QD sheave and SDS 1 3/8" bushing (for motor)
1- 2B 18.4 QD sheave and SK 21/4"-- bushing (for pump)
2- B85 V-belts
From pages 8-1 through 8.,.3 the following items would be required for electrical
components assuming three phase power will be used.
1 - 7t HP 3 Phase electric motor
1 - Size 1, 240 volt 3 phase magnetic
D. Assuming a setting length of 8' is required,
(refer to "Pump Ordering")
QTY
1
1
1
1
1
1
1
1
2
1
1
Part II
PART
If
815001
804007-8
805008-8
801006
892064
980284
892184
980323
895085
890375
890123
starter
the proper order entry would be:
DESCRIPTION
Model 15 M-S Pump Uni t
Pump Setting Assembly
81 Discharge
Assembly
Mounting Frame Unit
2B6.4 QD Sheave
SDS 1 3/8 Bushing
2B18.4 QD Sheave
SK 2 1/4 Bushing
B-85 V-Belts
7t HP 3 Phase Motor
Size 1, 240 Volt 3 Phase Starter
81
Selection of a pump for manure
NOTICE: Due to various types and consistencies of manure slurry, the horsepower and
head capabilities referred to in this catalog are only approximate and are to be used
as such.
In selecting pumps for the handling of liquid manure,
properly size the pump.
special
methods
are needed to
Gallons per minute is not directly the most important requirement
of the pump.
Typical manure pump installations
utilize a pump placed in a pit (commonly called
"reception pit") where the manure has been contained.
The manure arrives in the pit
by use of barn cleaners, scraping with a loader, or sometimes by gravity drain flush
systems.
Still other pits are directly filled by having a slotted floor with the pit
underneath.
In any case, the contents of the pit will need agitation to provide a
pumpable and storable slurry. Therefore, in selecting the pump, adequate HP must
1-6
I
be provided to produce agitation.
Generally, the following recommendations
have
proven to be useful: pits to 15,000 gallons - 15 HP and pits over 15,000 gallons - 25 HP.
However, this general rule does not always apply. For instance, a reception pit of a
very long length, narrow width, may fall under 15,000 gallons, but due to the distance
the pump is from the far corners of the pit, a 25 HP pump would be a better choice.
Another problem to consider is the amount of electric horsepower allowed in many areas.
some cases the use of smaller than recommended pumps may be satisfactory
with
longer agitation periods. Another alternative
is to use the PTO drive models to achieve
the horsepower required.
In
Horsepower required during load out and agitation modes must also be considered.
When
the pump is re-circulating
manure through the agitator, the effective head (or back
pressure) against the pump is low and the horsepower demand is generally greater than
during "loadout".
Since head conditions during agitation are difficult to measure,
approximate horsepower requirements
during agitation are given for different pump
speeds on page 2-15. For example the Model 34 Chopper Pump operating at 975 RPM
requires 15 HP when agitating.
EXAMPLE:
Consider a dairy operation with 8' deep x 20' x 20' reception pit. Select a proper pump
to agitate and load out manure to a nearby lagoon.
If level of liquid varies, vertical
distance should be to highest level.
Lagoon
(BoHom loading)
2 to 3 feet deep
({'pve 1ypically Used
Buried Below
Fros1 Une
Reception Pit
IfJevel of liquid varies, vertical
distance should be to lowest level.
Find:
A.
Gallonage of pit and agitation
Pump Selection
C. Order Entry
B.
horsepower.
Solution:
A. Gallonage of pit, 8 x 20 x 20 x 7.4 gallons/it3
required = approximately
25. (see first paragraph
= 23,680 gallons.
this page)
Agitation
HP
B. Pump selection from the previously stated guidelines indicates a 25 HP chopper pump
would be most desirable.
The Model 35 Chopper Pump, page 5-2, would be selected.
From page 2-13, the maximum head to 840 RPM is approximately
39' which is acceptable
for this example.
NOTE: If the above example were for swine manure, without any bedding, the Model
1115 M-S Pump with an 8' setting
and agitator would be a good choice.
(Refer to
"Pump Ordering - Steps 1, 2, 3, 4, 5, and 6.)
1-7
Some Tips on manure pump placement in pit:
i
--Pos tion the pump as close to the center
of the pit as possible,
particularly
in large
pi ts.
--Use an 18 to 24 inch sump in the pit floor beneath the pump to allow complete
out and increase the effective storage of the pit. (optional)
--On very long, narrow pits, place the pump in the center.
lines running to each end to provide circulation.
--Manure that is scraped or delivered
5 to 10 feet from the pump.
Use remote
to the pit by a barn cleaner
1
1
Manuc. Entmn'.
I
~~O,
Recommended Pump Placement
Suggested installations in very long pits.
NOTE: Remote lines not provided .•
1-8
clean
agitation
should be denosited
TYPICAL MANURE PUMP INSTAllATIONS
WITH LAGOON AND ABOVE GROUND STORAGES
Check Valve
!{'PVC lypically
used
Buried Below
Fros1 Line
Reception
Pit
Manure Pump - lagoon
Valve
\
Logoon
{Bottom Loading}
210 3 feet deep
30
25
4''Pipe
1.41
.41
1.28
4.74
2.77
1.44
13.4
10.50
.18
4.90
in
7.19
7.08
.89
14
1.96
1.17
11.7
.14
2.61
2.91
1.14
.11
.62
..73
24
.12
.14
.08
1.36
2.04
1.84
.113
.19
.13
4.25
13.07
1.15
1.04
5.4
1.88
.34
1.44
1.52
1.76
.23
1.60
2.24
.44
.84
4.17
7.38
.68
6.81
1.04
.79
.90
.05
.62
2.79
5.50
2.39
4.65
.04
.34
in
2.36
3.22
2.03
1.20
1.64
5.88
8.40
3.92
7.98
8.76
9.45
8.01
.70
1.53
.47
3.70
11.18
1.15
1.02
4.01
.73
.65
.57
.17
4.84
3.10
1.35
.77
.51
.54
.28
.22
Feet
Vel.
1.36
1.39
2.18
5.90
3.97
8.68
.076
.74
1.62
.53
.58
.19
.41
.54
1.82
1.22
6.45
3.32
4.08
4.90
9.3
8.2
3.40
7.15
1.91
7.66
1.32
10.39
.40
.09
.11
.10
.98
1.31
1.40
2.42
1.59
2.30
1.02
2.50
4.4
2.27
2.29
3.59
5.2
.91
1.47
1.55
1.00
1.12
5.62
5.11
1.18
1.77
.38
.32
.76
.81
18
10.5
1.22
1.91
2.05
2.04
2.81
3.64
2.94
2.55
1.63
.79
.85
1.22
8.17
1.47
5.24
.49
.50
.37
.25
1.39
2.17
.96
.31
2.41
2.27
1.99
2.24
21.70
1.28
1.14
14.0
11.3
1.56
20.42
1.42
1.63
1.55
1.03
17.87
16.59
15.32
12.77
11.49
1.06
1.53
10.21
44.9
39.0
33.7
28.7
24.0
.069
2.45
3.26
21.7
.135
4.16
2.65
.11
.159
3.06
.95
16.0
.075
4.55
.07
7.2
.31
.09
1.37
15.1
1.46
.22
3.52
3.84
1.25
13.2
4.46
57.0
64.0
.24
.06
8.1
2.90
19.8
5.11
6.7
2.60
4.31
2.08
4.41
5.48
8.95
9.6
4.65
6.21·
19.4
5.10
7.96
13.89
1.58
1.67
.27
17.2
7.12
2.41
2.72
1.66
1.79
5.40
12.26
9.69
2.00
6.64
11.44
10.62
1.90
1.54
1.34
1.74
.17
6.19
.08
.15
7.95
9.08
.33
.39
7.38
.66
.23
6.54
.75
.52
.59
.25
9.65
9.80
8.99
8.17
.87
.45
.97
.82
.54
28
1.08
2.77
1.92
.45
11
2.62
.88
1.47
2.12
1.97
.27
2.56
2.70
26.7
2.00
10.11
.16
.084
14.71
3.67
11.20
2.46
10.77
.18
6.06
.91
5.75
.83
2.84
34.9
40.9
2.10
.10
2.31
.49
3.13
2.52
.12
12.04
.41
14.55
1.19
4.49
2.97
1.03
1.40
11.34
12.48
3.52
6.38
7.03
7.66
16.34
17.97
19.61
3.69
1.62
2.71
.67
.32
8.30
1.21
1.49
1.81
3.98
4.24
2.92
25.60
2.13
3.15
2.95
5.68
.98
3.51
1.87
5.71
.78
6.12
.89
4.26
10.71
2.56
.47
6.24
.71
.37
6.53
.36
.19
.30
7.35
.21
12.78
4.59
3.75
8.98
8.16
9.58
7.00
2.08
2.43
2.75
1.32
1.17
6.81
5.04
3.83
7.95
.99
.52
.60
6.70
4.15
.00
.47
.84
4.16
3.15
1.67
1.97
.88
9.10
9.95
7.8
7.62
7647.35
5.59
.68
.30
.01
.12
.82
6.90
2.16
.55
4.58
3.14
3.27
3.57
2.28
Loss
Sec.
Sec
Feet
Vel.
S
ec.
.104
1.13
1.25
1.79
.21
1.15
1.79
3.61
3.54
4.60
.63
.13
2.13
13.1
19.15
14.04
51.0
2.86
2.30
6.2
6.25
4.80
4.86
2.43
3.47
3.95
2.20
9.19
6.13
1.83
8.50
5.87
.68
4.33
1.08
1.70
3.82
.36
3.31
.67
22.98
71.0
.38
10.20
29.2
3.41
.095
17.10
4.17
13.61
18.4
4.85
5.31
22.60
26.9
2.39
3.34
3.19
2.87
.58
10.21
5.50
8.78
8.95
14.2
3.51
8.52
10.08
9000
1.66
per
12.7
33
2.1
51
77
52
40
ft.
ft.
per
VALVE
TEE
2.9
25.4
10.2
5.3
7.5
4081
3571
25.3
20.3
8.5
65
90
26
15.3
6.4
3.2
3061
39
31
10"Pipe
14"Pipe
20.2
4.3
in
ELBOW
VALVE
12"Pipe
6·Pipe
S"Pipe
16"Pipe
S"Pipe 15.52
GATE
~.
6500
15.96
11.55
14.37
14.60
13.65
6.07
15.51
11.92
12.78
14.20
14.72
17.02
14.05
12.78 SIZE
10.61
11.41
14.30
13.05
15.90
15.32
12.24
16
10 .. 11.50
12
65feet
CHECK
4 EQUIVALENT
I18.10
14
NOTE:
Velocities
overFRICTION
5IN
per second
LOSS
110.80
INFEET
PIPE12.60
FITTINGS
OF
PIPE12.78
PIPE
not8 recommended.
FRICTIONSTANDARD
LOSS OF WATER
IN FEET PER40100
FEET
LENGTH OF PIPE.
STEEL
SCHEDULE
PIPE
IN INCHES
BASED_ON WILLIAMS
& HAZEN
FORMULA
USING CONSTANT
100 SIZES OF
-
-
0Z-f(")
00a,
."
z°0a0a"a ~°0~°0>
-f
r- a0"a0a"a
::a
::a
."
0
rr1
"
"
-foctor
51
CAPACITY
AND
10
table
should
be multiplied CARRYING
bv the appropriate
shownFRICTION
below.
m
mmthe
mr
S;r
e
en
n
"
T1
en
en
21
m-l
Ul
0
:c
41
m
"tJm
mo
"T1
"T1
mz
zz
°°
0-<
0-<
mo
CeO
"tlm
"tlm
mz
mz
mo
7B~,
mo
l>
m
~Il
"T1
-I:z:
:c
:c
mz
1.67
1
14
:z:
1.12
1.75
]>z::!
1.87
0.11
8.74
]>
]>
]>
Factor
[\.1
0.87
7~)
]>z::!
4
16
5.76
4.17
0.031
4.87
2.00
0.10
0.48
0.84
1.18
1442
0.72
3.68
6.24
4
in.
10.96
0.52
3.24
4'.75
0.12
0.04
0.74
0.32
4.37
0.67
1.54
1.50
0.86
3.07
3.13
0.21
0.36
0.30
5.72
2.40
5.54
3.45
mUlZ
0.70
0.013
0.03
4.99
0.57
2.00
0.036
0.08
0.46
6.24
9.99
106
0.46
7.09
6.54
1.31
omO
omO
39.34
11.24
12.48
3.75
10.72
8.17
1.15
:DO
4.64
I100
13
0.62
6.76
944
2.25
0.75
0.16
0.19
049
1.47
134
0.19
2.50
0.54
1.63
1.00
0.15
4.90
7.49
2.47
1.07
:c
137
5.84
20.66
054
0.081
0.044
3.46
2.49
2.09
8.95
11.25
093
0.45
0.025
0.06
0.31
0.20
0.014
1.36
0.71
1.50
19.19
2.89
6
6.31
2.51
8.31
41
0.56
087
0.48
0.37
1.11
2.76
2.83
406
3.67
8.47
1.23
1.86
0.24
5.94
051
4.82
5.41
2.09
2.48
23.23
0.027
6.86
7.40
10.30
0.03
0.05
0.90
0.23
0.074
0.052
6.19
:CO
2.86
1.49
0.77
28.14
10.47
0.125
0.85
5.32
3.16
32.94
0.08
1.78
0.70
2.15
098
0.091
0.85
2.04
3.27
1.45
1.96
1.98
12.18
4.95
0.69
4.04
1.44
4.49
6.51
1.85
4.13
5.37
0.13
0.04
044
3.30
0.47
3.14
2.53
0.50
4.09
322
5.17
7.35
0.05
1.29
1.10
5.19
0.92
8.82
0.64
0.50
0.18
056
0.33
0.14
0.18
17.03
5.89
24.76
21.80
3.72
0.07
0.02
0.069
0.048
0.86
4.42
1.04
1.48
3957
0.50
11.68
125
0.06
3.44
451
2
0.16
0.65
2.54
9.8,
17.13
107
5.87
47
m
CI)
9.33
0.80
z"tJr
0.34
0.14
0.71
2.25
0.045
0.41
0.37
2.27
3.61
2.85
2.95
6.81
0.98
0.10
3.50
0.39
1.53
1.65
5.76
8.09
:CO
3.10
4.60
1.23
2.71
3.17
4.00
173
1.34
1.84
5.10
0.27
1.89
0.07
0.030
0.021
0.74
0.28
0.43
0.29
0.015
0.93
0.96
2.78
4.29
1.09
0.010
0.023
0.99
0.022
0.13
247
0.095
0.29
0.37
0.60
0.06
0.62
0.92
135
0.81
5.23
7.23
0.103
0.028
0.22
4.66
0.94
10.06
4.49
16.52
3.93
0.17
0.61
1.70
7.15
6
in.
0.55
11.17
6.57
8.49
10.37
0.27
2.30
0.035
14.26
2.31
12.41
0.80
2.10
4.86
6.14
8.21
4.91
3.55
1.39
2.81
0.44
0.24
0.017
3.11
2.55
0.078
3.19
7.36
1.22
6.80
4.61
1.41
2.99
1.73
4.94
10.21
5.52
1.73
8.97
0.03
0.67
20.08
.7.07
0.51
0.026
0.58
0.009
0.015
0.82
1.40
1.49
0.037
9.30
0.58
4.46
aTostandard
dimension
202
3.89
8.76
5.98
057
7.77
1.85
185
4U
306
6.69
:z:JJen
:z:JJUl
:z::Den
0.035
0.016
1.08
2.89
108.34
17.66
0.95
2.45
3.82
0.15
0.89
5.56
2.41
1.03
3.54
4.65
7.65
m
m
7.48
rolio10.61
other
21,
values 0.33
316
7.29
:I::cen
0.58
0.66
3
3.38
7.80
4.24
5.58
0.082
1.15
0.09
0.82
0.63
0.25
0.87
0.38
0.83
2.83
1.80
0.11
0.96
0.63
5.48
1.50
1.59
2.04
3.46
10.13
4.39
13.28
5.75
0.20
0.087
1.55
0.006
0.42
0.026
0.065
2.26
1.19
2.12
0
6.36
..42
8.37
13.72
2.02
0.012
2.97
0.86
1.36
0.0'22
3.06
1.86
1.02
2.38
0.056
2.06
0.054
1029
0.85
8.69
1.33
1.23
0.53
0.043
1.24
2.72
175
2.33
4.38
11.53
1.52
10.72
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menZ
6.22
0.039
mr
3.72
5.06
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2
1in.
in.
0.020
1.10
m
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0.061
566
3.40
7.44
1.09
menz
mUlz
0.99
2.79
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m-l
8
in.
1.97
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menz
2.90
menz
1.54
1.70
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1.31
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1%
°
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2.19
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170
CeO
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30
325
friction
head
loss
in
PVC
orthan
ASS
pipethehaving
en!}
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en"tJ;l
m~
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9.20
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en"tJ;l
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1.00
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(Independent
variables:
Conversion
0-<
"T1
-I:z:
2
in. and pressure drop per 100 feel of pipe. interior smooth.)
ent
variables:
Velocity.
friction ~/2head
°0- 0
a
LOSS FOR 200 PSI AND SDR 21 THERMOPLASTIC
Gallons
10.96minute
13.15
3.29
per
399
0.88
and nominal mo2.44
pipe size a.D.
26
PIPE
135
::a e')
SELECTION GUIDE
(see actual pump curves for. final selection. page 2~4 -2-13)
50
- =Ic:cz•••••
Q
:E
!.IJ~
>
C3:
c:::
Multi Service
pum~s
20
40
30
(.)
...",,\l
10
o
100
250
1000
.500
1500
2000
CAPACITY-GPM
Chopper Pumps
:!lo
34
1000
1500
3000
4000
••
i'c-
I c-
,
,
-35
I
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-..•....
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"'=_n
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1220RPM
1-MODEL
11
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c-I'.."< .-J
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,,3.-.;;:.--.800RPM
---r-.
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•..
- I-f--+
I'..
l"-ILL
PUMP
- f-- -100
200
250
300
400
-- + -.-...;:
450
350
150
PERFORMANCE
I.- 1410RPM
L.--PARMA
,•...
$/0.
- - MULTI-SERVICE
--~-~
-S80RPMSPEED
•..50
.-f----202
CURVES
1320RPM
"
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1'.
...:!/Vt
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1410RPM
-"
Proper
submergence
570RPM
p..
I'..
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L.-'
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25
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0 J 1020RPM
- ....!!.9011p
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:c
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HYDRAULIC
---- - ,...-
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PERFORMANCE
1"-
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,
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,
'.!.!.70~""
-, !--
--
-
I
WARRANTYon:(in water)
only, and
contingent
flow to at
pump
suction point
Guaranteed
designated
_'.1 LProper
__
MAX. H.P. 7.5
--
to operate continuously
in this area.
i tT
j
MODEL 12 PARMA
MULTI-SERVICE PUMP
PERfORMANCE
CURVES
-~+-
_.~+-,-
HYDRAULIC
PERFORMANCE
WARRANTY (in water)
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
+-~~_4_
-I -I.. \--
MAX.H.P.10
I
10
W
==
==
W
Q..
:c
1
6
8
423
57
= =
ren
1
1
MAX. SPEED 1210RPM
to-Hot
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9
1210RPM l..
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~
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680RPM
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40
20
itttt
++++
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05
35
0
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30
W
1020RPM
iI
1
680RPM
~
400
350
500
450
550
600
300
250
flOW~GPM
I
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N-...l
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200
50
100
I'-g!
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r-.;; I
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2-5
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10
890RPM
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c
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...~Proper
i -5. -MAX. r\.
H.P.15;I 1220RPM
I'\.
1-t·-Guaranteed
1.
,.-_1
PERFORMANCE
only,
and
contingent
on:
r7<.
1,-- -~
-1'\
200
800
400
°-9.0_1
100
500
700
300
600
900
1100
I"
1--1
,f'l
IHYDRAULIC
SPEED
1400RPM
~
•...
1000
;041'
.,'1?:•....
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1120RPM
I..
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1 '
>--.~.WARRANTY
...
-1030RPM
,....
PERFORMANCE
30
I 'R.ol/,f
.,..."41
~-L
'R.ol/,f
~
++-'
-8
135
:r.
__
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-!at1400~PM
designated
point
(in
water)
:
1~4,
~I/,f
..,f-- '_.19.0
77<0
--l..•••
I\.
MODEL
13
PARMA
Proper
f',
I 0-9.0
-H+-t>-.
20
K -CURVES
-~
7030
I '
~70RPM+1
I
I flow to pump suction
.••••.•..
'Iti
</r,1 1--"';.J.I.
-,...
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1
'Sr,
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,
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1'-10...
."
MULTI-SERVICE
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f
+
.
'f
=(=1
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in this area.
30
j
~
bY
:c
W
=
;:
en
r:ls.
CC
Q
2'12
=
5
0
25
15
20
10
7'12
5545
50
H=4-+t
t+_-till-F-
I
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i
ii I,
t
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1
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IT
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l-t,'
fl'!. I-j-i-j
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, "- 1"-~,,++-+
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+
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if-
i
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W
c::t
Cl!:
I:r:
d.,
W
IoU
Q
pm
0
=
10-
5
15
10
25
20
40
30
35
f
HYDRAULIC PERFORMANCE
WARRANTY
'r-tt
P-l!m'+'.
H . :,
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
MAX. H.P .. 25
MAX. SPEED 1200RPM
-10q,
Ll~8;:U:)1/ij
~--~tl+
_L
l'f'W
+-_1-
•••••
.....Jl
-+
0
800
900
700
200
400
600
300
500
~
T
FlOW=GPM
I I I
100
~T1TV
I -I ['1
I iTTT1
1000
1100
1200
2-7
v
..
i;7
'.-"fllill
1030RPM...
,.
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L-<IIII
900RPM-
.
'-- ~III
- _ 800RPM _ -
II',!
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-
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-
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en
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=
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-
--.
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560RPM
-
I
-
.
,--t'
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..
Il,
.
+ --t-t";
±
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: "I-~-I-350RPM
o
,
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,
I
65
..
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f-., .
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r--.
-
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--"--r ~ . ii-h-t,
I"
T
-it--
'
MODEL
I
"
,i "
~- -
15 PARMA
MULTI-SERVICE
PUMP
PERFORMANCE
HYDRAULIC PERFORMANCE
WARRANTY (in water)
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
_+
I\.
55
-
-
CURVES
10.30.<9,0
60
II-t \
,-..
:t
-
-j
...
. I
••••
++
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I
1
-t
!
t--
470RPM
l- -
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I-
5
..
680RPM·t-t-
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--
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- -
__
--
- ..
-
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"I
-
L&.I
10
t·
-
15
=
3:+
a..
-+-
!
_
Proper submergence
MAX. H.P. 25
MAX. SPEED 1030RPM
•••
50
-~
J7a.9,
..
....: ;04,1--
45
....
t-
"
L&.I
L&.I
-
...
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u..
40
i""'
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=
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35
L&.I
I
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--
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~
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-
~
'
I I
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t=
t-
1
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1
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I
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20
f'
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6'ab
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is
+
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10
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o
"
500
o
FLOW=GPM
2-8
~.
".i.-
,"-'d
I
-it·,
;;'-"
1000
1500
2000
--- Pump is
-';",=-
niOit tiOi operate
'i7,'"
:j£;~~"'"'-
.",f;
2500
contiru.lously in this
-",~.
all"ea.
~-I!_".-.:e-'f':.
30
20
10
MODEL 16
o
-
PARMA
MULTI-SERVICE PUMP
PERFORMANCE
CURVES
~__Pump is not to operate continuously
W
I
!
o\nJ=f"~r'll1
I Tml I'll10==
0
I
,,'i,- ,,
50
20
,
.
r-,....;.:
1000
1500
500
, I
70
494 . ~,. II30 I\U"
I I I I I I I i I I I I I I I I II
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0
~
1.1",
LId
po.
IJ..Il
•••••
CI:
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!
1111
-
I I774ffP'
IIII
HYDRAULIC
in this area.
PERFORMANCE
WARRANTY (in water)
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
MAX. H.P. 25
MAX. SPEED 700RPM
~
ffpfvt
.§..J2F{ptvr. l'l""IIo..I
I
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" '-
,
r-.
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I
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21100
2500
3000
2-9
..
4000
3000
2000
30
I-I I 40
5000
30
2-10
MAX.
20
:c
:QcR,Pf.:"
A.
Q
JIS
MAX.
H.P.
60
~
WARRANTY
(in water)
513
460
RPM
20contingent
designated
point
only,
on:
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0I' atand
-'
•••
L1.
LI.I
-...
••••
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"
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-,
--
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, .=
--
1000
...-r
r"o
.
.
"'"
",..
submergence
II 18 PARMA PUMP
MODEL
.-c •GPM
flOW
CURVES
Proper
flow to pump suction
SI;]
"'6'0' 1'10'1.,-
;]60
HYDRAULIC PERFORMANCE
PERFORMANCE
0
50
ISPEED640
I I ~I. RPM
Proper
I"l315
f"'"
RPM
.f>,olf.t
I'
.....rl I
I
I
1400RPM
15
I :
I
i
I
1220RPM
10
11020RPM
J..-f'"l
5
, I
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_-L
-+--
t-++-+++-+-t-H-
I
iT
I
-i-·-
........4-I
o
MODEL 33 PARMA
CHOPPER PUMP
PERFORMANCE
CURVES
-t-tj.
rt+t1ll-'
It-- -f-+++=
1+
-1++
45
t---t-
+1'
--j--r-j
1-+-1
j-
-1
+-+-
1
EE'i
, -j
+j'
-j---
40
PERFORMANCE
WARRANTY (in water)
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
MAX. H.P.20
MAX. SPEED 1400RPM
-+--
+-
-j-
HYDRAULIC
i
I
35
30
25
~-l~
, +-1
,
I
20
-\
15
b-
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10
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i- i
I
\J---P
1'\
'\)
o
o
100
200
300
400
500
600
700
I
•
800
-fi-tr
900
1000
:
!
H+~+--j-+++t+++++1
i_
~ - ..i-t
t-I - I··t--"l,-.,o ....
I
Il""i---I....I
1-1
I I 1""I I T 1 I 11 1I 1I I I I I
1110FlPM
1
~·-mmmt
- - .....
~U.~
..
WARRANTY (in water)
I I I I I I HYDRAULIC
TIIsubmergence
700
900
800
300
Proper
600
500
400
1200
1100
I 10
I100
I200
I 670RPMI
II I PARMA
II I I 810RPM
I II I-If-.
I I PERFORMANCE
I I I PUMP
I I I I I---I IPump
I I I is
I Inot
II toI operate
20
continuously
I25
I35
I1000
IIJ.J.
II ITTTTT
II II ITTTTTTT-o::.:Ff'1TTTTTTTTTTI...l---t-r
I-lMODEL
34
570RPM
I I TTTTTT-a
860RPMin this area.
CHOPPER
a.
15
~l
1.1.
lI
=
670RPM
15
(/,)
I
I
I
I
I
I
::c
I
lite
MAX.H.P.
25
ct
MAX.
SPEED
1220RPM
IlProper
pump
contingent
suction
point
on:
-.-~.r j. +- tt~t-tfffftititlti·lum-mi~-H~~b~PM
+-1-++
::only,flowatandtodesignated
ctGuaranteed
30••
n =
&.I
L&.I
L&.I
L&.I
"
0CURVES
QPERFORMANCE
010
5
~
1010FlPM
,
·1·
810RPM
.
I
I
1
~1"1020
II RPM
I
30
890 RPM
25
LilJ
LY
800 RPM
20
15
10
0
C!::
(/)
c::
:ra..
:lC
3:
Q
-
05
V'680
RPM
570 RPM
MODEL 35 PARMA
:::
F
CHOPPER PUMP
I
I
30
55 Rp/f1
35
40
IIIIIRIIII"II"'~"'.
I.L,
Tr-I
L
TKj
"Kr
..,J
.Y
:;>0,0
le
<Q
890
",,''/.>4,
11
PERFORMANCE
CURVES
10
~I
HYDRAULIC PERFORMANCE
WARRANTY (in water)
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
MAX. H.P. 30
MAX. SPEED 1020 RPM
25
\
20
15
"i..1
iI
10 '
5
I
T
t,
I
T
o
o
200
400
600
800
1000
1200
1400
1600
1800
2000
2200
Ir-.I
2400
ttt
ttt-ttt
I
tH+ttttt-t+t+!- .
tlil=
50
700RPM
r.•
This curve is for REFERENCE ONLY
NOT IN PRODUCTION
.•.
40
cc
f-~--
~RPM=
•••••
=
==
30
-
t-t-
CL.
•••••
en
=
:c
CC
20
434RPM
10
o
MODEL
t-; ;
ff
PARMA
6
PUMP
PERFORMANCE
CURVES
HYDRAULIC PERFORMANCE
WARRANTY
With cast iron, flat-bladed impeller
c:i
co
0)
.•..
.•..
50
.;:
45
c.
Guaranteed at designated point
only, and contingent on:
Proper flow to pump suction
Proper submergence
MAX. H.P. 40
MAX. SPEED 700RPM
700APM
<l:
•..
...•.
~
40
III
Ql
s
::c
.iij
">
III
Ql
•••
III
.!!l
35
III
•••
Ql
Cl
l:
=.2
.-l: 0l:
~Ul
Ul ._
::I C.
o~ E::I
30
=
CI:
•••••
25
....I
c:I:
20
:c
:;:::a.
l:
III
(.)
Ql
III
o E•..
ilia.
~CD
0.O~
o 0
el••••••
15
-:aE
'0
Ql
l:.r::.
.!!l I-
10
Cow
EU
::1c..l-
,0
:2
5
o
o
2-14
600
1200
FlOW=GPM
1800
2400
~--------------------------------------------------------------------------------
AGal AriON
HORSEPOWER
In the use of agitator assemblies with Parma Pumps, it is necessary to
find the horsepower required during agitation once a pump speed (rpm)
has been determined.
In most installations
the pump will demand more horsepower during
the agitation mode than during load-out. Once a pump model, speed,
and motor are selected it is necessary to check the chart below to find
the agitation horsepower. If the agitation horsepower shown is greater
than that of the motor selected use a larger motor or slow the pump
down to the speed required so that the motor will not overload.
975 RPM
MODEL
I
30
25
20
10
20
25
15
1200
RPM
PUMP
SPEED
AGITATION
HP
925
1130
875
a90 RPM
RPM
1000
34 Pump
5 Pump
2-15
DIMENSIONAL
DATA
-
Typical
Water
A
B
- - - - - - -1
i
G
r
12"
-
-------~
~
Top View Frame
Jf
~,.'\ ~'
,4
\,.
>;
"\.1
~\\
Pump Setting
O:\J
i\\
',,"
.. ' .
~\"
,-\.
JJ\'
'~~:
~"
--
I
11
A
i
1iI
13
14
12
1
16
18
18
13
21+
+12
60
?2
23
18
18
86
17
30
32
98
19
2
86
12
1
1+
+2
+12
20
36
8
65
J_. +12
2118
28
1/2
+12
MODEL
86
25
1+1
1/2
18!51
21+
17
20
21
1/2
16
11
1533
1/2
18
+12
PUMP
*F to be 12" more than setting
length.
3-1
DIMENSIONAL
DATA Typical
Manure
D
..If
i
H
-1
Top View Frame
PUMP
DIMENSIONS
PUMP MODEL
18
34
2
9
86
8
61/2
29
33
35
18
26
26
18
86
34
36
1/2
3/4
29
32
1/2
23
1/2
H
E
DGF
1t
G
PIT
o
DIMENSIONS
PUMP MODEL
o
10
Bottom Sump Optional,
3-2
18"
33
34
A
18
24
B
33
I 35
3S
24-
I
37
I
III
DIMENSIONAL
CA
\)il.~c
,I ?I
8
12
836251
832251
806251
804251
805251
807251
835251
834251
833251
802251
803251
PART
816251*
17/8II
23
15
4
1/8
715/16
1/4
19
5/8
31.
3/4
10
7/8
8
1/2
1/2
11801251
1
3/8
8082.51*
1
15/16
5
1
1/8
3/8
3
7/8
2
6
5
7/8
B
DATA
II· BORE
BIMPELLER
A
*Curved vanes.
ill
~
A
12
14
4
4
8
C
B
A
10
16
06350
801350
6
10
8
07350
5
802350
804350
6
3
805350
11I7/8
1/4
1/4
3/8
10
1/2
7/8
I107/8I68513
PART
I•.....
5,
15
Elb
owsII
808350
13
Discharge
3-3
W
I
~
DIMENSIONAL
Pump
804462
801462
801461
801442
890201
890250
1 2801481
x801446
3/4
15/16
1
15/16
x
1x2
x 2~
48
807469
1516~Pre
823461
804461
823461
804461
832461
804461
801481
804446
804446
804481
801442
807442
804442
32
18
1
801447
2
816-252
804441
833252
832252
808252
807449
804252
804441
804462
807463
836252
823441
832441
806252
804441
804446
804481
804481
801446
807446
804446
NA
804442
804442
804462
801462
3/8
55
1
3/8
x3/4
33
804462
804447
807447
1/4
48
4x2
24
3/8
1
x
x
48
48
96
1
1
x
55
3/8
x
96
1
15/16
x33,34,35
3224
x
3/8
3/8
x
3/4
x3
x1/8
3
3
3801447
2
21
33
1/8
112
x
48
2
1/2
14,
8D..!f!!
.48
.lZ
890251
890252
890251
1
3/8
x
96
890250
890251
1
x
15/16x29
31
1/4
2-2
890202
890205
890202
1/2x49
1/2x49
1/2x49
3/4
3/4
4
2
x
1/4
47
1/2
1
1
15/16
3/8
3/8
x31
x
48
48
1
3/8x28
1
1/16
3/8x22
3/8x23
1/2
1/2
15/16x53
3/8x55
1/4
After
2
1/2
1/2x25
1/2
2
x
1/2x25
25
x
25
25
3/4
3/4
3/4
3/4
3/4
3/8x
3/8x31
3/8x31
3/8x
3/8x
31
1/4
1/4
1/4
1/4
3/e
96
96
,890202
1/2x49
890201
x
57
3/4
9/16
1/2
48
8;;:
804447
8,8S,
1
3/Sx29
3/8x55
3/8x55
1/4
x
823441.
.804462
.3/8
3/4
x
3
.1
55
2
2~
2~
x
2~
'2~
xx36
3
804447
42x3/8
x
3~
&
1 3/8x28
3/4
1
1 1x
x x34
1996 3/8
1/2
x 96
Shafts,
DATA
Column Tubes,
b-6 - 1982
&
Couplers
Water & Waste Pumps
Sugar Beet l-Iarvesters
Curl Onion & Potato Equipment
Parma Company
P.O. Box 190 • 101 Main St. • Parma, Idaho 83660 • (208) 722-5116
PARMA
M-S
PUMP
MODEL
IDENTIFICATION
I
New Model 43I II635723/4
4S
4Diameter
81/4
2643None
62
8None
26
]1/2
25/8
I 5Size
12
25
24
8S
23
33
Width
Old
Model
if
]10
0Pipe
19
15
1/2
1/87/8
7823
14"
Varies
8"
7/8
4"
12"
6"
Var
ies
]10"
6"
5,
4S
1Fin
1/8
3/8
1/2
15/16
Impeller
Impeller
Discharge
Casting
II Located
CJ.stilig
II
located
here
REPAIR PARTS LISTINGS
PARMA PUMP PRODUCTS
INDEX
DESCRIPTION
PAGE NO.
MULTI-SERViCE
Model
.
4-2
.
4-4
.
4-6
.
4-8
.
4 - 10
.
4 - 12
.
4 -13
KIT
.
4 - 14
Elbow
.
4 - 15
.
4 - 16
8} 8S} and 18
PUMP
Standard
UNIT
Chopper
Hydraulic
Chopper
& SHAFT
COLUMN
MOUNTING
FRAME
AGITATOR
ASSEMBLY
GREASE
UNIT
11 - 16
Models
CHOPPER
PUMP
LINE
Pump Unit
Pump Unit
ASSEMBLIES
UNIT
ACCESSORIES
Discharge
Model
88 Gearbox
(1:1)
#
#:
Pumps 11,12,13
:IF.
l,
Used on
11
11 Pump only
I
~'J
PARMA M-S PUMP UNIT
23
NOT~:: Greaselin~ kit available
4-2
Specify setting length.
for 1982 Model 16.
This impeller is standard
in #16 after 2-1-82.
PARMA M-S PUMP UNIT
Itm
Description
MODEL
11
I
MODEL
12
·1
MODEL
13
I
MODEL
14
I
PRE
821 1982
1-3/BH shaft 1-15/16" shall •
MODEL
15
I
MODEL
6
I
MODEL
16
~t
1
2
3
4
5
Set Collar
Dust Cover
Bearing Quill
Drive Bearing Assyo
Ball Bearing
-----801049
802051
802050
890030
-----801049
802051
802050
890030
-----801049
802051
802050
890030
804054
804055
804056
804050
890031
804054
804055
804056
804050
890031
804054
804055
804056
804050
890031
804054
804055
804056
804050
890031
1
1
1
1
1
5a
6
7
8
9
10
Spacer (5-83)
Ball Bearing (5-83)
Drive Bearing Hsg.
oil Reservoir
Sight Valve
Oiler Assembly
890021
890030
802052
890301
890302
801400
890021
890030
802052
890301
890302
801400
890021
890030
802052
890301
890302
801400
-----890032
804052
890301
890302
801400
-----890032
804052
890301
890302
801400
-----890032
804052
890301
890302
801400
-----890032
804052
890301
890302
801400
1
1
1
1
1
1
11
12
13
14
15
Oil Reservoir Brkt
Tubing
Male Pipe Connector
Drive Base
Column Adaptor
801402
801401
890303
801070
801090
801402
801401
890303
801070
------
801402
801401
890303
801070
------
801402
801401
890303
801070
------
801402
801401
890303
801070
------
801402
801401
890303
801070
------
801402
801401
890303
801070
------
1
1
1
1
1
16
17
18
19
Shaft Coupling
Bowl Shaft
Column Coupling
Sleeve Brg (Pre 5-92)
Sleeve Brg (5-92)
Top Brg Assy(Pre5-92)
Top Brg Assy (5-92)
801252
890250
890201
890024
-----801150
------
801252 801252
8902501890250
890201 890201
890024 890024
------ -----801150 801150
------ ------
804252
890251
890202
890025
890046
804150
834150
804252
890251
890202
890025
890046
804150
834150
890251
806252
890202
890025
890251
816252
890202
890023
1
1
1
1
2
23
24
25
Seal (Pre 5-92)
Seal (5-92)
Bearing Collar
Top Bowl Half
Bottom Bowl Half
890098
-----801152
811201
811202
890098
-----801152
812201
812202
890098
-----801152
813201
813202
890097
890045
804152
814201
814202
890097
890045
804152
815201
815202
804152 807152 2
816201 816201 1
816202 816202 1
26
27
28
30
Bowl Set
Impeller
Seal (#16 Only)
Bottom Bearing Assy.
811200
801251
-----------
812200
802251
-----802300
813200
803251
-----802300
814200
804251
-----804300
815200
805251
-----804300
816200
806251
-----804300
31
Sleeve Brg (Pre 7-91) ------'8900261890026
Sleeve Brg (7-91)
Expansion Plug(Pre91) ------,8903501890350
Expansion Plug (7-91)
Discharge Clamp
Gasket
801355
802355 802355
80135418023541802354
890027
890047
890351
890352
804354
804355
890027
890047
890351
890352
805354
805355
890027 890023 1
20
22
32
33
34
806150\816150
890097189009612
2
816200
816251
890096
816310
&
1
1
1
1
------
---~-- 1
890351
880007 1
------ ------ 1
806354 806354 1
806355 806355 1
Note: (See bold above)
Some early Model 16 bottom bearing assemblies used
1-890305 seal (2 1/4" O.D.) and 1-890034 sleeve bearing (2 7/16" O.D.)
Requires a 998911 retaining ring.
Items #21 & #29 (Housing only) are replaced by Items #20
respectively.
1
1
#30 (Assembly)
(rev.)
4-3
16
17
PARMA M-§ PUMP UNIT.
22
25
I
PARMA M-S PUMP UNIT
ITEM
808362
807042
807043
Seal
Bottom
1808355
Bowl
Shaft
2211Seal
51**------Gasket
1MODUl8
1Bowl
Holder
Drive
Base
1Oil
Reservoir
Bracket
**808201
807152
808154807354
807057
808251
DESCRIPTION
890252
890096
890034
807041
807058
*808252
890205
808155
8014-01
807055
Oiler
Assembly
890035
890303
890301
801402
Impeller
Bowl
Collar
8014-00
Male
Pipe
Connector
890302
Bowl
Flange
Pad
Bear
ing
Quill
Adjusting
Nut
Ball
Discharge
Clamp
807075
Top
Bearing
Assembly
Shaft
Drive
Coupling
Bearing
Housing
Assembly
Column
Sleeve
Bearing
Coupling
Sight
Valve
Tubing
QTY.
Top
Bear
ing
Housing
*One piece shaft
1980 and after
------807251
807354
807201
807152
807202
890035
807355
807057
807055
807154
890096
807058
807041
808252
890205
807155
801400
801401
890252
890034
890303
890302
890301
8014-02
807075
MODEL 8
- Part No.
100373
100374100375
100376
Description
Pump
Pump
Pump
Pump
Shaft
Shaft
Shaft
Shaft
-
6'
8'
10'
12'
HOne piece bowl.
4-5
:!§
17
.34
PARMA CHOPPER PUMP UNIT
4-6
~
I
-
-3/8"
shaft
I
,
,
1
4a
,
I'
1983
&
shaft
890202
DESCRIPTION
I Reservoir
newer
1-15/16"
804052
890302
1
2
804052
1
890202
834150
890045
804050
890031
890301
801402
890303
890046
834151
833810
801401
816151
804050
890301
890096
805355
Dust
Oil
Oil
Drive
Seal
Reservoir
Cover
836252*
801400
801070
MODEL
801070
801400
836253
Base
833252*
801070
801400
35
Bkt. 1 33
804055
804056
890032
890251
890032
804055
804052
890251
804056
1Coupling
833801
801401
890303
816150
836254
890302
801402
890031
833810
834151
833801
801401
890303
890202
834150
890045
804050
890031
890301
890302
801402
833810
36
890002
833252*
833806
833809
834300
12
4
Bowl
Seal
Flat
Shear
Washer
Set
4
Bar
804055
804056
890251
833805
825201
826201
804355
890352
998917
890044
890001
806354
805354
835251
833809
806355
Blade
Hub
816202
825200
815202
826200
834301
834301814202
816202
826200
826201
824201
Bottom
IBear
806355
Bowl
836251
890352
998917
833806
890044
890001
834300
890046
890002
836250
890002
880007
833809
890001
806354
816310
816301
834251
804354
833806
824200
813202
823200
890032
34
804052
833805
836255
833301
833300
890046
890352
998917
833806
890002
833809
833251
890044
890001
802354
\t\ODEL
Bo\yl
Shaft
..
833805
823201
802355
1834301
32 Adjusting
Oiler
Gasket
Assembly
QTY
Impeller
Male
Pipe
Conn.
(1)
Drive
Brg.
Ball
Sight
Top
Shaft
Tubing
Column
Shear
Top
Quill
Bowl
Brg.
Valve
Brg.
Coupling
Housing
ing
Nut
Assy.
Housing
Assy.
Hsg.
Bearing
Bear
ing
(890023)
2
Bottom
Sleeve
Locking
Discharge
Bearing
Brg.
Bolt
Assy.
Clamp
Hsg.
Expansion
Ring
Plug
~ Retaining
I
I
PARMA CHOPPER PUMP UNIT
I I
--
1982
&
0-
5
4-8
PARMA HYDRAULIC
CHOPPER PUMP UNIT
PARMA
HYDRAULIC
CHOPPER PUMP UNIT
I
ITEM Expansion
890044
100178
890001
890352
890046
833806
834301
998917
833805
824201
804202
804355
834251
100190
100179
818060
890045
804354
100254
818051
818058
998914
833809
Seal
818075
Seal
100235
890002
Shear
Hub
Gasket
Blade
Bottan
Bowl
Bowl
Shaft
Bar
Hardened
Flatwasher
Plug
PART
DESCRIPTION
Top
Bowl
Impeller
Speedi-Sleeve
Adaptor
Discharge
Clamp
Locking
Bearing
Cap
Lockwasher
Screw
Retaining
Ring
Wi
per
Ri
ng
Locknut
Shear
Housing
Sleeve
Bearing
Bottom
Bearing
Plate
Coupl
ing
Ball
Bearing
Retaining
Ring
..NO.
!
I
QTV
2
4
1
12
11
11
4-9
I
COLUMN & SHAFT ASSEMBLY
Drive Column
&
Shaft Assembly
One Piece
Shaft & Column
One piece shaft
after 1980
on certain Models
Intermediate Column
&
Shaft Assembly
4-10
-
I
COLUMN
& SHAFT
Multi -Piece
ASSEMBLIES
Shafts
------------804054
MODEL
807055
*-----------------8041~Ll·6
804481
804445
80444·7
890251
890029
804462
804441
804053
804442
890202
804440
804461
804460
18te Shaft
801445
804481
801447
MODEL
890201
890028
801462
Intermedia
Column
801481
Short
Drive
Column
801442
804053
890250
Intermediate
4'&Shaft
801461
807440
823440
807449
807460
823460
Shaft
801460
801441------804446
Shaft
8'
804445
823441
801440
804447
807401
890202
804442
801053
890029
804462
807469
807445
833810
890252
890205
807442
890251
808091**
807463
807446
823461
807447
MODEL
MODEL
14,
15,16
Keystock
Shaft
Assembly
Intermediate
Column - &&
Short
Drive
Column
Shaft
Assembly
33,34,35,36
Drive
Column
Coupling
Shaft
Long
Coupling
Column
Bearing
11,
12,Assembly
13 801446
liTEM
*Model
IJl8
M-S standard
with
a one-piece
shaft,
effective
January
COLUMN & SHAFT ASSEMBLIES
One Piece
Shafts
------807055
------Short
Drive
Intermediate
Column
Set
Collar
807447
100374
100373
808091
**
100375
890205
807401
807463
807442
100376
804447
804442
890029
890202
18
804462
100387
834308
833810
834310
804053
MODEL
MODEL
34,
35Bearing
8'
Keystock
6'
10' One
Pump
Shaft
-Column
12'
One Piece
Piece
Column
Coupling
Long
Drive
Adjusting
NutColumn
lO07'C2
~~-~--~
-.-----804447
804054
890029
890202
100377
100379 MODEL
804462
100380
804053
100378
804442
I
*-l"Consists
of 808090
Housing
and 890034
Sleeve
Bearing.
1981.
MOUNTING
FRAME
UNIT
Electric Drive
807600
15"
11"
11"
801860
30-60HP
804600
804600
801860
807740
801860
803006
804700
801700
807700
30-60HP
802006
Motor
10-15HP
I 801006
ITEM Vertical
DESCRIPTION
1/2
All
Thread
11"
804006
*) Base801700
Belt
Guard
Assembly
IFrame
1-7801600
tHP
Pump
Mounting
1-7tHP
,I I
*Model If 18 only.
2
~
-------
I
~'------ITEM
804032
990788
990622
990660
801860
804600
804600
DESCRIPTION
RPM
804030
804031
PTO
804-036
990623
990796
Guard
990795
804036
990660
990788
801860
1000RPM
804031
804-030
804643
990614
1/2
All
Thread
xlI"
804643
1Model
3/8
Smooth
Bore
Yoke
804032
990623
88
(1: 1)540
~Gearbox
Splined
Yoke
Belt
Guard
Assembly
4 Drive
Shaft
Assembly
Adaptor-Left
Spacer
(Qty
4)Kit
PTO
Driveline
Assembly
Cross
Repair
Pump
Mounting
Frame
Gearbox
Adaptor-Right
UPPER AGITATOR ASSEMBLY
AGITATOR ASSEMBLY
(1982)
(pRE 1982)
-0
. . ..
,/.
u
llinlhil
-.
r
I
~
""""./
0
..
'-
I
fl
\
rl
i
Jl ~
3
J
ITEM
1
2
3
4
5
6
,7
8
9
10
11
12
13
------814476
814474
814457
814475
------814466
814473
814453
802360
814456
814500
81L,l431
814447
814439
PART
NO.
DESCRIPTION
815308
Tee Handle
U-Bolt
Control Rod
Flapper Assembly
6" x 2 1/2" Spreader
Bracket
Discharge
Elbow - 1134 - 8'
Discharge
Elbow - fl34 - 10'
Discharge
Elbow - 1/35 - 10'
Discharge
Elbow - 1135 - 8'
Linkage Arm
Discharge
Nozzle
Extension
Kit 9( Optional)
Discharge
Flange Weldment - fl34
Discharge
Flange Weldment - 1135
Discharge
Elbow
Discharge
Elbow
Agitator
Box Weldment
(Specify year)
h
------814462
814463
814429
------PRE
1982II PART
1982 NO.
814457
814458
814447
814466
814453
802360
815308
814431
,
4-"!3
GREASE LINE KIT
=~
(---,!I
I
Use grease fitting
housing.
L:..ll
"
from
drive bearing
'-r-Jl E::'~:-~--_~
,I
...,r4\
c,!)"
'\'
__f-~
---==--" -~-:
- - ~-_l,.-
-
\
',\
----,
"'--'-,- - -
,
9
ITEM
4-14
998925
100578
4QTY
1
18'·100718
100707
100708
1
2
902201
998925
100707
100708
100709
100578 1
902201
1/8
Hex
Bolt
Grease
5/8
xHose
1 FTL
W/1w1 &6'·100717
Nut1
DESCRIPTION
10'·100719
12'-100720
Tie
Hose
Down
102
174
Clamp
Strap
Grease
Fitting
Brkt
1/4
xNPT
24"
126
150
Hyd
Hyd
Hose
Caution: It is imperative that a pressure
relief system is used in the bottom bearing
housing to prevent hydraulicing of drive
shaft, if over lubed!!
100710
1
100711
100712
DISCHARGE
.
I I I II
I
I
ELBOW
,801352*
~10"
1
806351
8"
804908
805351
808351
6"xlO"
6"
8"x12"
804910
801906
807351
802352*
10"x14"
891392
891310
804351
802351*
10"x16"
I801350
891361
891393
10"
801905
804910
806350
807350
808350
802350
1804350
891358
ITEMI DESCRIPTION
x 8" 805350
3" 5"
x5"4"
4" x 6"
I,ll 13,332,3,12
4,14,34MODEL
5,15,35 MODELl
6,16,36MODELl8 MODEL
85,18 MODELl
.,.",
I
-":1
i
MODEL
I MODEL I QTY
MODEL 88 GEARBOX (1:1)
804643
ITEM
4-16
--
1/2
x804660
1/8
Bushing
Washer
804649
Pinion
Pressure
Gearbox
Nut
Case
Relief
1Seal
99126
804655
1
999125
804654
804662
999128
804659
804665
804653
999117
999124
990004
9
8
2
3PART
1
Gasket
Pinion
99127
90005
04646
Shaft
4
Gear
DESCRIPTION
NO.
Closed
End
CapVent
Housing
Cup
As
Bearing
Cone
Output
Shaft
Open
End
Cap
Snap
Spacer
Ring
Washer
I Req'd
QTY.
NEW-
EASY
TO ORDER
5- 5
55-4
- 36
5-.7
PUMP
YOUR
PUMP
ORDERING
UNIT, SIMPLY FOllOW
PAGE NO.
12
3A
Step 5
43B
or
5- 2
·
.......................................
•.......................................
......................................
5-8
Model
5-9
Hydraulic
Pump Setting
Assembly
Discharge
Assembly
Agitator
Assembly
Mounting
Frame Unit
V-Belts, Sheaves & Bushings
(See appropriate
section)
·
Step 6
STEPS 1 - 6.
Pump Selection
·
5- 7
INSTRUCTIONS
Electrical Components
(See appropriate
section)
A Trailer Pump
Chopper
Pump
5-1
STEP 1
I
PARMA M-S PUMP UNIT
815100
816100
814100
813100
106#
240#
811100
812100
816001
815001
812001
813001
814001
138#
156#
254#
227#
818001
818100
1-15/16"
177#
150#
550#
1"II SIZE
300#
811001
108#
57#
88#
680#
1-3/8"
#WT.
PART
SHIP
$HAFT
11
MODEL 11
12 Oiler 18
16
Bowl Assemblies -12
for Replacement Only
Drive Base
Assembly
Discharge
NOTE:
if
18 Pump is standard
with a one-piece
shaft.
PARMA CHOPPER PUMP UNIT
Oiler
Assembly
Drive Base
Drive Bearing
Assembly
I
.I
t
Pump
Setting
Length
PART #
33
34
35
36
833001
834001
835001
836001
1-3/8"
1-3/8"
1-3/8"
1-15/16"
Bowl Assemblies - for Replacement Only
,I
II
,
MODEL
33
34
35
36
t
833100
834100
835100
836100
1-3/8"
1-3/8"
1-3/8"
1-15/16"
Clamps
~
Discharge
IrGaske'
5-2
To Select Setting Assembly, See STEP 2
PUMP SETTING ASSEMBLY
STEP 2
*4' Setting nOlt recommended on Model #16
** 4' and 6' Setting not recommended on Model #18
NOTE: #18 Pump is standard with a one piece shaft.
5-3
STEP 3A
DISCHARGE ASSEMBLY
11
18
11
18
15.35
14,34
14,34
16,36
12,13*
15,35
--..
----
-.-
j
14,34
18
11
16,36
16,36
12,13*
Designate Plain end or Flanged end
on discharge pipe when ordering.
Standard Flange
(May be deleted)
-~~"
=. U-Bolt
& Nuts
Spreader
Bracket
Assembly
(as req'd)
Discharge
Pipe
*Will Also Fit Model #33 Chopper Pump.
To Select
Mounting
See
4
STEP
frame
NOTE: Ail shipping weights are approximate
5-4
... --
MODEL
..
-'
8'
801008-6
411
411
10'
12"
18'
1211
16"
1611
1211
1611
101
161
121
121
14'
18
1'
SHIPPING
DIA
SETTING
. __4'
WT.
801008-8
811
1011
811
805008-10
805008-14
16'
611
8"
805008-16
6'
12
1211
805008-20
16
14
805008-4
PART
6_.
'NO.
806008-18
806008-20
201
808008-18
808008-16
16"
805008-8
805008-12
806008-6
6
'
806008-10
12'
806008-4
20'
801008-18
808008-10
801008-16
801008-14
808008-8
801008-12
808008-12
808008-4
808008-14
808008-6
801008-4
801008-10
8'
805008-6
806008-16
808008-20
804008-14
806008-8
806008-12
806008-14
805008-18
109#
804008-10
804008-18
804008-20
804008-8
804008-12
804008-16
314#
804008-6
116#
87#
122#
52#
73#
237#
276#
366#
66#
164#
258#
201#
90#
179#
205#
804008-4
291#
171#
209#
259#
253#
283#
138#
156#
313#
64#
153#
224#
75#
134#
145#
235#
108#
187#
94#
105#
124#
__
~.II."
_._
.U.Oi._
802008-20
802008-18
.•_
1-_
802008-14
802008-8
802008-16
802008-12
20~
802008-6
802008-4
802008-10
80.1
008-20
183~
348# __
45#
STEP 38
AGITATOR ASSEMBLY
6' Standard Flange
I
8'
811+1+31+-6
811+1+35-10
811+1+35-12
811+1+35-6
811+1+31+-10
811+1+31+-8
811+1+31+-12
811+1+35-8
MODEL
2111/
PART SHIPPING
NO.
21+011
21111
20011
1901/
1901/
SETTING
6'
8'
10'
12'
21+011
WI .
11+,31+
11+,31+
15,35
15,35
11+,31+
Nozzle Sweeps 2700 Horizontally -
NOTE: For setting lengths other
thai'll shown, Consult Factory.
Agitator Unot
SMALL
FITS
PARi NO.
12,13,33
811+1+00
SETTiNG
NA
PIT
AGITATOR
MODELS
12, 13 8. 33
ISHIPPING
900 Vertically
WI.
1+0#
5-5
STEP 4
MOUNTING
UNIT
ELECTRIC DRIVE
Vertical Motor Base
/
FRAME
Belt Guard Assembly
Pump Mounting Frame
NOTE: All shipping weights are approximate
PART NO.
1511bs.
10-25
1-71f2HP
2911bs.
HP
2441bs.
1831bs.Frame
MOTOR
SIZE
SHIPPING
WT. Unit
DESCRIPTION
Mounting
(Except 18
Model
(Model
Only)18) 30-60
FRAME
AND
PTO DRIVE UNIT
Driveline Assembly
Pump Mounting Frame
J
PART NO.
804035
I
DESCRIPTION
SHIPPING Wi.
1301bs.
Frame and PTO Drive Unit
SPECIFY
990795
PTO Drive!ine Assembly - 540 RPM
990796
PTO Drivelil1e Assembly
-1000 RPM
To Select V-Belts, Sheaves, & Bushings See STEP 5
5-6
451bs.
451bs.
V-BELIS,
SHEAVES & BUSHINGS
STEP 5
Refer to V-Belts, Sheaves & Bushings for part selection.
To Select ESectric Motor
& Components
See STEP 6
ELECTRIC MOTOR & COMPONENTS
STEP 6
Refer to Electrical
Components
for part selection.
5-7
PARMA
MODEL A TRAILER PUMP
Flanged Discharge Pipe
Driveline Assembly
L.
19'
STANDARD FEATURES
Rugged cast iron impeller and volute
Enclosed driveshaft operating in oil bath
540 or 1000 RPM drive
NOTE: All shipping weights are approximate.
PART NO.
DESCRIPTION
880400
880500
880600
880800
Parma
Parma
Parma
Parma
990795
PTO Driveline Assembly - 540 RPM
PTO Drilleline Assembly - 1,000 RPM
Model
Model
Model
Model
4A
5A
6A
8A
Trailer
Trailer
Trailer
Trailer
Pump
Pump
Pump
Pump
SPECIFY
990976
5-8
DISCHARGE
8"
10"
12"
16"
I SHIPPING
WT.
PARMA HYDRAULIC
CHOPPER PUMP UNiT
('?(C.Yi-)')
r'~:-"'-1
Hydraulic
I
Motor
I
MODEL
See Performance
Curve - Page 2-12.
Pump Speed - 875 RPM @ 16 GPM Hydraulic Input, with Hydraulic
Any SAE B, 2-Bolt, Hydral11ic Motor - 7/8" shaft may be used.
100217
Portable Hydrau!ic Chopper Pump
100191
Hydraulic Mollor (for above)
Other size pumps available
All Shipping
Motor Listed.
DESCRIPTION
PART NO.
NOTE:
34
SHIPPiNG
WI.
2071b5.
201bs.
with hydraullC drive, consult factory.
Weights are Approximate.
5-9
1------------------ ---
I I
63.0
74.0
48.0
24.0
52.0
14.0
30.0
8
Model 10"
Description
I,ll
6,16,36
4,14,34
4"
Elbow
16"
12"
5,15,35
8"
6" Wt.
Discharge
2,3,12,13,33
8S,
18DISCHARGE
Approx. 14"
I
ELBOW
Pump
-
1, 8V-BOLT
Model
1.0
1.5
2.0
3.0
8"
16"
6" Wt.
3.5
10"
V-Bolt
14"
4"
12" V-Bolt
88,
5,15
I,ll
4,14
6,1618
Description
Approx.
Pump
-1
*802360
I
I
used on Models
No.2,
3, 12, 13, 34, 35
SPREADER
NOTE:
BRACKET
Used on discharge
assembly
11.5
11.0
18.0
WEIGHT
DESCRIPTION
12.0
8.5
1,
11
2,3,12,13
18
5,15,35,5A
'+,1
'+,'+A
6,16,6A
16"
'+"Spreader
Spreader
Bracket
8"
2t"
Assy.
'+"
Bracket
Assy.
10"
x2"
2t"
Spreader
Bracket 8S,8,
Assy.
6"
12" x7.5
MODEL
APPROX
I
l€l=€l
NOTE:
PART
81'+'+66
6-2
Used on agitator
-=0
assembly
PUMP
MODEL
DESCRIPTION
If
6" x 2t"
Spreader
Bracket
PUMP
Assy.
3'+,35
APPROX
WEIGHT
8.5
DRIVE COLUMN & SHAFT ASSEMBLY
mbly
ysembly
I
ShortDrive
Drive
Column
&:.
Shaft
14-,15,16
Short
Drive
Column
&:.
Shaft
Drive
33, WEIGHT
34
34Drive
Column
Shaft
35,
36
18 Short
Long
Drive
Column
Shaft
Short
Column
Shaft
MODEL
NO.
shaftColumn
unit
only.
USE WITH
11,12,13
Long
&:.
Long
Drive
Column
Shaft
11,12,13
I&:.I&:.&:.&:.&:.Shaft
PART NO.
DESCRIPTION
*807460
801460
823440
II
Assembly
I
I114-,15,16
I APPROX
1
INTERMEDIATE COLUMN & SHAFT ASSEMBLY
(Increases
pump setting
by four
feet)
US!: WJfH
MODEl NO.
801445
Intermediate
Assembly
804445
Intermedia
Assembly
te Column
& Shaft
*807445
Intermedia
Assembly
te Column
& Shaft
*For
Multi-Piece
units
Column
&:.
Shaft
AP/PROX
WiEiGHT
11,12,13
14,15,16,331
34-,35,36
,
18
J
only.
6-3
GREASE LINE KIT
CAUTION: It
is
imperative that a
pressure relief
system is used in
the bottom bearing
housing to prevent
the hydraulicing of
the drive shaft,
if over lubed!!
PART NO.
100717
DESCRIPTION
Greaseline
Kit
6' Setting
100718
8' Setting
Kit 18'
14'
16'
12'
10'
SettingGreaseline
I
6-4,
APPROX. WT.
1
9
0
8
H
891322
..
0
891320
Wt.
FLANGED
ELBOW
891315
90
891319
Description
5"
6"
14"
45
450
Flanged
900
8"
10"
12"
16"
4"
Flanged
Tee Elbow FLANGED
FITTINGS
Elbow
Flanged
0
00
.~
FLANGED TEE
450 FLANGED
ELBOW
Approx.
(50 P.S.I.
Rating)
Approx.
Approx.
(50 P.S.I.
Rating)
10"
14"
90
16"
12"
5" 45
8"
~n_
~-
i
~,
-,
-ii
6-5
.
. 10"
0
=~""'-- ~ ...
, . o
'
Wt.
WELDING
Welding
Tee
50 090
P.S.I.
Rating
900
90 Description
Weldlng
Welding
16"
12"
14"
5"
8"
6"
4"
Welding
Tee Elbow
10"
450
45
FITTINGS
45
WELDING
ELBOW
*
4"
12"
Welding
Elbow
450
Welding
Elbow
8"16"
90 45Weldlng
14"
Elbow
Welding
Elbow
o0
.
WELDING
TEE
*
900 WELDING ELBOW *
0
Approx.
Approx.
Approx.
,fu_~'-":<;:oi:
'-,£.
-~'c-"'- '"""
,,,.0J.;i;
..c><!·
~• ','_iL",,"..·1r-.7f·.:F,
__ ~'!,;;"";1.:·Cli·'lii
•
8
(}J
;"'i'.':-'";I~
ViiJf,.';'·: ..
23No.
03
-
WELDING
_.0-
891404
891406
891,DO
891425
891434
891412
891426
891416
891410
891432
891414
891405
891424
891428
891408
,t,'
lii
FITTINGS
Wt.
12"
3"
8"
4"
16"
5"
6" Welding
Gasket
14"
Description
10"
Flange
3"
8"
12"
16"
5"
4"
-----
GASKET Approx.
Approx.
WELDING
FLANGE
6-7
@
0
,
3
0
42
6
2
4ht
PIPE
n
II
- Cone
Wt.
10"
xG.D.
14"
Welding
x
Gauge
Tubing
Description
Wt.
12"
16"
6"
1210
Gauge
8"
12"
8"
Tubing
2"
3"
Welding
4"
O.D.
x
5"
'X
16"
Description
6"
3"
4"
10"~~O.D. 121'
10"
12"
Welding
5"
x
8"
Cone
14"
x6"12
8"
10"
Gauge
Tubing
Cone
Approx.
I
per
foot
WELDING
CONE
Approx.
CHART FOR SELECTING BELT LENGTH
BELT LENGTH
CENTER TO CENTER
MOTOR
PUMP MOUNTING FRAME
46
-
I
18
19
44
55
57
56
45
213/4
24
26
23V2
22V2
29
25
Max.
23
29V2
28V2
28
24
CenterI To Center
11
273/4
23
20
163,4
13
223/4
25
22 14
I
40,50
1,1V2,2*
30
10 HP
Motor
1, 1112,2*
Min.
BELT CENTER FOR PTO DRIVE SHOWN Oi'J PP,GIE7~5.
*For single phase :2and 5 HP subtract 1".
~~OTE:!nslmctio!1s for l1se of charts 0" page 7-2.
Belt Length
INSTRUCTIONS
FOR USE OF BELT, SHEAVE AND BUSHING CHARTS
EXAMPLE:
1. Locate the speed in the pump RPM
column, which is .c1osest to the RPM
previously determined for the pump.
2.
Desired pump RPM - 978. Utilizing mounting frame unit 802006 for 15 HP motor
with Model 1114:
Record the sheave pitch diameters
shown in the second column.
1. Locate
3.
4.
Utilizing information provided on the
chart on Page 7-1 indicating the belt
length center to center, select an
appropriate
belt which will faU between
the minimum and maximum lengths.
The belt number is designated at the
top of the column.
2.
7.
Follow the horizontal line over to
the column indicating the rated HP
per belt. Divide the HP rating into
the HP required.
The answer, rounded
to the next highest number, is the
number of grooves for the sheaves
and the nLlmber of V-Belts required.
8.
9.
10.
5. In the sheave diameter column in the
bushing chart on page 7-4, the 8.6 diameter
intersects the two groove column within
the SK area.
6. The 15.4 sheave intersects
the two
groove column within the SK area.
IS
The sheave bushing bore for the
large sheave can be located in the
chart on this page - "Pump Sheave
Bore" next the the appropriate
model
number.
Record the appropriate
number and bore size.
bushing
The appropriate sheaves are located
on page 7-6. The appropriate bushings
are located on page 7-7. The appropriate
belts are 1coated on page 7-8.
7-2
are 8.6 and 15.4.
4.. The rated HP per belt is 10.7 and the HP
utilized is 15. Fifteen divided by 10.7
equals 1.4 which when rounded to the
next highest number indicates the need
for two belts and also indicates the
requirement of two groove sheaves.
Follow the chart horizontally to
a point intersecting
the number of
grooves indicated at the top of the
chart and record the letters indicated in the chart.
The bushing bore for the small sheave
the same as the shaft size of the
motor and is shown in the electrical
components section in the "Shaft Size"
column adjacent to the HP rating
of the motor.
Sheave diameters
3. Belt length center to center, minimum
is 221" to maximum 281". There are
two belts which fall between the minimum and maximum, those being a
B-85 at 24.3" and B-90 at 26.8". Either
belt would be satisfactory.
5. Locate the proper sheave diameter in
the bushing chart in the column marked
"Sheave Diameter".
6.
978 RPM on page 7-3.
7. The shaft size of a 15 HP motor is shown
to be I 5/8'· in the shaft size column
on Page 8-1.
8. For a Model 1/14 pump, the sheave
bushing bore shown in the chart below IS
2 1/4".
9.
One SK 1 5/8" QD Bushing and one
SK 2 1/4" QD Bushing are required.
PUMP SHEAVE BORE
Models 11, 12, 13
I"
Models 14, 15, 16,
33, 34, 35
2 1/4"
Model 18
2 3/16"
.------ , - -
, 35.7
21.7
22.4
4.15
4.96
4.47.
3.90
6.44
5.23
4.98
6.20
21.2
21.8
22.7
22.1
20.4
20.8
23.0
4.80
4.07
4.88
5.41
4.71
5.06
5.50
4.23
4.82
3.82
5.25
4.55
5.68
5.76
5.15
5.58
5.31
5.52
5.85
22.8
3.98
5.08
6.36
7.02
5.4022.3
!
44.1
47.6
32.7
29.7
41.2
39.5
36.0
1.42
1.72
7.35
42.5
33.8
36.2
24.0
46.0
31.4
1.74
1.65
9.40
44.8
41.5
B-90
42.9
46.9
43.7
23.1
34.1
37.6
31.7
34.4
32.4
47.9
25.6
36.6
4&.1
47.2
40.4
21.6
11.0J
41.9
42.7
30.7
35.2
46.2
27.7
10.7
42.6
32.6
30.6
26.7
1.72
8.60
48.4
43.5
33.4
32.1
40.9
31.5
47.0
27.6
27.4
37.4
33.2
48.7
45.2
40.1
28.5
24.6
26.4
25.0
37.7
21.0
22.7
8.60
..Diameters
10.6
2'1.1
-34.6
45.5
41.6
44.4
44.0
45.4
33.7
39.7
40.7
41.0
4004
47.8
37.8
45.7
38.9
36.5
39.0
30.5
35.0
41.4
39.2
46.7
46.8
39.6
35.8
29.4
48.0
29.8
37.3
42.8
36.8
40.3
36.7
48.2
44.2
48.5
49.8
30.2
28.2
47.7
40.2
46.4
46.6
40.6
34.0
50.5
27.5
35.4
24.7
35.3
44.5
49.'1
26.2
45.3
24.4
25.5
46.4
37.1
20.0
22.1
20.7
1.68
1.14
1.06
1.47
1.61
1.27
1.68
1.62
1.28
6040
11.7
11.5
10.3
3.90
6.01
7.84
7.27
8.77
7.92
38.0
26.0
42.2
34.7
49.7
27.2
.8.60
1.54
10.5
45.1
41.1
48.6
35.1
1.64
29.9
49.4
37.9
19.4
1.43
6.61
47.2
8-105
B-112
B-97
B-60 30.4
8.00
1.16
7.40
31.3
33.3
43.4
20.8
1.13
34.3
44.3
29.6
26.6
28.7
26.3
48.3
29.1
25.9
21.2
21.8
21.9
19.1
1.34
1.28
1.36
1.07
1.21
6.40
1.17
7.19
38.7
26.8'
38.6
46.1
24.1
20.1
44.9
25.4
22.4
1.08
1.19
11.00
1.79
5.60
42.4
34.9
23.8
31.2
43.2
27.3
39.3
28.8
40.8
41.3
36.3
32.9
25.7
32.0
47.5
33.0
46.5
43.0
38.5
33.5
30.4
48.9
24.8
43.3
29.0
40.0
32.3
37.0
26.9
39.9
29.3
48.8
28.9
49.9
45.9
35.9
33.9
49.2
30.3
45.8
42.3
38.3
24.2
39.8
30.1
36.9
48.1
31.0
32.5
35.5
49.0
35.7
28.3
25.8
30.8
24.3
30.9
25.2
26.8
41.7
27.9
27.0
26.1
32.4
23.0
21.4
22.9
20.5
21.5
23.4
23.2
20.4
1.32
1.37
1.31
1.59
1.38
1.17
1.09
1.22
1.57
1.11
1.15
8.60
12.40
5.20
9.40
6.80
5.40
4,60
·9.40
1.32
7.40
6.00
5.40
5.00
5.60
6.86
8.93
8.60
6.69
7.59
.32.2
32.8
34.8
22.2
1.39
7040
1049
9040
5.60
23.7
38.2
32.2
19.7
5.60
33.1
1.30
15.40
4.60
23.4
31.9
31.8
47.3
43.8
25.3
21.3
6.00
6.80
8:60
31.6
25.1
21.1
1.48
B-81
B-75
B-85
B-120Sheave
8-68
1.44
22.3
1.20
5.00
7040
11.3
28.0
35.'4
38.4
24.5
22.6
19.8
1.26
1.23
1.12
6.00.
6.40
5.20
8.85
5.66
36.1
28.6
33.6
Sheave
23.9
43,8
43.6
23.0
39.4
9.40
24.2
21..5
1,.04
Speed
Large
23.2
2~1 I
31.7
2L!.2 I 37.71
"9?
I
I MOTOR
FOR
!
37.9
43.2
Ratio
34.4
39.7
45.2
41.7
Allowance
"B" WIDTH (Including
BELTRatedDRIVES
Speed
Ratio)1750 RPM
HP Per Small
Belt Speed
7-3
SPEEDS OF 1750 RPM
for
..
---.---
.
~.'.--...-.,.,.."-"'.'*"'.
"'"""
' 11.7
' ,~
""," ~.. _.;(:",
21.7
50S
4.96
20.5
22.5
21.9
20.8
22.4
21.1
21.6
22.0
22.3
22.1
21.2
19.6
4.23
,,;;~,-'!j"""':-:
20.9
20.2
21.5
20.6
19.9
to
1-15/16"
20.1
21.4
21.3
-.-33.4
NUMBER
OF GROOVES BORE
12.04
'12"
to SO
1-15/16"
BORE
SF
'12'8-60
to
45.8
40.4
44.1
44.2
23.3
45.4
41.9
1.81
5.31
8-97
8-112
23.8
32.3
30.3
49.9
38.3
19.8
39.3
47.1
42.3
26.2
36.7
29.2
26.7
32.8
44.4
47.9
28.8
34.8
26.6
43.8
27.5
24.7
46.3
24.6
26.8
28.7
30.4
36.3
2.87
2.70
1.96
6.77
33.7
40.3
31.3
23.2
29.9
34.4
30.5
40.7
47.4
23.4
27.2
37.3
42.8
31.8
29.4
27.3
42.9
36.2
46.5
29.1
27.1
42.6
26.5
41.0
41.6
24.1
48.1
30.7
48.2
25.9
29.8
40.8
41.7
33.5
24.5
31.2
27.7
27.0
36.3
35.8
43.4
44.9
45.7
28.1
26.3
26.0
25.1
29.7
33.1
35.3
1.87
2.12
2.21
10.7
6.09
9.01
8.00
29.0
25.5
2.04
1.88
31.9
37.9
49.4
19.3
8-105
8-85
8-120Sheave
8-81
8-90
8-68
2.08
2.20
36.9
39.8
28.5
38.5
46.8
29.5
43.1
39.6
35.5
43.9
44.3
46.0
24.2
25.4
36.4
32.9
31.7
3.07
6.40
2.38
5.74
5.39
7.35
.21.8
35.7
39.9
38.8
39.4
32.7
43.0
39.1
40.1
34.0
34.2
30.2
34.7
40.0
40.6
43.6
27.8
46.9
31.0
48.5
33.0
25.2
25.6
43.3
36.6
32.5
23.7
24.0
24.4
30.6
43.5
29.6
41.3
26.9
44.6
33.3
28.2
35.4
39.0
23.6
29.3
37.5
38.2
31.6
46.6
31.7
39.2
37.8
27.9
47.5
47.8
25.7
33.2
23.9
28.4
39.5
37.2
24.8
25.0
35.1
24.9
20.4
38.2
6.40
6.00
9.40
5.00
8.60
4.00
2.96
3.68
2.39
3.08
3.41
2.30
3.35
2.26
3.54
2.48
2.57
2.14
1.94
4.31
4.31
7.43
5.04
8.08
6.01
6.77
33.1
2.07
2.49
2.71
BORE
34.1
37.7
26.4
2.75
23.5
32.0
30.0
45.5
19.5
5.20
8-75
1.82
3.29
Ratio SI< 22.9 V-Belt Number and
34.5
35.3
5.60
7.40
28.6
36.0
37.0
44.5.
28.0
24.3
4.60
5.40
5.40
12.40
15.40
18.40
18.40
12.40
2.85
2.41
8.60
6.69
38.0
9.40
Sheave
6.80
1.83
II5I64'12". ·32.3
11.00
'/,'
2'/,'
242.0
CenterforDistance
3Diameters
80RE
21.7
8.08
51<2-15/16"
Small
5.60
Allowance
Ratio)1750 RPM
Large
Speed
Rated HP Per Speed
8elt Speed
'12" 10 2'12"
A/B'
5.0
18.4 (Including
15.4
.-...
BUSHINGS
"B" WIDTH
'.~'"
BELT
DRIVES
(continued)
SHEA.VES
FOR
FOR MOTOR SPEEDS OF 1750 RPM
,~"- .;z-o
SHEAVES
FOR
NOTE:
- QD BUSHINGS
USE ON TRACTOR
PTO Belt
Center
GROUP
required
2.
Determine
tractor
3.
Select components
which
of the following
groups.
pump speed.
PTO speed.
best
fit the ratio
desired
A - SHEA VE RATIO
1: 1
For pump speeds up to 540 RPM (540 PTO) or 1,000
QTY
from
one
RPM 0,000
PTO)
980309
894086
980323
895085
PART 4B
DESCRIPTION
II 8.6
B-85
QDQD
Sheave
SK
3/8
2I V-Belt
1/4
Bushing
B - SHEAVE
For pump
41
1
RATIO
1.5: 1 (Overdrive)
speeds up to 810 RPM (540 PTO) or 1500 RPM (1000 PTO)
980309
895085
894074
894110
DESCRIPTION
PART B-85
1/ 7.4
980323
4B
11.0
QD
QD
Sheave
Sheave
SK
21 V-Belt
3/8
1/4
QD
Bushing
C - SHEA VE RATIO
2: 1 (Overdrive)
For pump speeds up to 1080 RPM (540 PTO)*
QTY
41
1
*This group
NOTE:
- 34~" Maximum
FOR ORDERING
Determine
QTY
GROUP
is 26~" Minimum
1.
4I
2
GROUP
PTO DRIVE ASSEMBLY
to Center
DIRECTIONS
- V-BELTS
980309
894110
895085
980323
DESCRIPTION
897560
1/ 5.6
PART B-85
5B
4B
11.0
QD
QD
Sheave
Sheave
21 V-Belt
1/4
QD
Bushing
SK
3/8
not recommended
Drives
limited
for 1,000 RPM.
to 20 HP
35 HP
@
@
540 RPM PTO
1,000 RPM PTO
7-5
-
""-':1
6B15.4
6B20.0
Sheave
6B9.4
4B6.0
4B6.4
4B9.4
4B11.0
4B12.4
4B15.4
4B18.4
4B20.0
4B8.6
2B8.6
2B11.0
2B15.4
Sheave
3B4.6
6B12.4
6B6.8
6B11.0
6B4.6
3B5.0
3B5.2
6B6.0
6B5.2
3B6.8
3B5.4
3B6.4
6B8.6
3B9.4
Sheave
3B
18.4
4B5.6
4B6.8
4B7.4
4B4.6
4B5.4
4B5.0
2B
2B6.8
2B7.4
2B12.4
2B18.4
2B4.6
2B5.6
2B6.0
2B5.4
2B5.2
2B9.4
6.4 Sheave
3B15.4
3B12.4
6B7.4
6B6.4
6B5.4
6B5.6
6B5.0
3B8.6
3B6.0
3B11.0
3B7.4
3B5.6
Sheave
4B5.2
2B5.0
896154
894094
894074
894154
894060
894086
894110
894124
894064
896124
896110
894184
894068
894046
896094
896060
896064
896086
894056
894054
894052
894050
896068
896074
896056
896054
896050
896046
896052
6Disconnect
GROOVE
SHEAVES
4 GROOVE
SHEAVES
Part
II
Sheaves6B18.4
used
on
PARMA Pumps are
Quick
Sheaves
Description
7-6
Description
--------------------------------------------------------------------------------------
446
Part II
.r-----
All Bushings
Part
If
Used on PARMA
Pumps
Are Quick
Part
Description
SOS BUSHING
980276
SOS 7/8"
980278
SOS 1" Bushing
980280
SOS 1 1/8" Bushing
980284
SOS 1 3/8"
Bushing
980288
SOS 1 5/8"
Bushing
980292
SOS 1 7/8"
Bushing
980293
SOS 1 15/16" Bushing
98031+0
980358
980356
98031+1+
98031+8
980360
980353
9801+53
980365
980394980390
9801+60
980338
9801+56
980386
980336
9801+52
Disconnect
If
Bushings
FOescri£tion
211"
Bushing
15/16"
5/8"
Bushing
Bushing
E
7/8"
1/8"
Bushing
SF
27/8"
1/8"
15/16"
Bushing
13/8"
3/8"
11/16"
1/1+"
Bushing
Bushing
SF BUSHING
E
F BUSHING
Bushing
SO 211"
3/8"
7/8"
Bushing
Bushing
SK
1BUSHING
5/8"
3/8"Bushing
1/8"
1/4"
15/16"
Bushing
Bushing
SO
7/8"
1/8"
Bushing
Bushing
980305
9801+23
980303
980309
980325
980313
980318
980321
9801+27
9801+21
980317
980323
9801+36
9801+31
9801+35
9801+19
980301
SK BUSHING
J BUSHING
9801+71
J 115/16"
Bushing
7-7
Factory
Recommendation
is Use of 2 or More Belts
v - BELTS
Part
7-8
II
-
B SIZE
Description
895060
B-60 V-Belt
895068
B-68 V-Belt
895075
B-75 V-Belt
895081
B-81 V-Belt
895085
B-85 V-Belt
895090
B-90 V-Belt
895097
B-97 V-Belt
895105
B-I05 V-Belt
895112
B-112 V-Belt
895120
B-120 V-Belt
MOTORS
OPEN
Single
----
PART
890175
NOTE:
DRIP PROOF
Phase
230 V - 1750 RP M
, 8111
32Phase
HP
4311
13711
NO.
3611
SHAFT
SIZE
DESCRIPTION
1Motor
1/8IWEIGHT
17/8
3/8
1230V
1/8
Single 6111
230V
Motor
7.5
510
HPSingle
Single
Phase
Phase
230V
Motor
Motor
HP
Single
Phase
230V
1 HP
HP
Single
Phase
230V
Motor
1.5
Single
Phase
230V
Open drip proof motors
covered
if used outside.
are not protected
TOT ALL Y ENCLOSED
Three
I
PART
I
Phase
230/460V
326T
1/38
3/8
254T
213T
286T
182T
284T
256T
364T
30011
40911
2125
32LiT
1/8
184T
5/8
14011
6311
7611
187
46011
16511
56011
7/8
If
145T
215T
26311
4511
12811
240
V
7550
30
.5
57/8
HP3HP
Phase
230/460
Motor
3110
20
HP
60
33Phase
Phase
3 Phase
230/460
230/460
VVMotor
Motor
V Motor
HP
DESCRIPTION
I230/460
FRAME
NO.WEIGHT
8-1
15S~:[TI
from
FAN COOLED
- 1750 RPM
!
weather
and should
be
Ir
MOTORS
I
I
,
SOFT START SINGLE PHASE 1750 RPM
(For operation
OPEN DRIP PROOF
from 230 Volt 60 Hertz Single Phase Low Starting
This type of motor gives reliable electric horsepower
Available in standard sizes 7.5 HP through 60 HP.
Current)
on single phase lines.
The motor operates on single phase through a control panel which includes
matched
starter and overload protection.
The motor is a highly reliable
polyphase induction motor with a unique winding which allows it to be operated
on either single or three phase. The motor DOES NOT have to be rewound.
To do this, simply reconnect the leads in the junction box.
All drip proof motors are rodent
screened.
The Panel control is in a drip proof enclosure which incorporates
starter, motor control, and overload protection.
the motor
The design of this unit has been field proven. It has been in use since 1958.
This system provides the answer to many power problems when only single
phase service is available.
(NOTE:
All motors
Wt.
100
520
Load
FramePhase
410
196
205
Shaft
103
77
284TZ
58
592
180
285
95
286TZ
392
140
30
205TZ
254TZ
163
117
40
256TZ
429
590
364TZ
2
260
1/8
324TZ
326TZ
120
365TZ
334
90 HP
210
175
11Amps
7/8
Description
3/8
5/8
Approx.
Amps
300
50
30
25
20
7.5
HP
Single
Phase
15
3/8
40
2
60
Single
1/8
10
890240
890230
890260
Start
890249
890210
890220
890225
890215
Delivery
8-2
Time:
4 to 6 Weeks
listed below are 1750 RP M - Soft Start
Full
Motors)
tarter
arter
arter
ELECTRICAL ACCESSORIES
PUMPING
MAGNETIC
890323
890146
890346
890223-H
890246
~
Br ands - Square
* Part Number
up to 3 HP.
II
PLANT
STARTERS
STARTER
- With Heaters
and Disconnect
II
30
10
15
100f!
50
100
70
5711
f1
II
DESCRIPTION
Size
Phase
230V
1/2
5711
V 7HP
Size
321 -- 33WEIGHT
Phase
460V
Size
33 MAX
Phase
230V
Size
25
Size
Phase321 --460
460V
APPROX
D and Toshiba
890123
Magnetic
Starter,
Size a, also used for Single
Phase
motors
**Part Number 890223 Magnetic
Starter,
Size 2, also used for Single
up to 7 1/2 HP by simple internal
wiring change.
Phase
motors
SOLENOID
Part No,
OILER
Approx.
Description
891823
891824
230V Solenoid Oiler
Coil for 230 V Oiler·
891846
891847
460V Solenoid Oiler
Coil for 460 V Oiler
Wt.
8-3
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