SOTERA 400b Series Electric Diaphragm Pumps Owner’s Manual

400b Series Electric Diaphragm Pumps
Owner’s Manual

400b Series Electric Diaphragm Pumps

Thank You!
Thank you for your loyalty to the Solera® brand of chemical, lubricant, and mixed hydrocarbon transfer pumps. Your safety is important, so please read and thoroughly  understand the procedures set forth in this manual. Protect yourself as well as those around you by observing all safety instructions and adhering to all danger, warning, and  caution symbols. Please save these instructions for future reference and record the model, serial number, and purchase date of your Solera transfer pump. Please register your  Solera product via info.fillrite.com/sotera_product_registration.

IMPORTANT RETURN POLICY
Please do not return this product to the store. For all warranty and product questions, please contact Technical Support at 1 800-720-5192 or via email at SoteraTech@fillrite.com ( M – F, 8 AM – 5 PM ET).

MODEL#|
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SERIAL#|
PURCHASE DATE:|

Limited Warranty Policy

included
Two (2) Years| __ 820, 825, and 850 meters
One (1) Year| All motors regardless of voltage class (explosion proof, non- explosion proof; 12V DC, 24V DC, and 115V AC)| Accessories are defined as fittings, hoses, swivels, filters, strainers that are purchased within a 400B pump package or separately for use with a 400B pump or 820, 825, or 850 meter

Basic Definitions

Chemtraveller® : A compact, low-profile frame to allow for pump mobility without needing to handle the pump itself.
Diaphragm: A flexible membrane constructed of a synthetic rubber used to displace fluid through the pump cavity.
IBC Mount: A stainless steel bracket that can be mounted onto the cage of any size IBC tote.
Mix-n-Go: A recirculation system design to fit onto a 9″ IBC gem cap. Units with this device have the recirculation valve built into the pump.
Poise (P): A unit of measurement of dynamic viscosity. For the purpose of this manual, Solera will utilize the measurement of Centipoises (cup) which is one hundredth of a  Poise or one millipascal-second (mPa-s).
Positive Displacement: Constant volume at a fixed speed, independent of system pressure.
Pump-n-Go: Free-standing pump mobility. Systems with this designation do not have any mounting frames.
Recirculation: The process of mixing fluids through the pump without discharging from the container.
Suction Lift: The distance below the center line of the pump to lift fluids.
Viscosity (V): The measurement of flow fluid or resistance.
Wetted Parts: All parts that are touched by the transferred fluid either in part or through immersion.

About This Manual

From initial concept and design through final production, your Solera product is built to provide years of trouble-free use. To ensure the safety of yourself and those around  you, it is critical that this manual is read in its entirety prior to attempting to install or operate your new purchase. We strongly urge that any installer and operator become  familiar with the terms, diagrams, and technical data in this manual and pay close attention to any DANGER, WARNING, CAUTION, or NOTICE information. At Solera,  your satisfaction with our products is paramount. If you have questions or need assistance with your product, please contact us at 1 800-720-5192 or via email at SoteraTech@fillrite.com (M-F, 8 AM – 5 PM ET).

Symbols and Definitions

Indicates a hazardous situation which, if not avoided, will result in death or serious injury.
Indicates a hazardous situation which, if not avoided, could result in death or serious injury.
Indicates a hazardous situation which, if not avoided, could result in moderate or minor injury.
Indicates information considered important but not directly hazard related.

General Description

The Solera 400B Series is a self-priming, positive displacement double action diaphragm pump. It features flow rates up to 13 gallons per minute (13GPM) and is engineered  with polypropylene and stainless steel wetted parts, along with seals that are compatible with most agricultural and industrial chemicals as well as lubricants (e.g. those found  within power transmission). These wetted materials consist of a polypropylene body and valves, stainless steel fasteners, Hastelloy ® check valve springs, Buna-N, EPDM and  Fluorocarbon seals, along with Hertel ® and Santorini ® diaphragms.
Solera utilizes a recognizable naming system where model numbers reference the diaphragm material. Models that begin with ‘SS’ (eg. SS415B) contain Santorini diaphragms, while models that begin with ‘FR’ (eg. FR410B) contain Hertel diaphragms. Santorini is designed for moving agriculture chemicals while Hertel is used with  oils and lubricating fluids. We strongly recommend referring to the Solera Chemical Resistance Guide found at sotera.com to determine proper materials of construction for  use with your application.
The 400B Series pump is not compatible with strong acids (pH of 3.4 or below), strong bases (pH above 12), non-diluted flammable liquids with a flash point below 100°F/38°C, or bleach (sodium hypochlorite).

General Safety Information

| The 400B pump series is not intended to be used to fuel any aircraft, on or off road vehicle, or marine vessel.
This pump is not suited for use with fluids for human consumption.
Any electrical wiring should be performed ONLY by a licensed electrician in compliance with all local, state, and national electrical codes (NEC/ANISI/NFPA 30, 30A, and 70) as appropriate to the intended use of the pump.
Always ensure that the pump is properly grounded prior to use.
Improper installation or use of this pump can result in injury or death.
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Mechanical Installation

| The mechanical yoke assembly is under extreme pressure. Never disassemble under any reason.
Always secure before use by anchoring any holding tank or barrel to prevent tipping under any condition.
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| Do not use any additional check valves or foot valves without consulting with Solera Technical Service. These valves will restrict flow rate and possibly increase system pressure that will affect the transfer pump performance.
| Threaded pipe joints and connections must be sealed with an appropriate sealant that is compatible with the fluid being transferred to minimize the possibility of leaks. Leaks of any kind can be detrimental to the environment and cause injury to operators if in contact with skin or eyes.

To maximize performance and longevity of your 400B Series pump, we recommend the following considerations:

| Tanks and containers must be vented to prevent collapses.
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• Tighten all non-metallic fittings to a snug fit to prevent leakage.
  Damage could occur to the pump if these fittings are over tightened.

• Do not use the pump as the structural support of the piping system.

• Be certain the system components are properly supported to prevent  stress on the pump parts. As a rule and unless specifically designed into the pump, suction and  discharge connections should be flexible to avoid damaging the pump body. Ensure that any connection material is compatible with the substance being transferred  through the pump itself.

Installation Best Practices (Suction Side of Pump)

• All suction hoses should be reinforced to prevent collapse by system pressure.
• If there is a possibility of solids or debris within the liquid, at minimum, a 10 mesh screen (0.07″) or less needs to be utilized either at the end of the suction pipe or entry  into the suction side the pump. Particles greater than 0.1″ will adversely affect pump performance.
• All suction hoses or pipes must be 1″ diameter. Large sizes may be used as long as it terminates to a 1″ diameter at the suction inlet of the pump.
• Placement of the suction pipe should terminate 2″ from the bottom to avoid particulate contamination unless a 10 mesh in-line screen is being used as noted.
• Maximum suction lift capacity is 9 FT (2.7 M) for water at sea level at 70°F. Suction lift for each application will be dependent on the Centipoise (cape) of the individual  fluid as affected by temperature and elevation.
• All discharge hoses should be a minimum of 1″ diameter. Large sizes may be used as long as it terminates to a 1″ diameter at the discharge outlet of the pump.
• Hoses greater than 20′ may be used, however, reduced outlet flow at the end of the hose or nozzle should be expected. Flow is dependent on the cup of the fluid as  affected by temperature and elevation.
• Always use hoses and accessories that are compatible to the product being transferred. For hoses, as a general practice Solera recommends EPDM for agricultural  chemical and Nitrile or Buna-N for petroleum-based oils and lubricants.

Electrical Installation

| Be certain the power switch is OFF prior to connecting the battery clamps/power cables to the power source to prevent unexpected starting of the motor. Unexpected motor start can cause unintended discharge of fluid, creating explosion/fire/chemical spill hazards.
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| Never disconnect the power cable while pump is switched on. Always switch the pump off PRIOR to disconnecting the 12V DC battery clamps or the 110V AC plug from the power source. Electrical sparks or short can occur if not disconnected properly.
Electrical wiring installation should ONLY be performed by a licensed electrician in compliance with all local, state, and national electrical codes (NEC/ANISI/NFPA 30, 30A, and 70) as appropriate for the intended use of the pump.

DC Power

| Various models of the 400B Series are direct current (DC) through either an explosion-proof or non-explosion proof motor at either 12V DC or 24V DC power. These same models may or may not have supplied cables for connection to either a positive or negative battery terminal.
For 12V DC circuits, a 30 amp fuse (20 amp fuse on 24V DC motors) should be installed on the battery cable to protect the electrical system in case of a short. This fuse should be placed on the positive cable.
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• Solera strongly recommends grounding the pump and motor prior to any usage.
• Electrically bonding to a vehicle frame or utilizing a ground circuit for stationary applications are preferred grounding methods. Always consult with a licensed electrician for your application.
• Inspect any and all power and grounding cables prior to each use. Replace if the outer protective jacket has been removed to expose any wires.
• For 12V DC non-explosion proof motors, the power cable terminates with battery clamps that are either red (+) or black (-); however a ground wire is not included.
• For 12V DC explosion-proof motors, in general, neither a ground wire, power cable, or battery clamps are provided. See pages 14-15 for specific included components.
• DO NOT connect the ground wire to the negative post of the DC power source.
• All non-explosion proof 12V DC models come with a preinstalled power wire. 12V DC models will have a 30 amp fuse holder and fuse.
• 12V DC and 24V DC explosion-proof models will not have a power cord installed but may include a power cable separately, depending on model configuration.

Utilizing the diagram above, proceed with the following connections:

1. Ground connection (green clamp or eyelet)
2. Negative connection (black clamp)
3. Power connection (red clamp)

AC Power

All AC pumps will operate at the rated nameplate voltage.
AC power should be supplied to the pump from a dedicated circuit with a 15 amp circuit protection. No other equipment should be powered by this circuit.
Wiring must be of sufficient size to carry the correct current for the pump.
Voltage drop will vary with distance to pump and size of wire. Refer to the National Electrical Code (NEC) or local codes for voltage drop compensation to be sure you are  using the correct size wire for your application. Undersized wires can overheat and cause a fire.
Ensure proper grounding to avoid electrocution.
Models of 400B Series pumps with explosion-proof motors are classified for Class 1, Division 1 locations. It is highly recommended that any repairs be done by an authorized  distributor to avoid voiding the warranty. It is important to maintain the explosion-proof integrity of the motor and system components.
Electrical wiring installation should be performed ONLY by a licensed electrician in compliance with local, state, and national electrical codes (NEC/ANSI/NFPA 70, NFPA30, and NFPA 30A) as appropriate to the intended use of the pump.

Voltage drop in wiring varies depending on the distance from the electrical source to the pump and the gauge of the wire used. Solera recommends referring to national,  international, or local electrical codes to ensure the wire is of the correct size for your application. The following chart is to be used as a reference and is not a substitute to electrical codes:

Maximum Linear Distance (FT) of Solid and Stranded Copper Wire Length by Gauge

| AWG| 16| 14| 12| 10| 8| 6| 4
Wire| Solid| 39| 62| 99| 158| 250| |
Stranded| 38| 61| 96| 154| 245| 389| 620

Available AC Voltage Classes

• 115V AC, 60Hz, 2.5 amps, 1/4 HP (185 Watts) motor, standard non-explosion proof.
• 115V AC, 60Hz, 2.5 amps, 1/4 HP (185 Watts) motor, explosion proof ul listed.
• All non-explosion proof 110V AC models come with a preinstalled power cable. These models will terminate with a type B (3 pin) grounded, 15A plug that is compatible with type B sockets.
• 110V AC explosion-proof models will not have a power cord installed but may include a power cable separately, depending on model configuration as outlined on pages 14-15.

Best Operational Practices

Regular maintenance is critical to maintaining performance and extending the life of your 400B Series pump.

• Always turn off the transfer pump and disconnect from a power source prior to servicing.
• Always flush the pump completely prior to any service or disassembly. Solera recommends the use of water for flushing agricultural and industrial chemicals. For  petroleum-based products such as oils and lubricants, flushing with diesel fuel is acceptable.
• DO NOT PRESSURIZE THE FLUSHING FLUID. Damage to the pump will occur. Instead, submerge the suction tube or inlet adapter in the flushing fluid, then  operate the pump as normal for approximately 15-30 seconds or until the flushing fluid returns to its initial color. Allow the pump to air dry prior to any service.
• DO NOT SUBMERGE THE ENTIRE PUMP OR ELECTRICAL MOTOR IN THE FLUSHING FLUID, ONLY THE SUCTION TUBE OR INLET ADAPTER.
• Do not allow chemicals, lubricants, or oils to remain in the internal pump cavity for any extended period of time. Crystallization or a glum could become present,  adversely affecting pump performance.
• Solera highly recommends flushing the pump after each use to avoid ‘dry out’ and contamination between fluid transfers.
• The interior pump cavity is filled with SAE 30W oil by the factory in order to lubricate the internal gear drive mechanism and yoke assembly. Certain pump repairs will  require the draining of this fluid. If necessary, remove one of the site caps found on the exterior of the pump body and drain the oil through this port. Replace with new  SAE 30W oil after repairs are completed through the same port. Solera recommends 16 oz. of oil to be placed inside the cavity or until level is halfway within the site glass.

Routine Maintenance Schedule

1. Always check oil level by the sight glass prior to any fluid transfer.
   The ideal oil level should be at the mid line or halfway point of both site glasses. Add SAE 30W oil as needed to maintain the necessary level.

2. Inspect all external Torx(r) head screws are tight. If any screws appear to be loose, torque to 75 in-lbs.

3. Inspect all motor flange hex head bolts are tight. If any bolts appear to be loose, torque to 50 in-lbs.

4. Either annually or after 500 hours of usage, drain the existing SAE 30W weight oil through a site glass port and replace with approximately 16 oz. of the same oil.

Individual Pump Component Removal and Replacement (refer to exploded pump view, page 13)

| DO NOT DISASSEMBLE EXTERNAL GEAR ASSEMBLY. The planetary gears and ring gear are marked for proper assembly and must not be altered.
Never disassemble yoke assembly. This is under extreme pressure and injury could result.
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| Use care in removing the diaphragm and check valve assemblies to avoid damage to the pump body. DO NOT pry the diaphragm/check valve assembly away from the pump body with sharp or metal tools. Scratching or otherwise damaging the pump body may cause leaks.
| Do not attempt to replace individual parts. Replace entire assembly when required (Kit 400F6557).

Diaphragm Assembly Replacement

Both the diaphragms and check valve assemblies can be serviced without removing the oil from the interior pump body cavity. It is important that only one (1) assembly be serviced at a time. Avoid any possible contamination of the oil within the internal pump cavity during this repair.

Procedure

1. Turn the pump on its side by which the diaphragm to be repaired is facing upward while the opposite diaphragm is facing downward.
2. Remove the eight (8) diaphragm cover screws. This will require a Torx T30 bit.
3. Remove the cover and turn it over to expose the inner side to avoid any contamination. The cover will have a gasket seal. It is highly recommended that this seal be replaced during this repair.
4. Remove the four (4) retainer screws with a Phillips #2 screwdriver. These screws have a seated O-ring. It is recommended to replace both the screws and O-ring during this repair.
5. Remove the diaphragm assembly by pulling on the four edge corners of the diaphragm itself, being careful to not tear or curl the diaphragm. If necessary, pulling on the  check valve assemblies is acceptable. Do not use any tools to pry the diaphragm off the pump body as this could damage the surface of the pump. Be sure to retain the  four (4) check balls that are within the cavity of the pump. These may be removed with the diaphragm.
6. Install new diaphragm assembly in the same orientation as the one that was removed. Important that the check balls are seated prior to the diaphragm assembly placement.
7. Insert the four (4) Phillips head screws and tighten to 35 in-lbs.
8. Install the diaphragm cover with installed gasket. It is important to hand start all external screws prior to driving to a torque specification of 75 in-lbs.

Motor with Gear Assembly Removal

1. Position the pump with the sight caps downward.
2. Remove the four (4) screws holding this assembly and lift upward.
3. Replace with new motor and gear assembly as supplied by Solera.

Gear Assembly Removal

1. Remove motor as noted above.
2. Remove six (6) screws and key holding the gear pack assembly on the motor shaft.
3. Replace with new assembly, install new screws, and key.

Internal Mechanical Components (Bearing Plate, Yoke, and Drive Shaft Assembly)

1. Remove motor and gear assembly from pump cavity.

2. Drain oil from interior cavity through this opening.

3. Remove four (4) screws holding bearing plate.

4. Remove bearing plate, allowing for the thrust plate to be removed as well.

5. Remove drive shaft, bearing, bearing ring, and yoke assembly.
   The yoke assembly is under pressure by two springs. Do not attempt to repair, only replace with factory authorized parts.

6. Assemble in reverse order.

Viscosity Correction Chart

NOTES:

1. SUCTION LOSSES: Test pump was mounted on a 55 gallon drum of oil, 1/2 full. A Solera 1″ suction pipe was used. A longer or smaller diameter inlet pipe will lower the flow rate.
2. VERTICAL HEAD LOSSES: Test hose was horizontal with pump. Add 3 feet of hose for each 1 foot of vertical rise.
3. OTHER LOSSES: Elbows, quick-disconnects, swivels, and check valves in outlet or inlet hoses will restrict the flow. Add the estimated length of hose for each component used.

Fluid Compatibility by Diaphragm (Typical)

• Gear Oil [GL-1 to GL-5] • Hydraulic Oil
[HL, HM, HR]| • Motor Oil
• 000 Greases| • Crop Oil
• Detergents
• Liquid Fertilizers [UAN 28-32]| • Mild Acids
• Pesticides
• Soaps
• Water

Anti-Drip Nozzle Spout Kit 400KTF0237

For use with Norwescon and other nozzles with a 1 3/16″ outside diameter.
Installation

1. If there is a raised plastic notch on the nozzle, carefully remove it with a file before installing the anti-drip spout.
2. Apply soapy water to the end to aid in the installation. Place the anti-drip spout on the nozzle as shown at right. Tap the spout with a rubber mallet until it is fully  engaged. The space between the end of the spout and the bend in the nozzle should be slightly more than 1 3/4″ when pressed fully into place.

Proper Use
Place the nozzle into the container to be filled BEFORE turning the pump on.
After pumping, shut off the valve handle then gently shake the nozzle BEFORE removing it from the container. The spout will open when it senses pressure greater than 1  psi. Flow restriction will be minimal.

Diaphragm and Check Valve Orientation Detail

Troubleshooting Guide

drive gear for damage. Replace complete assembly if necessary
__ Pump hums but will not rotate| Motor faulty| Replace motor
Gear mechanism jammed| Check for free rotation of the gears
Low pump capacity| Low voltage| Check power source
Leaky suction line| Repair leaks
Dirt in check valve| Dismantle and clean
Faulty check valves| Install repair kit
Debris ingested| Add inlet screen
__

Motor overheats

| Pumping hot fluids| Shorten duty cycle
Motor faulty| Replace motor
Fluid leakage| Faulty or missing gaskets| Install all gaskets specified in parts list
Loose bolts| Torque all 1/4″ Torx head bolts to 76 in. lbs.
Cracked component| Torque hex head 1/4-20 motor bolts to 50 in. lbs. Replace defective component

PARTS LIST

ITEM| DESCRIPTION| QTY| | ITEM| DESCRIPTION| QTY
1| Pump Body| 1| | 15| Shaft Lip Seal, 400 Motor Shaft| 1
2| O-Ring Nitrile, -022| 2| 16A, 16B| Motor Assembly (see charts below for motor specifics)| 1
3| Sight Cap| 2| 17| Screw, 1/4 – 10 x 2.25 PTS-SS| 4
4| Bearing Ring| 1| 18| Flange Gasket – EPDM| 2
5| Brushing, 1.250 OD. x 1.00 ID.| 1| 19| 90° Flange with Inserts| 2
6| Drive Shaft| 1| 20| Screw, 1/4 – 20 x .750 LG| 4
7| Thrust Plate| 1| 21| Outlet Check Valve| 4
8| Bearing Plate| 1| 22| Ball| 8
9| Screw, 1/4 – 10 x 1.00 PTS-SS| 32| 23| Yoke Assembly| 1
10| O-Ring, Lathe Cut Nitrile| 1| 24| Diaphragm Assembly| 2
11| Screw, 6-32 Flat Head Tribular| 6| 25| O-Ring, EPDM, -007| 8
12| Gear Pack Assembly| 1| 26| PHM Screw, 10 – 24 x .5 LG| 8
13| Drive Gear| 1| 27| Diaphragm Cover Gasket – EPDM| 2
14| Key, Rotor| 1| | 28| Diaphragm Covers| 2
ITEM| UL LISTED / CE CERTIFIED MOTORS| QTY| | ITEM| STANDARD-DUTY MOTORS| QTY
---|---|---|---|---|---|---
16A| 12V DC CE Compliant Explosion Proof| 1| | 16B| 12V DC| 1
16A| 12V DC UL Listed Explosion Proof| 1| 16B| 115V AC| 1
16A| 24V DC UL Listed Explosion Proof| 1|
16A| 115V AC UL Listed Explosion Proof| 1

400B Series Model Information

LUBRICATING FLUIDS APPLICATIONS 1

| ACCESSORIES
MODEL NUMBER| VOLTAGE| INLET CONFIGURATION 2| STEEL SUCTION INLET| DISCHARGE
1″ MANUAL NOZZLE| HOSE 3
HYTREL/NBR DIAPHRAGM
FR205B| 24V DC UL EXP| AA| No Accessories
FR205BX054| BB
FR210B| AA| X| X| 12′
FR405BEXPX054| 12V DC UL EXP| BB| No Accessories
FR410B| 12V DC| __

__

AA

| X| X| 12′
FR410BEXP| 12V DC UL EXP| X| X| 12′
FR450B| 115V AC| X| X| 12′

ACCESSORY CONFIGURATORS BY MODEL

MODEL| VERSION| FEMALE CAMLOCK COUPLER| 1″ POLY SHORT NIPPLE| 2″ TO 1″ POLY REDUCER BUSHING| 1″ BALL VALVE & **NOZZLE| HOSE BARBS & CLAMPS| DIGITAL METER| __**

FRAME

---|---|---|---|---|---|---|---|---
825| 850
Pump-N-Go| A| 2″| –| X| X| X| –| –| –
Chemtraveller ®| A| 1″| X| –| X| X| X| –| Short
B| 2″| X| X| X| X| –| X| Short
C| 2″| X| X| X| X| –| –| Short
D| 1″| X| –| X| X| X| –| Tall
E| –| –| –| X| X| –| –| Tall
Mix-N-Go| A| –| –| –| X| X| X| –| –

1Always refer to the Solera Chemical Resistance Guide (Sotera.com),2 Refer to the Solera Technical Data Sheet, Suction table, Inlet Configuration column for more details, 3 Non-UL w/ static wire fuel hose, 4 Refer to the Solera Technical Data Sheet, Version column for specific 400B Series Model Information.

CHEMICALS: AGRICULTURE & INDUSTRIAL 1

| ACCESSORIES|
SUCTION INLET| DISCHARGE
SANTOPRENE / EDPM DIAPHRAGM
MODEL NUMBER| VOLTAGE| INLET| POLY 2| HOSE 3| ANTI-DRIP POLY| HOSE 3| SPECIAL| VERSION 4
SS411BCEXP| __

12V DC CE EXP

| FF| No Accessories| –
SS413BCEXPPG| EE| –| 39″| X| 12′| Pump-N-Go| A
SS415B| 12V DC| AA|

No Accessories

SS415BX670
SS415BEXPX670| 12V DC UL EXP| EE
SS415BX731| 12V DC W/ BRACKET| __

AA

SS415BX731PG| X| 39″| X| __

__

__

__

__

__

__

__

__

__

__

__

__

__

__

__

__

12′

| Pump-N-Go| A
SS417B| __

__

__

12V DC

| DD| X| –| X| Includes 1″ Ball Valve, Hose Barbs, & Clamps| –
SS419BX665| CC| X| –| X| Monsanto Coupler, Support Bracket for Pump| –
SS420B| AA| X| –| X| Nozzle Hanger on Pump| –
SS425B| __

__

__ EE

| –| 39″| X| IBC Mount w/ Fittings| –
SS435B| –| 9′| X| Chemtraveller| A
SS435BCEXP| 12V DC CE EXP| –| 9′| X
SS435BX675| 12V DC| –| 9′| X| Chemtraveller| B
SS435BX700| –| 9′| X| Chemtraveller (All EPDM)| A
SS435BX713| –| 9′| X| Chemtraveller| C
SS435BEXPX703| 12V DC UL EXP| –| 9′| X
SS445B| __

__

__

12V DC

| __

__

9″ GEMCAP

| X| –| X| Mix-N-Go w/ Recirculation & Check Valve| A
SS445BX700| X| –| X| Mix-N-Go w/ Recirculation & Check Valve (All EPDM)| A
SS445BX727| X| –| X| Mix-N-Go w/ Recirculation & Check Valve| A
SS460B| __

115V AC

| AA| X| –| X| Nozzle Hanger on Pump, 1″ Ball Valve Nozzle, Barbs & Clamps|
SS460BX674| EE| X| –| X
SS460BX731| 115V AC W/ BRACKET| __

CC

| X| –| X
SS460BX731PG| X| –| X| Pump-N-Go| –
SS465BEXP| 115V AC UL EXP| __

__

EE

| –| 9′| X| Chemtraveller| D
SS465BX713| __

115V AC

| –| 9′| X| Chemtraveller| E
SS470B| –| 39″| X| IBC Mount w/ Fittings| –

1 Always refer to the Solera Chemical Resistance Guide (Sotera.com), 2 Telescoping Poly Suction Pipe (23″ to 40″), 3 EPDM Hose, 4 Refer to page 14, Accessory Configurator table

Regulatory Compliance Information

The “400B CE” Series pumps comply with the European Directive 2006/42/EC Machinery Directive
The following standards were used to verify conformance:
EN 809:1998 +A:2009 – Pumps and pump units for liquids –common safety requirements
EN ISO 12100:2010 – Safety of machinery – basic concepts, general principal for design
Directive 2014/30/EU – Electromagnetic compatibility
EN 61000-6-4:2007 / +A1:2011 – General standard for industrial environments
Directive 2011/65/EU – Restrictions of the use of certain hazardous substances in electrical and electronic equipment

Specific models of the 400 Series pumps feature UL/cUL listed electric motors. Check your model versus the MODEL / ACCESSORIES /CONFIGURATION INFORMATION table (page 14-15) to determine how your particular pump is equipped.

Fill-Rite Company
8825 Aviation Dr, Fort Wayne, IN 46809 USA
P 800-720-5192 | 260-747-7524
F 800-866-4861
fillrite.com | sotera.com | gormanrupp.com

References

• Fill-Rite Fuel Transfer Pumps, Meters, and Accessories
• Gorman-Rupp Company
• Register Your Sotera Product
• Sotera® Oil and Chemical Transfer Equipment

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