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Home My WebLink About20141230000812 STORM WATER EASEMENT AND MAINT AGREEMENT 12/02/2014RRST ANIEWAN Return Address: City of Auburn City Clerk 25 West Main Auburn, WA 98001 20141230000812 EAS FIRST AMERICAN KING COUNTY, UP Above this line reserved for recording information. STORM WATER EASEMENT AND MAINTENANCE AGREEMENT GRA14 -0002 Reference # (if applicable): N/A Grantor /Borrower: PFILP— West Valley Highway, LLC Grantee /Assignee /Beneficiary: City of Auburn Legal Description/STR: Sl l- T21S -R4E Assessor's Tax Parcel ID #: 030350 -0060, 030350 -0070 THIS EASEMENT AND AGREEMENT made and entered into this 2nd day of December, 2014, by and between the City of Auburn, a municipal corporation of King County, Washington, hereinafter referred to as "CITY" and PFILP — West Valley Highway, LLC hereinafter referred to as "PROPERTY OWNER ". WHEREAS, PROPERTY OWNER has applied for certain permits with the CITY for the construction of facilities for Auburn West Valley located at 1401 West Valley Highway N and 1417 West Valley Highway N, Auburn, WA 98001, which create impervious surface; and WHEREAS, the PROPERTY OWNER will complete a storm system; and WHEREAS, the PROPERTY OWNER and the CITY desire that the storm system be maintained to provide adequate facilities for controlling both the quantity and quality of storm drainage; and WHEREAS, for maintenance of a storm system it is necessary to have appropriate right -of -way to bring in equipment to conduct maintenance functions; and WHEREAS, maintenance requirement is a covenant running with the land and binding upon all heirs, successors and assigns of both parties; and WHEREAS, the parties desire that this Agreement be recorded to advise heirs, successors and assigns of both parties as to the existence of this easement and agreement; and Storm Water Easement and Maintenance Agreement Page 1 of 43 F y tom; ��z•at,. „c, tt; 1n Cc. mLir�sion By \ pry r � WHEREAS, an easement is needed to bring in maintenance equipment; and WHEREAS, the parties are both desirous of permitting inspection of the storm system to make certain that it is functioning properly and for purposes of determining the appropriate repairs. NOW, THEREFORE, BASED UPON MUTUAL COVENANTS TO BE DERIVED THE PARTIES AGREE AS FOLLOWS: Section 1, EASEMENT PROPERTY OWNER hereby provides a non - exclusive easement to the City for access, inspection, and maintenance for the purposes of this Agreement and the attached Storm Water Pollution Prevention Plan, over, under and on that real estate described in Exhibit "A" & "B" and on that portion of the property as showing on the approved Record Drawings revised pursuant to construction records for the City of Auburn under Permit No. GRA14 -0002, which record drawings are hereby incorporated by reference as if set out in full. This easement shall be a burden to that real estate which is legally described and attached as Exhibit "A" & `B" and incorporated herein by this reference, and shall be a benefit to the City Storm Drainage Utility System. parties. Section 2, HEIRS, SUCCESSORS AND ASSIGNS This Agreement shall be binding upon the heirs, successors and assigns of the Section 3, MAINTENANCE The PROPERTY OWNER agrees to maintain the storm system in accordance with the ordinances and all applicable codes of the CITY and the Storm Water Pollution Prevention Maintenance and Operation Schedule attached as Exhibit "C" and incorporated herein by this reference. The PROPERTY OWNER does hereby agree that the CITY may enter onto the property of the PROPERTY OWNER via the easement described above to inspect and perform necessary maintenance if, after the PROPERTY OWNER is given notice to maintain, the PROPERTY OWNER fails to maintain. Further, the PROPERTY OWNER agrees the CITY may enter onto the property of PROPERTY OWNER via the easement described above to perform emergency maintenance in the event there is a reasonable probability that the storm system's failure would result in significant adverse impact(s) on public facilities or private facilities of other property owners. In both events the PROPERTY OWNER agrees to reimburse the CITY for the costs incurred by the CITY in maintaining the storm system. Should the CITY incur attorney's fees and /or costs in enforcing the agreement and /or in maintaining or collecting maintenance fees, the Stone Water Easement and Maintenance Agreement Page 2 of 43 PROPERTY OWNER agrees to pay reasonable attorney's fees and all costs incurred by the CITY. Section 4, ACKNOWLEDGMENT OF OTHER ENFORCEMENT ACTIONS PROPERTY OWNER acknowledges that there may be liability for violations of codes that could result in additional fines and /or the possibility of incarceration in addition to the fees for maintenance should violations occur. EXECUTED as of the date first written above. I If It I 701!� Owner 10ath- Owner STATE OF WASHINGTON) ) ss COUNTY OF KING ) Date I certify that I know or have satisfactory evidence that 584YA- rVr 1e.Sia� and is /are the person(s) who appeared before me, and said individual(s) acknowledged that he /she /they signed this instrument and acknowledged it to be his/her /their free and voluntary act for the uses and purposes mentioned in this instrument. Dated I I l l I Z014- ` Q•: of F +'. ;� o• n i p�9t1 = Notary Public in and for the State of Washington Residing at WA OFKASHIN�SO�'`.�� My appointment expires 2-1 � 20 1 1 X111" Inlin11\0 Storm Water Easement and Maintenance Agreement Page 3 of t 3 CITY OF AUBURN 7 =Ge' I Zlgly 1m Carlaw, Storm Drainage Engineer Date STATE OF WASHINGTON) )ss. COUNTY OF KING ) I certify that I know or have satisfactory evidence that Tim Carlaw is the person who appeared before me, and said person acknowledged that he signed this instrument, on oath stated that he was authorized to execute the instrument and acknowledged it as the STORM DRAINAGE ENGINEER of THE CITY OF AUBURN to be the free and voluntary act of such party for the uses and purposes mentioned in this instrument. Dated JBA 111 �,�r�i am\ \ \ \g1 N L�,'�i, Notary PubFiccand for the Stake, o ashington �'tl6v`4 y a� Residing at 1 l uJ) C a 0'9 F� i0 - 119PS3-- (2 — My appointment expires t i 1I 91 1S JAK/tlb File: #1375 REF. H:\DevelopmentTrojects\Aubum West Valley Building \G RA 14 -0002 \Legal Documents\2014 Storm Water Easement and Maintenance Agreement Page 4 of 43 EXHIBIT A LEGAL DESCRIPTION Parcel A, City of Auburn Boundary Line Adjustment 140002 as recorded under Recording No. 20140728900001, records of King County, Washington. LOT 2 LOT 0Ai'00 0 hmsu�� 0A %so n 14TH ST NW 1' =100' I I I I ( I G14d of PARCEL A SCALE. HORIZONTAL 1° =100' VERTICAL N/A li „pHAV 18215 72ND AVENUE SOUTH W lomvew KENT, WA 98032 .y 425)251-6222 425)251-8782 FAX CML ENGINEERING, LAND PLANNING, SURVEYING, ENVIRONMENTAL SERVICES ncar_urn nwewnl MA I I LOT 9 I 35' LOT R I Date/Tme9 /15/2014 2:31 PM KIM ANDERSON For: AUBURN WEST VALLEY PARCEL A BLA 14 -0002 JOB NUMBER 16025 16025L005.doc SHEET 1_,1 IZ w I PARCEL R I > JI 3 I I I I LOT R I Date/Tme9 /15/2014 2:31 PM KIM ANDERSON For: AUBURN WEST VALLEY PARCEL A BLA 14 -0002 JOB NUMBER 16025 16025L005.doc SHEET 1_,1 LEGAL DESCRIPTION Parcel B, City of Auburn Boundary Line Adjustment 14 -0002 as recorded under Recording No. 20140728900001, records of King County, Washington. Project: Auburn West Valley Job No. 16025 September 15, 2014 DJS/kma 16025L.005.doc 16025exh05- parcels.dwg 1'-100' I I I LOT P I I I LOT 0 I Cf- 6V A to PARCEL Ae 0® I I I I 14TH ST NIN or vg" �ma 0` AO�4OL, 4 ®� 9 LOT LOT 9 35' Lu w JI J Q �M FlIe:P: \16ODOs \16025 \survey \16025exhO5— parcels.dwg Date/iime:9 /15/2014 2:31 PM KIM ANDERSON SCALE: F'O♦': JOB NUMBER HORIZONTAL 1" =100' VERTICAL N/A AUBURN 16025 oNAV 18215 72ND AVENUE SOUTH WEST VALLEY KENT, WA 96032 16025LOO5.doc �425)251-6222 425�251 -8782 FAX Title: SHEET CIVIL ENGINEERING, LAND PARCEL B ��RNx ENVIRONMENTAL I�3nERVICES BLA 14 -0002 1 of 1 _ EXHIBIT'S i! j r =a0' l ,p I'� I I CB #3 LCB #9 CB; #4 �'i �! , Uj J 1. ui :I • 1 I I j II 1 1 : : :III CB #61 . ' �' I I CB #8 r - I I STORM VAULT STORMWATER WETLAND • i PUMP STATION VALVE BOX i ' I Scale: For. I I Job Number Horizontal I"=80' Vertical AUBURN WEST VALLEY 16025 GF{A(j 18215 72ND AVENUE SOUTH 1401 -1417 W. VALLEY HWY. PS� KENT, WA 98032 m Z (425)251 -6222 (425)251 -8782 FAX Title. Sheet g� .. �� CIVIL ND SITE PLAN LANNING, SURVEYING, ?rr P VGENGO ENVIRONMENTAL SERVICES 1 of 1 Desi ned Drown—CP I Checked A roved CP Date OS -02 -13 .arm Water Easement and Maintenance Agreement EXHIBIT 'C' OPERATION AND MAINTENANCE for AUBURN WEST VALLEY SEPA NO. SEP13 -0012 FAC NO. GRA NO. GRA 14 -0002 Site Address: The project is located in 11 -21-4 East, W.M., 1401/1417 West Valley Highway. The Tax Parcel Nos. are 030350 -0060 and 0070. Introduction: This storm drainage technical information report has been prepared to address the City of Auburn's site development and storm drainage requirements for the proposed Auburn West Valley project located at 1401/1417 West Valley Highway. The site has an area of approximately 2.0 acres and is currently undeveloped vacant land. The subject site will be developed as a warehouse building with dock high loading, parking and landscaping. The subject site will have flow control and water quality features in the form of a detention vault and a modular wetland system. According to the City of Auburn's Construction Standards for storm water management, the city requires storm water quantity and quality control to all proposed developments. We have proposed to collect all of the storm water runoff from the landscaped, building and pavement areas in a series of catch basins. This water will be conveyed by storm drainage pipe to a storm water detention vault located in the south central area of the site. Here the storm water will be released into a modular wetland system (MWS) then pumped to the existing public system in West Valley Highway North coursing northerly, ultimately draining to Mill Creek. The Operation and Maintenance Manual is to be kept on site in the warehouse building and is to be made available to the City for inspection. Plan Goal The specific purpose for the storm water facility is to minimize pollution that is typically associated with modern development. In general, pollution from motor vehicles and pollution generated from erosion. Attached to this narrative is a maintenance manual, which offers guidelines to the owner for storm water facility maintenance. 16025.006.doc Prevention BMP'S The catch basins shall have stenciled on them "DUMP NO WASTE — DRAINS TO STREAM." The owner shall be responsible for sweeping the lot, installing storm drainage stenciling and provide spill control procedures. In case of spill call DOE at 1-425- 649 -7000. The catch basins, detention vault, and control structures will be visually inspected for accumulation of debris and silt and will be maintained as required by this pollution prevention plan and attachments. Maintenance Standards for Drainage Facilities No. 3 — Detention Vault No. 4 — Control Structure /Flow Restrictor No. 5 — Catch Basins Modular Wetland System (MWS) (Department of Ecology Storm Water Manual, August 2001). Treatment BMP'S A MWS has been installed to treat runoff for conventional pollutants. The MWS was designed to treat the 2 -year release from detention (water quality storm) for water quality treatment. In addition, the detention vault was designed to detain the volume created from matching durations from half the existing 2 -year up the 50 -year storm events. The MWS also contains a pump at the downstream end which will have to be maintained at least twice per year. The City of Auburn Utilities Section is to review and approve any changes to this Storm Water Pollution Prevention Plan prior to changes in its implementation. Additionally, any changes in ownership or person of responsibility are to be reported to the City Utilities Sections. Inspection / Maintenance: Regular inspections of the drainage facilities should be carried out twice per year, in the spring and fall. The responsible party should keep records of these inspections available for review by the City. Additional inspections maybe required after severe seasonal storms. Routine maintenance of the site will include mowing, care of landscaping and the removal of trash and debris from the drainage system. The parking lots and driveways should be kept clean and in repair. Events such as major storms or heavy winds will require immediate inspections for damages. To ensure proper water quality and treatment, the detention vault and MWS must be properly maintained. Be careful to avoid introducing landscape fertilizer to receiving waters or groundwater. Catch Basins shall be cleaned when sump is 1/3' full of sediment or debris. 16025.006.doc It is not known at the time of the writing of this manual what the building will be used for but all potential Source Control BMPs are added to this manual. Person of Responsibility: Scott Hohensinner Summit Packaging 1401 West Valley Highway North Auburn, WA 98001 (253) 405 -9009 Scott(absummitpackaging.com "Or Their Respective Successors and Assigns" Design Engineer: Barghausen Consulting Engineers 18215 -72nd Avenue South Kent, WA 98032 (425) 251 -6222 Plan and / or Information Updates: The City of Auburn Utilities Section is to review and approve any changes to this Storm Water Pollution Prevention Plan prior to changes in its implementation. Additionally, any changes in ownership or person of responsibility are to be reported to the City Utilities Sections. (Changes to ownership shall be reported to the City of Auburn's Utilities Section.) 16025.006.doc INSPECTION /MAINTENANCE CHECKLIST STRUCTURE <<n DATE OF INSPECT71ON /MAINTENANCE Results/ Maintenance Date Inspection All Catch Basins Results Maintenance Done Storm Inspection DetentionNault Results Maintenance Done Inspection Conveyance Pipes Results Maintenance Done Flow Control Inspection Structure Results Maintenance Done Modular Wetland Inspection System Results Maintenance Done Inspection Pump Results Maintenance Done 16025.006.doc Maintenance Standards for Drainage Facilities The facility- specific maintenance standards contained in this section are intended to be conditions for determining if maintenance actions are required as identified through inspection. They are not intended to be measures of the facility's required condition at all times between inspections. In other words, exceeding these conditions at any time between inspections and /or maintenance does not automatically constitute a violation of these standards. However, based upon inspection observations, the inspection and maintenance schedules shall be adjusted to minimize the length of time that a facility is in a condition that requires a maintenance action. No. 3 — Closed Detention Systems (Tanks/Vaults) Maintenance Defect Conditions When Maintenance is Needed Results Expected Component When Maintenance is Performed Storage Area Plugged Air Vents One -half of the cross section of a vent is Vents open and blocked at any point or the vent is damaged. functioning. Debris and Sediment Accumulated sediment depth exceeds 10% All sediment and of the diameter of the storage area for 112 debris removed from length of storage vault or any point depth storage area. exceeds 15% of diameter. (Example: 72 -inch storage tank would require cleaning when sediment reaches depth of 7 inches for more than 1/2 length of tank.) Joints Between Any openings or voids allowing material to All joint between Tank/Pipe Section be transported into facility. tank/pipe sections are sealed. (Will require engineering analysis to determine structural stability). Tank Pipe Bent Out Any part of tank/pipe is bent out of shape Tank/pipe repaired or of Shape more than 10% of its design shape. replaced to design. (Review required by engineer to determine structural stability). Vault Structure Cracks wider than 1/2 -inch and any Vault replaced or Includes Cracks in evidence of soil particles entering the repaired to design Wall, Bottom, structure through the cracks, or specifications and is Damage to Frame maintenance /inspection personnel structurally sound. and /or Top Slab determines that the vault is not structurally sound. Cracks wider than 1/2 -inch at the joint of No cracks more than any inlettoutlet pipe or any evidence of soil 1/4 -inch wide at the particles entering the vault through the joint of the inlet/outlet walls, pipe. 16025.006.doc No. 3— Closed Detention Systems (Tanks/Vaults) Maintenance Defect .Conditions When Maintenance is Needed - Results Expected Component When Maintenance is Performed Manhole Cover Not in Place Cover is missing or only partially in place. Manhole is closed. (Includes Sediment) Any open manhole requires maintenance. orifice is not blocked. Locking Mechanism Mechanism cannot be opened by one Mechanism opens Not Working maintenance person with proper tools. with proper tools. Structural Damage Bolts into frame have less than 1/2 inch of Structure securely thread (may not apply to self - locking lids). attached to wall and Cover Difficult to One maintenance person cannot remove lid Cover can be Structure is not in upright position (allow up Remove after applying normal lifting pressure. Intent removed and is to keep cover from sealing off access to reinstalled by one Connections to outlet pipe are not watertight Connections to outlet maintenance. maintenance person. Ladder Rungs Unsafe Ladder is unsafe due to missing rungs, Ladder meets design misalignment, not securely attached to standards. Allows structure wall, rust, or cracks. maintenance person safe access. Catch Basins See "Catch Basins" See "Catch Basins' (No. 5). See "Catch Basins" (No. 5) the structure. (No. 5). No. 4 — Control Structure /Flow Restrictor Maintenance Defect Condition When Maintenance is Needed Results Expected Component When Maintenance is Performed General Trash and Debris Material exceeds 25 % of sump depth or 1 Control structure (Includes Sediment) foot below orifice plate. orifice is not blocked. All trash and debris removed. Structural Damage Structure is not securely attached to Structure securely manhole wall. attached to wall and outlet pipe. Structure is not in upright position (allow up Structure in correct to 10% from plumb). position. Connections to outlet pipe are not watertight Connections to outlet and show signs of rust. pipe are water tight, structure repaired or replaced and works as designed. Any holes —other than designed holes —in Structure has no the structure. holes other than designed holes. 16025.006.doc No. 4 — Control Structure /Flow Restrictor Maintenance Defect Condition When Maintenance is Needed Results Expected Component When Maintenance is Performed Cleanout Gate Damaged or Missing Cleanout gate is not watertight or is missing. Gate is watertight and works as designed. Gate cannot be moved up and down by one Gate moves up and maintenance person. down easily and is watertight. Chain /rod leading to gate is missing or Chain is in place and damaged. works as designed. Gate is rusted over 50% of its surface area. Gate is repaired or replaced to meet design standards. Orifice Plate Damaged or Missing Control device is not working properly due Plate is in place and to missing, out of place, or bent orifice plate. works as designed. Obstructions Any trash, debris, sediment, or vegetation Plate is free of all blocking the plate. obstructions and works as designed. Overflow Pipe Obstructions Any trash or debris blocking (or having the Pipe is free of all potential of blocking) the overflow pipe. obstructions and works as designed. Manhole See "Closed See "Closed Detention Systems' (No. 3). See "Closed Detention Systems' (No. 3). Detention Systems' (No. 3). Catch Basin See "Catch Basins" See "Catch Basins' (No. 5). See "Catch Basins" (No. 5). (No. 5). 16025.006.doc No. 5 —Catch Basins Maintenance Defect Conditions When Maintenance is Needed Results Expected When Component ... Maintenance is perforined. General Trash & Trash or debris which is located immediately No Trash or debris Debris in front of the catch basin opening or is located immediately in blocking inletting capacity of the basin by front of catch basin or on more than 10 %. grate opening. Trash or debris (in the basin) that exceeds 60 No trash or debris in the percent of the sump depth as measured from catch basin. the bottom of basin to invert of the lowest pipe into or out of the basin, but in no case less than a minimum of six inches clearance from the debris surface to the invert of the lowest pipe. Trash or debris in any inlet or outlet pipe Inlet and outlet pipes free blocking more than 1/3 of its height. of trash or debris. Dead animals or vegetation that could No dead animals or generate odors that could cause complaints vegetation present within or dangerous gases (e.g., methane). the catch basin. Sediment Sediment (in the basin) that exceeds 60 No sediment in the catch percent of the sump depth as measured from basin the bottom of basin to invert of the lowest pipe into or out of the basin, but in no case less than a minimum of 6 inches clearance from the sediment surface to the invert of the lowest pipe. Structure Top slab has holes larger than 2 square Top slab is free of holes Damage to inches or cracks wider than 114 inch and cracks. Frame and /or Top Slab (Intent is to make sure no material is running into basin). Frame not sitting flush on top slab, i.e., Frame is sitting flush on separation of more than 3/4 inch of the frame the riser rings or top slab from the top slab. Frame not securely and firmly attached. attached Fractures or Maintenance person judges that structure is Basin replaced or Cracks in unsound. repaired to design Basin Walls/ standards. Bottom Grout fillet has separated or cracked wider Pipe is regrouted and than 1/2 inch and longer than 1 foot at the secure at basin wall. joint of any inlet/outlet pipe or any evidence of soil particles entering catch basin through cracks. Settlement/ If failure of basin has created a safety, Basin replaced or Misalignment function, or design problem. repaired to design standards. Vegetation Vegetation growing across and blocking No vegetation blocking more than 10% of the basin opening. opening to basin. Vegetation growing in inlet/outlet pipe joints No vegetation or root that is more than six inches tall and less than growth present. six inches apart. 16025.006.doc No. 5 — Catch Basins Maintenance Defect Conditions When Maintenance is Needed Results Expected When Component Maintenance is performed Contamination See "Detention Ponds" (No. 1). No pollution present. and Pollution Catch Basin Cover Not in Cover is missing or only partially in place. Catch basin cover is Cover Place Any open catch basin requires maintenance. closed Locking Mechanism cannot be opened by one Mechanism opens with Mechanism maintenance person with proper tools. Bolts proper tools. Not Working into frame have less than 1/2 inch of thread. Cover Difficult One maintenance person cannot remove lid Cover can be removed by to Remove after applying normal lifting pressure. one maintenance person. (Intent is keep cover from sealing off access to maintenance.) Ladder Ladder Rungs Ladder is unsafe due to missing rungs, not Ladder meets design Unsafe securely attached to basin wall, standards and allows misalignment, rust, cracks, or sharp edges. maintenance person safe access. Metal Grates Grate opening Grate with opening wider than 7/8 inch. Grate opening meets (If Applicable) Unsafe design standards. Trash and Trash and debris that is blocking more than Grate free of trash and Debris 20% of grate surface inletting capacity. debris. Damaged or Grate missing or broken member(s) of the Grate is in place and Missing. grate. meets design standards. 16025.006.doc a 1— WETLANDS Maintenance Guidelines for Modular Wetland System - Linear Maintenance Summary • Remove Trash from Screening Device -average maintenance interval is 6 to 12 months. • (5 minute average service time). • Remove Sediment from Separation Chamber -average maintenance interval is 12 to 24 months. • (90 minute average service time). • Replace Cartridge Filter Media - average maintenance interval 12 to 24 months. • ( 90- 15 minute per cartridge average service time). • Replace Drain Down Filter Media - average maintenance interval is 12 to 24 months. • (5 minute average service time). • Trim Vegetation - average maintenance interval is 6 to 12 months. • ( Service time varies). System Diagram Inflow Pipe (optional) I Access to screening device, separation chamber and cartridge filter www.modularwetiands.com utscnarye Chamber rain Row Maintenance Procedures Screening Device 1— WETLANDS 1. Remove grate or manhole cover to gain access to the screening device in the Pre - Treatment Chamber. Vault type units do not have screening device. Maintenance can be performed without entry. 2. Remove all pollutants collected by the screening device. Removal can be done manually or with the use of a vacuum truck. The hose of the vacuum truck will not damage the screening device. 3. Screening device can easily be removed from the Pre- Treatment Chamber to gain access to separation chamber and media filters below. Replace grate or manhole cover when completed. Separation Chamber 1. Perform maintenance procedures of screening device listed above before maintaining the separation chamber. 2. With a pressure washer spray down pollutants accumulated on walls and cartridge filters. 3. Vacuum out Separation Chamber and remove all accumulated pollutants. Replace screening device, grate or manhole cover when completed. Cartridge Filters 1. Perform maintenance procedures on screening device and separation chamber before maintaining cartridge filters. 2. Enter separation chamber. 3. Unscrew the two bolts holding the lid on each cartridge filter and remove lid. 4. Remove each of 4 to 8 media cages holding the media in place. 5. Spray down the cartridge filter to remove any accumulated pollutants. 6. Vacuum out old media and accumulated pollutants. 7. Reinstall media cages and fill with new media from manufacturer or outside supplier. Manufacturer will provide specification of media and sources to purchase. 8. Replace the lid and tighten down bolts. Replace screening device, grate or manhole cover when completed. Drain Down Filter 1. Remove hatch or manhole cover over discharge chamber and enter chamber. 2. Unlock and lift drain down filter housing and remove old media block. Replace with new media block. Lower drain down filter housing and lock into place. 3. Exit chamber and replace hatch or manhole cover. www.modularwetiands.com ETLANDS W Maintenance Notes 1. Following maintenance and /or inspection, it is recommended the maintenance operator prepare a maintenance /inspection record. The record should include any maintenance activities performed, amount and description of debris collected, and condition of the system and its various filter mechanisms. 2. The owner should keep maintenancefinspection record(s) for a minimum of five years from the date of maintenance. These records should be made available to the governing municipality for inspection upon request at any time. 3. Transport all debris, trash, organics and sediments to approved facility for disposal in accordance with local and state requirements. 4. Entry into chambers may require confined space training based on state and local regulations. 5. No fertilizer shall be used in the Biofiltration Chamber. 6. Irrigation should be provided as recommended by manufacturer and /or landscape architect. Amount of irrigation required is dependent on plant species. Some plants may require irrigation. www.modularwetiands.com I WETLANDS Maintenance Procedure Illustration Screening Device The screening device is located directly under the manhole or grate over the Pre - Treatment Chamber. It's mounted directly underneath for easy access and cleaning. Device can be cleaned by hand or with a vacuum truck. Separation Chamber The separation chamber is located directly beneath the screening device. It can be quickly cleaned using a vacuum truck or by hand. A pressure washer is useful to assist in the cleaning process. www.modularwetiands.com Cartridge Filters 1- WETLANDS The cartridge filters are located in the Pre- Treatment chamber connected to the wall adjacent to the biofiltration chamber. The cartridges have removable tops to access the individual media filters. Once the cartridge is open media can be easily removed and replaced by hand or a vacuum truck. Drain Down Filter The drain down filter is located in the Discharge Chamber. The drain filter unlocks from the wall mount and hinges up. Remove filter block and replace with new block. www.modularwetiands.com 1— WETLANDS Inspection Form ModUlar 1Rletl2nd System, Inc. P. 760.433 -7640 F. 760- 433 -3176 E. lnfo@modularwet12nds.com www.modularwetiands.com 81" CLEAN' Inspection Report Modular Wetlands System VE7Lo t A Project Name ProlectAddress (an) bbl Owner / Management Company Contact Phone Use Only om�a nnmenms mompere secmn to ma pe. Inspector Name Date _I I Time AMIPM Type of Inspection ❑ Routine ❑ Follow Up ❑ Complaint ❑ Storm Storm Event in last 72-hours? ❑ No ❑ Yes Weather Condition Additional Notes Inspection Checklist Modular Wetland System Type (Curb, Grate or UG Vault): Size (22', 14' or eta): Structural Integrity: Yes No Comments Damage to pre- treatment access cover (manhole cover /grate) or cannot be opened using normal lifting pressure? Damage to discharge chamber access cover (manhole covedgrete) or cannot be opened using normal lifting pressure? Does the MWS unit show signs of structural deterioration (sacks In the wall, damage to frame)? Is the Inletioullet pipe or draln down pipe damaged or otherwise not functioning properly? Working Condition: Is there evidence of i1Gat discharge or excessive oil, grease. or other automobile fluids entering and clogging m unit? Is there standing water in Inappropriate areas after a dry period? Is the filter insert (if applicable) at capacity andfor is more an accumulation of debrbotmsh on the spelt system? Does the depth of sedimentnrash /debris suggest a blockage of the Inflow plpa, bypass or canridge filler? If yes specify which one in the comments section. Note depth of accumulation in in pre - treatment chamber. oavm� Does the comidge filter media need replacement in pre - treatment chamber and /or discharge chamber? chamtac My signs of impmper functioning it the discharge chamber! Note issues In comments section. Other Inspection Items: Is there an accumulation of sedimengtrash /debris in the wegand media (if applicable)? Is it evident that the plants are alive and healthy (if applicable)? Please note Plant Information below. Is there a septic or foul odor coming from inside the system? Roccmmended Maintenance No Cleaning Needed Schedule Maintenance as Planned Needs immediate Maintenance Plant Information Gainers to Plants Plant Replacement Plant Trimmin Waste: Sediment / Sill I Clay Trash I Bags I Bottles Green Waste/ Leaves I Foliage Yes No 2972 San Loss Rey Road, Oceanside, CA 92059 P (760) 433 -7640 F (760) 433 -3176 WETLANDS Maintenance Report Modular Wetland System, Inc. P. 760.433 -7640 F. 760 - 433 -3176 E. lnfo@modularwetiands.com www.modularwetiands.com 0119 CLEAN. Cleaning and Maintenance Report Modular Wetlands System "VHLANM Project Name For Office Use Only Project Address laYl (iv dal IRwierr.a BYI Owner I Management Corapeny olrlca 1. bcartpbb.11 -b Contact Phone ( i - u M. Inspector Name Data _/ _I Tme AMIPM Type of Inspection ❑ Routine ❑ Follow Up ❑ Complaint ❑ Storm Storm Ewent in Lau 72 -hours? ❑ No ❑ Yes Weather Condition Additional Notes Site Map GPS Coordinates of Insert Manufacturer/ Description /Sizing Trash Accumulation Foliage Accumulation Setlimenl Acwmulatlon Talal Debris Accumuation Condition of Media 25/50775 /100 (wdll W changed 75 %) Operational Per Manufactures' Specifications (If not why?) Let MWS Catch Basins Long: MWS Sedimentation Basin Media Filter Condition Plan( Condition _ Drain Down Media Condition Discharge Chamber Condition Drain Down Pipe Condition _ Inlet and Outlet Pipe Condition _ Commen s: 2972 San Luis Rey Road, Oceanside, CA 92056 P. 760.433.7640 F. 760.433.3176 r, H ■ ®!\®MA■ ICe MODELS S3H[X*I, S4H(X *), NN(A) and S4N(X *) "Used in Hazardous Locations Class I, Division 1 SUBMERSIBLE SOLIDS HANDLING PUMP YeaMOmuE4aiun INSTALLATION AND SERVICE MANUAL F,M� SA NOTE! To the installer: Please make sure you provide this manual to the owner of the equipment or to the responsible partywho maintains the system. Item H E -03 -530 I Part H 5625 -530 -1 1 © 2014 Pentair Ltd. 1 03/03/14 General Information Before Installation: This manual contains important information for the safe use of this product. Read this manual completely and follow the instructions carefully. Reasonable care and safe methods relating to the installation and operation of this product should be practiced. Check local codes and requirements before installation. Safety Warnings DANGER: Risk of Electrical Shock or Electrocution. May result in serious injury or death or fire hazard. Installer must disconnect all electrical sources prior to installation, handling or servicing. Only qualified personnel may install this system. NFPA 70/National Electric Code (NEC) or local codes must be followed. System must be properly grounded according to NEC. Do not lilt pump by power cord. DANGER: Biohazard Risk. Once wastewater source has been connected to system, biohazard risk exists. Installer(s) and/or service personnel must use proper Personal Protective Equipment and follow handling procedures per OSHA 29 CFR 1910.1030 when handling equipment after wastewater source has been connected to system. DANGER: Risk of Asphyxiation. Installers) and/or service personnel must use proper Personal Protective Equipment and follow OSHA 29 CFR 1910.146 or OSHA 29 CFR 1926. Pump may be installed in a location classified as a confined space. DANGER: Cutting Risk. Risk of serious cutting or amputation exists. Disconnect all power sources prior to servicing the pump. Pump may start without warning. Pumps are not approved for use in swimming pools, recreational water installations, decorative fountains or any installation where human contact with the pumped fluid is common. CALIFORNIA PROPOSITION 65 WARNING: AWARNING This product and related accessories contain chemicals known to the State of California to cause cancer, birth defects or other reproductive harm. The Pump Shipping: When unpacking unit check for concealed damage. Claim for damage must be made at the receiving end through the delivering carrier. Damage cannot be processed from the factory. Pumps in Storage or Not Operating: Pumps with carbon ceramic seats must have impellers manually rotated (6 revolutions) after setting non - operational for 3 months or longer and prior to electrical start -up. Pumps with tungsten carbide seals must have impellers manually rotated (6 revolutions) after setting non - operational for 3 weeks or longer and prior to electrical start-up. Seal Failure: An electrode is installed in the seal chamber so if any water enters the chamber through the first seal the electrode will be energized, and a signal will be transmitted to the sensing unit at ground surface, causing an alarm function to energize. In operation the seal failure unit indicates only that them is some water in the seal chamber. The pump will continue to operate without damage but the seal should be checked immediately after failure is indicated. NOTE: Failure to install such a device negates all warranties by Hydromatic'. Seal Failure Probes: All hazardous location submersible pumps have two factory installed moisture detectors (seal failure probes). They are in a normally open series circuit in the seal chamber. Under normal operating conditions, the circuit remains open. If the lower seal leaks and moisture enters this chamber, the moisture would settle to the bottom of the chamber and will complete the circuit between the moisture detectors. This circuit must be connected to a sensing unit and signaling device. This is supplied in a Hydromatic built control panel. Pump: The submersible pump is supplied for I and 3 phase and for 200, 230, 460 or 575 volts. Power cable is supplied with the green wire for ground. Be sure green wire is connected to a good ground such as water pipe or ground stake. Heat Sensors: All motors have heat sensor units embedded in the motor winding to detect excessive heat. The sensors automatically reset when motor cools to safe temperature. The sensors are connected in series with the motor starter coil so that the starter is tripped if heat sensor opens. The motor starter is equipped with overload heaters so all normal overloads are protected by the starter. NOTE: Failure to install such a device negates all warranties by Hydromatic. Once sensor resets, the starter is to be reset for FM for continued operation of the pump. This circuitry is supplied in a Hydromatic control panel. NOTE: Failure to install such circuitry would negate FM approvals and all warranties by Hydromatic. Sump Level Control: Sump level is controlled by Hydromatic float switch controls. The float is held in position in the sump by a weight attached to the power cord above the float. The cord supports the float and is adjusted for height from the surface. Typical duplex systems use three controls: one set at turn -off, one set at turn-on for one pump, and one set for tum -on for two pumps. Pumps alternate operation on each successive cycle. Two pumps operate together only if sump level rises to the third or override control. The override control also brings on the second pump in case of failure of the first pump. Extra floats with appropriate controls can be supplied for alarm functions. Triplex systems use four controls: one set at tum -off, one set at turn -on for one pump, one set at tum -on for two pumps, and one set at turn-on for three pumps. Pumps alternate each successive cycle. Three pumps operate together only if sump level rises to the fourth control (second override). This control also brings on the third pump in case of failure of either or both of the lust two pumps. Alarm Controls: The alarm level is usually set above the override level so the alamu will signal only if the override level is exceeded. However, some engineers prefer to have the alarm level set below the override level as it is possible for one pump to fail and the other pump to operate on the override level with the sump level never reaching the alarm level. This is particularly true in cases of low inflow capacity. Electrical Control Panel: It is recommended that the flydromatic control panel be used with all pumps as proper starter heaters, and connections for heat sensor wires are furnished. IMPORTANT: If Hydromatic' electrical controls are not used and the motor falls because of improper components or if the heat sensors are not properly connected, the warranty is void. Hydromatic electrical equipment is installed in a weatherproof NEMA 3R enclosure. The electrical equipment includes a main circuit breaker for each pump, a magnetic starter with overload protection for each pump, an H -O -A switch and ran light for each pump, an electric alternator and a transformer to provide appropriate control for contra circuit and alarms. Power Cords: The power cord and heal sensor seal failure cord are potted into the Connection box cap. The cords must not be spliced. )verload Heaters: f the Hydromatie electrical panel is ,or used, starters with 3 leg overload ,rotection must be supplied. On phase pumps the heaters must re sized in accordance with the iameplate amps on the motor lousing. The amp draw on these submersible motors is slightly higher ban a corresponding horsepower surface motor, so heaters must be sized by the nameplate rating. Tingle phase pumps with capacitor ;tart have a run and a start winding, =h drawing a different current. To adequately protect these windings with the appropriate heaters, consult Ile factory. NOTE: Red lead is always start winding of pump using single phase. Installation Instructions Installing Sump Level Control Float Controls: In either simplex, duplex or triplex systems the lower or turn-off control is to be set to maintain a minimum level in the sump. This level shall be no more than TW from the top of the motor housing down to the surface of the sewage. The second or turn-on control is set above the lower turn -off control. The exact distance between the two floats must be a compromise between a frequent pumping cycle (10 starts pet hour max.) to control septicity, solids and a slower cycle for energy economy. This distance should be determined by the engineer or consulting engineer, depending on the conditions of the application. Installing Pump in Sump: Before installing pump in sump, lay it on side and turn impeller manually. Impeller may be slightly stuck due to factory test water, so it must be broken loose with small bar or screwdriver in edge of vanes. The impeller should turn freely. Clean all trash and sticks from sump and connect pump to piping. A check valve must be installed on each pump. A gate or plug valve in each pump discharge line is also recommended. This valve should be nstalled on the discharge side of the .heck valve so if necessary to service he check valve the line pressure can ,e cut off. Single pump systems are ometimes installed without a check calve, where it is desirable to self - hain the discharge line to prevent 'reezing. This can be done only with .hort discharge lines, otherwise water mill return to the sump and cause short cycling of the pump. 14EMA 4 junction Box: (Optional) T electrical control panel is to be ;et remote from the pump sump, a NEMA 4 junction box should be used to make power and control connections. The Hydromatic NEMA 4 junction box is provided with compression connectors for sealing all wires. No sealing compound is needed to make connections waterproof. The size wire to use from panel to sump depends on motor size and distance in feet. Be sun; each wire is checked out so that wrong connection will not be made. An ohmmeter or Megger can be used to check wire continuity. Installing Float Switch Controls: The controls are supported by a mounting bracket that is attached to sump wall or cover or to the NEMA 4 junction box. Cord snubbers are used to hold the cord in place. Control lever can be changed at any time by loosening the snubber and readjusting cord length. In either simplex or duplex system the lower or turn-off control is set just above the top of volute so that the volute will always be submerged during the pumping cycle. The second or turn -on control is set about 24 inches above the lower turnoff control. More distance between turn-on and tum-o f controls can be used, but sewage may become septic and excessive solids may collect for the pump to handle. A frequent pumping cycle is recommended for best operation. If an alarm system is used, this control is usually set about 6 inches above the override control. Some engineers as described previously NUMBER OF CONDUCTORS REQUIRED BETWEEN CONTROL PANEL AND NEMA 4 JUNCTION BOX POWER LINES AND CONTROL WIRES CAN BE CARRIED IN CONDUIT OR CAN BE UNDERGROUND BURIED CABLE System Typo Number of Power Llnes Number of GmuM Wkes MB HEAT SENSOR & SEAL FAILURE _ Senor Wires Groumf When Simplex jPN.b.d 3 1 3 simplex with Alarm 3 1 3 Duplex g 2 8 2 Duplex with Alarm 8 2 g 2 prefer to have the alarm control set below the override control. Making Electrical Connections: All electrical wiring must be in accordance with local code. IMPORTANT: If equipment is not properly wired and protected as recommended, the warranty is void. Heat Sensors and Seal Failure Connections: Be sure that heat sensor wires are connected in series with the starter coil. Pump Operation Starting System I.Turn H -O -A switch to Off position, then turn on main circuit breakers. 2. Open all discharge valves and allow water to rise in sump pump. 3.Tum H -O -A switch to Hand position on one pump and notice operation. If pump is noisy and vibrates, rotation is wrong. To change rotation, interchange any two line leads to motor on 3$. Do not interchange main incoming lines. If duplex system, check second pump in the same manner. 4. Now set both H -O -A switches to Auto position and allow water to rise in sump until one pump starts. Allow pump to operate until level drops to turn -off point. 5. Allow sump level to rise to start other pump. Notice ran lights on panel; pumps should alternate on each successive cycle of operation. 6. Turn both H -O -A switches to Off position and allow sump to fill to the override control level. 7.Tum both switches to Auto position and both pumps should start and operate together until level drops to turnoff point. 9. Repeat this operation cycle several times before leaving the job. 9. Check voltage when pumps are operating and check the amp draw of each pump. Check amps on each wire as sometimes a high leg will exist. One leg can be somewhat higher, 5 to 10 %, without causing trouble. For excessive amp draw on one leg, the power company should be consulted. Pump Service As the motors are oil filled, no lubrication or other maintenance is required. H the pump is used on a Hydrorail system, it should be lifted once every six months and checked for corrosion and wear. WARNING: Before handling these pumps and controls, always disconnect the power first. Do not smoke or use sparkable electrical devices or names in a septic (gaseous) or possible septic sump. Field Service on Motor: All submersible motors out of warranty can be serviced in the field by any reliable motor service shop. Any pump (in warranty) must be returned to the factory for service or re 'paired at an authorized Hydromatic service center. Charges will not be allowed if (in warranty) pump is not taken to an authorized Hydromatic service center. When field service is performed on a pump, these instructions should be carefully followed. Field Service on Hydromatic Hazardous Location Pumps: If a Hydromatic hazardous location pump is used in a hazardous location, or if the pump is still in warranty, the pump must be returned to the factory for service. Charges will not be allowed if (in warranty) pump is not taken to an authorized Hydromatic service center. This will ensure the integrity of the hazardous location rating of the pump and com- ply with our warranty requirements. Disconnecting Pump Cords: If a Hydromatic hazardous location pump is to be removed from its location, the pump cords may be disconnected at control panel (on sump mounted control panels) and cord assembly taken with pump. CAUTION: Do not reconnect power to a cord and cap assembly while removing from pump. Replacing Cords: The power cord and heat sensor — seal failure cord is potted into the connection box cap, forming the cord and cap assembly. If cords require replacement due to damage or cords being too short, cord and cap assembly must be replaced as a complete assembly available from factory. Replacing Lower Seal, Impeller or Volute: The wet end components may be repaired or replaced by an authorized Hydromatic service facility without compromising the hazardous location rating to the pump. NOTE: Any time the seal is disturbed, it must be replaced. Replacing Stator on Standard Pump: 1. If stator only is damaged, it may not be necessary to completely dismantle pump as stator and housing can be lifted from pump without disturbing seals or bearings. 2. Drain all oil from upper housing, remove from upper housing, remove drain plug in bottom of stator housing and remove plug in top of housing to allow air to enter. 3. After chamber is drained, remove hold -down bolts and lift off. Use care in lifting as the seal failure connecting wire must be disconnected before housing is completely removed. 4. Set assembly on bench and remove connection box. When box is lifted off, connection wires to motor will be exposed. These wires will probably be burned, but each wire is tagged with a metal marker giving wire number. Cut the wires. If the leads to the connection box are burned, a complete new connection box with new wire must be used. The wires are potted in with sealing compound and a new unit must he obtained from the factory. 5. The stator is held in the housing with a bolted -in clamp ring. 6. After ring is removed, tutu housing upright and bump on hardwood blocks. This should jar the stator loose and allow it to drop out. 7.Thomughly clean housing before replacing new stator. Replace stator and make all wire connections to connection box before replacing housing on pump. This is important as leads must be tucked behind the windings by using hands up through rotor core. IMPORTANT: Use only compression type insulated connectors on the wires. Do not tape leads as oil will deteriorate the tape and cause damage to stator and bearings. S. Check top hearing. If clean and does not turn rough, bearings can be reused and it is not necessary to completely dismantle pump to change bearings. If bearings are damaged with dirt or heat, they must be replaced. 9. Replace stator housing onto seal chamber and bolt in place. Be sure seal failure wire is connected before housing is assembled. Be sure O -ring seal has been replaced. If O -ring is nicked or cut, replace with new rings. This applies to all 0-rings used in assembly. 10. After all leads are reconnected in the connection box, make a high voltage ground test on each wire. The only wire that should show ground is the green power HEAT SENSORS AND SEAL FAILURE CONNECTIONS FOR ANY VOLTAGE MOTOR DUAL VOLTAGE DARKGREEN SEALFALURE T SENSORS 3 PHASE MOTOR WIRING BLACK HEATSFNSOR 230V as 460V 3o — 5 6A 4 I 51 6I T DARK T t � I 2� 31 1T a* I 3• GREEN SL GREEN W R BL W R (1-1) (12) (0) (LI) (12) (L3) HEAT SENSORS AND SEAL FAILURE CONNECTIONS FOR ANY VOLTAGE MOTOR lead and the ground lead in the auxiliary control cable. 11. For safety, complete pump should be air checked under water for leaks. Fill with oil to about l inch below plug hole. Use only high grade transformer oil or regular Hydromatic submersible oil in this chamber. Replace plug; use Permatex on threads. Install air valve in top plug opening of motor housing and charge housing with about 10 psi of air. Be sure air is dry. Do not use air line where water may be trapped in the line. Submerge complete unit under water and check for leaks. 12.Refil1 motor chamber with oil. Use high grade transformer oil or Hydromatic special submersible oil. Fill chamber until oil covers top of windings. Leave air space in top for expansion. Use Permutes on plug threads. Replacing Seals and Bearings on Standard Pump: 1. Drain all oil from motor chamber and seal chamber as described. 2. Remove motor housing. 3. Remove bolts that hold seal chamber to pump housing. Use back -off screws to break loose. With hardwood block, tap end of impeller to loosen from shaft. When free, remove impeller from shaft. WARNING WARRANTY IS VOID IF HEAT SENSORS ARE NOT CONNECTED AS SHOWN (IN SERIES WITH CONTACTOR OIL) COLOR ELECTRODE DARKGREEN SEALFALURE T SENSORS SEAL FAILURE BLACK HEATSFNSOR WHITE MOTOR F4N WINDINGS RED DARK BLACK WHITE GREEN HEAT SENSORS SEAL FAILURE lead and the ground lead in the auxiliary control cable. 11. For safety, complete pump should be air checked under water for leaks. Fill with oil to about l inch below plug hole. Use only high grade transformer oil or regular Hydromatic submersible oil in this chamber. Replace plug; use Permatex on threads. Install air valve in top plug opening of motor housing and charge housing with about 10 psi of air. Be sure air is dry. Do not use air line where water may be trapped in the line. Submerge complete unit under water and check for leaks. 12.Refil1 motor chamber with oil. Use high grade transformer oil or Hydromatic special submersible oil. Fill chamber until oil covers top of windings. Leave air space in top for expansion. Use Permutes on plug threads. Replacing Seals and Bearings on Standard Pump: 1. Drain all oil from motor chamber and seal chamber as described. 2. Remove motor housing. 3. Remove bolts that hold seal chamber to pump housing. Use back -off screws to break loose. With hardwood block, tap end of impeller to loosen from shaft. When free, remove impeller from shaft. WARNING WARRANTY IS VOID IF HEAT SENSORS ARE NOT CONNECTED AS SHOWN (IN SERIES WITH CONTACTOR OIL) COLOR PURPOSE DARKGREEN SEALFALURE RED SEAL FAILURE BLACK HEATSFNSOR WHITE I HEAT SENSOR See Winng Diagram of seal failure unit 84673 or 4674 for Connecting dark green and red wires. TWO WIRE CONTROL OFFERING AUTOMATIC RESET Lt ON -0FF THERMOSTATS Le swim COL IN SERIES BLACK ti 1 i�1 1 r� MrTE THREE WIRE CONTROL OFFERING AUTOMATIC RESET L1 THERMOSTATS L2 START COL CL 0. IN SERIES START W CERTAIN APPLICATONS TICE NEC MAY REWIRE THREE OVERLOAD RELAYS 4. Lift rotating assembly (rotor, shaft and impeller) from pump case. 5. Impeller removal - Hold motor and remove bolt and washer from impeller end of shaft. Impeller is threaded to the shaft, so tap face of impeller to free threads. Holding rotor, turn impeller to free threads. Holding rotor, turn impeller counterclockwise as thread is right -hand. 6. Remove lower seal spring and pry out seal. 7. To remove seal housing, take out socket head bolts and using bolts in back of holes, pry plates loose. This will force out lower seal if not already removed. 8. Remove snap ring that holds upper seal. Pull seal if it is free. If not free, it can be forced off when shaft is removed. 9. Remove bolts that hold bearing housing in place. Set assembly in upright position. 10.Use bearing puller to remove bearings. Replace with new bearings. Press only on inner face of bearing when replacing. Pressing on outer face can damage the bearing. I (.Thoroughly clean all castings before replacing seals. One grain of dirt between the seal faces can cause failure. 12. Be sure seal washers are replaced under heads of 4 bolts that hold bearing cap in place. 13. Be sure key is in place in notch of shaft sleeve to prevent sleeve from turning. 14. Use Locktite on socket head, locking screw in end of shaft. 15.Before refilling chamber with oil, air test. 16.Refill both chambers with oil. 17.Always check all leads with high voltage or with Megger for grounds before operating the pump. Pump Troubleshooting Below is a list of common problems and the probable causes: Pump will not start. 1. No power to the motor. Check for blown fuse or open circuit breaker. 2. Selector switch may be in the Off position. 3.Coatrol circuit transformer fuse may be blown. 4. Overload heater on starter may be tripped. Push to reset. Pump will not start and overload heaters trip. 1. Turn off power and check motor leads with Megger or ohmmeter for possible ground. 2. Check resistance of motor windings. All 3 phases should show the same reading. 3. If no grounds exist and the motor windings check OK, remove pump from sump and check for clogged or blocked impeller. Pump operates with selector switch in Hand position but will not operate in Auto position. ].This indicates trouble in the float level control or the alternator relay. 2. To check for defective float control, put selector switch in Auto position and turn off main power. Put a jump wire on terminal strip. Tom on power and if pump starts, trouble is in float control. Replace control. Pump runs but will not shut off. 1. Pump may be air locked. Turn pump off and let set for several minutes, then restart. 2. Lower float control may be hung - up in the closed position. Check in sump to be sure control is free. 3. Selector switch may be in the Hand position. Pump does not deliver proper capacity. 1. Discharge gate valve may be partially closed or partially clogged. 2. Check valve may be partially clogged. Raise level up and down to clear. 3. Pump may be running in wrong direction. Low speed pumps can operate in reverse direction without much noise or vibration. 4. Discharge head may he too high. Check total head with gauge when pump is operating. Total head is discharge gauge pressure converted to feet plus vertical height from water level in sump to center line of pressure gauge in discharge line. Gauge should be installed on pump side of all valves. Multiply gauge pressum in pounds by 2.31 to get head in feet. 5. If pump has been in service for some time and capacity falls off, remove pump and check for wear or clogged impeller. Motor stops and then restarts after short period but overload heaters in starter do not trip. 1. This indicates heat sensors in the motor are tripping due to excessive heat. Impeller may be partially clogged giving a sustained overload but not high enough to trip overload heater switch. 2. Motor may be operating out of Liquid due to a failed level control. 3. Pump may be operating on a short cycle due to sump being too small or from water returning to sump due to a leaking check valve. -4, L7 -o i o I 12-0 O 120 VAC A B SEE WNCAL CONTROLCIRCURRY BELOW -4-- L1-0 1 C I I I L2-0 o I I L3-o 0 FUSES 120 VAC FUSE TYPICAL FM ONLY SCHEMATICS TYPICAL SINGLE PHASE MOTOR CONNECTIONS M O/L mire PUMP MOTOR I HEAT SENSORS LALK 120 VAC, SA I SEAL PROBES j R RDN DES 1 I I 3 300 VAC, 20 MA I I I R RED I ( (GREEN I C CRS I I 3 330N I I I / / I I 1 START 1 CAPACTOR 1 1 ¢ ¢ CAPACITOR CORD PACK PANEL C CONTROL C C D E F CORD SEE TYPICAL CONTROL TYPICAL THREE PHASE C _ S MOTOR CONNECTIONS M OA_ P R LACK I HEAT SENSORS (RITE 120 VAC, 5A SEALPROBES 300 VAC, 20 MA 17 RED _ 0 ]30K I POWER � � x 5 TYPICAL CONTROL C D E F CONTROL CORD SEE TYPICAL CONTRI CIRCUITRY - CIRCUITRY BELOW TO SEAL PROBES IN PUMP MOTOR © D SEAL FAILURE p RELAY H A SEAL H FAILURE INDICATOR LEVEL R y CONTROL A OVERLOADS M CIRCUITRY RUN GW NOTE: CAPACITORS AND /OR CONTROLS SHOULD BE LOCATED OUTSIDE HAZARDOUS AREA AND ENCLOSED IN AN APPROPRIATE ENCLOSURE. 7 SM Parts List Rd. 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Nw Ne r r 33 0)110145 W1156dlb fill, dw., f I I N WIM(TO 1O11ww b 1/7 1 0InN145 4biSMIb G I' I 1 v 10yfA/4wTf/3O /w llmw ems' OW I 01,730145 S6dl l b —i I I W h NN3A/Im /w 9w w 0e 7 0W1W)75 1 09SWI ll I, Id, I 7 41 IDWI30/4n/➢5 WO 17500 4m1.2NAK O I 00115 u &Mlb WOWIDWlm/Im/n- 7W9Hi6 /m I I N 1GV'w.nm /60 vm w GG S[ I 0111014 f6vi SH1717 LID 1 30 IMMMOMM /011500 4Ais 50141 Dl3JW175 ImI165Le310 I 2K WNMm/O1 /Aw O lmus I ,"317 1 IIWtm /46W9WIm /w NWw % IWM2 A1dv tl0xy}b3m IJSDw 1 1(7630013 Ny0e0 -ddks I R.I. Nw Pal Nx Pun Da4 N00 Gry. It DWSeDDDS r r I WDNW43 fill, dw., f I N DNa0011 b 1/7 1 W,NWl1 G I' 1 v (7(75(717 ems' OW I W 900f400il —i I W 410120(71 0e 7 a 7I107NIDY I, Id, 7 41 IOWmWI 4m1.2NAK O I IM50015 WOWIDWlm/Im/n- 7W9Hi6 /m I N (713(7131 GG S[ I SIWOWJ/ LID 51100]5,1 4Ais 50141 Notes: S — Parts in Seal Kit C — Parts in Carbide Seal Kit — Fill oil to above motor windings. 54H Parts List bl. N0. pod N. Pol Donoulioloo 017. 1 as3mi W. W. (fix 101 4 0571001 Ihatarodo Riff 501 6 mWxN 16. Cesar 1100R30Y 10, 5751105 1 1 19=5 Im 211@0 IO I /51003 temab la 2015117 10 I A 051300155 Qoo sIn tA/ 4xY30 1 3 Ilia" tg5on t 1 110=1 tde 1 s 04man Wm Cry 1 6 MIM71 Son fSk off 1 7 mm1 Ivhv6. 4 1 nOxf21 lb,olspke WnfeetluY2Y44o930 1 1 Notwil loilioubw o6q 1 is x1717111 ltm bti000lkl I II 17511x11 ioeel 10 4 MIMI Son- YFmp11p30 4 It 0 aam 4uld 4 2 vmol sdlba I 14 uusn07 kno,,Hm I Is m50Wt Wflow 16 1910W1f 4 17 /19944111 bp& fl? WOS6 1 1x2012 1.l /V X0.12) 1 119flum "/r as16Al 1 119X ill lopa, H/7 no. I&.AI I 0x71162 kp& Sane Nm IS 70) 1 0114/3151 book 519Rr Oh 15.617 1 II MI f0001 LwLltseehlYL I eal6All W WItaW660N. I n m5M11 to.,, W. 1 n x1310011 WmSv 1 tl 10741015 UW laa/6aeNm I W Wiscom loft I x 001=1 I 74 WDMn iolp No I x MIMI Ulm Sal, wloAmn 1 n 007650111 lemy feeel I n 001015 Wd h w 1 n n150n01 otiq 1 n luslnn NR 1 A 1015211 Sauikp=nolullwn 1 244W1171 Sror1420710/x 1150144 I 14401x21 Seal 02/}0 /x IISa 1RA I 2Wms WsIIIMAAWWOHMKAK I x071117 W lb54v"lullnn0 1 144WO17 Seal 170//fy10/f011n 1711 1 144071116 SlaatbmRO /x lrn lRl I 24407111s neat 21110 /x17501111 1 149111111 Soao242W10 /011501111 1 344071111 Spai405/10/x WHOM 1 147112 5eo2b2sioml1501111 1 nWMI SM21pWWMJI5OIMI I 7107072 1ev} IlOR9 /x 1!x06 I ill= Sea2btW4xRO/f1IIWn6 1 :44463411 vpat nspm /x n506W I 1x2241 Ymf42Y10/x 1150w I llWlla Ym34lAn0 /x1750WN I 144071101 5ar1 iWRo' /x nn An 1 24WCW Sew31p20/4W30 /WI7W116 I 24WOW Smtr145)S/]O /n 1117176 I 244071111 SmaS 24n0/x 1111 l}Y I 24W111s Yaws 20/10 /x nn 114 I 2407426 Sas5 IWO01O/x11a011 1 2407(27 ShwS DV10 /n I1W 114 I 11071109 Slela 2In 4201R11/40AW" Ilion 1 2071110 Smr1IR 07SRO /x 115007 1 Note: Fill oil to above motor windings. 10 6 5 16 19 20 21 22 R.I. Na pool No. PM ma 021. A 07124115 Ima v9ahl YIO, 11x116 I 0722115 R,tn./ 1161 kPA130, nnIM 1 17x50145 WySlY7 /1101117/16 1 W919145 bma9Y} YI61150 446 1 MM145 RAooWW2IpAJIO,17MV1A I A IMM145 Rome.Rhh 1 Y 10, Il50 W 1 413110115 A WW2-41/t YSO,17%n I A .. III Fn r/levd I A 001940012 Mvl�epi )m I 02940021 Noa enAgY 1 30 I M 1x141141 6fetmaan111017=9 7m 6 I2)tual WnfeetluY2Y44o930 11 ss oMWm o6q I t6 I tW1Wll it h teasbl0dfaq 3 Ill. N. M Na Pon DOud Nm 077. D Isn4ms WMAa AI,144 1 155740715 x'md 121 I Imam frre 1111 1 15x10715 x'fad Aem 44501111 I 15D4m5 x'ta/lpen 14W 1 A 11aonol a 1 1 � S4HX Parts List Rd. M. Y-1 Na i1.d a3 bt 017• I 1593Rf5 15'(oid AmmB IN I ISnm715 1S'(vl Am 126 1 33 ISVmR 15'(W ml 1 m 157/1m15 35'Gdbnk tow I M Isnmm5 35'rv6 NW I i -053-01 [m 2 n014w 0 6 Il 00b9/0ml 6mYn l -5 mmvlo 7 -1113031 (0new it /YromO/ 73W664/57W30 O 1 00Rm-I OLW K I 1 10294 -1 (arvam O S I-Im -I (smmm91W160/30 3 6 0590011 YOti 1 1 Mimi Smml .Im I 1 Rm50ml IM I1vrn 1 9 101530301 f+d: x 1 iB Ilfm -I5 R 3 it 109RKal kd(ddnelanhd 7 11 RIx-1Y 0d I 13 IIIRm01 slqu, I 14 - 21"106 C,IMq x I IS IIIRIDl1 f If "15-31 04 51 1 17 m530-7 w ft 1 It aMMIS2 SAI' I 919m1" SR' I u9mm badn 651' 1 ar m)$7 67.10' 1 u"MIR k,&7.17 I OHI M r /A' 1 19 11101"17 [MUV551 3 N Rl mil Wmhn Nah) I 71 -x-M11 rvYt 1 n 0X06-0 P 3 n M91"WI Iam5dl Jfld) S I /M16 -11 Iew Smlfmb6ladl [ 1 n 1961m15 Ydma/ft 1 m 0 03m7i SSI 1 N m97SR31 M4M15n 1 v IRIm(W3 "wigI ll 00900-1 U,,W x 1 N 591 4 m 7 n 7"3 m16n4nORtm 1 117101 5mlk Wl0ImM 1 7/ M I Hk0011m M 1 2X01 IIlr"IIW 1 Wm Sml 5750110t1M I 109MI A m0115ORM 1 141"31 Smr7 W OUSORM 1 7491 7 MIm/@1 I 7xWC31 mlrom0 /MIIRMI 1 Nm7[nl SMmt SIS/TDIMUM I 240 MIS Smetktlm /I01753 m I i/nfm31 M ,211MATIIWKM 1 INR[217 S 210231/460/301750W I N001C16 Smxtro YY/3m1150MY I 144RUll SmulhpVMIPAM I 7NW13" SIMa3h rm/101Im "M I 146111"11 9mm341m/I017m R7M I 2WC07 Smm] n9 /mfM 17mAOY I 1X1101 Smv 1%f- /3011 -RPM 1 3/40/0- Sma3k WS/301' i 7/19014 ISm 5 130140Mllm Rm I Yd. RB. Pan Nw Pmt Ms ibe Cry. m 74WM5 SmvS 10Y1301750 MN 1 7x47007 SM 5h 575/M I7x 6Y I 33 1N07M9 SW 71/2 Jj=17W W39/N 1150 MW 1 m 7 410010 5mm7.1/1 W5/M17MRM I M 931/01/5 W~JbpW1SDM 1 " 077/30155 bm WSWI4 MIImW I Il M6501B IM~Tl lmllm6m I 09114155 mmrvSldl }FOM IImW 1 R 00/1-175 1mv~2 1011 -9Y x 1 I1 -7 /10115 Wm 1 013310115 Ismr/Sbe(13 1017SIM I 01990175 Robr,7Afi1 -5 M17 -AIN 1 019"1)5 Nm./IDd17.ln WMMI 1 34 IDASICr3 Nm 1 15 010x0001 f+d: I Yd. Nn I Pon No. Pmt 1AnM Non Ory. m - 19f0011 Stmu l- tro1011m 91173/10 f MIIm 9N Rm600n 1 1011 -3m I 33 -9"711 O3mkM I m 110X911 Wh I m BI -mRl Nv1 ] " 710AW 1 0a0 Y Il I 1-530- fmn W M nW4" I 1"151415 (on 9m 10"0 /S/S,M1 -/n5 I R 09341131 ONq x I I1 W 115-11 Wm 0 5100053 1SWO 117 -357/ UdSI.Sd" Notes: S — Parts in Seal Kit C — Pares in Carbide Seal Kit — Fill oil to above motor windings. 11 SM Parts List 7- Rai. u Par1 4a Pan up. I 4251101 IV. tavtiv(Wm 300** 1 1 2MOMI a4Ydm1 41.tmmmrlul/wnm e Sm3h3tm/4WWW 1151134 005SR001 4h(u.4mrlm0/23O1I0/0 t40/DVWlin 24VSM 3 1 Im1DW1 llhf rS3SA0/m0 MUM Lam5hf1940 /0I1m DN f 1263RW1 10W4 W233/460IM460 I 12 1 cumai I cl Sf I 4 00W011 e.M.m4I6aMrn 24Wrm1 3 s VAMM 2W3o /W1m3no/m Sm1 -1A 105)V30 /N vW134 I D wY r lm y WO /11199W3T/W I 0XM0055 (areeCv lm kry tm/4WlT /W I e W450RI (aWlS4el6 3 lilt" Ir. 2 1 WWI I Wd7p1p 1 f Im40ml 10 Y 1 10 110RWR far M0 1 II 11420071 3m11` t 17 Will I ISIftikkkirIN I 13 fil"11 s U IWO 4 tinWil ScW Nalhvh t0 4 II NS l S..W 4 IS 1144311 Smlbdy I It D14sm h fth.04 I 17 11101NI0 2 11 11IM3 Nm W. 4 If WI SWRI p X 1 m Mimi Sec W. 3 21 4DWm Sd IbaNXd Y 3 411601511 SWI ODFL f 1 R 111,11211011 6W 1 23 0055W011 s W. 1 4 uAm0/1 toplulWiti. 1 p1111112 h1.1r3Nm. 1 CRi>mli IXOh. 1 1RImR2 bvhre. m. I OD1m251 f'WM I 1RRN17 kpi6urm. 1 0mtm1W bp&sxOh . 1 V11mu7 bpdrW�. 1 D 4N10011 4a 1 m Ism1W1s MW kry IIdla W4v6 1 D W1500m1 661 X 1 R ammill ISMEN 2r WnWn 4m 1 >e on I aWf400n 4p. emlquw.h fo I m 6WU11n I.w I 11 141W01S SWF.G.A,, 1 W ISD®iS 15'rv0h.*144 I Isnean ww IN 7 ISDams Worik.41,104 1 ISD4415 14Mr1 NSWW 1 IsDWts WMAm.*"W t n Mimi 01q Y 1 N 615W011 Po 1 IS IV15m31 SM.Ih3mWIT /W Ilm R11 i 24101@3 Sarlhl2mnT /OIIm YIN i 2w m b4r143m/1N /W IIm 4N 1 WIM sh4.I h.231AW 0M IIWIR 1 Wall 1m IhY 513/)0 /411W DN I 1441ms1 X.m]AImWlO /0111 ON 1 17 10 11 36 35 34 14 12 13 16 18 30 21 28 20 27 24 26 M. 4.. Pmt 4.. pmt D Qty. 15 2NWt7W %W34231(10/WI141R1 1 I 2MOMI Smsip WWOUSIW 1 244um Sm3h3tm/4WWW 1151134 1 M01a5hdlkq.ilp 101/23000/0 24VSM 1h 3h.515/30 /01nift 1 eDl113131 2 Wrm1 Lam5hf1940 /0I1m DN 1 4Wrm5 Sma5h3mW30/01351 RY I 1 140/fm4 smsh'l W"WW 170 W I 4Wr1W jL rShlWVWWln01% 1 W Obul uAhp 261/23W10/60 24Wrm1 1 Sm 1.1/7b nvwtW30 /N I10 W 1 WM145 I4WU10 Sm1 -1A 105)V30 /N vW134 I X.l. Nn part Na Pan b.md non M1. 4 013MW b &MAM.Sh, I 01=19 MmVWAzy.73kp i urnV135 M01a5hdlkq.ilp 101/23000/0 1 eDl113131 M SsWIAer.11p 20l/330/NWSIM /W I 0 14S Mb05hdIAM.2h, 211=10/60 1 WIIWI45 Mm OWAAV021p 3W/2m/NW53S/10 /60 1 0IM145 W Obul uAhp 261/23W10/60 I WM145 W&SWIknUSh3 W3/230/4m/57VWW I D watIl4 S.Nrfir i I XmWlu W 5130WSu (aWlS4el6 Notes: S — Parts in Seal Kit C — Pans in Carbide Seal Kit — Fill oil to above motor windings. 12 S3NX Parts List Rd. PM III hm Daurv. Ory. i 15T10SS 3S W Au IN 1 1 1 0111331(5 IS1Ila0 IS IH V 1 m&W 141011% IjVM5 IS W A..* 104 MOODS 1 I mrItrals lSWA Ns0013 mm t561341m 1/51 1 0 150305 IS W 1m *"w I 1 } 050011 ( 20QIMAO /MI mum/411-sip) 1 mm95b0 3- 34101151 0517x01 (mwEO6M1OmoI s OIft901E 6 1 01100 feala 0112416Nxfnm/a nIR I mdep143m 1151, 1430 ITO 1 3 WWI D41M x 1 / IMMm I Um 1 5 IaSSmI Wmr f f wNM11 Rif 7 IMMI 1 N0/1I 1 OMSSa01 I Is 1 } 015001 045, x 1 II IOnms IskI.AR I 11 a131m1 tra3ad Sd U. 3 I1 aa11111 04k, 1 n imma1 Mr 1 IS mumm 04k, 7-1 Is mlmn ed 1 / 16 1 0015=1 I Raw 1 I/ Iintmt sJhn 1 II M/tml} 1d & I 0=13 h p&7Nda 1 ut11®i 6.3Pda I O1/20ri1 bl1616m& 1 Omit wpwsm& I VIt m} bk SNM I It 02910)11 m 5/S W On 3 MM) fwny OynlUll 3 20 11,12111011 Ilads 1 11 OS5{ml SR 1 n NT60011 1sa I n N11fml Ie Shcwaml)d S 1 N /1{011 law Svllykhl [ I 76 152011015 }dmr Na1 I E 051101 3 a iT /RMl Iris = Fol. I a WMTI IpmW x 1 a O mn a x a135(al TrSr t 71 ==I Cyan 1 6 n 16511® 5x01 aylm /602951 1 1015511) A 142 Wm /60100 1 I6MCIA Smsl faM/30 1011% 1 1WM4 x0Ihpmwalim 1 160103 vm 1453snm /a 1151 1 }6001 Smst a0/1m/MIIO 1 101/701 1str1 7000/0 1151 i 1)01129 Smrt aY16p13m /M 11O 1 TMOn 5)b} 1dy3O/M 1151 1 awm( A3x}I nu3m /MUS) 1 360®1 xw31 nI/Im /M II% 1 140MI SAw3b T0/1O /01151 1 }6401} 1751 1 164900 xml EOOm /m 1151 1 HMOs S 31,57VWQIIO TMMa x2915 330/10/0115) } /0006 SIMS 314`4 6030 /61/51 3440051 x05 " /6005 I 00®3 x 5 515290 /a Ma }{{ua)r Smr1IR4 }IO MA6%3m /601150 1440101/ 1mv 3In 315290 /M O51 R.I. No. Pon Ns Pan On W oI}. a 4771145 6 Sfthiblmll51 I U 0111331(5 ftrtsm 143011% 1 V 013T175 m&W 141011% 1 n MOODS a Lfid 14301151 I T mOO15 mm t561341m 1/51 I 0 M61OE mtS13k }43m 1/T I 41 013290115 0/w&%sh 34101150 I 013%017S mm95b0 3- 34101151 I OIft901E gt4d13184 )m 17% 1 T 10{5029 mdep143m 1151, 1430 ITO 1 10765Mn *.hmlddwl 1 Notes: S — Parts in Seal Kit C — Parts in Carbide Seal Kit — Fill oil to above motor windings. ea. Hd ey} Nw Pat Daam fas ary. 35 IOri0061 } U IOIOMOI Uomv : V TOw111 0)w I.M, - 1 n 1001031 W I T 111Tml N 1 0 WWI m 1 41 1tE51a5 (saw 110/10/30 /0 It IDaS015 ( I. 200Ra/Im /K TONS /U3m /M I S11a3517 (sM SWU 13 i ° a S4N Parts List Ral. Na Pml Na Pmt Daml Mm a, 1 0014'501 tin fmpxeeaM30OnMl 1 035590001 IPp. fxuanl Swum 1 4 0357031 NM fmMft QM/930/IN /606 a0/37SV9/w 3 1 OIalllls YblSWI .ISI I mnWM IbcSldl .1 7wrW/19 /m 1 033230103 Im A Sem A, 142 namWew/s]sn9iel I M6WI15 Lbl56M .P 3oMt3Mm /m I MIWI15 IMrISIoN by.lb 3ea1553yuomil3m /m 1 013190115 bb A4[hhry.3A5ro ]MV21MP /m I /a2MUS MrlslmAm.3uro 1MrtM/1WMS33m/m 1 3 OM141 WFAN.W,krt, 1 / 00133011 MnCS ,MMIGd3 3 5 054 fnmOn Dm lNWfll /Im /m, 5)S/k0 /m1t00/19 /m) I 64=5 GmxOnb .230/(m/n/m I 1 00I65AI1 A 1 1 ma10112 Mebb Mmlp0 I ro 390x}3 1 OMMI Max,. aMFnb IT I t MIIOIii W I t Ia32AM1 61n [mx0a lF 5/5/99 /mf tfMNro /m 1 I26T7AM1 Rfn fcn m?W46W WW 12 0 OM MI I D MIN 104UM 1 12 03tnorn sbb tntink, th, 1 13 %100M19 W. VA Gq,, 1 h 39 4 06IM19 S .M Mflw tar 4 II M64KAW Sx. M G,. 4 15 MIMM2 Wlob I 16 001150302 1 11 1m103s ryod IH 1 12370115 35'(mdAmoe IN 1 I"I M5 IS'Gd AmeNl 101 1 15174MIS ISGdA 11400044 I 151710325 1S -Gd NM I 11 111DLN1 IWHLUW. 4 19 MIWM31 Da, I a MIM I5 M(q 3 21 M91001 ISWIcnkisd 2 M9101I IWIU"IDA 1 a OWID011 MpbD 1 23 OMM31 Sx. tld 1 24 OT= bopei lSr Oh I VWMI12 754'003 1 01993031 k iin mrp 1 MH70232 bpdr 6.03'003 3 m11IDM2 up Mo. i 031920111 b®ix 611'D'a 1 M %2 JnlknsxW 1 Oa1RMT1 bgdx S SfW I a 030360003 Mea rR I M O"MIS /dn Cen AR, (We Wew MAI I 17 WISmal ObM I a 007750121 a 011060A11 70017000 Mb I M 0006WIII txm Won 1 31 M12VI15 W W 1 a MI3mM1 ymlkp(M/23/19 /mirol I 001030011 SM. MM ("tM40657W /6026p)A IaD1230/1a• /603 M1p3 1 03 031500004 0Mg 1 N MM II N Note: Fill oil to above motor windings. 14 RA Na Pmt Ne. pn1 MWIPON 012 35 14715W31 Sbnrl ]00344 /m IIY 1111 1 24407(223 SMMrI h, 23W19ROIISO IpM 1 21100(321 Swbl aW30 /m IISO DW 1 2M0/(225 SMxllpaWl/0/f9 /m iIW 1103 1 244011226 S4 I kp 51y)010 IIM OM 1 1111IM31 SlMx7b9IMAW601154 WM I 2Mm(231 SMb2 223/1@/00115 M I 7MDAM2 M 2 203/39 /W IIW RM% I 240IU33 S 2 ffi/46W10 /011SO M 1 210012391 Slob? 515/3P /6111W21M 1 2MI1711 Sob70p7}Y 4WWQ17W VM 1 2407(211 Wa22 203/39 /m17WRM 1 2M0/(IIS Sbxf MnM /M11WIpM I 10161031 LMx21 MAMOUWIIM 1 RA Na pmt Na. N't Dwnil. 35 IMMal1 SMbt 5]5 /19 /m IIW AM 1 I4=11 SMV1 aWlur /N IIW 03.4 1 241VCM %W3 23WIN /w17WARA 1 211mM1 Smx 3 MD/3 /M 1150 W I 2W(202 54b 3 ro 23WMW39 /60 IIW 19M I 2MMaM Snx 3 MS/39/m IIW MY 1 NWCbnI S:pMlS 2% /Im /M I/SOIM 1 MWaM 540175 M/39/W 1751 MA 1 74407aM SW5 23WMWYD /mI /WAM i 744032300 sear Sro mS/59 /m 17501MA 1 54403(103 SMxi -14 Ap 203/353 /150/300 /m I/W IM 1 744002311 sb.nla MS/3910 1750 MM I 4, S4NX Parts List R.I. R.. I'M 0. part b. Rli. I 159X155 19 W Aa 144 1 X I SIIAXS 3V 124 1 15/301103 357WAV 161 I n 1MUS n'Wlm "M I n ISIDIns 3FW p0 1 2 055701 /.mo.Al/111n0 /wt 1X/51wm /0R -s J 1 a ®IIUM Inmv 234/46VW40 (7-3h?) / 0106401 Goo MV236/164/515/10/60 o-In I 4 1 M"I 00, 1 1 1011101 1.muv 4 s 1414901 tm. + f 154541011 Idpa I 7 90/39X/3 1av HAA, R4 1 1 05{51® to " I 1 x15101 Isdt 11y SO 1154 ] m x53 I 10 100X015 [aOr I II 10001 h wSmlfvlve 2 If 100505 On.I. W40/10/41 1 n001S 1.411. 21VJ01mAk Au51v20 /w 1 n x15000 601 I Is 0019001 Oa 4 It 01=1 063I I 17 10570! WM 1 11 On0011 6,6 7.W6, I 011X/31 b,67.Wk I Ontm1 bpi& LW& 1 Ix2XE7 WAa 1 01911141 h,6 61f& 1 05521162 41075M do I 01/X711 SN4 1 It OOnYE11 Sn 1 A 110X01 W.W 1 ]1 64556011 .0 I 0 04"33 16v O. I n 006401 a..Shcua06t 1 A 1705x15 WAVitb, 1 x 100)1011 511 X X09101 brt I 11 10x0 0 64/3X111 U,, Sd I 21 01600 4 SI 01101 4 n 2001® S I 73/10 /601150 1 105=1 541.1 MAO/6011A I 7107@5 SmIipwuwwlollst 1 2407@4 S 1 20/30 /01150 1 2440/3({ S I1y 0vwil1191 I 2410(211 Saai 110/10/101150 1 1171x01 Salt lOVIO /{01150 1 {41X01 bmi 2X/wvlmn /2391 1 2a0M 5101 M30A11191 1 74101/31 15m 21,SIMAIIISO I ?Wms Slm2hpmnwlfu 91 1 luttmi SbIV 1E. {00/10 /611150 I 1410017 Sinai 2104{0/3 0 /411150 1 21411x16 9 2 2m/to/all" 1 2110011 S0a1451s/3m /01191 1 2W061 Sao) 710/10MI1m I 1169121/1 S 31,M/3O/Q17% 1 7410/30 sba1117X/41l/3O /60173 I 2441100 9 3 210/30/0 1191 I xI1RX3 S 3 49~1179 I 241000 505 t10/Im /a x91 1 Note: Fill oil to above motor windings. 10 11 13 14 16 17 to 19 R.I. 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STANDARD LIMITED WARRANTY Pentair HydromaticO warrants its products against defects in material and workmanship for a period of 12 months from the date of shipment from Pentair Hydromatic or 18 months from the manufacturing date, whichever occurs first'- provided that such products are used in compliance with the requirements of the Pentair Hydromatic catalog and technical manuals for use in pumping raw sewage, municipal wastewater or similar, abrasive -free, noncorrosive liquids. During the warranty period and subject to the conditions set forth, Pentair Hydromatic, at its discretion, will repair or replace to the original user, the parts that prove defective in materials and workmanship. Pentair Hydromatic reserves the right to change or improve its products or any portions thereof without being obligated to provide such a change or improvement for prior sold and /or shipped units. Start -up reports and electrical schematics may be required to support warranty claims. Submit at the time of start up through the Pentair Hydromatic website: littp:Hforms.pentaiFtiterature. corn /startuptorm /startupform.asp ?type -h. Warranty is effective only if Pentair Hydromatic authorized control panels are used. All seat fail and heat sensing devices must be hooked up, functional and monitored or this warranty will be void. Pentair Hydromatic will cover only the tower seal and labor thereof for all dual seat pumps. Under no circumstance will Pentair Hydromatic be responsible for the cost of field labor, travel expenses, rented equipment, removaUreinstatlation costs or freight expenses to and from the factory or an authorized Pentair Hydromatic service facility. This limited warranty will not apply: (a) to defects or malfunctions resulting from failure to properly install, operate or maintain the unit in accordance with the printed instructions provided; Ibl to failures resulting from abuse, accident or negligence; lei to normal maintenance services and parts used in connection with such service; Idl to units that are not installed in accordance with applicable local codes, ordinances and good trade practices; lei if the unit is moved from its original installation location; If) if unit is used for purposes other than for what it is designed and manufactured; Igl to any unit that has been repaired or altered by anyone other than Pentair Hydromatic or an authorized Pentair Hydromatic service provider; (h) to any unit that has been repaired using non factory specified/ OEM parts. Warranty Exclusions: PENTAIR HYDROMATIC MAKES NO EXPRESS OR IMPLIED WARRANTIES THAT EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. PENTAIR HYDROMATIC SPECIFICALLY DISCLAIMS THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR ANY PARTICULAR PURPOSE. Liability Limitation: IN NO EVENT SHALL PENTAIR HYDROMATIC BE LIABLE OR RESPONSIBLE FOR CONSEQUENTIAL, INCIDENTAL OR SPECIAL DAMAGES RESULTING FROM OR RELATED IN ANY MANNER TO ANY PENTAIR HYDROMATIC PRODUCT OR PARTS THEREOF. PERSONAL INJURY AND /OR PROPERTY DAMAGE MAY RESULT FROM IMPROPER INSTALLATION. PENTAIR HYDROMATIC DISCLAIMS ALL LIABILITY, INCLUDING LIABILITY UNDER THIS WARRANTY, FOR IMPROPER INSTALLATION, PENTAIR HYDROMATIC RECOMMENDS INSTALLATION BY PROFESSIONALS. Some states do not permit some orall of the above warranty limitations or the exclusion or limitation of incidental or consequential damages and therefore such limitations may not apply to you. No warranties or representations at any time made by any representatives of Pentair Hydromatic shall vary or expand the provision hereof. O PENTAIR HYDROMATIC' 940 EAST 9TH STREET A90 PII:EBDSH ROAD. "IT 04 ASHLAND, OHIO, USA 44BE5 CAMBRIDGE. ONTARIO. CANADA NIT OA5 119- 189 -{144 300-363 -PUMP WWW.HYDROMATICeOM Warree,l. Rev. 12/13