DERRICK HYPERPOOL SHAKER Maintenance & Operation Manual

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Issued 15 Jun 12

DISCLAIMER

MERCHANTABIL ITY AND FITNESS FOR A PAR TICULAR PURPO SE . IN NO EVENT SHALL DERRI C K CO R PO RATION BE LIABL E

IRECT, INCIDENTAL, PUNITIVE, OR CONSEQUENTIAL DAMAGES OF ANY KIND WHATSOEVER WITH

RESPECT TO THE MANUAL AND EQUIPMENT.

Derrick Equipment Company

www.derrickequipment.com

HYPERPOOL SHAKER

SGX MOTOR

Maintenance & Operatio n Manual

Derrick Corporation has taken care to ens ure that all of its maintenance and operat ion manuals are accurate. However, we offer no guarantees or warranties in this regard. Our manuals are provided only as a guide to assist with the maintenance and operation. Derrick Corporation takes no responsibility for any losses, damage, or injuries that may occur as a result of using any of our manuals.

It is ultimately the operator’s responsibility to ensure that the operation, repair, and maintenance of equipment complies with all applicable national and local regulations, including safety regulati ons.

THIS MANUAL IS PROVIDED BY DERRICK CO RPORATION ON AN “AS IS” BASIS AND DERRICK CORPORATION EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION WARRANTIES OF

FOR ANY DIRECT, IND

15630 Export Plaza Drive

Houston, Texas 77032

Phone: 281.590.3003

Toll Free: 1.866.DERRICK

Fax: 281.442.6948

UNIT NUMBER IS KEY TO DERRICK SERVI CE

All inquiries to Derrick must include the equipment unit number. The stainless steel unit number tag attached to each piece of Derrick equipment is your key to efficient service and support.

Typical Derrick Unit Number

This unique number gives vital information to Service personnel who use it to identify the correct parts when filling orders, provide accurate responses to service questions, track documentation, and trace the equipment’s history or configuration. In short, the unit number provides the critical information

needed to ensure that Derrick customers receive the best possible service.

The unit number consists of a two-character alphabetic prefix that identifies the equipment type and a series of numeric characters that signify the sequence of the machine’s manufacture. For example, unit number MA000001 would be the first screening machine manufactured by Derrick. Alphabetic prefixes currently in use are:

MA - Screening Machine AD - Desilter and Desander DG - Degasser AG - Mud Agitator CF - Centrifuge SF - Screen Frame

To ensure that it will remain intact over many years of rigorous service, the heavy-gage tag is riveted to a structural member such as the shaker support structure. It is not to be confused with any other identifier on the machine such as a vibrator motor serial number.

For convenient availability, the unit number is also recorded in the Operation and Maintenance manual shipped with the equipment. When contacting Derrick for any equipment question or need, always have the unit number in your possession. It’s the best way to get the most efficient service from our dedicated Service and Engineering personnel.

ABOUT THIS MANUAL

In this electronic manual, all sections and paragraphs listed in the CONTENTS are linked to the corresponding text.

Navigate the electronic manual as follows:

1. To view any desired information, display the CONTENTS page and move the cursor to the desired paragraph or section title.

2. To display the desired information, click on the listing when the pointing finger appears over the text.

3. When finished viewing the text, press Alt + left arrow key to return to the CONTENTS page.

4. If desired to return to the same information, press Alt + right arrow. To locate a different item, repeat steps 1 and 2.

5. Blank pages are included to facilitate accurate two-sided printing on a standard copier. To print any individual section, simply enter the PDF pa ge number range at the top of the screen (not the page number at the bottom of each page).

This document contains proprietary informat i on of Derrick Corporation. It is int ended solel y for the inform ation and use of parties operating and maintaining the equipment described herein. Such proprietary information m ay not be used, reproduced, or discl osed to any other parties for any other purpose without the expressed written permission of Derrick Corporation.

Continuous improvement is a policy of Derrick Corporation. All instructions and procedures are subject to change without notice.

Section

Page

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Overview ..............................................................................................

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2 - Safety ....................................................................................................

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Moving/Positioning the Equipment ........................................................

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CONTENTS

1 - Introduction ................................................................

Safety ................................................................................................

Equipment Use ................................................................

Equipment Orientation ................................................................

Description and Operation ................................................................

Major Components ................................................................

Product Support ................................................................

Introduction ................................................................

Warnings ................................................................

Material Safety Data Sheets (MSDSs) ................................

3 - Installation ................................................................

General ................................................................

Safety ................................................................................................

Installation Sequence ................................................................

Storage ................................................................................................

Site Preparation and Clearance Requirements ................................

1-1 15 Jun 12

1-1 1-2 1-2 1-2 1-2 1-7

2-1 2-1 2-3

3-1 15 Jun 12

3-1 3-1 3-2 3-2 3-2

Desilter and Desander Installation ................................

Equipment Leveling ................................................................

Mounting and Securing Equipment ................................

Shipping Brackets ................................................................

Feed and Discharge Connections ................................

Electric Power Connections ................................................................

Screen Panel Installation ................................................................

Machine Startup ................................................................

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3-5 3-7 3-7 3-8 3-8 3-10 3-12 3-13

Section

Page

Date

4 - Operating Instructions .........................................................................

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7 - Vibrator Motor - SGX ............................................................................

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Safety ...................................................................................................

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CONTENTS

General ................................................................................................

Operating Safety ................................................................

Initial Startup ................................................................

Normal Startup ................................................................

Normal Shutdown ................................................................

Emergency Shutdown ................................................................

Desilter and Desander Operation ................................

AWD Op era tion ................................................................

Angle Adjustment ................................................................

Pool Configuration ................................................................

Screen Retention System Operation ................................

5 - Maintenance ................................................................

General ................................................................................................

Routine Maintenance ................................................................

Screen Frame ................................................................

Screen Panel Replacement ................................................................

Vibrator Motors ................................................................

AWD Jack Maintenance ................................................................

Screen Bed Material Replacement ................................

Hydrocyclone Removal and Installation ................................

Recommended Spare Parts ................................................................

4-1 4-1 4-1 4-2 4-2 4-2 4-3 4-6 4-7 4-8 4-9

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5-1 5-1 5-2 5-4 5-5 5-5 5-6 5-7 5-10

6 - Screen Retention System ................................................................

General ................................................................................................

Description ................................................................

Operation ................................................................

Screen Panel Replacement ................................................................

Inspection and Repair ................................................................

Description ................................................................

Repair Restrictions ................................................................

Storage ................................................................................................

Operating Environment ................................................................

Replacement Parts ................................................................

Removal and Installation ................................................................

6-1

6-1 6-1 6-2 6-2 6-2

7-1 7-2

7-3 7-3 7-3 7-5

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TOC-2 15 Jun 12

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Section

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Date

7 - Vibrator Motor (Cont’d)

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8 - Reference Drawings .............................................................................

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9 - Installation and Maintenance Log .......................................................

9-1

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CONTENTS

Electrical Connections ................................................................

Preventive Maintenance ................................................................

Bearing Replacement ................................................................

Troubleshooting ................................................................

7-9 7-15 7-15 7-24

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SECTION 1 - INTRODUCTION

OVERVIEW

This manual provides instructions for installing, operating, and maintaining the Derrick HyperPool shaker (Figure 1-1). The manual is divided into several sections to assist the user in readily accessing the information.

Persons responsible for transporting, installing, operating, or performing maintenance on this equipment are required to read and understand the instructions provided in this manual. One copy of this manual should be available and accessible at the equipment location.

For maximum safety and performance, no additions and/or changes may be made to the equipment without the explicit written permission of Derrick Corporation. Genuine Derrick repair/replacement parts are required.

Figure 1-1. HyperPool Shaker

SAFETY

Section 2 of this manual contains relevant safety information relating to both operation and maintenance of this equipment. Be sure this information is read and understood by all personnel.

DO NOT operate the equipment if defective or faulty mechanical or electrical components are detected.

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INTRODUCTION

EQUIPMENT USE

The HyperPool shaker and associated components are designed expressly for removal of drilling solids from drilling fluid. Derrick does not authorize any other use of this equipment. Intended usage of equipment includes compliance with the operating, maintenance, and safety instruct ions provided in this manual.

EQUIPMENT ORIENTATION

Throughout this manual, references t o fr ont, rear, left , and rig ht are based on viewing the HP-704 shaker from the feed end and looking toward the discharge end.

DESCRIPTION AND OPERATION

The HyperPool shaker is a four-panel, dual-motor, high frequency, linear-motion vibrating screen machine designed for fine particle separation in the oil and gas drilling industry. The machine is offered with a choice of motors and the manually operated Adjustable While Drilling (AWD) feature. Box, weir , and weir bypass feeders are available, as well as desanders and desilters.

Feed slurry may be introduced into the HyperPool shaker through the feeder if so equipped. The feeder evenly distributes slurry across the entire width of the screen frame. The hopper attached to the underside of the unit captures liquid underflow passing through the screen bed.

MAJOR COMPONENTS

The following paragraphs describes the major components and accessories of the HP-704 shaker. Refer to Figure 1-3 for component locations.

Figure 1-3. HyperPool Shaker Major Components

Screen Frame

The screen frame (Figure 1-4) is suspended between the vertical legs of the hopper assembly. The vibrating motion of the screen frame is isolated from the surrounding structural members by eight float mounts—four at each end. The data plate with part number and serial number is installed on the right s ide ledge of the hopper.

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Figure 1-4. Screen Frame Assembly

INTRODUCTION

The vibrator motors are attached directly to the screen frame and pos itioned over the screening bed to maximize the G-forces transferred to the screen surfaces. Float mounts isolate the vibratory motion of the screen frame from the support structure. The adjustable while drilling (AWD) mechanism is a manually operated jack screw that allows the operator to adjust the screen bed angle between +2° and +8° to maximize fluid-handling and solids-removal.

The concave screen bed directs the feed material toward the center of the bed. The unique screen retention system conforms the screens to the concave shape of t he screen bed, which is covered with oil-resistant cushions. Four screen panels are retained by retention pins that are extended and retracted by compression assemblies—one for each panel—on the right side of the screen frame. The pins are extended and retracted by manually operated torque tubes. A removable handle, inserted into a socket on each torque tube permits the operator to extend and retract the screen retention pins to alternately retain and release each screen panel. Retention pins on the right side of the screen frame retain the screen panels by forcing t he outer edges of the panels inward, causing them to conform to the distinctive concave shape that characterizes the HP-704 shaker, and locking them securely to the screen bed.

Vibrator Mot ors

Two continuous-duty vibratory motors deliver 7Gs of force to the screen frame. Opposing electrical polarities cause the motors to rotate in opposite directions, thereby imparting linear vibrating motion to the screen frame for proper conveyance of solids toward the discharge end of the machine.

Hopper

The hopper (Figure 1-5) captures underflow from the screen panels. Mounting provisions are included on the hopper for the feeder (optional) and electrical control box. In addition, the hopper contains supporting members for the screen frame, AWD, desander, desilter, and other components.

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HyperPoolShaker

INTRODUCTION

Hopper (Cont’d)

Fixed structural members at the feed end of the hopper support the rear of the screen frame, while the AWD supports the discharge end. This configuration permits adjustment of the screen frame angle by raising and lowering the discharge end of the screen frame. Refer to Section 4 for AWD operating instructions. Lifting lugs are provided at the front and rear of the hopper f or lif ting and positioning the equipment.

Figure 1-5. Hopper Components

Adjustable While Drilling (AWD)

The Adjustable W hile Drilling (AWD) allows the operator to extend the time that the feed slurry remains on the screening medium by elevating the discharge end of the screen frame. This additional time improves the separation of solids from the liquid.

By elevating the discharge end of the screen frame slightly, th e AWD causes the slurry to pool toward the feed end of the screen frame. This pooling allows the slurry to remain on the screen panels longer, permitting more liquid to drain through the panels and resulting in a drier solids discharge.

Feeders

Box and weir bypass feeders are available for the HyperPool shaker. A brief description and sketc h of each f eeder is presented in Figure 1-6. The rear surface of the feeder is impr inted with 8”, 10”, and 12” (203mm, 254mm, and 305mm) pipe targets for locating the customer feed connection.

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HyperPoolShaker

receives and distributes feed slurry evenly

Weir Bypass Feeder

to inlet and outlet tanks.

Slurry is

evenly distributed across the screen frame, as slurry flows

opens and closes

Box Feeder

The box feeder across the screen frame. Slurry may be received either directly from the process stream or from a desilter collection pan.

The weir bypass feeder is divided in This design allows the inlet slurry to rise in the inlet tank until sufficiently high to overflow into the outlet section.

uniformly over the weir. The bypass valve ( if installed) permits s lurry to be diverted from flowing over the screen panels and go directly to the hopper or receiving tank. Rotating the bypass wheel the feeder’s internal gate valve. When open, the feeder is in bypass operation where slurry flows directly to the hopper.

Figure 1-6. Box and Weir Bypass Feeders

INTRODUCTION

Desilter and Desander

The 4” hydrocyclone desilter removes 10 to 74 micron solids from drilling fluid (mud), and the 10” hydrocyclone desander is used to separ ate solids in the 40 to 100 micron range, The body is the main component of the 4” hydrocyclone (Figure 1-7). A cone tip is threaded into the bottom of the body. The soft apex is positioned in the tapered hole inside the triangular nut, which is threaded onto the cone tip.

The 10” desander consists of three main components: Upper, middle, and lower sections (Figure 1-8). The soft orifice bushing (apex) is positioned in the tapered hole ins ide the orifice nut, which is threaded onto the lower section. The orifice nut is threaded onto the lower section.

By varying the apex opening, the hydrocyclone spr ay pattern may be adjusted during operation. Turning the orifice nut clockwise compresses the apex, thereby reducing the diameter of its opening. Turning the nut counterclockwise releases compression, allowing the apex to return to its original size.

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INTRODUCTION

Desilter and Desander (Cont’d)

Figure 1-7. 4” Hydrocyclone Desilter Components

Figure 1-8. 10” Hydrocyclone Desander Components

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HyperPoolShaker

INTRODUCTION

PRODUCT SUPPORT

Derrick offers 24-hour per day, 7-day per week product support. Product support includes screen replacement / ordering information and repair / replacement parts and service for the entire product line. Refer to the following table for the parts / service center nearest you.

PARTS SALES & SERVICE LOCATIONS

Colorado

Grand Junction - 970.241.2417

Louisiana

Broussard - 877.635.3354

New York - Corporate Headquarters

Buffalo - 716.683.9010

Oklahoma

Oklahoma City - 405.208.4070

Texas

Houston (Oilfield Headquarters) - 866.DERRICK (337.7425)  281.590.3003 North Texas (Bridgeport) - 405.208.4070 South Texas (Corpus Christi) - 361.299.6080 West Texas (Midland) - 405.397.4089 East Texas, Arkansas, and Louisiana - 281.546.1166 Wyoming Casper - 307.265.0445 North Dakota

Williston - 701.572.0722

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WARNING! TO AVOID SERIOUS PERSO NAL INJURY BE SURE THAT EQUIPMENT IS DE TO PERFORMING MAINTENANCE AND/OR ADJUSTMENTS.

WARNING! MOTOR MUST BE OPERATED AT THE DESIGNATED SUPPLY VOLTAGE.

WARNING! HIGH VOLTAGE MAY BE PRESENT. BE SURE TH AT FUSED DISCONNECT SUPPLYING ELECTRIC POWER TO THIS EQUIPMENT OPEN. LOCK OUT AND TAG OUT POWER SUPPLY TO PREVENT ACCIDENTAL APPLICATION OF POWER W HILE MAINTENANCE AND/OR ADJUSTMENTS ARE IN PROGRESS.

WARNING! ELECTRICAL CONNECTIONS MUST BE MADE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE (NEC) AND ALL APPLIC LOCAL CODES. FAILURE TO COMPLY MAY RESULT IN AN UNSAFE CONDITION THAT COULD INJURE PERSONNEL AND/OR DAMAGE EQUIPMENT. ENSURE THAT ALL ELECTRICAL AND CONDUIT CONNECTIONS ARE SECURE.

SECTION 2 - SAFETY

INTRODUCTION

This section contains a summary of WARNINGS used in this manual and a list of material safety data sheets applicable to the equipment. The HyperPool shaker has been designed to perform the stated functions safely.

WARNINGS

All persons responsible for operation and maintenance of this equipment must read and understand all safety information in this manual prior to operating and/or maintaining the equipment. The safety warnings listed below are included in applicable procedures throughout this manual.

Sound

WARNING! TO PROTECT AGAINST HEARING LOSS, HEARING PROTECTION SHOULD BE WORN AT ALL TIMES WHEN WORKING ON OR NEAR DERRICK MACHINES.

Electrical Hazards

-ENERGIZED, LOCKED OUT, AND TAGGED OUT PRIOR

ABLE

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HyperPoolShaker

WARNING! USE SPREADER BARS TO PREVENT D AMAGE W THE EQUIPMENT.

WARNING! TO ENSURE PROPER BALANCE AND ORIENTATION WHEN UNIT IS RAISED AND PREVENT DAMAGE TO COMPONENTS, ATTACH LIFTING SLING ONLY AT DESIGNATED LIFT POINTS. DO NOT ATTEMPT LIFTING BY ATTACHMENT TO MOTOR OR ANY OTHER LOCATION.

WARNING! BE SURE THAT HANDLING DEVICES H AVE SUFFICI E NT LIFTING CAPACITY TO SAFELY HANDLE THE WEIGHT OF THE EQUIPMENT.

WARNING! DO NOT REMOVE SHIPPING BRACKETS UN TIL EQUIPMENT HAS BEEN POSITIONED AT FINAL INSTALLATION SITE.

WARNING! MOTOR MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HO USING DURING OPERATION

WARNING! ALL OPERATING AND MAINTENANCE PERSONNEL MUST READ AND UNDERSTAND ALL SAFETY INFORM ATIO N WORKING WITH THE EQUIPMENT.

WARNING! BE SURE THAT ALL PERSONNEL ARE CLE AR OF MACHINE BEFORE ADJUSTING ANGLE OF SCREEN BED. CRUSHED BY

WARNING! DO NOT ATTEMPT TO OPERATE EQUI PMENT W BRACKETS INSTALLED

WARNING! HIGH VOLTAGE MAY BE PRESENT. ALWAYS OPEN FUSED DISCONNECT SUPPLYING ELECTRIC POWER TO THE EQUIPMENT, AND LOCK OUT AND TAG OUT POWER SUPPLY BEFORE PERFO RMING ANY MAINTENANCE AND/OR ADJUSTMENTS OF EQUI

WARNING! HAZARDOUS GASES AND DUST. ALWAYS WEAR PROPER PPE WHEN PERFORMING ANY OF THESE PROCEDURES.

SAFETY

Equipment Handling

HEN LIFTING

Operation

HOUSING BECOMES HOT DURING OPERATION AND

OR IMMEDIATELY AFTER MOTOR HAS BEEN OPERATING.

IN THIS MANUAL BEFORE

HANDS AND FEET CAN BE

THE MOVING SCREEN FRAME.

ITH SHIPPING

Maintenance

GRINDING, BURNING, OR WELDING WILL PRODUCE

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PMENT.

WARNING! MOTOR MAY BE DAMAGED BY STORING IN A HIGH HUMIDITY ENVIRONMENT (GREATER THAN 50% RH) MUST BE STORED IN A LOW

Exxon Mobil Mobilith SHC-100 - Vibrator Motor Bearings

Mobilith SHC 100 / 03-25-09

SAFETY

Storage

. OUT-OF-SERVICE MOTOR(S)

-HUMIDITY ENVIRONMENT.

MAT ERIAL SAFET Y DATA SHEETS (MSDSs)

Material Safety Data Sheets (MSDSs) advise personnel of the properties and any possible hazards associated with these materials. Emergency first aid procedures, special precautions, emergency telephone number, and other relevant data are contained in the MSDSs. These documents are prepared by the product manufacturers, which have sole responsibility for accuracy of the information.

The MSDSs listed below apply to products used in the manufacture of the Derrick equipment. Where shown, dates are current as of the publication date of this manual. The latest MSDSs may be obtained from the product manufacturer.

MATERIAL DESCRIPTION - WHERE USED MSDS No. / Date

Paints and Coatings

PPG Dimetcote 302H Green 302F0250 Resin - Top Coat 1302H-5A / 04-11-10 PPG Dimetcote 302H Clear 302G0910 Cure - Top Coat 1302H-B / 01-21-10 PPG PSX 700 Neutral Tint Resin - Undercoat PX700T3 / 02-28-08 PPG PSX 700FD Cure - Undercoat PX700FD-B / 01-11-07 Sundur Beige Polyester TGIC - Vibrator Motor P-1609 / 10-30-02

Lubricants and Sealants

Loctite 76764 Anti-Seize Lubricant - Fasteners 76764 / 05-27-09

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WARNING! USE SPREADER BARS TO PREVENT D AMAGE WHEN LIFTING THE EQUIPMENT.

WARNING! TO ENSURE PROPER BALANCE AND ORIENTATION WHEN U IS RAISED AND PREVENT DAMAGE TO COMPONENTS, ATTACH LIFTING SLING ONLY AT DESIGNATED LIFT POINTS. DO NOT ATTEMPT LIFTING BY ATTACHMENT TO MOTOR OR ANY OTHER LOCATION.

WARNING! BE SURE THAT HANDLING DEVICES H AVE SUFFICI E NT LIFTING CAPACITY TO SAFELY H

WARNING! DO NOT REMOVE SHIPPING BRACKETS UN TIL EQUIPMENT HAS BEEN POSITIONED AT FINAL INSTALLATION SITE.

SECTION 3 - INSTALLATION

GENERAL

This section describes the recommended installation procedure for the Derrick HyperPool shaker. The equipment is shipped partially assembled to comply with shipping height restrictions. Installation of the desilter and desander, if included, is recommended before final placement of the equipment.

SAFETY

Read and understand ALL safety information presented in this manual before installing and operating this equipment. Refer to Section 2 for a summary of W arnings addressing installation, operation and maintenance of this equipment.

Before beginning the installation review the Equipment Handling Procedures in this section. In particular, note the information concerning “lift points” and the use of spreader bars when lif t ing or moving the equipment.

Failure to observe proper equipment handling procedures may result in serious personal injury and/or damage to the equipment.

NIT

ANDLE THE WEIGHT OF THE EQUIPMENT.

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INSTALLATION

INSTALLATION SEQUENCE

Following is the sequence of steps for installing the HyperPool shaker. The seq uence presented may vary depending on selected options, the user’s facilities, and previous experience with this type of equipment.

1. Read and understand all safety information in Section 2 before installing and operating this equipment.

2. Install desilter and desander, if required.

3. Position and level equipment at installation site.

4. Remove shipping brackets.

5. Connect feed line to desilter or desander (if installed) or to feeder.

6. Connect discharge duct to hopper.

7. Connect electric power supply to the shaker.

8. Install screen panels.

9. Refer to Section 4 for startup and operating instructions.

STORAGE

If the machine will not be installed immediately, it should be covered with a tarpaulin (tarp). If unit is stored outdoors, use a UV-resistant tarp, or UV-resistant shrink-wrap. Install vents when using shrink-wrap.

SITE PREPARATION AND CLEARANCE REQUIREMENTS

Prior to placement of equipment, verify that electricity and water are available at the installation site and that feed and discharge lines are provided. Also ensure that clearances around the equipment are adequate. Prepare the installation site as follows:

1. Provide adequate clearances on all four sides of machine and/or multi-machine installations. Figure 3-1 shows minimum clearances on all sides of machine(s).

2. Confirm that mounting structure is properly positioned and adequate to support the weight of the shaker.

3. Check that feed and discharge lines are available and properly sized and located for connecting to desiliter and desander.

4. Check that discharge duct size and location will match the equipment drainage cutout.

5. Verify that electric power supply at the site agrees with electric power requirements of the equipment.

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INSTALLATION

Figure 3-1 Recommended Clearances - HyperPool Shaker

MOVING/POSITIONING THE EQUIPMENT

WARNING! USE SPREADER BARS TO PREVENT D AMAGE WHEN LIFTING THE EQUIPMENT.

WARNING! TO ENSURE PROPER BALANCE AND ORIENTATION WHEN UNIT IS RAISED AND PREVENT DAMAGE TO COM PONE NTS, ATTACH LIFTING SLINGS ONLY TO LABELED LIFTING POINTS. DO NOT ATTEMPT LIFTING BY ATTACHMENT TO ANY OTHER LOCATION.

WARNING! BE SURE THAT HANDLING DEVICES H AVE SUFFICI E NT LIFTING CAPACITY TO S AFELY HANDLE THE WEIGHT OF THE EQUIPMENT.

WARNING! DO NOT REMOVE SHIPPING BRACKETS UN TIL EQUIPMENT HAS BEEN POSITIONED AT FINAL INSTALLATION SITE.

WARNING! WHEN USING AN OVERHEAD LIFTING DEVICE, USE ALL FOUR LIFTING LUGS PROVIDED.

The s haker and desilter and desander, if included, are separately skidded for shipment and must be assembled at the installation site. A label indicating the weight of each unit was aff ixed to the equipment. Refer to Section 8 for dimensions and other specifications.

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HyperPoolShaker

Figure 3-2. Lifting Arrangement - HyperPool Shaker

INSTALLATION

MOVING/POSITIONING THE EQUIPMENT (CONT’D)

While the HyperPool shaker is st ill mounted on the shipping skid, the unit may be trans ported on the ground using a forklift. After the machine is removed from the shipping skid, an overheadlifting device is requir e d.

Four lifting points (Figure 3-2) are attached to the lower outside corners of the machine to allow attachment of an overhead lifting device. Lifting points are labeled “LIFT HERE ONLY”. DO NOT attempt lifting equipment by attaching slings, or similar lifting aids, t o the vibrator motors, or other non-designated portions of the unit. Use of spreader bars is recommended.

WARNING! MOTOR CORD MAY BE DAMAGED DURING HOISTING IF PINCHED BY LIFTING SLING. BE CERTAIN THAT MOTOR CORD IS PROTECTED AGAINST PINCHING.

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INSTALLATION

Quantity

Description

1/2-13 x 1-3/4” Hex Head Bolt

1/2” Flat Washer

1/2” Lockwasher

1/2” Hex Nut

DESILTER AND DESANDER INST ALLATION

While the HyperPool mud cleaner is fully assembled and tested prior to shipment, shipping restrictions that limit the overall height of equipment often require separation of t he desilter and desander for shipment. The units are then skid-mounted for shipment with the basic machine. Refer to Section 4 for operating information on the desander and desilter.

Desilter Installation

Required Equipment

1. A suitable lifting device is required for lifting and positioning the unit. Weights of machinemounted round desilters are as follows:

14-Way 1650 lbs (748 kg) 16-Way 1700 lbs (773 kg) 20-Way 1800 lbs (818 kg)

2. In addition, 3/4” and a 7/8” wrenches are required.

Installation Procedure

Prior to installing the desilter, visually inspect the assembly for any signs of damage. If unit appears to be damage free, proceed as follows:

WARNING! TO ENSURE PROPER BALANCE AND ORIENTATION WHEN UNIT IS RAISED AND PREVENT DAMAGE TO COMPONENTS, ATTACH LIFTING SLING ONLY AT DESIGNATED LIFT POINTS.

WARNING! BE SURE THAT HANDLING DEVICES H AVE SUFFICI E NT LIFTING CAPACITY TO SAFELY HAND LE T HE WEIGHT OF THE EQUIPMENT.

1. Note location of facility discharge pipe to be connected to desilter. If necessary to accommodate piping, re-locate Victaulic

cap to opposite end of desilter discharge pipe.

Note! Confirm that facility piping corresponds with desilter discharge pipe before proceeding with installation.

2. Attach overhead lifting device to both LIFT points (Figure 3-3).

3. Remove and retain hardware securing desilter to skid-mounted shipping brackets. Do not remove shipping brackets from skid. Retained hardware consists of the following parts:

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Note! Retained hardware will be used to attach the desilter to the collection pan.

HyperPoolShaker

INSTALLATION

Installation Procedure (Cont’d)

Figure 3-3. Desilter Lift Points and Shipping Bracket Installation

4. Carefully lift desilter free of shipping skid. Orient desilter so t hat open end of discharge pipe is aligned with facility pipe.

5. Carefully guide desilter downward into notches of collection pan mounting brackets (Figures 3-4 and 3-5), and align with bracket mounting holes.

6. Using hardware retained in step 3, install but do not tighten hardware on one desilter mounting bracket with hardware arrangement as shown.

7. Install hardware on opposite side of desilter, and then tighten all hardware on both desilter mounting brackets.

Figure 3-4. Lowering Desilter Into Collection Pan

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HyperPoolShaker

INSTALLATION

Figure 3-5. Desilter Mounting Details

EQUIPMENT LEVELING

To ensure even distribution of feed slurry acros s the screen panels, the HyperPool shaker must be properly leveled. Leveling along the length and width of the unit is shown for a typical machine in Figure 3-6. A 4-foot level is recommended to check level. Non-compressible shims should be used as required to level the machine.

Figure 3-6. Equipment Leveling

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WARNING! HAZARDOUS GASES AND DUST. ALWAYS WEAR PROPER PERSONAL PROTECTIVE EQUIPMENT (PPE) WHEN PERFOR PROCEDURES.

Note! should be re the screen frame during transit.

INSTALLATION

MOUNTING AND SECURING EQUIPMENT

GRINDING, BURNING, OR WELDING WILL PRODUCE

After completing assembly and leveling, the equipment may be welded to the deck or bolted with at least 5/8” (15.9mm) diameter bolts at the four corner locations. The machine can be welded or bolted in more locations if desired by the customer. If welding, be sure to wear pr oper personal protective equipment (PPE) for respiratory protection from potentially harmful vapors (refer to applicable MSDSs listed in Section 2).

MING ANY OF THESE

SHIPPING BRACKETS

Do not discard shipping brackets after removal. These components

-installed whenever the machine is moved to prevent movement of

Following final positioning and leveling of the shaker, remove the shipping brackets (Figure 3-7) that were installed to stabilize the screen frame and motors during transit. T wo shipping brackets and four PVC plugs secure the movable screen frame to the stationary hopper. The shipping brackets and plugs must be re-installed whenever the shaker is moved and must be removed prior to startup and operation of the machine. For high visibility, the two shipping brackets are painted orange, and the PVC plugs are gray with an orange label; both are labeled DISCONNECT BEFORE STARTUP.

Remove the two orange brackets and four orange-labeled PVC plug s securing the screen f rame to the stationary hopper No special removal sequence is required. Retain the shipping brackets and PVC plugs and associated attaching hardware for future use.

Figure 3-7. Shipping Brackets Installation

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HyperPoolShaker

INSTALLATION

FEED AND DISCHARGE CONNECTIONS

When configured as a mud cleaner, the HyperPool shaker is equipped with a round desilter having 4” hydrocyclones and desanders having 10” hydrocyclones. Desilters have clusters of 14, 16, or 20 hydrocyclones depending on customer requirements, and desanders have two or three 10” hydrocyclones.

Desilter Connections

All desilters have inlet and discharge pipes designed to accept Victaulic® couplings (Figure 3-8). The inlet connection is on top of the unit, and two horizontal discharge connections are provided. Either or both discharge connection(s) may be used to accommodate the customer piping arrangement. For single inlet piping, the unused connection must be capped.

Desander Connections

The 10” desander has horizontal inlet and discharge pipes, which are also designed for Vict aulic® couplers. The inlet connection (lower pipe) is 8”, and discharge (upper pipe) is 10”. Customer piping may be connected to either desander inlet pipe. However, the discharge pipe may be connected only to the left side of the discharge manifold, as viewed from the feed end of the machine and looking toward the discharge end; the right side is sealed.

Figure 3-8. Desilter and Desander Connections

Feeder Connection

When the machine is not equipped with a desander and desilter,a customer-supplied flange must be installed on the back of the feeder to accept the feed line. Pipe targets are imprinted on the outside of the feeder (Figure 3-9) to indicate the proper location and corresponding size for connecting the feed line. Using t he appropriate-size target, cut out a circle to receive a customersupplied flange to accept the feed line.

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HyperPoolShaker

INSTALLATION

Feeder Connection (Cont’d)

Figure 3-9. Feed Pipe Targets

Collection Pan Bypass

The collection pan outlet discharges directly into the feeder. An 8” (203mm) bypass outlet is provided on the underside of the collection pan to divert the feed, if necessary. A Victaulic and coupling is used to close the bypass opening. To use the bypass, remove the cap and connect an 8” Victaulic

groove pipe to the outlet.

cap

Discharge Duct Connection

The hopper has a rectangular drainage cutout (Figure 3-10) on each side. As shipped, one cutout is closed with a removable panel bolted to the hopper. The panel should be installed on the unneeded drainage cutout and sealed with an appropriate waterproof sealant to pr event leakage. Connect a discharge duct to fit the cutout on the opposite side of the hopper using the four bolts provided to secure the duct flange to the hopper.

Figure 3-10. Hopper Discharge Cutout

ELECTRIC POWER CONNECTIONS

Remove the cover from the input power box, and connect the facility electrical power supply to the junction box in accordance with Figure 3-11 and wiring schematic in Section 8.

The vibrator motors are three-phase, 50 or 60Hz motor. The motors are not dual wound and must be operated at the design voltage. For motor power requirements, refer to the label on the motor data plate.

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WARNING! VIBRATOR MOTOR MUST BE OPERATED AT THE DESIG NATED SUPPLY VOLTAGE

WARNING! HIGH VOLTAGE MAY BE PRESENT. BE SURE FUSED DISCONNECT SUPPLYING ELECTRICAL POWER TO THIS EQUIPMENT IS OPEN. LOCK OUT AND TAG OUT POWER SUPPLY TO PREVENT ACCIDENTAL APPLICATION OF POWER W HILE MAKING ELECTRICAL CONNECTIONS.

WARNING! ELECTRIC WITH THE NATIONAL ELECTRICAL CODE (NEC) AND ALL APPLICABLE LOCAL CODES. FAILURE TO COMPLY MAY RESULT IN AN UNSAFE CONDITION THAT COULD INJURE PERSONNEL OR DAMAGE EQUIPMENT. ENSURE THAT ALL ELECTRICAL AND CONDUIT CO SECURE.

INSTALLATION

AL CONNECTIONS MUST BE MADE IN ACCORD ANCE

NNECTIONS ARE

Figure 3-11 Electric Power Supply Connections to Input Power Strip

A fused disconnect primary power supply is required for this equipment. The fused

disconnect and interconnecting wiring to the equipment must be suitably sized and in accordance with National Electrical Code (NEC) standards and all other applicable state and local codes.

Additional wiring requirements are as follows:

1. The fused disconnect device shall have sufficient interrupting capacity to clear the maximum fault current capability of the power supply system.

2. The GROUND connection in the power supply junction box must be connected to a known ground.

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HyperPoolShaker

INSTALLATION

SCREEN PANEL INSTALLATION

The HyperPool shaker is equipped with the screen panel compression system. To prevent damage to screen panels, the machine is shipped without panels installed.

Installation of screen panels for the first time is described in the following procedure. Prior to installing screen panels, remove all packing and shipping materials from the bed of the screen frame. Refer to Section 5 for screen panel replacement procedures.

HP-704 screen bed. Note compression pins at left and panel locators at right.

To install screen panels, proceed as follows:

1. Remove compression handle from holder, and insert into compression assembly handle tube.

2. Press handle downward to release pawl from positioning gear tooth, and lift pawl from positioning gear.

3. Raise handle upward to retract compression pins.

4. Lower screen panel onto screen bed at discharge end with outside edge against wall of screen frame engaging notch with panel locator and inside edge against compression pins.

Retracting compression pins Lowering screen panel into screen frame and

engaging notch with locator

5. With compression handle inserted in compression assembly tube, press handle down until compression pins are fully extended and pawl engages tooth of positioning gear. When properly done, panel will be curved downward into intimate contact with screen bed.

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HyperPoolShaker

Screen panel notch engaged with locator

WARNING! DO NOT ATTEMPT TO OPERATE M ACHINE WI TH SHI PPING BRACKETS INSTALLED.

INSTALLATION

Compressing screen panel

Fully installed panel. Note downward curve into intimate contact with screen bed

6. Repeat procedure for three remaining screen panels.

MACHINE STARTUP

Refer to Section 4 for initial startup and operating procedures for the HP-704 shaker.

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HyperPoolShaker

WARNING! MOTOR HOUSING BECOMES HOT DURING OPERATION AND MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HO USING DURING OPERATION

WARNING! ALL OPERATING AND MAINTENANCE PERSONNEL MUST READ AND UNDERSTAND WORKING WITH THE EQUIPMENT.

WARNING! BE SURE THAT ALL PERSONNEL ARE CLE AR OF MACHINE BEFORE ADJUSTING ANGLE OF SCREEN BED.

WARNING! DO NOT ATTEMPT TO OPERATE EQUIP BRACKE

WARNING! BEFORE STARTING UP MACHINE, BE SURE THAT ALL PERSONNEL ARE CLEAR

SECTION 4 - OPERATING INSTRUCTIONS

GENERAL

This section includes initial and normal startup, normal shutdown, and emergency shutdown procedures for the HyperPool shaker. Operating procedures are also included for desilter, desander, and the adjustable while drilling (AWD) system.

OPERATING SAFETY

OR IMMEDIATELY AFTER MOTOR HAS BEEN OPERATING.

ALL SAFETY INFORMATION IN THIS MANUAL BEFORE

MENT WITH SHIPPING

TS INSTALLED.

OF EQUIPMENT.

INITIAL STARTUP

Perform the Initial Startup procedure when the HyperPool shaker is being started for the first time, following parts replacement, or when equipment has been removed from service for an extended period. Refer to the following table for initial startup instructions.

Step Procedure

Confirm that all operators and maintenance personnel have read and understand all

operating and safety information in Section 2 - Safety.

2 Verify that equipment has been installed properly.

Check that all tools, documents, and shipping brackets have been removed and there

are no obstructions to operation, giving special attention to bed of screen frame. 4 Check that correct electric power configuration and required utilities are on site. 5 Verify that screen panels have been installed properly. 6 Start shaker in accordance with Normal Startup procedure below.

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OPERATING INSTRUCTIONS

NORMAL STARTUP

The following procedure shall be performed at each machine startup:

Step Procedure

1 Verify that all personnel are clear of shaker before applying electric power to equipment. 2 Closed fused disconnect to apply power to shaker.

Press green START pushbutt on to apply electric power to the vibrator motors. Allow

motors to reach operating temperature (about 5 minutes). Start pump or open valve to introduce flow of material to feeder or desilter / desander,

as applicable. Observe pool configuration that forms on bed of screen frame, and adjust the AWD

and/or inlet flow rate, as required to achieve desired pooling on screen panels.

NORMAL SHUTDOWN

The normal shutdown procedure is to be used for controlled stopping of operation. Normal shutdown is performed for routine activities such as cleaning, lubrication, inspection, adjustment, or screen panel replacement.

Step Procedure

1 Divert or discontinue flow of material to shaker. 2 Allow all oversize and undersize material and liquid to discharge from screen frame.

Using a water hose, wash remaining material from surfaces of screen panels and edges

of screen panels where they contact sidewalls of screen frame. Press red STOP button to stop vibrator motors, and open fused disconnect supplying

electric power to the machine.

5 Lock out and tag out machine.

EMERGENCY SHUTDOWN

To immediately stop the shaker in case of danger to personnel or other emergency, shut down electric power at the supply source.

WARNING! IN CASE OF ANY DANGER TO PERSONNEL, IMM E DIATELY SHUT DOWN ELECTRIC POWER TO THE EQUIPMENT.

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OPERATING INSTRUCTIONS

Figure 4-1. Normal Hydrocyclone Operation

DESILTER AND DESANDER OPERATION

To ensure equal distribution of feed material to each cone, the incoming feed slurry is introduced into the feed manifold, which contains 20 outlet ports equally spaced around its circumference. Ten outlets are positioned on each side of the discharge pipe to maintain balance. When a round desilter is outfitted with a full complement of cones, all 20 positions are filled. W hen fewer than 20 cones are installed, equal numbers of cones must be installed on each side of t he discharge pipe to maintain balance. Consequently, desilters are supplied only with an even number ( 14, 16, or

20) of cones. Optimal performance of hydrocyclones requires a proper balance of feed head (inlet pressure),

feed rate (GPM) and apex opening. Improper balance of any of these variables can adversely affect performance .

Two operational scenarios are presented in the following paragraphs. The first scenario describes normal operating conditions in which all variables are correctly balanced. The second scenario shows a condition referred to as “roping” which results from an improper balance of the variables.

Normal Operation

In normal operation, feed slurry is introduced tangentially into the interior of the hydrocyclone (Figure 4-1) at high velocity causing a whirlpool effect to occur inside the cone. The swirling motion of the slurry drives the larger, denser particles outward against the cone wall while the smaller, lighter particles move toward the center of the cone.

The low-pressure vortex at the center of the cone pulls in the excess liq uid and small particles, as well as drawing in air through the apex at the lower discharge end of the cone. The high-velocity air stream aids the upward flow of liquid and small particles toward the cone’s upper discharge, while the spiraling stream of liquid and larger particles flows downward along the cone wall toward the lower discharge. Large solids leaving the lower discharge may be further processed for removal of remaining small particles and liquid, while the upper discharge from the hydrocyclone is often routed to a centrifuge for additional solids removal.

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HyperPoolShaker

OPERATING INSTRUCTIONS

“Roping”

“Roping” is a term applied to a solid discharge stream (Figure 4-2) flowing from the hydrocyclones. This undesirable discharge pattern results from overloading t he apex opening with solids, thereby preventing air from entering the cone. Due to the apex blockage, feed material entering the cone can no longer move downward and, therefore, flows directly out the upper discharge at the top of the cone. In this abnormal operating mode, flow from the upper discharge contains large particles that would normally flow out the lower discharge at the bottom of the cone. If permitted to continue for a lengthy period of time, the blockage becomes diff icult to clear and the risk of internal damage to the cone increases.

“Roping” discharge results in reduced solids removal capability, increased probability of wear to hydrocyclone components, and potential damage to the feed pump.

Figure 4-2. Abnormal Hydrocyclone Operation - “Roping” Discharge

Spray Patterns

The spray pattern varies in response to the feed head (inlet pressure), feed rate, and hydrocyclone apex opening. To maximize overall efficiency, the spray pattern of each cone must be balanced for optimal performance. This is done by observing the lower discharge pat tern and then adjusting the apex opening to achieve the correct discharge angle (Figure 4-3) for the prevailing feed rate and inlet pressure.

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HyperPoolShaker

Figure 4-3. Hydrocyclone Spray Patterns

TOO WIDE -

Spray angle greater than 30° with a hollow center. In normal operation, this the apex is too large, and an excessive amount of liquid discharges along

CORRECT -

Spray angle in the range of 20° to 30° with a hollow center. In normal

TOO NARROW -

Spray angle less than 20° with a hollow center. In normal operation, this is too small, the solids discharge is too dry, and an excessive solids are

Spray Pattern Versus Performance

The three spray patterns are interpreted as follows:

OPERATING INSTRUCTIONS

pattern is undesirable. This spray pattern indicates that the exit diameter of with the solids flowing from the bottom of the cone.

Correct this condition by tightening triangular nut (turning clockwise) until desired spray profile is achieved.

operation, this pattern is desirable.

No adjustment is required.

pattern is undesirable. This spray pattern indicates exit diameter of the apex being discharged with the liquid from the upper discharge.

Correct this condition by loosening triangular nut (turning counterclockwise) until desired spray profile is achieved.

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HyperPoolShaker

 



 



33.8

WeightMud

 



 



 



 



33.8309.2

WeightMudHeadofFeet

OPERATING INSTRUCTIONS

Recommended Operating Pressures

Recommended operating pressures for the hydrocyclone desilter and desander are listed in the following table.

Recommended Desilter/Desander Operating Pressures - 75’ Head Inlet Pressure

Mud Weight (PPG) Specific Gravity Operating Pressure (PSI)

8.33 1.00 32

9.00 1.08 35

10.00 1.20 39

11.00 1.32 43

12.00 1.44 47

13.00 1.56 51

14.00 1.68 54

15.00 1.80 58

16.00 1.92 62

17.00 2.04 66

Where:

PPG = Pounds per gallon Specific Gravit y =

1 PSI = 2.309 Feet of Head Operating Pressure =

AWD OPERATION

A spring-loaded plunger and reversible pawl provides a ratchet ing action during movement of the operating handle. A f ull 180 degrees of movement is possible in both directions. Depending on pawl setting, moving the handle in one direction turns the jack screw to raise or lower the screen frame, while in the other direction the jack screw remains stationary during handle movement. The spring-loaded pawl permits the operator to switch the direction to either raise or lower the screen frame, as required.

Using the AWD to elevate the discharge end of the screen frame slows the forward progress of the slurry over the screen bed (Figure 4-4). The screen fram e may be elevated several degrees, as determined by several factors:

• Particle size

• Concentration of solids in the slurry

• Feed rate

• Type of slurry

• Type of screen

• Screen cut po int

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HyperPoolShaker

OPERATING INSTRUCTIONS

WARNING! BE SURE THAT ALL PERSONNEL ARE CLE AR OF MACHINE BEFO

Figure 4-5. Manual Jack Screw AWD Adjustment

Figure 4-4. Screen Frame Pooling Area

ANGLE ADJUSTMENT

The angle of the discharge end of the screen frame is infinitely adjustable within the equipment’s available range. To adjust the AWD, proceed as follows:

RE ADJUSTING ANGLE OF SCREEN BED.

1. Pivot operating handle (Figure 4-5) downward until horizontal, and set jack screw ratchet detent to either raise or lower discharge end of screen frame.

2. Using the operating handle, rotate jack screw left to raise or right to lower screen frame end to the desired angle. Use stamped markings on the upright shafts to assist in determining angular setting.

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HyperPoolShaker

Figure 4-6. Pool Configuration and Adjustments

OPERATING INSTRUCTIONS

POOL CONFIGURATION

Extensive testing has shown that the most efficient pool configuration maximizes use of the available screen area. In general, the pool should cover all screen panels except for the discharge screen, which is the last screen on the screen frame.

The AWD allows the operator to easily change the angle of elevation in rapid response to everchanging conditions and feed rates of the slurry. There is no “one correct setting” for the AWD . Suggested changes to an existing screen angle are shown in Figure 4-6. Note that the dark pattern at the left represents the area of the screen panels covered by the pool. The ideal coverage is for the pool to cover about two-thirds of the screen surface. If coverage retreats to halfway across screen surface, the screen frame angle may be reduced and/or flow increased. Finally, if the pool covers nearly all of the screen surface, the screen angle may be increased and/or flow decreased to reduce the pooling area.

POOL CONFIGURATION ANG LE AD J U S TMEN T

Correct screen angle

No adjustment required

Decrease screen angle Increase flow

Increase screen angle Decrease flow

ALTERNATIVE

ADJUSTMENT

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OPERATING INSTRUCTIONS

SCREEN RETENTION SYSTEM OPERATION

Proper screen functioning depends on secure retention and full contact with the screen bed. Be sure that each screen panel is secure by verifying that all screen panels compressed into conformance with the concave screen bed. Refer to Section 5 for screen replacement and maintenance procedures and to Section 6 for detailed description, operation, and repair of the system.

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HyperPoolShaker

SECTION 5 - MAINTENANCE

GENERAL

This section contains routine maintenance, inspection, screen panel replacement, and parts replacement for the HyperPool shaker. Routine maintenance will ensure maximum life and trouble-free operation. While the maintenance schedule presented in this section is flexible, modifications should be based on experience with operating the equipment at your facilities. A maintenance log (see Section 9) should be kept to help establish a routine maintenance schedule, as well as to monitor and adjust the schedule as necessary throughout the equipment’s life.

When establishing a maintenance schedule, consider duty cycle, ambient temperature, and operating environment.

ROUTINE MAINTENANCE

Routine maintenance consists of overall inspection and cleaning. Following are the rec ommended routine maintenance procedures.

ROUTINE MAINTENANCE

Action Frequency

Inspect feed connection to feeder, desander, or desilter for leaks, and tighten connection as required.

Inspect discharge duct connection on side of hopper for leaks. Tighten connection and/or add silicone sealant to prevent leakage.

Inspect cover on unused hopper discharge connection for leaks. Tighten connection and/or add silicone sealant to prevent leakage.

Wash off accumulated process material from screen frame, interio r of hopper and AWD angle adjustment components. Excess process material in these areas may impede angle adjustment of screen frame and can reduce screen frame vibration if the fra me bottoms out o n the buildup.

Check for and remove any accumulation of process material or other obstruction in feeder interior. Feeder blockage may cause excessive splashing and uneven distribution of slurry onto the screen bed.

Each shift

Weekly

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HyperPoolShaker

MAINTENANCE

ROUTINE MAINTENANCE (CONT’D)

ROUTINE MAINTENANCE

Action Frequency

Inspect entire machine for evidence of coating damage, including exposed base metal, corrosion, deep scratches, or other voids. Repair damaged areas in accordance with coating manufacturers’ specifications (refe r to Section 2).

Weekly

Lubricate AWD jack scr ew assembly using Dura-Lith EP, Mobilux EP, or equivalent grease.

Quarterly

SCREEN FRAME

Suspended between the vertical legs of the hopper, the screen frame provides the mounting surface for the screen panels and also includes mounting provisions for the vibrator motors and screen compression system. During normal operation, the screen frame and compression system components accumulate residual mud that should be removed periodically. In addition, the eight float mounts should be inspected and replaced when damage is evident. Since these components isolate the vibratory motion of the screen frame from the stationary parts of the machine, deterioration may occur over time. Refer to the screen frame maintenance table below for key inspection and maintenance locations.

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HyperPoolShaker

SCREEN FRAME MAINTENANCE

Action Frequency

Inspect float mounts for excessive sag (greater than 1 inch / 25.4 mm) and/or signs of deterioration or damage. If excessive sag is found, clean excess buildup of process material from screen frame to reduce loading on float mounts. If excessive sag remains, or damage is evident, float mounts must be replaced. Note that mounts at discharge end must be replaced as a pair (top and bottom).

MAINTENANCE

Monthly or as required

Inspect front curtain and rear feeder seal for signs of deterioration or damage (Figure 5-1). The rear feeder seal prevents feed slurry from entering the hopper at the feed end, while the front curtain prevents solids from entering the hopper at the discharge end. Replace front curtain and/or rear feeder seal if function is compromised.

Check compression and condition of screen panels. Panels should be in complete contact with the screen frame bed and should not have holes or other damage that would allow solids to pass through. Replace damaged screen panel(s).

Inspect side supports, cross supports, and single and double bulkhead protectors for deterioration or damage. Defective components may permit damage to the screen panels. Refer to appropriate drawing in Section 8 for replacement parts information.

Inspect screen compression system components (refer to Section 6) for signs of deterioration or damage. The screen compression components compress the screen panels to secure them against the bed of the screen frame. Improper screen panel compression will reduce the life of the screen panels. Refer to Section 6 for operation and repair parts.

Perform routine maintenance on vibrator motors as described in Section 7.

Monthly

Each shift

Each screen panel change

See Section 7 for frequency

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HyperPoolShaker

MAINTENANCE

SCREEN FRAME (CONT’D)

Figure 5-1. Screen Frame Inspection and Maintenance

SCREEN PANEL REPLACEMENT

Use the following procedure when changing screen panels. If installing panels for the first time, follow only the instructions under Installation. Screen panel replacement is done with the installer on the compression side of the screen frame.

Removal

1. Stop the flow of feed slurry to the feeder and desander/desilter.

2. Wash screen panel to remove residue from panel surfaces.

3. De-energize vibrator motors, and lock out and tag out electric power.

HP-704 screen bed. Note compression pins and panel locators.

4. Remove compression handle from holder, and insert into handle tube of compression assembly.

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HyperPoolShaker

MAINTENANCE

5. Press handle downward to release pawl from positioning gear tooth, and lift pawl from tooth.

6. Raise handle upward to retract compression pins.

7. Remove screen panel.

8. Inspect screen bed materials for wear and damage. If damage or excessive wear is found, replace bed materials in accordance with Screen Bed Material Replacement in this section.

Installation

1. Lower screen panel onto screen bed at discharge end with outside edge against wall of screen frame engaging notch with panel locator and inside edge against compression pins.

Retracting compression pins Lowering screen panel into screen frame and

engaging notch with locator

2. With compression handle inserted in compression assembly tube, press handle down until compression pins are fully extended and pawl engages tooth of positioning gear. When properly done, panel will be curved downward into intimate contact with screen bed.

Screen panel notch engaged with locator

Compressing screen panel

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HyperPoolShaker

Figure 5-2. Screen Bed Material Locations

MAINTENANCE

Installation (Cont’d)

Fully installed panel. Note downward curve into intimate contact with screen bed

3. Repeat procedure for three remaining screen panels.

SCREEN BED MATERIAL REPLACEMENT

The bed materials (Figure 5-2) should be replaced if inspection reveals damage or deterioration. To replace any of the bed materials, proceed as follows:

1. Stop feed.

2. Wash off process material from screen bed.

3. Shut down electric power, and lock out and tag out machine.

4. Retract all screen compression pins to release all screen panels.

5. Lift and remove screen panels, and remove and discard defective bed materials.

6. To facilitate installation, apply mild soap solution to new bed material components. Insert bed materials into corresponding locations.

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HyperPoolShaker

1. Turn adjusting screw clockwise to

MAINTENANCE

VIBRATOR MOTORS

Removal, installation, parts r eplacement, and troubleshooting procedures for the vibrator motors are included in Section 7.

AWD JACK MAINTENANCE

The AWD jack requires periodic lubrication and occasional adjustment of the spring plunger. Refer to Routine Maintenance at the beginning of this section for periodic lubrication instructions. If the ratchet action becomes noticeably imprecise or the pawl fails to latch during jack handle movement, the spring plunger should be adjusted as follows:

increase spring tension on plunger.

2. Move operating handle in both directions to confirm proper ratcheting action and pawl engagement during jack screw rotation.

3. If pawl does not engage jack screw properly or ratchet action is insufficient, repeat steps 1 and 2.

HYDROCYCLONE REMOV AL AND INSTALLATION

If desilter does not have a dedicated shutoff valve for each hydrocyclone, the desilter must be shut down before beginning removal of any component. For desilters having a dedicated shutoff valve for each cone (Figure 5-4), one or more cones may be removed from a cluster or manifold arrangement without shutting down the desilter. Snap couplings allow cone(s) to be removed without tools.

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HyperPoolShaker

MAINTENANCE

HYDROCYCLONE REMOV AL AND INSTALLATION (CONT’D)

Figure 5-4. Hydrocyclone Removal

Temporary Removal

WARNING! WHEN REMOVING CONE FROM AN OPERATING DESI LT ER, BE SURE THAT SHUTOFF VALVE IS CLOSED OR DESILTER IS SHUT DOWN BEFORE RELEASING SNAP COUPLINGS.

WARNING! ALWAYS WEAR SAFETY GLASSES WHEN REMOVING HYDROCYCLONES FROM A PRESSURIZED DESILTER.

1. If shutoff valves are installed, close valve of cone to be removed by moving handle to the CLOSED (vertical) position (perpendicular to the line of flow). If shutoff valves are not installed, shut down feed to desilter.

2. Release cone feed and elbow discharge snap couplings to remove hydrocyclone and discharge elbow as a single unit, or release cone feed and cone discharge snap couplings to remove hydrocyclone alone.

3. Remove corresponding hydrocyclone on opposite side of manifold, if desilter will be operated without all hydrocyclones installed.

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MAINTENANCE

Permanent Removal

When permanently removing cones from the desilter, first eliminate positions closest to the discharge pipe and then extend outward from those positions, as necessary. To maintain balance, remove cones in pairs directly across the discharge pipe from each other (one from each side of the discharge pipe). For example, if cone “A” is removed, also remove cone “K” (Figure 5-5). If the desilter has a full complement of cones, the following removal sequence is suggested when removing cones:

A & K, J & T, B & L, I & S, C & M, H & R, etc.

Figure 5-5. Cone Arrangement

Installation

WARNING! WHEN INSTALLING CONE ON AN OPERATING DESILTER, BE SURE THAT SHUTOFF VALVE IS CLOSED BEFORE RELEASING SNAP COUPLINGS SECURING VICTAULIC

WARNING! ALWAYS WEAR SAFETY GLASSES WHEN INSTALLING HYDROCYCLONES IN A PRESSURIZED DESILTER.

1. If Victaulic® caps (Derrick part number VIC-2-60) were installed on manifold ports, release snap couplings and remove caps.

2. Slide snap coupling gasket on end of manifold pipe.

3. Align inlet pipe of hydrocyclone with manifold pipe, and center gasket between the snap coupling grooves in hydrocyclone and manifold pipe (Figure 5-6).

4. Install Victaulic snap coupling so that coupling engages grooves in manifold pipe and hydrocyclone.

5. Engage and close locking handle of snap coupling to secure manifold pipe and hydrocyclone.

6. Repeat steps 1 through 5 for remaining hydrocyclone-to-manifold connections.

CAPS TO PRESSURIZED MANIFOLD.

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HyperPoolShaker

MAINTENANCE

Installation (Cont’d)

Figure 5-6. Installation of Snap-Coupling Gasket

RECOMMENDED SPARE PARTS

The recommended spare parts required to support a single HP-704 shaker for two years are listed in the following table. This list includes the components most susceptible to wear; however, all potential part replacements cannot be predicted. The complete spare parts inventory should be based on the user’s experience with similar equipment.

RECOMMENDED SPARE PARTS - HYPERPOOL SHAKER

Part No. Description Consumable Qty

1129-00 Float Mount Assembly (Incl. 500-13 x .875 Bolts) Yes 8 G0012647 Discharge Curtain Yes 1 18021-01 Panel Hold-Down No 4 18022-01 Panel Locator No 3 17617-02 Bushing Housing Assembly No 2 17617-03 Actuator Assembly No 1 17617-04 Tension Handle Assembly No 1 17617-05 Pawl/Lock Assembly No 2 G0012731 Pin Housing Assembly No 1 16848-13 Rear Cross Support, 41-1/4”, Nitrile Yes 2 16848-11 Bulkhead Protector, Double, 41-1/4”, Nitrile Yes 2 16848-10 Bulkhead Protector, Single, 41-1/4”, Nitrile Yes 12

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MAINTENANCE

RECOMMENDED SPARE PARTS - HYPERPOOL SHAKER

Part No. Description Consumable Qty

16848-12 Support Assembly, Side, 23”, Nitrile Yes 8 G0001973 Bolt Assembly, SGX Vibrator, 3/4-16 x 4” W/Washer Yes 4 G00012323 Pushbutton Assembly, Start, Green No 1 G0004136 Pushbutton Assembly, Stop, Red No 1 SQD-2510-MC03 Starter, Manual No 1

SQD-B7.70

Thermal Element, 4.69A-5.18A, 380/400V & 460/480V 50/60Hz

No 3

SQD-B6.25 Thermal Element, 3.77A-4.00A, 575/600V 60Hz No 3 SQD-B15.5 Thermal Element, 9.22A-10.1A, 230/240V 60Hz No 3

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SECTION 6 - SCREEN RETENTION SYSTEM

GENERAL

Proper screen functioning depends on tightness and full contact with the screen bed components, (side supports, cross supports, and bulkhead protectors). The screen compression assembly is designed to properly secure the screen panels for optimum performance and durability.

The HyperPool shaker is identified as either right- or left-hand, which designates the screen compression side of the machine. This arrangement allows an operator to work from one side of the machine to install and remove screen panels.

DESCRIPTION

The screen compression system (Figure 6-1) consists of four manually operated compression assemblies that extend retention pins outward to press against the edges of the screen panel. When fully extended, the pins cause the screen to curve downward into intimate contact with the screen bed. In this way, the bowed screen is tightly retained against the bed components, forming a complete seal.

Figure 6-1. Screen Compression System

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SCREEN RETENTION SYSTEM

OPERATION

The retention system is operated by inserting the tensioning handle into the receptacle provided on the positioning gear and pressing the handle downward (Figure 6-2). The downward motion rotates cams on the keyed shaft that drive the retention pins outward against the screen panel edges. Rotating the keyed shaft in the opposite direction retracts the retention pins, permitting the screen panel to relax.

Compressing Screen Panel

Releasing Screen Panel

SCREEN PANEL REPLACEMENT

Screen panel replacement is considered routine maintenance. Refer to Section 5 f or rem oval and installation procedures.

INSPECTION AND REPAIR

Compression assembly components or the entire assembly should be repaired or replaced if inspection reveals damage, wear, or excessive corrosion (refer to Figure 6-1 and assembly drawing in Section 8). Replace any compression assembly that cannot be restored to fully serviceable condition.

Replacement Parts

Refer to engineering drawings in Section 8 to identify the compression system components. 6-2 15 Jun 12

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Factory-Assigned Options Code Supply Voltage Frequency

Operating Voltage RPM (x 100) Eccentric Weight (in

per Side Construction:

Motor Type SG

SECTION 7 - SGX VIBRATOR MOTOR

DESCRIPTION

Motion is generated by dual explosion-pr oof SGX vibrator motors and transmitted to the screen frame to separate and conveys solids over the screen panels. The SGX motor is rated for continuous duty with Totally Enclosed Non-Ventilated (TENV) construction and permanently lubricated, sealed bearings.

Eccentric weights installed on the rotor shaft produce the motor’s vibratory action. The weight, which is measured in in-lbs, varies depending on the application and is stamped on the motor nameplate. The two vibrator motors are connected to cause the motors to rotate in opposite directions to produce linear motion.

The vibrator motors must be operated at their rated three-phase supply voltage. The model designation shown on the nameplate is defined as follows:

SG X 30 – 18 – 460/480 – 6 000

5 - 50Hz 6 - 60Hz

-lbs)

X - Explosion-Proof

- Super G Motor

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Caution Warranty Period Void May Not Result

SGX VIBRATOR MOTOR

REPAIR RESTRICTIONS

The Derrick SGX motor has a CLASS I (flammable gas atmosphere) certification, which restricts the user to replacing only the following parts:

• Bearings

• Outer eccentric weights

• Power cord

• Junction box components

To maintain the flameproof rating of the motor, no parts beyond the bearing may be removed. Also, while under warranty, no repairs of any kind are permitted; the m otor may not be opened for

any reason. If the motor fails while under warranty, contact the Derrick Service department for assistance. The warranty will be void, if it is determined that the motor has been opened during the warranty period.

! Contact The Derrick Service Department If Motor Fails During The

. All Warranties, Whether Stated Or Implied, Will Be Null And

If The Motor Is Opened During The Warranty Period. Derrick Corporation

Be Held Responsible For Any Liabilities Incurred During, Or As A

Of, Unauthorized Repair Attempts.

SAFETY

Successful and safe operation of Derrick vibrator motors requires proper handling, installation, operation, and maintenance. Failure to follow installation and maintenance requirements may result in personal injury, equipment failure, or property damage.

Only trained, qualified personnel should be involved in the installation, operation, and maintenance procedures. All plant safety procedures must be observed.

Qualified personnel must be familiar with the construction, installation, maintenance, and operation of the motor and must be aware of any hazards associated with operation of the equipment. In addition, personnel must be trained and author ized t o energize, de-energize, clear, ground, and tag circuits and equipment in accordance with established safety practices and be trained in proper use and care of personal protective equipment in accordance with established safety practices.

WARNING! ALL DERRICK VIBRATOR MOTORS MUST BE INSTALLED AND GROUNDED IN ACCORDANCE WITH ALL APPLICABLE ELECTRICAL CODES.

WARNING! TO AVOID SERIOUS PERSO NAL INJURY, BE SURE THAT EQUIPMENT IS LOCKED OUT, TAGGED OUT, AND DE-ENERGIZED BEFORE PERFORMING MAINTENANCE AND/OR ADJUSTMENTS.

WARNING! MOTOR HOUSING BECOMES HOT DURING OPERATION AND MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HOUSI NG DURING OR IMMEDIATELY AFTER MOTOR HAS BEEN OPERATING.

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SGX VIBRATOR MOTOR

STORAGE

If a spare mot or is to be placed in storage, the instructions in the following paragraphs must be observed to protec t the stored motor and maintain the warranty.

New Motors

New spare vibrator motors should be stored in a clean, dry (50 percent relative humidity or less), warm location. The storage location should not undergo severe daily temperature changes.

Used Motors

Before storing a motor that has been in service, run the unit for approximately one hour to ensure complete heating and to dissipate any internal moisture. At the end of the run, shut down the motor and allow it to cool. Follow all applicable lock out and tag out rules when removing the motor.

While motor is in storage, periodically check the integrity of the winding insulation using a megohmmeter. Maintain a continuous record of megohmmeter readings, and immediately investigate any significant decrease in insulation resistance.

OPERATING ENVIRONMENT

Derrick vibrator motors are designed to operate in ambient temperatures slightly higher than 104°F (40°C). If higher temperatures are anticipated, please contact the Derrick Technical Service Department for assistance. DO NOT install hoods or enclosures that may cause inadequate ventilation, which could reduce vibrator life.

REPLACEMENT PARTS

The cross-sectional view and parts list below include replacement parts that are available for t he Derrick SGX vibrator motor. This information should be used to identify and order replacement or spare parts for the motor.

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SGX VIBRATOR MOTOR

REPLACEMENT PARTS (CONT’D)

Ref. Dwg. 14274-00

REPLACEMENT PARTS - SGX MOTOR

No. Description Part No. Qty

1 Bearing G0001960 2 2 Bearing Mount 14266-01 2 3 Junction Box Cover 12739-00 1 4 Terminal Block Assembly 11006-00-001 1 5 O-Ring, 5.250 x 0.070 G0003627 1 6 Bearing Spacer 14269-01 2 7 O-Ring, 7.90 x 0.070 PP1503 2 8 Weights, Outer Serial Number Req’d A/R 9 End Cover 12736-00-001 2

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SGX VIBRATOR MOTOR

Part No.

Description

Kit No. G0003029 - 3/4” Hex Hd Bolt

G0002020

Torque Wrench, 200-600 ft-lbs, 3/4” Drive

G0003026

Extension, 3/4” Drive x 8” Lg

G0003027

Deep Socket, 3/4” Drive x 1-1/8”

G0003028

Box End Wrench, Offset, 1-1/8”

G0003030

Breaker Bar, 3/4”

Kit No. G0002161 - 1” Bolt With 5/8” Socket Hd

G0002020

Torque Wrench, 200-600 ft-lbs, 3/4” Drive

G0001941

Deep Socket, 3/4” Drive x 1-7/16”

G0002160

Hex Bit Socket, 1/2” Drive x 5/8”

G0002163

Breaker Bar, 1/2” Drive

842-06

Box End Wrench, Offset, 1-7/16”

Kit No. G0002162 - 1” Bolt With 3/4” Socket Hd

G0002020

Torque Wrench, 200-600 ft-lbs, 3/4” Drive

G0001941

Deep Socket, 3/4” Drive x 1-7/16”

G0002164

Hex Bit Socket, 1/2” Drive x 3/4”

G0002163

Breaker Bar, 1/2” Drive

842-06

Box End Wrench, Offset, 1-7/16”

REMOVAL AND INSTALLATION

The removal and installation procedures below include photos for a typical motor. While motor appearances vary between the models covered, these differences do not affect removal and installation.

Tool Kits

Tool kits containing all necessary equipment for removing and installing motor bolts are available from Derrick. Kit part numbers are as follows:

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SGX VIBRATOR MOTOR

Safety

Be sure to follow the warnings listed below before, during, and after removal or installation of the vibrator motor.

WARNING! MOTOR HOUSING BECOMES HOT DURING OPERATION AND MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HO USING DURING OR IMMEDIATELY AFTER MOTOR HAS BEEN OPERATING.

WARNING! SCREEN PANELS WILL BE DAMAGED IF STRUCK BY HAR DWARE OR TOOLS. EITHER REMO VE SCREEN PANELS OR PROTECT FROM DAMAGE DURING MOTOR REMOVAL OR INSTALLATION.

WARNING! BE SURE THAT HANDLING DEVICES H AVE SUFFICI E NT LIFTING CAPACITY TO S AFELY HANDLE THE WEIGHT OF THE EQUIPMENT.

WARNING! HIGH VOLTAGE MAY BE PRESENT. ALW AYS OPEN FUSED DISCONNECT SUPPLYING ELECTRIC POWER TO THE EQUIPMENT, AND LOCK-OUT AND TAG-OUT POWER SUPPLY BEFORE PERFORMING ANY MAINTENANCE AND/OR ADJUSTMENTS OF EQUIPMENT.

WARNING! MOTOR MAY BE DAMAGED BY STORING IN A HIGH HUMIDITY ENVIRONMENT (GREATER THAN 50% RH). OUT-OF-SERVICE MOTOR(S) MUST BE STORED IN A LOW-HUMIDITY ENVIRO NM E NT.

Motor Handling

When lifting motor, position lifting sling at the center of the motor case as shown.

DO NOT PINCH MOTOR POWER CORD WHEN INSTALLING LIFTING SLING. To prevent damage to

power cord when lifting motor assembly, always keep sling next to motor case.

During Motor Removal:

Attach lifting sling to motor case, and connect to overhead lifting device before removing mounting hardware for motor assembly.

During Motor Installation:

Keep lifting sling attached to motor until mounting hardware has been installed and secured to screen frame.

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SGX VIBRATOR MOTOR

Note! Due To High Torque Applied During Installation, Re Mounting Hardware Be Replaced Whenever A Motor Is Removed.

Part No.

Dimensions

Bolt Head

Nut Size / Wrench

Photo

Figure 7-1. Motor Bolt Installation

Mounting Hardware Installation

-Use of Motor

Is Not Recommended. All Hardware Components Should

The motor is secured to the screen frame with 3/4” bolts. When installing the bolt s, note that the 3/4” motor bolts are installed from the underside of the screen frame (Figure 7-1). Hardened washers are required under the bolt heads as well as under the Flex-Loc nuts.

G0001973 3/4” x 4” Lg 1-1/8” Hex Hd 1-1/8” / Deep Socket

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SGX VIBRATOR MOTOR

Motor Positioning and Mounting

1 - Using overhead lifting device, position

vibrator motor over screen frame.

2 - Position motor on screen frame and align

mounting holes with screen frame. Insert bolts (without anti-seize compound applied) with hardened washers through motor holes from underside of screen frame. Install hardened washers and FlexLoc nuts on top.

3 - Tighten bolts to 300 ft lbs.

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SGX VIBRATOR MOTOR

WARNING! MOTOR BE SURE THAT VOLTAGE AND FREQUENCY DATA PLATE SPECIFICATIONS.

WARNING! ELECTRICAL CONNECTIONS MUST BE MADE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE (NEC) AND ALL APPLICABLE LOCAL CONDITION THAT COULD INJURE PERSONNEL OR DAMAGE EQUIPMENT. ENSURE THAT ALL ELECTRICAL AND CONDUIT CONNECTI ONS ARE SECURE.

WARNING! DAMAGE DURING MOTOR REMOV AL O WILL BE DAMAGED IF STRUCK BY HARDWARE OR TOOLS.

WARNING! HIGH VOLTAGE MAY BE PRESENT. ALWAYS OPEN FUSED DISCONNECT SUPPLYING ELECTRIC POWER TO THE EQUIPMENT, AND LOCK OUT AND TAG OUT POWER SUPPLY BEFORE PERFO RMING ANY MAINTE

WARNING! MOTOR MAY BE DAMAGED IF STORED I N A HIGH ENVIRONMENT (GREATER THAN 50% RH). BE SURE THAT MOTOR WAS STORED IN A LOW

WARNING! BE SURE THAT MOTOR IS PROPERLY GROUNDED.

WAR MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HO USING DURING OR IMMEDIATELY AFTER MOTOR HAS BEEN OPERATING.

ELECTRICAL CONNECTIONS

The following instructions describe the connections at both ends of the power cord. To ensure that new connections are made correctly, always tag leads for identification before disconnecting from the terminals.

The Derrick vibrator motor must be operated at the required voltage and frequency. Refer to the data plate on the motor case for the motor’s voltage and frequency requirements. Prior to installing a new vibrator motor, verify that the electrical power configuration corresponds to the electrical requirements specified on the motor.

Safety

Electrical connections should be performed only by trained, qualified personnel familiar with highvoltage applications and knowledgeable of National Electrical Code (NEC) standards and any other state or local codes that may apply to installation of industrial equipment.

MAY BE DAMAGED BY INCORRECT SUPPLY POWER.

ARE WITHIN ±10% OF MOTOR

CODES. FAILURE TO COMPLY MAY RESULT IN AN UNSAFE

EITHER REMOVE SCREEN PANELS OR PROTECT FROM

R INSTALLATION.SCREEN PANELS

NANCE AND/OR ADJUSTMENTS OF EQUIPMENT.

-HUMIDITY ENVIRONMENT.

NING! MOTOR HOUSING BECOMES HOT DURING OPERATION AND

-HUMIDITY

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SGX VIBRATOR MOTOR

Connections to Motor

The procedure below describes motor cord connections to the motor. If replacing a cable, tag all leads for identification before disconnecting old cable. The SGX motor uses either of the following connection styles:

Terminal Block - Cord is fed through the side of the motor junction box and connected to a terminal block inside the junction box

Power Connector - Cord is f ed through the junction box cover, which contains a female power connector where connections are made. T his connector mates with a male plug in the junction box.

Terminal Block Style

1. Remove cover from motor junction box.

2. Carefully feed the wires through the elbow installed in the motor junction box (Figure 7-2).

3. Install and tighten gland assembly components in elbow, using care to avoid over-tightening backnut. To prevent over-tightening, stop tightening backnut when red seal begins to swell.

4. Install two O-rings over leads inside junction box, slide both O -rings into threaded hole in box, and position one O-ring at each end of threaded hole to suspend the leads in the center of the hole.

Note! Be sure that O-rings are properly installed, as they prevent chafing of leads due to abrasion against threaded hole.

5. Route leads as shown, dressing carefully to prevent leads from cont acting each other or the interior of the connection box.

6. Secure black, white, red, orange, and blue leads t o studs as marked on terminal block using external tooth lockwashers and Flex-Loc

nuts. Secure green lead to GROUND terminal using

lockwasher and screw.

7. Apply RTV-108-10.1 s ilicone sealant to leads (Figure 7-3) for vibration-pr oof ing . Als o, be sure to fill threaded hole for additional protection against chafing.

8. Place cover on motor junction box, and install and tighten four screws to 250 in-lbs.

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Figure 7-2. Motor Cord Connections to Terminal Block

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Figure 7-3. RTV Sealant Application

Power Connector Style

1. Remove cover from motor junction box, and discard O-ring (Figure 7-4).

2. Insert motor cord leads through junction box cover.

3. Match leads to power connector markings, and connect leads to terminals as shown.

4. Apply anti-seize compound to fr ont gland nut, and install and tighten in threaded opening in cover.

5. Install remaining gland components, and tighten backnut only sufficiently to cause red seal to begin to protrude. Do not over-tighten backnut.

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SGX VIBRATOR MOTOR

Figure 7-4. Motor Cord Connections to Power Connector

6. Apply small amount of LubriPlate 5555, part number L0107-007, or UL-approved equivalent, to new O-ring, and install O-ring in groove of cover.

7. Align cover mounting holes with holes in junction box, ensure that O-ring remains in place, and install cover by engaging power connector plug and receptacle.

Note! Be sure that connector halves mate easily and that O-ring remains in place during assembly.

8. Secure cover to junction box with four socket head cap screws, and tighten to 250 in. lbs.

9. Check for proper fit between cover and junction box surface by attempting to insert a 0.001” shim between the two parts around the entire mating area circumference. If the shim can be inserted at any location, remove the cover and correct any defect.

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SGX VIBRATOR MOTOR

Connecting Motor Cords To Starter Box

Motor leads are connected to manual starters inside the starter box (Figure 7-5). Refer to the schematic diagram in Section 8 for additional assistance in connecting the vibrator motors. Connect the motor leads to the starters as follows:

1. Pass leads through holes in bottom of starter box. For each c able, thread front gland nut int o starter box, and tighten securely. Thread rear gland nut onto front gland nut, and tighten securely. Thread and tighten backnut onto cable gland.

2. Connect leads to starters and ground t erminal as shown in the schematic diagram in Section

8. Be sure to reverse leads for one motor—motor red lead to starter box black lead and motor black lead to junction box red lead—so that motors rotate in opposite directions.

Note! Be sure to connect one motor in reverse polarity so that motors rotate in opposite directions.

Figure 7-5. Motor Cable Connections to Motor Starters

Motor Test

After completing the electrical connections, test the motors to confirm proper operation. Check that motors rotate in opposite directions. If the motor test reveals that motors are rotating in the same direction, reverse the leads of one motor to correct the direction of rotation.

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SGX VIBRATOR MOTOR

WARNING! TO AVOID SERIOUS PERSO NAL INJURY BE SURE EQUIPMENT IS LOCKED OUT, TAGGED OUT, AND DE PERFORMING MAINTENANCE AND/OR ADJUSTMENTS.

NOTE! All warranties, whether stated or implied, will be void if motor

PREVENTIVE MAINTENANCE

Routine preventive maintenance will ensure maximum life for the vibrator motor. While the maintenance schedule in this section is flexible, modifications should be based on operating experience at your facilities.

A maintenance log will help establish and monitor a service schedule that is correct for your equipment. The maintenance log should contain the following information:

• Motor model and serial number from motor data plate

• Power requirements

• Voltage reading across L1 to L2, L1 to L3, and L2 to L3

• Amperage reading across L1 to L2, L1 to L3, and L2 to L3

-ENERGIZED PRIOR TO

VIBRATOR MOTOR MAINTENANCE

Maintenance Action Frequency

Using a water hose, clean process material from exterior of motor case*.

Inspect motor cable for signs of deterioration or damage. Each shift or as required Using a torque wrench; verify that motor mounting bolt torque

is in accordance with torque listed in Motor Removal and Installation.

* The vibrator motor is designed to dissipate heat through the motor case. Buildup of process

material on the motor case exterior prevents proper heat dissipation and may cause t he motor to overheat.

Daily or as required

After first 40 hours of operation; once each year

BEARING REPLACEMENT

The following bearing replacement procedure applies only to SGX motors that are no longer under warranty. During the warranty period the mot or is n ot to be opened for any reason, as this will void the warranty. Contact the Derrick Service department for assistance if a motor fails while under warranty.

the Derrick

is opened during the warranty period.

Materials Required

The bearing replacement kits shown below contain the bearings and associated components required for both ends of the motor. Derrick recommends replacement of bearings as a set. Failure to replace both bearings may result in premature failure of the newly installed bearing.

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NOTE! Bearings in Derrick vibrator motors are custom designed with loose internal clearances and are packed with Mobilith SHC® 100 grease to prolong life. Regardless of supplier, bearings must be packed with this grease or e Derrick does not recommend u

SGX MOTOR BEARING REPLACEMENT KITS

SGX VIBRATOR MOTOR

se of bearings from an alternative supplier.

Part Number Description Qty

Bearing Replacement Kit - G0003904

G0001696 Bolt, Jack, Hex Skt Hd, M8-1.25 x 70mm, Aly Stl 2 G0001960 Bearing, Vibrator 2 PP1503 O-Ring, 7.90 ID x .070 Cross Section, Viton 2 14266-01 Mount, Bearing, Vibrator, A4140 Stl 2 G0002250 Grease, Vibrator, SHC-100, 10-Oz. Tube 1

Bearing Replacement Kit With Tools - G0003905

quivalent.

G0001700 Wrench, Hex, T-Handle, 5mm Alloy Stl 1 G0003126 Wrench, Ratchet, 3/8” Drive, Ind. Finish 1 G0008317 Socket, Allen Bit, 5mm Lg, 3/8” Drive 1 G0002250 Grease, Vibrator, SHC-100, 10-Oz. Tube 1

Tools Required

Following is a recommended tool list for use during the bearing replacement procedure:

• Torque wrench (200 to 1000 in lbs)

• Hex wrench (5mm)

• Hex wrench (6mm)

• Dental pick or similar to ol

• Clean, absorbent cloths

• Safety glasses

• Heat-resistant gloves (250° F or higher)

• Welder’s tor ch

• Bearing heater

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SGX VIBRATOR MOTOR

WARNING! MOTOR HOUSING BECOMES HOT DURING OPERATION AND MAY CAUSE SEVERE BURNS. DO NOT TOUCH MOTOR HO USING DURING OR IMMEDIATELY AFTER MOTOR H

WARNING! ALL OPERATING AND MAINTENANCE PERSONNEL MUST READ AND UNDERSTAND ALL SAFETY INFORM ATIO N IN THIS MANUAL BEFORE WORKING WITH THE EQUIPMENT.

WARNING! HIGH VOLTAGE MAY BE PRESENT. BE SURE FUSED DISCONNECT SUPPLYING ELECTRIC PO OPEN. LOCK OUT AND TAG OUT POWER SUPPLY TO PREVENT ACCIDENTAL APPLICATION OF POWER W HILE MAINTENANCE AND/OR ADJUSTMENTS ARE IN PROGRESS.

WARNING! VISION,

NOTE! replacement prematurely

Work Area Environment

A well-lighted area with sufficiently large work-surface area is required to work on the motor. The work s ur face should be clean to prevent contamination of the new bearings and motor interior.

Safety

The following WARNINGS apply to the bearing replacement procedure. Be sure to read and understand these WARNINGS before proceeding.

TO PREVENT SERIOUS EYE INJURY OR PERMANENT LOSS OF

WEAR SAFETY GLASSES DURING THIS PROCEDURE.

AS BEEN OPERATING.

WER TO THIS EQUIPMENT IS

Bearing Replacement

The procedure below describes replacing bearing on one end. Repeat the procedure for the second bearing.

Remove vibrator motor from equipment before performing bearing

(refer to Motor Removal and Installation). Bearings will fail

if new bearings become contaminated during replacement.

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SGX VIBRATOR MOTOR

Bearing Removal

The following procedure describes bearing removal for one side of the motor. Repeat the procedure for bearing at opposite end.

1 - Using a 5mm hex wrench, remove eight socket head cap screws securing cover to bearing housing; support cover as last screw is removed.

3 - Using a 6mm hex wrench, loosen socket head set screw securing outboard eccentric weight(s) to motor shaft. Note that more than one eccentric weight may be installed in this position.

2 - Remove cover, and remove O-ring using a dental pick or similar tool. Discard O-ring.

4 - Remove outboard eccentric weight(s) from motor sha ft.

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SGX VIBRATOR MOTOR

5 - Using a soft absorbent cloth, remove

excess lubricant from components. Do not use compressed air for cleaning as this may drive contaminants into motor.

7 - CAREFULLY slide heated spacer off motor shaft.

6 - Using a torch with a diffused flame, gently heat spacer for no more than 10 seconds to approximately 200°-230°F (93°-110°C) to facilitate removal.

8 - Using a 6mm hex wrench, remove six socket head cap screws (M8-1.25x60) securing bearing mount to bearing housing.

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Bearing Removal (Cont’d)

SGX VIBRATOR MOTOR

9 - Locate two threaded holes that accept

the two M8-1.25x70 socket head jack screws. Jack screw holes are 180 degrees apart.

11 - Using a 6mm hex wrench, alt ernately and equally advance each jack screw a few turns at a time.

10 - Carefully thread jack screws into threaded holes in bearing mount, being sure to avoid cross-threading.

12 - As jack screws contact bearing housing, bearing mount is drawn from bearing housing as shown, while inner bearing race remains on shaft. Remove and discard bearing and bearing mount.

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SGX VIBRATOR MOTOR

13 - Using a soft absorbent cloth, r emove

excess lubricant from interior of bearing housing and inner bearing race. Do not use compressed air for cleaning as this may drive contaminants into motor.

Bearing Installation

14 - Using a torch with a diffused flame, gently heat inner bearing race for no m ore than 10 seconds to approximately 200°230°F (93°-110°C) to facilitat e r emoval.

15 - Carefully remove and discard heated inner bearing race from motor shaft. Using a soft absorbent cloth, remove excess lubricant from interior of bearing housing. Do not use compressed air for cleaning as this may drive contaminants into motor.

1 - Remove inner bearing race from assembled bearing and bearing mount supplied with bearing replacement kit. Be careful to avoid contaminating these components.

2 - Wipe excess lubricant from inner bearing race, and position on motor shaft with collar toward motor body. Using a bearing heater or a torch with a diffused flame, heat inner bearing race to approximately 200°-230° F (93°-110° C).

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Bearing Installation (Cont’d)

SGX VIBRATOR MOTOR

3 - After heating inner bearing race, slide

bearing race onto motor shaft until shoulder of race contacts bearing seat in rear of cavity. Fully coat surface of inner race with grease (supplied with bearing replacement kit).

5 - Locate the two clearance holes in bearing mount 180degrees apart. Insert two M8-1.25x70 jack bolts supplied with bearing replacement kit through the clearance holes, and thread screws into holes in bearing housing. Alternately advance both jack bolts a few turns at a time until bearing mount is drawn well into bearing housing.

4 - Orient longer, reduced diameter of bearing mount toward motor body. Align clearance holes in bearing mount with threaded holes in bearing housing, and press bearing mount fully into bearing housing cavity.

6 - After bearing mount has been sufficiently drawn into bearing housing, remove the two jack bolts and install original socket head cap screws (M8-

1.25x60) into the six clearance holes. Hand tighten screws.

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SGX VIBRATOR MOTOR

7 - Using a torque wrench and 6mm hex bit,

alternately tighten all six cap screws to 250 in. lbs. Coat motor shaft with grease (included in bearing replacement kit).

9 - Orient eccentric weight (s) with split facing junction box and pin on inside of weight aligned with keyway of motor shaft. If two weights are used, install heaviest weight closest to bearing mount.

8 - Using a bearing heater or torch with a diffused flame, gently warm spacer (no more than 10 seconds) to approximately 200°-230°F (93°-110 C). Slide heated spacer into contact with bearing.

10 - Using a torque wrench and 6mm hex bit, tighten M8 cap screw to 250 in. lbs.

11 - Check rotation and axial play of motor shaft as follows: a. Manually rotate the eccentric weight both clockwise and counterclockwise, allowing weight to

fully rotate. If binding is felt, disassemble motor as necessary to determine cause of binding, correct defect, and reassemble bearing in accordance with this procedure.

b. Using both hands, grip eccentric weight(s) and push and pull along axial centerline of motor

assembly. Shaft must have no more than 1/16”-1/8” (1.6-3.2 mm) of movement. If excessive axial movement is found, disassemble motor as necessary to determine cause of problem, correct defect, and re-assemble bearing in accordance with this procedure.

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12 - Apply a small amount of grease to O-

ring groove between bearing housing and bearing mount, and then carefully inst all O ring in groove.

DO NOT STRETCH O-RING DURING INSTALLATION.

Position cover on motor case, and install six M6-1.0 x 16 screws hand tight. Using a torque wrench and a 5mm hex bit, tighten screws to 115 in. lbs.

TROUBLESHOOTING

The troubleshooting procedures presented in the following chart are designed to assist in fault isolation and correction of defects in the Derrick SGX vibrator motor.

Trouble Possible Cause Corrective Action

Check that supply voltage agrees with motor data plate. If correct, check fuses / circuit breakers. Using a voltmeter, check for correct supply power to all three phases at starter(s).

Incorrect voltage

Motor fails to run

Using a voltmeter, verify that motor starter is functioning properly and terminals T-1, T-2, and T-3 are energized. Check for damage to power cable connected to motor junction box. Correct all defects.

Incorrect power supply connections

Incorrect supply voltage

Check electrical connections, and correct any defects.

Check that supply voltage agrees with motor data plate.

Check that thermal overload is capable of Incorrect thermal overload

handling full load current. Replace overload, if

inadequate (see motor data sheet for load

data).

Starter circui t overloads and trips

Mounting hardware loose

Vibrating motion of motor and related components are restricted

Check that mounting hardware is properly

tightened.

Check that shipping brackets have been

removed or disengaged as required. Check

condition of float mounts. Verify that solids are

not preventing motion of the screen frame.

Correct all defects.

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HyperPoolShaker

Trouble Possible Cause Corrective Action

frequency

be within ±1Hz.

one motor

motors.

SGX VIBRATOR MOTOR

Excessive current draw

Surface temperature too high*

Excessive noise

Motor turns too slowly

Incorrect supply voltage

Incorrect thermal overload

Mounting hardware loose

Vibrating motion of motor and related components restricted

Excessive buildup of process material on motor case

Loose hardware

Defective bearing Incorrect supply

voltage or line

Verify that supply voltage agrees with motor data plate.

Check that thermal overload is capable of handling full load current. Replace overload, if inadequate (see motor data sheet for load data).

Check security of mounting hardware. Tighten as required.

Verify that shipping brackets have been removed / disengaged as required. Verify that float mounts are in good condition. Verify that solids are not preventing motion of the screen frame. Correct all defects.

Wash off buildup from motor case.

Check security of all external and internal hardware. Tighten as required.

Replace both bearings in accordance with Bearing Replacement.

Check that supply voltage and line frequency agree with motor data plate. Frequency must

No electric power to

Check that supply voltage is connected to both

Motors not synchronized (dual motors only)

Incorrect electrical connections

Confirm that electrical connections are in accordance with the instructions in this section.

* Derrick vibrator motors run with higher surface temperatures than standard industrial motors. Refer to the maximum temperature rise indicated on the motor data plate attached to the motor case or the motor data sheet included in this manual.

15 Jun 12 7-25

HyperPoolShaker

SECTION 8 - REFERENCE DRAWINGS

This section contains Derrick engineering drawings for the HyperPool shaker. These drawings are included to provide assistance in troubleshooting, repair, and parts ordering.

Drawing No. Title

17611-00 -

17618-00 -

17291-00 -

17292-00 -

9764-00-002 -

13289-00 -

13245-00-002 -

12945-00-007 -

13244-00-013 -

13244-00-015 -

11234-00 -

6066-51 -

PE-S-014-09 -

General Arrangement - HyperPool

Parts List – HyperPool 4 Panel

Electrical Parts List

Wiring Schematic

Parts List - AWD

Parts List - Box Feeder

Parts List - Desilter

Parts List - Desander, Front Mount

Parts List - Collection Pan, RH Discharge

Parts List - Collection Pan, LH Discharge

4” Cone Assembly

10” Desander Cone

Thermal Unit Selection Table

15 Jun 12 8-1

HyperPoolShaker

D D

C C

ASSEMBLY 17617-01

* - QTY OF (8) ON ITEM 19 - FOR USE WITH SGX MOTORS ONLY * - QTY OF (8) ON ITEM 20 - FOR USE WITH SG2X MOTORS ONLY

17617-05418 17617-04117

17617-02815

1614

13438-01-003113

2 1

B B

16848-13111 16848-11410

3/4-16 L9 HARDWARE"SG2X" MOTOR BOLT ASSEMBLY15880-01*20 3/4-16 L9 HARDWARE"SGX" MOTOR BOLT ASSYG0001973* SPECIALPAWL/LOCK ASSEMBLY SPECIALTENSION HANDLE ASSEMBLY SPECIALACTUATOR ASSEMBLY17617-03416 SPECIALBUSHING HOUSING ASSEMBLY SPECIALPIN HOUSING ASSEMBLYG0012731 3/16 NITRILEFEEDER SEAL SPECIALPANEL LOCATOR18022-01312 41 1/4" NITRILEREAR CROSS SUPPORT 41 1/4" NITRILEBULKHEAD PROTECTOR (DOUBLE) 23" NITRILESIDE SUPPORT16848-12809

4 107

16848-101206

SPECIALPANEL HOLD-DOWN18021-01 3/16 X 16 X 42 PVK-120FRONT CURTAIN ASSYG0012647 41 1/4" NITRILEBULKHEAD PROTECTOR (SINGLE) SPECIALCOMPRESSION ASSY17617-01405 4 DIA. X 3 W/ BOLT ASSYFLOAT MOUNT1129-00804

203

13478-00102

TO SPECIFICATIONVIBRATING MOTORSGX/SG2X HRSREAR CLOSEOFF HYPERPOOL 4-PANELSCREENFRAME17612-01101

ITEM

 +/- .1

QTY

THE DESIGNS AND INFORMATION CONTAINED ON THIS DRAWING OR COPIES REMAIN THE EXCLUSIVE PROPERTY OF DERRICK CORPORATION BUFFALO, NEW YORK U.S.A. AND ARE NOT TO BE REPRODUCED WITHOUT THE WRITTEN PERMISSION OF DERRICK USED BY CUSTOMERS OR PROSPECTS OR THEIR AGENCIES IN THE ARRANGEMENT OR INSTALLATION OF DERRICK THE SUPPLY OF PARTS OR ASSEMBLIES TO DERRICK

DRAWN

JMB

CHECKED

MFG

APPROVED

5/17/2012

GEOMETRIC CHARACTERISTIC SYMBOLS

FLATNESS c STRAIGHTNESS  ROUNDNESS  CYLINDRICITY  PARALLELISM  PERPENDICULARITY  ANGULARITY 

A A

4 ADDED ITEM 20 JMB 9/10/2012 3 ADDED ITEM 19 JMB 9/10/2012 2 1

REV DESCRIPTION DWN CKD DATE

ADDED ITEMS 14-18 JMB 8/8/2012

ADDED ITEM 13 JMB 7/19/2012

GA: 17611-00

RUNOUT  POSITION  CONCENTRICITY  SYMMETRY 

UNLESS SPECIFIED

DEC (2) PLACE DEC. +/- .0100 +/- .2540 (3) PLACE DEC. +/- .0050 +/- .1270 (4) PLACE DEC. +/- .0010 +/- .0254 (5) PLACE DEC. +/- .0005 +/- .0127

ANGLES.............+/- .1

DO NOT SCALE DRAWING

PART NAMEPART NUMBER

, OR BY OTHERS FOR THE SPECIFIC REASON OUTLINE IN THE TRANSMITTAL WHETHER WRITTEN OR VERBAL.

TITLE

 CORPORATION. THE INFORMATION CONTAINED ON THIS DRAWING SHALL ONLY BE

DERRICK

CORPORATION

DESCRIPTION

 EQUIPMENT, OR BY VENDORS IN QUOTING ON OR IN



PARTS LIST HYPERPOOL 4-PANEL

SIZE

SCALE

1:15

DWG NO

17618-00

SHEET OF

REV

LO, WE, SH, MAN, PC

DERRICK

DERRICK HYPERPOOL SHAKER Maintenance & Operation Manual

Specifications and Main Features

Frequently Asked Questions

User Manual