MODEL G0669X HIGH-PRECISION 10" X 54" VS MILLING MACHINE OWNER'S ManuaL Copyright © JULY, 2008 By Grizzly Industrial, Inc. Warning: No portion of this manual may be reproduced in any shape Or form without the written approval of Grizzly Industrial, inc.
4HIS MANUAL PROVIDES CRITICAL SAFETY INSTRUCTIONS ON THE PROPER SETUP OPERATION MAINTENANCE AND SERVICE OF THIS MACHINE EQUIPMENT &AILURE TO READ UNDERSTAND AND FOLLOW THE INSTRUCTIONS GIVEN IN THIS MANUAL MAY RESULT IN SERIOUS PERSONAL INJURY INCLUDING AMPUTATION ELECTROCUTION OR DEATH 4HE OWNER OF THIS MACHINE EQUIPMENT IS SOLELY RESPONSIBLE FOR ITS SAFE USE 4HIS RESPONSIBILITY INCLUDES BUT IS NOT LIMITED TO PROPER INSTALLATION IN A SAFE ENVIRONMENT PERSONNEL TRAINING AND USAGE AUTHORIZATION PROPER INS
Table of Contents INTRODUCTION................................................ 2 Foreword......................................................... 2 Contact Info.................................................... 2 Functional Overview....................................... 2 Identification.................................................... 3 Machine Data Sheet....................................... 6 SECTION 1: SAFETY........................................ 9 Safety Instructions for Machinery.............
INTRODUCTION Foreword Functional Overview We are proud to offer the Model G0669X HighPrecision 10" x 54" Milling Machine. This machine is part of a growing Grizzly family of fine machinery. When used according to the guidelines set forth in this manual, you can expect years of trouble-free, enjoyable operation and proof of Grizzly’s commitment to customer satisfaction. The Model G0669X vertical mill is used to remove material from metal workpieces to form complex shapes.
Identification D E C B F G A H I U J K T L S R M N Q P O Figure 1. Left side identification. A. Turret B. Ram C. Lifting Eye Bolt D. Spindle Motor 5 HP 220V 3-Phase E. Drive System F. Emergency Spindle Brake G. Quill Speed Selector H. Quill I. Spindle J. Table K. Longitudinal (X-Axis) Ball Handle G0669X Precision 10" x 54" VS Milling Machine L. Vertical (Knee or Z-Axis) Crank M. Vertical Crank Safety Switch N. One-Shot Lubricator O. Vertical Power Feed Motor 1⁄10 HP 110V P.
B C A O D N F E M L H G I J K Figure 2. Front identification. A. Quill Auto-Downfeed Controls (see Page 31 for more detail) B. Quill Auto-Downfeed Selector C. Control Panel (see Page 24 for more detail) D. Longitudinal Power Feed Limit Switch E. Table Lock F. Longitudinal Ball Handle G. Longitudinal Power Feed -4- H. Longitudinal Power Feed Limit Stop I. Front Way Cover J. Splash Pan K. Vertical Crank L. Cross Feed (Y-Axis) Ball Handle M. Saddle N. Rear Way Cover O.
A M B L C J K D E I F G H Figure 3. Right side identification. A. Spindle Motor Wiring Junction Box B. Drive System Cooling Fan C. Ram Movement Controls D. Main Power Switch (on back of Electrical Cabinet) E. Electrical Cabinet F. Auxiliary 110V Outlets (on back of Electrical Cabinet) G0669X Precision 10" x 54" VS Milling Machine G. Power Cord H. Vertical Power Feed Limit Switch I. Longitudinal Power Feed J. Ram Forward/Backward Tilt Controls K. Coarse Downfeed Handle L.
Machine Data Sheet MACHINE DATA SHEET 8jhidbZg HZgk^XZ / *,% *)+".++( Id DgYZg 8Vaa/ -%% *'("),,, ;Vm / -%% )(-"*.
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Additional Safety Instructions For Mills 1. UNDERSTANDING CONTROLS. Make sure you understand the use and operation of all controls. 2. Safety accessories. Always use a chip guard in addition to your safety glasses or use a face shield when milling to reduce the risk of injury from flying chips. 3. WORK HOLDING. Before starting the machine, be certain the workpiece has been properly clamped to the table. NEVER hold the workpiece by hand during operation. 4. CHUCK KEY SAFETY.
SECTION 2: CIRCUIT REQUIREMENTS 220V Single-Phase Operation Serious personal injury could occur if you connect the machine to power before completing the setup process. DO NOT connect the machine to the power until instructed later in this manual. NOTICE The Model G0669X uses a 71 ⁄ 2 HP Yasakawa frequency drive to convert incoming singlephase power to 3-phase for greater spindle motor performance.
SECTION 3: SETUP Setup Safety This machine presents serious injury hazards to untrained users. Read through this entire manual to become familiar with the controls and operations before starting the machine! Wear safety glasses during the entire setup process! The Model G0669X is a heavy machine. Serious personal injury may occur if safe moving methods are not used. To be safe, get assistance and use power equipment to move the shipping crate and remove the machine from the crate.
Inventory A Note: If you can't find an item on this list, check the mounting location on the machine or examine the packaging materials carefully. Occasionally we pre-install certain components for shipping purposes. Inventory: (Figures 5–6) Qty A.. Drawbar 7⁄ 16"-20 x 231⁄ 2"............................... 1 B.. Vertical Crank.............................................. 1 C..Oil Bottle...................................................... 1 D.. Coarse Downfeed Handle........................... 1 E..
Clean Up The unpainted surfaces are coated with a waxy oil to prevent corrosion during shipment. Remove this protective coating with a solvent cleaner or degreaser shown in Figure 7. For thorough cleaning, some parts must be removed. For optimum performance from your machine, clean all moving parts or sliding contact surfaces. Avoid chlorine-based solvents, such as acetone or brake parts cleaner that may damage painted surfaces.
Moving & Placing Base Unit The Model G0669X is a heavy machine. Serious personal injury may occur if safe moving methods are not used. To be safe, get assistance and use power equipment to move the shipping crate and remove the machine from the crate. The two methods of lifting and moving described below require at least two assistants, and power lifting equipment with a safety hook and chain or lifting straps rated for at least 4000 lbs. Moving the Mill Using the Eye Bolt 1.
2. Position the lifting straps under the ram, as shown in Figure 10, with padding between the straps and the mill to protect the ram way. 3. Lift the mill slowly to make sure the hook and lifting straps are secure and the mill is lifting evenly. Lift the mill only enough to clear the shipping pallet and floor obstacles. — If the mill tips in one direction, lower the mill to the ground, then adjust the ram or table to balance the weight. Re-tighten all locks before lifting the mill again.
Assembly 4. Tools Needed................................................ Qty Snap Ring Pliers................................................. 1 Hex Wrench 4mm............................................... 1 Wrench 14mm.................................................... 1 Phillips Screwdriver............................................ 1 Standard Screwdriver......................................... 1 To assemble the mill: 1.
6. Slide the fine downfeed handwheel onto the shaft on the front of the head, as shown in Figure 15. 8. Attach each coolant return hose to the pipe elbow on the rear of the table, then secure the other end through the clamp on the base and over the drain screen, as shown in Figure 17. Fine Downfeed Handwheel Pipe Elbow Clamp & Drain Screen Figure 15. Fine downfeed handle installed. 7. Slip the coarse downfeed handle onto the shaft located on the right side of the head, as shown in Figure 16.
10. Use the cross feed ball handle to move the table back to the column until you can position the front way cover on the saddle ways, then secure the cover in place with the five screws shown in Figure 19. Test Run Once the assembly is complete, test run your machine to make sure it runs properly and is ready for regular operation. The test run consists of verifying the following: • The motor powers up and runs correctly. Screws • The emergency stop button safety feature works correctly.
To test run the machine: 7. Push the emergency stop button, then twist it clockwise so it pops out. When the emergency stop button pops out, the switch is reset and ready for operation (see Figure 22). 1. Make sure you understand the safety instructions at the beginning of the manual and that the machine is setup properly. 2. Make sure all tools and objects used during setup are cleared away from the machine. 3. Lubricate the mill, as explained in Lubrication on Page 38. Spindle Motor ON 4.
10. Verify that the machine is operating correctly. —When operating correctly, the machine runs smoothly with little or no vibration or rubbing noises. — Investigate and correct strange or unusual noises or vibrations before operating the machine further. Always stop the machine and disconnect it from power before investigating or correcting potential problems. 14.
16. Start spindle rotation. 17. Test the variable speed dial by turning the speed all the way up for a few seconds, then turning it all the way down. 18. Point the coolant nozzle onto the table, turn the coolant pump switch to "l" or ON, then check for proper operation of the coolant system. 19. Use the vertical power feed buttons on the control panel to raise and lower the knee to make sure the vertical limit stops (right side of knee) are working properly. 20.
SECTION 4: OPERATIONS Operation Safety Control Panel Refer to Figure 24 and the descriptions below to understand all the functions of control panel. To reduce the risk of serious injury when using this machine, read and understand this entire manual before beginning any operations. Damage to your eyes and lungs could result from using this machine without proper protective gear. Always wear safety glasses and a respirator when operating this machine.
E. F. Spindle Speed Readout: Displays the spindle speed in RPM's—the top numbers are for the high speed range, and the bottom numbers are for the low speed range. Coolant Pump Switch: Turns the coolant pump ON/OFF. G. Vertical Power Feed Down Button: Lowers the knee. H. Vertical Power Feed Up Button: Raises the knee. Note: When the vertical power feed buttons are released, knee motion will stop. I. Emergency Stop Button: Disconnects power to all motors and the control panel.
Longitudinal Power Feed System Your mill is equipped with a longitudinal power feed and limit switch for controlled X-axis table movement. Refer to Figure 27 and the descriptions below to understand the functions of these devices. Stay away from the spinning longitudinal ball handles when using the power feed to avoid entanglement and personal injury. Tools Needed Qty Wrench 12mm.................................................... 1 I To operate the longitudinal power feed: 1.
4. Rotate the speed dial all the way to the left, then use the direction lever to select the direction of table travel. 5. Flip the ON/OFF switch up to turn the power feed ON. 6. Adjust the speed dial to move the table at the correct speed for your operation. Tools Needed Qty Wrench 19mm.................................................... 2 Tilting the Head 1. DISCONNECT THE MILL FROM POWER! 2. Note: Power feed rates are difficult to precisely adjust.
Ram Movement Rotating the Head 1. DISCONNECT THE MILL FROM POWER! 2. Loosen the four rotation locking bolts shown in Figure 32. The ram moves back and forth horizontally, and rotates 360° around the column. Tools Needed Qty Wrench 19mm.................................................... 1 Moving the Ram Forward/Backward 1. DISCONNECT THE MILL FROM POWER! Locking Bolts Rotation Bolt 2. Loosen the two horizontal lock bolts shown in Figure 33. Drive Bolt Figure 32. Head rotation bolts. 3.
Rotating the Ram 1. DISCONNECT THE MILL FROM POWER! 2. Loosen the four rotation locking bolts on top of the column shown in Figure 34. Locking Bolts Setting Spindle RPM To select the correct spindle RPM for your milling operation, you will need to: 1) Determine the RPM needed for your workpiece, 2) select the correct spindle speed range, and 3) configure the spindle speed controls for the calculated RPM. Calculating RPM 1. Locking Bolts Figure 34. Ram rotation locking bolts. 3.
2. Measure the diameter of your cutting tool in inches. 3. Use the following formula to calculate the required RPM for your operation: 3. Press the selector handle in toward the head to retract the locking pin and move it. Make sure the locking pin is seated in the indent for the position you have chosen (see Figure 37). Selecting Spindle Speed Range 1. Make sure the spindle motor is turned OFF, and the spindle is stopped. 2.
Downfeed Controls 3. Align the pin in the handle hub with one of the holes in the handle base, then firmly seat the handle into the base (see Figure 39). The quill downfeed movement is controlled by three mechanisms: 1) The coarse downfeed handle, 2) the fine downfeed handwheel, and 3) the quill auto-downfeed system. Note: If necessary, use the set screw on the hub of the handle to adjust the detent ball tension pressure so that the handle can be installed and removed easily.
Fine & Auto-Downfeed Components There are a number of devices that are used for fine downfeed and quill auto-downfeed control. Use Figure 40 and the descriptions below to understand the functions of these devices. A B Fine Downfeed Handwheel: Moves the quill approximately 1⁄30 of the distance that the coarse downfeed handles moves it. J. Auto-Downfeed Direction Pin: Starts (in or out), stops (middle), or reverses direction of the quill when in auto-downfeed mode. Quill Auto-Downfeed C 1.
8. Push or pull the auto-downfeed direction pin to select the desired direction of quill movement. NOTICE When the spindle speed range is changed, the rotation direction of the spindle will reverse and so will the direction of the quill when in auto-downfeed mode. 9. Emergency Spindle Brake Pull the emergency spindle brake handle down to turn the spindle motor OFF and stop spindle rotation (see Figure 41).
Loading/Unloading Tooling 5. Holding the tool in place, insert the drawbar into the top of the head, as shown in Figure 43, then thread it into the tool. Your mill is equipped with a 7⁄ 16"-20 x 231⁄ 2" drawbar that includes one spacer for tool attachment flexibility (see Figure 42). Spacer Figure 43. Drawbar inserted into the head. 6. Only tighten the drawbar into the tool until it is snug. Note: Over-tightening the drawbar could make removing the tool difficult. Figure 42. Drawbar and spacer.
ACCESSORIES SECTION 5: ACCESSORIES H6089—2 Axis Digital Read Out (12" x 30") H6093—3 Axis Digital Read Out (12" x 30" x 5") H7850—3 Axis Digital Read Out (12" x 30" x 163 ⁄4") You will be amazed the list of features for these DROs that include: selectable resolution down to 5µm, absolute/incremental coordinate display, arc function, line of holes function, angled cuts function, 199 user defined datum points, centering/ cutter offset, double sealed scales, inches/millimeters, calculator with trig f
T10063—Milling Vise 125 ⁄ 16" x 69 ⁄ 16" T10064—Milling Vise 171 ⁄ 8" x 83 ⁄4" • Ultra precise in flatness, parallelism and verticality. • Anti-lift mechanism ensures the workpiece does not lift when jaws are tightened. • Ductile iron body. • Flame hardened vise bed and jaws. • Sealed bearing system. • 8200 lbs. of clamping pressure. Figure 48. T10064 Milling vise (handle included, but not shown.
SECTION 6: MAINTENANCE Always disconnect power to the machine before performing maintenance. Failure to do this may result in serious personal injury. Schedule For optimum performance from your machine, follow this maintenance schedule and refer to any specific instructions given in this section. Before Daily Operation: • Check/tighten loose mounting bolts. • Check/replace damaged tooling. • Check/repair/replace worn or damaged wires. • Use one-shot oiler (Page 38).
Lubrication Quill Gearing Your mill has numerous moving metal-to-metal contacts that require proper lubrication to help ensure efficient and long-lasting mill operation. Other than lubrication points covered in this section, all other bearings are internally lubricated and sealed at the factory. Simply leave them alone unless they need to be replaced.
Ram Way Vertical Leadscrew Bevel Gears Lubricant Frequency Qty Lubricant Frequency Qty ISO 68 SAE 20W Bearing and Gear Lubricant Every 40 Hours of Operation Thin Coat Multi-Purpose Gear Grease Every 40 Hours of Operation Thin Coat Move the ram forward and backward as necessary to access the entire length of the ram way (see Figure 55). Use mineral spirits and shop rag to wipe the old lubricant and debris from the way surfaces, then brush on a thin coat of lubricant.
Coolant Reservoir Coolant is a potent and extremely poisonous solution to humans and animals. Use personal protective equipment when handling coolant to prevent infections or poisoning. A small amount of coolant is lost during normal operation. Check the coolant reservoir regularly and fill it if necessary. Checking/Adding Coolant Tools Needed Qty Phillips Screwdriver............................................ 1 To check/add coolant: The coolant reservoir on this mill is designed to store only coolant.
Changing Coolant The Model G0669X coolant reservoir holds approximately 7 gallons (26 liters) of fluid. We recommend changing this fluid every three months or sooner if it develops an unpleasant odor. Tools Needed Qty Phillips Screwdriver............................................ 1 Hex Wrench 5mm............................................... 1 Catch Pan........................................................... 1 To change the coolant: 1. DISCONNECT THE MILL FROM POWER! 2.
Drive Belt Tensioning 3. Power is transferred from the motor to the spindle with a heavy-duty drive belt. With normal use, this belt will gradually stretch over time. When it does, perform the following procedures to re-tension it. Check the belt tension. When moderate pressure is applied to the belt between the pulleys (see Figure 60), there should be approximately 1⁄2" of belt deflection. EjaaZn 9Z[aZXi^dc Tools Needed Qty Phillips Screwdriver............................................
SECTION 7: SERVICE Review the troubleshooting and procedures in this section to fix or adjust your machine if a problem develops. If you need replacement parts or you are unsure of your repair skills, then feel free to call our Technical Support at (570) 546-9663. Troubleshooting Motor & Electrical Symptom Possible Cause Possible Solution Machine does not 1. Emergency stop push-button is engaged or start or a breaker is at fault. trips. 2.
Motor & Electrical (continued) Symptom Possible Cause Machine stalls or is 11. Contactor not getting energized or has poor overloaded. contacts. 12. Motor has overheated. 13. Spindle rotation switch at fault. 14. Motor is at fault. 15. Frequency drive at fault. Possible Solution 11. Test for power on all legs and contactor operation. Replace if at fault. 12. Let cool, Clean off motor, and reduce workload. 13. Turn switch to FWD/REV; replace bad switch. 14. Test/repair/replace. 15. Test/replace. 1.
Operation Symptom Possible Cause Possible Solution Tool slips in collet. 1. Collet is not fully drawn into spindle taper. 2. Wrong size collet. 3. Debris on collet or spindle mating surface. 4. Excessive depth of cut. 1. Snug up drawbar. 2. Use correct collet for shank diameter. 3. Remove oil and debris from collet and spindle mating surfaces, then re-install. 4. Decrease depth of cut and allow chips to clear. 1. Spindle speed/feed rate too fast. 2. Tooling getting too hot. 3. Excessive depth of cut.
Adjusting Gibs Gibs control the accuracy of table and ram movements along the ways. Tight gibs make the movements more accurate, but harder to move. Loose gibs make the movements sloppy, but easier to move. The goal of gib adjustment is to remove unnecessary sloppiness without causing the ways to bind. NOTICE Excessively loose gibs may cause poor workpiece finishes, and may cause undue wear of sliding surfaces and ways. Overtightening the gibs may cause premature wear of these sliding devices.
Adjusting Backlash Leadscrew backlash is the amount of motion the leadscrew rotates before the device begins to move. Leadscrews always have a certain amount of backlash that will increase with wear. Generally, 0.005"–0.010" of backlash is acceptable. Tools Needed Qty T-Handle Hex Wrench 5mm............................... 1 Hex Wrench 8mm............................................... 1 Wrench or Socket 19mm.................................... 1 5.
7. Use the T-handle 5mm hex wrench to loosen the two cap screws shown in Figure 67. The longitudinal leadscrew backlash is adjusted in the same manner as the cross feed. Refer to Figure 68 for the location of the longitudinal backlash adjustment plate and cap screws. Adjustment Plate Cap Screws Figure 67. Cross feed leadscrew backlash adjustment plate and cap screws. 8. Rotate the adjustment plate in small increments, then test the backlash. Adjustment Plate and Cap Screws Figure 68.
electrical safety SECTION 8: ELECTRICAL These pages are current at the time of printing. However, in the spirit of improvement, we may make changes to the electrical systems of future machines. Study this diagram carefully. If you notice differences between your machine and these wiring diagrams, call Technical Support at (570) 546-9663 for assistance. Electrical Safety Instructions 1. SHOCK HAZARD. Disconnect the power from the machine before servicing electrical components.
Electrical Panel To Control Panel Resistor Main Power Switch Frequency Drive Cooling Fan Transformer To Spindle Motor Relay Contactors Fuses Motor Overload Relay 110V Outlets To Knee Wiring Junction Box Terminal Blocks Power Cord Figure 69. Electrical panel wiring.
electrical panel upper ' 9ddg HV[Zin Hl^iX] & Electrical Panel Wiring Diagram (Upper) A) G& 8dda^c\ ;Vc A& BVhiZg EdlZg ' + * Hl^iX] G) A) A+ A( A( G) G& H A) A+ A( A& A+ A& G) ' ' () () () H To Control Panel (Page 54) 8' Li ', Li '' 8& ;8 G¶ ¶ L$I( L KI' K J$I& J 68 6B H¶ G ¶ &. &.
electrical panel lower Electrical Panel Wiring Diagram (Lower) A) A( %K &) %K %K : : &) &) A& ' () To Control Panel (Page 54) 8& 8' 8( ¶ A( H &. '& A+ ('6 ;jhZ A) ('6 ;jhZ G ')K G( &&%K H G G *6 ;jhZ (6 ;jhZ '6 ;jhZ G& & G) *6 ;jhZ &( '% ', ', &. % H G : % - - , G& *$A( CD&) +&C8 +'C8 &( ($A' *(CD *)CD 6& + &$A& % H 8dciVXidg CD&( 6' *$A( H ($A' 6& .
Control Panel Spindle Speed Dial Spindle Motor OFF Button Spindle Motor ON Button Spindle Speed Readout Spindle Direction Switch Coolant Pump Switch Emergency Stop Button Vertical Power Feed Up Button Vertical Power Feed Down Button Figure 70. Control panel wiring.
control panel wiring Control Panel Wiring Diagram He^cYaZ Bdidg D;; 7jiidc % , ' & He^cYaZ HeZZY 9^Va ( He^cYaZ Bdidg DC 7jiidc , + + , - He^cYaZ HeZZY GZVYdji - '% 8( 8' 8& + – '% ¶ He^cYaZ 9^gZXi^dc Hl^iX] '& '' To Electrical Panel (Page 51) 8( 8& , - '& . (% * 8ddaVci Ejbe Hl^iX] ¶ 8( + + + % '% .
motor wiring Spindle & Vertical Power Feed Motors Spindle Motor Li GY 7` GY M& J' N& K' O& L' : G' J& H K& L& ' ( Figure 71. Spindle motor wiring junction box. ' Li ( 7` To Electrical Panel (Page 51) To Drive System Cooling Fan (Page 57) To Emergency Spindle Brake (Page 57) To Knee Wiring Junction Box (Page 56) & J( L( K( ( ' HiVgi 8VeVX^idg )*%K '%B;9 Vertical Power Feed Motor GY : GY Figure 72. Vertical power feed motor wiring junction box.
electrical components 1 wiring Electrical Components Knee Wiring Junction Box To Vertical Power Feed Motor (Page 55) To Vertical Crank Safety Switch (this page) J( K( L( : + (% (& (' () (* &' && - &% , . + * ) ( ' & J( K( L( : + (% (& (' () (* To Vertical Limit Switches (this page) Figure 73. Knee wiring junction box. Vertical Crank Safety Switch (% + Figure 74. Vertical crank safety switch.
electrical components 2 wiring Electrical Components Coolant Pump GY Na Na GY L) H# 8VeVX^idg (B )*%K J) To Electrical Panel (Page 52) : Figure 76. Coolant pump wiring. Drive System Cooling Fan To Spindle Motor Wiring Junction Box (Page 55) Li 7` Figure 77. Drive system cooling fan wiring. Emergency Spindle Brake Safety Switch ( ' To Spindle Motor Wiring Junction Box (Page 55) N\
SECTION 9: PARTS Base Machine Breakdown &*) &% &*& &). &)- &*' &*( '( &)) )& &)* &)( (+ (- )( *% (+ ). )& *% *& +' +& (+ *' *) )& &(( *& ., &(* (- &-& &%% &* &+ &( &. &, &. *& ,- &&* .% &&& &'- &%- ,( &,% &,* &+. &+&,. &+% .&%* &%) ,. &&% &-) &*, &** &*+ ,& ,* ,' &-* &'. &+- &%' &(% &+, &,+ &%. &&&+& &*. -' &,' &,& &,) ,) &'% &'+ &%( -& -, &,( &+' -% -. &-( &(' )- &(* .& -* &,, &,- &'( &+( )& ,+ +) ,, .
Base Machine Parts List REF PART # DESCRIPTION REF PART # DESCRIPTION 1 2 3 4 6 7 8 9 10 11 12 13 14 15 16 17 18 19 23 31 32 34 36 38 39 40 41 42 43 46 48 49 50 51 52 54 58 60 61 62 63 64 71 72 73 74 75 76 77 78 WORM WASHER RAM ADAPTER ADAPTER SCALE LOCK BOLT HEX NUT WORM COLLAR WORM SHAFT KEY 5 X 5 X 50 RAM LIFTING EYE BOLT 3/4-10 SPACER CAP SCREW M8-1.
Base Machine Parts List REF PART # DESCRIPTION REF PART # DESCRIPTION 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 BEVEL GEAR 18T SPACER SPANNER NUT SPANNER LOCK WASHER BALL BEARING 6204ZZ BEARING BRACKET CAP SCREW M8-1.25 X 20 BALL BEARING 6206ZZ KEY 4 X 4 X 20 DRIVE SHAFT KEY 5 X 5 X 20 ELEV. MOTOR 1/2HP 220V 1-PH CAP SCREW M8-1.
Drive System Breakdown '-' ')' '-& ')& '-, ')% '(. '(- ',- '-* '-) '(+ '(* '(, '-+ '-'"& '-% '.' ',. '-'"' '-( '.& '() '(( '+( '-'"( '-. ',+ '(' ',* '+) '(% '', ''. ''- ''% ',' '-- '&( '&- ',( '.% ',& '+* '&, '&+ '&* '&) '*, '*+ '&( ''' ',% '+& '*( '*& '*' '+' '*) ''* '') ',, '++ '&. '', ''+ ',) '+, '(& ''& '** '+. '+% '*. '*- '+- ')- ''( '*% '). '), ')) ')+ '%( ')* '%) '%* '%' ')( '%+ '%& '&' '%, '%, '&& '&% '%.
Drive System Parts List REF PART # DESCRIPTION REF PART # DESCRIPTION 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 LOWER PULLEY HOUSING CAP SCREW M6-1 X 20 GEAR SHAFT PINION DETENT PLATE DETENT PLUNGER COMPRESSION SPRING CAP SCREW M5-.8 X 14 PINION BLOCK PINION CRANK KNOB ROLL PIN 3 X 20 CAP SCREW M5-.
Head Breakdown (%+ (&% (%( (%) (&' (%& (', ('- (() (%* (%- (&( ('' (') (&, ('. (&) ((& ()' ()( ()) (), (%+ ()- ('& (&- )-, )), (*, (*. )-( (** (+' (+& (-* (+( (-('' (+) (-+ (.% (++ (.((.' (') (-& ('% (,. ('& (%+ (%+ (.) ('( (,+ ).' (,) (-% (., )'(.(,('* (,* (,( )&)&+ )(& )&* )&) )'% (.+ )*% (.. ((. )'& )%+ )&, )%& )%% )&% )%( )&& )%, )&( (%+ )&' )'+ ))( )%) (') ),) )-* ),+ )-) ),- ).) ))' ),( )+. ),, )+( )+' )+& )+) )*. )(, )+% ))* )(+ ))+ )(* )() )(. )(( ).* )'.
Head Parts List REF PART # DESCRIPTION REF PART # DESCRIPTION 301 302 303 304 305 306 308 310 312 313 314 315 316 317 318 319 320 321 322 323 324 325 327 328 329 331 332 333 334 336 337 339 340 341 342 343 344 347 348 349 350 355 356 357 359 361 362 363 364 366 CAP SCREW M6-1 X 12 FLAT WASHER 6MM FEED BEVEL PINION GEAR SHAFT SLEEVE LOCK COLLAR SET SCREW M6-1 X 6 FEED GEAR 20T KEY 3 X 3 X 12 CAP SCREW M8-1.
Head Parts List REF PART # DESCRIPTION REF PART # DESCRIPTION 437 438 439 440 441 442 443 445 446 447 448 449 450 453 454 455 456 457 458 459 460 461 462 463 464 BUSHING ANGULAR BEARING 7207C SET SCREW M5-.8 X 5 BUSHING SET SCREW M6-1 X 6 QUILL ROLL PIN 3 X 16 TRIP LEVER TRIP LEVER PIN INDICATOR ROD QUILL INNER LOCK PLUNGER LOCK HANDLE PHLP HD SCR M5-.8 X 8 QUILL OUTER LOCK PLUNGER INDICATOR ROD SCREW LOCK BOLT LOCK BOLT SLEEVE LOCK BOLT HEX NUT PHLP HD SCR M4-.
Longitudinal & Cross Slide Leadscrews Breakdown & Parts List *%& *'( *%) *%* *%+ *%' *%( *&' *&& *%, *&( *%- *&) *%. *&% *'% *&' *%, *%( *'' *'. *&& *%- *'( *(% *&' *&- *') *%.
One-Shot Oiler Breakdown & Parts List +%' +%, +%+%. +&% +%& +&) +&( +%( +&' +%* +%+ +%) +&& REF PART # DESCRIPTION REF PART # DESCRIPTION 601 602 603 604 605 606 607 ONE SHOT OILER ASSEMBLY ALUMINUM PIECE 13.5MM OIL REGULATION DISTRIBUTOR OIL REGULATION DISTRIBUTOR FLEXIBLE STEEL TUBE 4 X 550MM ELBOW JOINT ELBOW JOINT 608 609 610 611 612 613 614 THIMBLE NUT THIMBLE UNION PHLP HD SCR M6-1 X 14 CAP SCREW M5-.
Electrical Cabinet Breakdown & Parts List -%& -%' -&+ -%( -&* -%) -%* -%*"& -&) -%+ -%+"& -&( -%, -&' -%-%. -%."& -%."' -%.
Accessories Breakdown & Parts List .%& .%' .%( .%.%) .&% .%. .%+ .%, .%* REF PART # DESCRIPTION REF PART # DESCRIPTION 901 902 903 904 905 COOLANT HOSE W/CLAMP TOOL BOX SCREWDRIVER PHILLIPS #2 SCREWDRIVER FLAT #2 HEX WRENCH SET 1.
Label Placement .*' .*( .*) .*& .*+ .** .*, .+* .*- .+) .** .*. .+( .+& .+% .+' .
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