SINGER 99W Adjust – Looper

To Replace and Time Non-Threaded Looper

¶ When replacing loopers, first remove work clamp plates and throat plate (12, Fig. 4), then place wrench on pattern wheel clamping nut (S5, Fig. 9) and turn until stop lever operating plate (Z5, Fig. 9) rides on the pattern wheel ring (R5, Fig. 9), allowing the machine to be turned by hand. ¶Place non-threaded looper (V8, Fig. 14) on seat of looper rocker (U8, Fig. 14) and turn machine until the needle bar, after descending to its lowest point, has risen so that the lower timing mark on needle bar is even with top of top needle bar bushing, and the point of the non-threaded looper has advanced to center of the needle. ¶ At this position, the point of the non-threaded looper should be adjusted to centre of needle, as shown at T8 in Fig. 14, and ad- justed sidewise so that it just clears the needle.

Fig. 14. Showing Correct Timing of Non-Threaded Looper
Fig. 15. Showing Correct Timing of Threaded Looper

To Adjust the Needle Guard

The needle guard (K5, Fig. 15) should be set as close as possible to the needle without deflecting it. To set the needle guard in the correct position, loosen its two screws and move the needle guard forward or backward, as required, then securely tighten the two screws.

To Replace and Time Threaded Looper

¶ Turn hand wheel over until looper (Y8, Fig. 15) can be in- serted on looper rocker seat (X8, Fig. 15), then turn machine until the needle bar, after descending to its lowest point has risen so that the lower timing mark on needle bar is even with top of top needle bar bushing and the point of the threaded looper has advanced to the centre of the needle. ¶ At this position, the looper point should be adjusted to centre of needle, as shown at W8 in Fig. 15, and adjusted sidewise so that it just clears the needle.

To Replace and Adjust Right Hand Loop Retainer

¶ It is first advisable to adjust the right hand loop retainer (Z8, Figs. 15 and 17). ¶ The right hand loop retainer should be set in height so that it just clears the threaded and non-threaded loopers, or so that there is sufficient space between the top side of the looper and underside of the loop retainer for the thread being used to pass through. ¶ The loop retainer should also be adjusted sidewise so that, as the needle descends, the loop retainer just clears the needle on the side as the loop retainer is retreating as shown in Fig. 17, which shows a side and top view of the loop retainer correctly adjusted. ¶ The right hand loop retainer should be adjusted forward or back so that the needle in descending will penetrate the loop held suspended on its horn in such a position that the right hand loop retainer point does not project over the further edge of the non-threaded looper thus to prevent the point striking or dragging against the further side of the loop held upon the non-threaded looper, as shown in Fig. 18. ¶ The loop retainers (28 and A9, Fig. 18) should be set so that when they are forward in loop holding position, they will hold the loop in such a way that when the needle descends it will enter centrally in the loop.

Fig. 16. Showing Correct Relative Positions of Left Hand Loop Retainer and Needle
Fig. 17. Showing Correct Relative Positions of Right Hand Loop Retainer and Needle

To Replace and Adjust Left Hand Loop Retainer

¶ To replace and adjust left hand loop retainer (A9, Fig. 18), first obtain about the proper amount of bight required by the needle as instructed. ¶ This loop retainer should be set in height so that there is just sufficient space between the top side of the threaded looper and the underside of the loop retainer for the thread to pass through. It should also be adjusted side- wise so that, as the needle descends, it just clears it on the side, as shown in Fig. 16, which shows a side and top view of the left hand loop retainer correctly adjusted. ¶ The left hand loop retainer should be adjusted forward or back so that the needle in descend- ing will penetrate the loop held suspended on its horn and in such a position that the point of the left hand loop retainer will clear the thread held between the work and the eye in the extreme end of the threaded looper as the threaded looper and left hand loop retainer pass each other. ¶ It may be necessary, in order to obtain correct setting for either the left or right loop retainer, to use shims which are made in different thicknesses, viz., 250074, .005″ thick, 250449, .010″ thick, 250450, .020″ thick and 250537, .030″ thick.

Fig. 18. Showing Correct Relative Positions of Loop Retainer and Non-Threaded Looper

To Replace and Adjust the Throat Plate

¶ When replacing the throat plate (12, Fig. 4), see that its underside just clears the loop retainers and the top set about .025″ below the top of the clamp plates. ¶ The throat plate should be adjusted sidewise so that the needle just clears the cord or range of opening in the throat plate but not so as to allow the loop retainer to rub against the rib of the throat plate.

To Remove and Replace the Looper Frame

¶ Press in the buttons (S3 and U3, Fig. 6) and at the same time draw the bed end cover (T3, Fig. 6) toward you to remove it from the machine, then turn the looper thread tension releaser (X, Fig. 3) up to clear the right hand edge of the looper frame (W, Fig. 3). ¶ See that the sewing mechanism is in stopping position with the interlocking slide (J7, Fig. 10) locked in the notch of the stop cam (H7, Fig. 10). ¶ Follow the instructions under the head “Caution”, page 60 and ratchet the machine about half way up the first side of the buttonhole, remove the link screw (L2, Fig. 3) and the three looper frame screws, replace link screw (L2) temporarily, to retain the setting of the loopers, and care- fully withdraw the looper frame (W) from the machine.
To replace the looper frame (W) make sure that the machine is in the same position as referred to in the preceding paragraph with the needle bar gauge plate (R7, Fig. 12) turned towards the rear of the machine. ¶ Turn the stitch forming mechanism in the looper frame (W) so that the post for the throat plate (12, Fig. 4) is to the front, set the looper driving crank (D2, Fig. 3) with the “hole (E2, Fig. 3) in the flange of crank to the left and slightly below the horizontal position. ¶ Carefully guide the rear edge of the chip guard (Q. Fig. 3) between the underside of the lower cutting lever and the top face of the feed wheel, and as the looper frame (W) is gently pushed to the rear, guide it so that its position pins enter the two pin holes and so the fork end of the loop retainer slide (B2, Fig. 3) enters the space between the two adjusting nuts (A2 and C2, Fig. 3) which are locked in posi- tion on the loop retainer driving bar (8, Fig. 3). ¶ At the same time slightly turn the looper driving crank (D2, Fig. 3) back and forth until the driving rollers on the forward end of the bed shaft enter the intermittent wheel which is attached to the rear side of the looper frame (W) and at the same time gently rotate the looper frame back and forth a slight amount so that the rotating gear on looper bracket will go into proper mesh with the lower stitch rotating sector and bring the looper mechanism in align- ment with the needle bar. Push the looper frame snug against its seat on the machine, then again remove the link screw (L2, Fig. 3) and replace the three clamping screws and the link screw (L2). (Always make sure the looper frame (W) is snug and square against its seat before tightening the three screws.) ¶ Then ratchet the machine to starting position as instructed on page 60.

Alignment of the Needle and Looper Frame

The looper frame (W, Fig. 3) and the needle are aligned be- fore the machine is shipped so that the looper mechanism and the needle, at all points of rotation, are in perfect alignment; that is, the looper frame seat on the frame itself and the machine bed are filed and scraped to adjust the looper mechanism just the right amount in the direction of longitudinal travel and revolved on its seat to adjust it at right angles to the travel of the machine, so that when the machine is in the position where the needle is alongside of either of the loopers or the loop retainers, there will be no change in their relative position during this rotation. ¶ When the looper frame is so located, it is doweled in this position and with ordinary care in the handling of the machine, this posi- tion should be maintained. ¶ For this reason the looper frame should always be replaced upon its own machine according to the identification number. If a new looper frame should be fitted to the bed of the machine, it will be necessary that the looper frame be fitted very carefully and in a like manner. ¶ Should the bed shaft, the loop retainer cam or the looper driving crank be replaced, retiming of the looper mechanism will be necessary; but before this can be correctly done a check should be made as to the alignment of the needle and the looper frame, during the rotation of the looper mechanism and needle bar. ¶ The straightness of the needle bar should be ascertained and corrected if necessary. Remove the upper rear hinge screw for the stitch rotating connection so that the needle mechanism can be manually rotated. ¶ Then select a new needle and inspect the trueness of its point by rolling it on its shank on a flat surface. ¶ Remove the needle holder and clean off any burrs or dirt which would tip the needle holder on its seat, then replace the needle. holder in position, as shown at N9, Fig. 12 (see description “To Align the Needle”) and insert the inspected needle. ¶ Now firmly hold a piece of paper under the point of the needle and make a slight impression with the needle point, then revolve the needle bar and note whether the point revolves without describing a circle. ¶ Should the needle point describe a circle, it will indicate that either the needle is still bent or that the seat of the needle holder is throwing the needle point. ¶ This incorrect condition should be thoroughly corrected as the needle point will be the foundation upon which the looper mechanism will be aligned and timed. After correcting the alignment of the needle point, assemble the upper rotating sector so that when the machine is on the last side of the buttonhole, the needle bar gauge plate (R7, Fig. 12) is exactly positioned squarely to the front and the screw hole on the rear end of the upper stitch rotating con- nection is directly over the hole on the end of the upper stitch rotating lever, then assemble the hinge screw. ¶ Note that the identification number on the looper bracket frame (W, Fig. 3) agrees with the number on the front edge of the machine bed, then turn the hand wheel (D, Fig. 2) until the needle moves down alongside of the threaded looper and adjust so that it just touches the blade of the needle. ¶ Ratchet the machine to the eye end of the buttonhole and note the relation between the needle and side of the threaded looper as they both revolve. ¶ The rela- tive position of each should be maintained during the rotation but should they crowd together or gap open, it will indicate that the looper bracket frame is not correctly seated upon the machine. ¶ This condition should be corrected by removing all burrs and dirt from the seats and the dowel pin holes of the looper bracket frame and the machine bed until no further crawl is noted be- tween the threaded looper and the needle. ¶ As the machine is on either the first or last side of the buttonhole a greater per- centage of time, the looper frame position is vital to the loopers longitudinally and to the loop retainers laterally.

INDEX

SINGER 99W – Adjusters And Machinists

INSTRUCTIONS FOR ADJUSTERS AND MACHINISTS

Needle Vibrating Mechanism

¶ The needle vibrating mechanism is actuated by means of a cam on the upright shaft. When this shaft starts to rotate, the cam moves the connecting rod (F, Fig. 2) back and forth, causing it to rock the bell crank (J, Fig. 2) which in turn moves the link (K, Fig. 2) up and down, carrying with it the reciprocating rod (M, Fig. 2) which has the vibrating ring (H, Figs. 2 and 12) attached to its lower end. ¶ As the vibrating ring moves up and down, it swings the needle vibrating switch (W7, Fig. 13) side- ways, causing the roller (V7, Fig. 13) to be switched from one groove to the other in the gauge plate (R7, Fig. 13). The roller (V7) is mounted upon the needle bight adjusting lever (T7, Fig. 13) which in turn is mounted on the bridge of the needle bar so that when the roller is switched in the grooves of the gauge plate (R7), the needle is vibrated from side to side.

Fig. 12.Needle Vibrating Mechanism

To Align the Needle

¶ To ascertain the alignment of the needle, loosen the needle holder clamping screws (P7, Fig. 12) and slide the needle holder so that the left hand edge is flush with the corresponding edge of the needle holder slide, as shown at N9 in Fig. 12, and tighten the screws. ¶ Now clamp a piece of light card under the clamp checks, raise the work clamp carrier side throw lever lock pin (B6, Fig. 9) up and out of the pattern wheel (U5, Fig. 9) and then with wrench on pattern wheel clamping nut (S5, Fig. 9), turn the machine up the first side of buttonhole, at the same time making a row of light punctures in the card with the needle on the slit or central vibration. ¶ Continue up and around the eye. ¶ The needle point, while coming down the last side of the button- hole, should exactly enter the card in the first line of punctures. If the two lines do not coincide, it will be necessary to adjust the gauge plate (R7, Fig. 13) to the right or left as may be required. ¶ While the machine is still on the last side of the buttonhole with the gauge plate (R7) towards you, move the needle vibrat- ing ring (H, Fig. 12) to its lowest point, then loosen the two screws (S7 and B8, Fig. 13) and turn the adjusting screw (07, Fig. 12) to bring the two lines of needle punctures in line with each other, then tighten the two screws (S7 and B8). ¶ Turn the machine by hand and note the movement of the roller (V7, Fig. 13) as it passes from the slot of the gauge plate (R7) into the needle vibrating switch (W7, Fig. 13) and then from the switch (W7) back into the second slot of the gauge plate (R7). ¶ Should the roller drag upon the side wall of the gauge plate or switch, it will be necessary to change the length of the rod (F, Fig. 2). ¶ After making adjustments of the rod (F), the lock nuts (E and G, Fig. 2) should be tightened. ¶ After making the above adjustments, turn the machine with the wrench on the pattern wheel clamping nut (S5, Fig. 9) to the starting position as referred to under “Caution” on page 60.

fig. 2

To Regulate the Cutting Space

¶ Having followed the instruction for aligning the needle, again clamp a piece of light card under the clamp checks, raise the work clamp carrier side throw lever lock pin(B6, Fig. 9) up and out of the pattern wheel (U5, Fig. 9) and then with wrench on pattern wheel clamping nut (S5, Fig. 9), turn the machine up the first side of the buttonhole, at the same time making a row of light punctures in the card with the needle on the slit or central vibration. ¶ While on the first side of the buttonhole, loosen the needle holder clamping screws (P7, Fig. 12) and slightly adjust the needle holder to the left. ¶ The needle, while coming down the last side of the buttonhole, should enter the card about .006 inch to the right of the first line of punctures. ¶ This distance may have to be changed according to the thickness and textures of the material being sewn, as the heavier grades of materials require more cutting space than the lighter fabrics and, therefore, a greater distance between the two parallel lines of needle punctures may be required.

Fig. 13. Needle Vibrating Mechanism Showing Adjustments for Regulating Width of Bight and Cutting Space

To Regulate the Width of Bight.

¶ The width of bight or stitch is regulated by the screw (U7, Fig. 13). To increase the width of bight or stitch, loosen the screw (U7) and move it upwardly. To decrease the width of bight, loosen the screw (U7) and move it downwardly. ¶ When changing the width of bight or lateral throw of the needle, it will be necessary to adjust the loop retainer (A9, Fig. 15) and the non-threaded looper (V8, Fig. 14), as instructed on pages TO REPLACE AND TIME NON-THREADED LOOPER and LOOP RETAINERS.

Fig. 14 15

INDEX

SINGER 99W – To change the setting

To Remove the Work Clamp Plates

¶ When it is desired to remove the work clamp plates (O3 and W3, Fig. 6) from the machine, for the purpose of making adjustments, this can be done as follows: ¶ Unhook the two springs (K3 and Z3, Fig. 6) on the work clamp plates, then swing each plate outward at right angle to the machine and lift the plates from the machine.

fig. 6

To Regulate the Tensions

¶ The tension on the needle thread is regulated by the thumb nut (B, Fig. 2) at the right of the tension discs at the top of the machine. ¶ To increase the tension, turn this thumb nut over from you. To decrease the tension, turn this thumb nut over toward you. ¶ The tension on the needle thread should be sufficiently heavy to set the purl of the buttonhole on the underside of the work. ¶ The tension on the looper thread is regulated by the thumb nut (Y, Fig. 3) at the front of the tension discs inside the front of the bed of the machine. ¶ To increase the tension, turn this thumb nut over to the right. ¶ To decrease the tension, turn this thumb nut over to the left. ¶ The tension on the looper thread should be sufficient to balance the tension of the needle thread and give the desired character to the formation of the stitch. ¶ The tension on the cord is regulated by the thumb nut (T, Fig. 3). ¶ To increase the tension, turn this thumb nut over from you. ¶ To decrease the tension, turn this thumb nut over toward you. ¶ The tension on the cord should be light.

Fig. 3

To Change the Style and Length of Buttonhole

¶ When it is desired to make a different style and length of buttonhole it will be necessary to change the pattern wheel (U5, Fig. 9), buttonhole cutting block (T2, Fig. 5) and the cutting knife (D3, Fig. 5). ¶ Some pattern wheels produce two styles of buttonholes as shown in the lists on pages 5 to 10 in- clusive, in which cases the following adjustment is necessary to change from one style of buttonhole to the other.

To Adjust Machines 99w130 and 99w131 for making Eyelet- end Buttonholes (with large size eye) without a Bar. ¶ Having placed the desired pattern wheel in the machine, see that the locking pin (B6, Fig. 9) rests on the straight ledge of the work clamp side throw lever as shown in Fig. 9, then place the correct buttonhole cutting block and knife in the machine. (See list of cutting blocks and knives given on pages 5 to 8 inclusive.)

To Adjust Machines 99w130 and 99w131 for making Eyelet- end Buttonholes (with medium size eye) with a Taper Bar or without a Bar, also Straight Buttonholes. ¶ Having placed the desired pattern wheel in the machine, see that the locking pin (B6, Fig. 9) rests in the vertical slot (N5, Fig. 9) of the work clamp side throw lever, then place the correct buttonhole cutting block and knife in the machine. (See list of cutting blocks and knives given on pages 5 to 8 inclusive.)

To Remove the Pattern Wheel, draw the lever (A6, Fig. 9) toward you so as to swing the stop lever operating plate (Z5, Fig. 9) back out of range of the pattern wheel. ¶ Raise the locking pin (B6, Fig. 9) out of the vertical slot (N5, Fig. 9) and swing it backward so that it rests on the straight ledge, then remove the nut (S5, Fig. 9) and withdraw the pattern wheel.

To Replace the Pattern Wheel, push it on the shaft as far as it will go, having the position stud (T5, Fig. 9) enter the small hole in the pattern wheel, then fasten it firmly in position with the nut (S5, Fig. 9).

To Adjust Machine 99w132 for making Eyelet-end Button- holes with a Taper Bar or without a Bar. ¶ Having placed the desired pattern wheel in the machine, see that the locking pin (B6, Fig. 9) rests in the vertical slot (N5, Fig. 9) of the work clamp side throw lever, then place the correct buttonhole cutting block and knife in the machine. (See list of cutting blocks and knives given on pages 9 to 11.)

To Adjust Machine 99w132 for making Straight Buttonholes. ¶ Having placed the desired pattern wheel in the machine, see that the locking pin (B6) rests on the straight ledge of the work clamp side throw lever as shown in Fig. 9, then place the correct buttonhole cutting block and knife in the machine. (See list of cutting blocks and knives given on pages 9 to 11.)

Fig. 9. "X-Ray" View of Pattern Wheel Showing Tripping Points and Sewing Up First Side of Buttonhole

To Change the Length of Eyelet-end and Straight Buttonholes and Length of Taper Bar

¶ Different lengths of sewing for eyelet-end or straight button- holes and different lengths of bars for taper bar buttonholes can be produced with pattern wheels, as listed on pages 5 to 10, by adjustments as follows: ¶ Remove the pattern wheel from the machine and take out the two screws which fasten the two pattern wheel segments to the pattern wheel. It will be noticed that there are several radial lines on the pattern wheel which are used as a guide for setting the segments in the required position. ¶ To make the longest bar, move the two segments outwardly until their ends register with the lines which are farthest from the elongated screw hole in the pattern wheel ring. ¶ To make the shortest bar, move the segments inwardly until their ends register with the lines which are nearest to the elongated screw hole in the pattern wheel ring. ¶ For inter- mediate lengths of bars, adjust the segments to the correspond- ing intermediate lines. ¶ When the segments are set in the desired position, securely tighten their fastening screws. ¶ When the segments are set to make the longest bar, the rapid feed stopping tripping point, which is nearest to the dogging hole on the inside of the pattern wheel, must be set in the screw hole nearest to the other tripping point, and for the shortest bar, it must be set in the screw hole farthest from the other tripping point. ¶ For intermediate lengths of bars, use the intermediate screw holes. This tripping point must always be so adjusted that it trips the rapid feed stop just as the sewing starting segment has actuated the stitching mechanism. ¶ If it is set too early, the machine will stop because the rapid feed will cease before the sewing feed begins. If it is set too late, the space between the first two or three stitches will be too great because the rapid feed, which is faster than the sewing feed, will continue after the sewing has commenced.

To Change the Number of Stitches in the Buttonhole

¶ The number of stitches in the buttonhole is controlled by the stitch regulating gear (Y7, Fig. 11) in the left side of the machine. ¶ When it is desired to change the number of stitches in the button- hole it will only be necessary to change the stitch regulating gear. ¶ To remove this gear, loosen the screw (A8, Fig. 11) in the slotted lever and pull the lever toward you, then remove the nut (X7, Fig. 11) which is above the stitch regulating gear (Y7, Fig.11) and lift off the gear with the stitch regulating gear holder. ¶ The stitch regulating gears are listed below:Having selected the gear desired, place it in position and firmly fasten it with nut (X7, Fig. 11). ¶ Then advance the pattern wheel shaft by means of wrench a slight amount and at the same time push on the end of feed adjusting gear bracket until the adjusting gear (Z7, Fig. 11) drops into mesh with the stitch regulating gear. After the gears have been correctly set, tighten the screw (A8, Fig. 11). ¶ When turning the pattern wheel shaft with the wrench, care should be taken that it is turned only sufficiently far to mesh the first tooth, thus avoiding moving the machine out of cutting position.

Fig. 11. Changing Stitch Regulating Gear

Stitch Regulating Gears

To Oil the Machine

¶ To ensure easy running and prevent unnecessary wear to the machine, oil should be regularly applied at least once each day to all oil holes and all parts which are in movable contact. ¶ Oil should be applied to the two oil holes (C and N, Fig. 2) for the arm shaft bearings located on the top of the front and rear of the arm; also to the oil hole (P9, Fig. 2) in the top end of the needle thread take-up shaft for the shaft bearing. The take- up lever and cam should be oiled through the left side of the take- up bracket at D8, Fig. 36. ¶ The needle vibrating lever and the upper bearing for the vertical shaft should be oiled through the opening (L8, Fig. 36) at the upper left rear end of the arm. ¶ All connections of the upper stitch rotating mechanism should have oil applied to all movable parts. ¶ Oil should be applied to the needle vibrating connections on the right side of the arm and all parts connected to this mechanism located on the lower end of the needle bar; also applied through the oil hole (L, Fig. 2) in the arm face plate to the needle bar and its connections. ¶ At the back end of the machine, oil should be applied through the opening (F6, Fig. 9) to the roller way of the cutter carrier cam and its connection, to the cutting lever cam seat, to the buttonhole cutting lever cams and to the lower bearing for the vertical shaft. ¶ Oil should be applied to the oil tube (M7, Fig. 10) for the bed shaft bushing, to the oil tube (C6, Fig. 9) for the rapid feed crank shaft rear bearing and to the oil hole (G7, Fig. 10) in the end of the rapid feed intermediate gear stud. ¶ Oil should be applied to the two oil holes (N7, Fig. 10) in the stop lever bracket as well as to the stop cam (H7, Fig. 10) and all sliding surfaces of the interlocking slide (J7, Fig. 10) located at rear end of the bed. ¶ Through the opening (P5, Fig. 9) in the left hand side of the bed, oil should be applied to the feed wheel cam paths, to the lower stitch rotation connections, to the hinge stud for the lower sector and to the oil holes for the bearings located on the left edge of the bed for the pattern wheel shaft and slide bar. ¶ Oil should be applied to the oil pad for the rapid feed starting pawl (K6, Fig. 9) located immediately above the pawl inside the left edge of the bed and to all movable parts of the rapid feed tripping mechanism located within the bed. ¶ The cam groove of the pattern wheel (U5, Fig. 9) and the operating surface of the pattern wheel ring (R5, Fig. 9) should be oiled; also the connections from it to the stop lever and to the side throw lever. ¶ Oil should be applied to the oil tube (05, Fig. 9) for the front bed shaft bearing. ¶ After removing the bed end cover (T3, Fig. 6) oil should be applied to all movable parts of the looper mechanism, and to the slide block (P2, Fig. 3) on the forward end of the side throw lever. ¶ Oil should be applied to the movable parts on the work plates (03 and W3, Fig. 6); that is, to the clamp arm cams, shafts and hinge blocks; also to the two oil holes (Q3 and V3, Fig. 6) in the forward end of each plate which carry oil to the base plate slide rod (Q2, Fig. 3). ¶ Swing each work plate (03 and W3, Fig. 6) out and apply oil to the oil hole in the left side of the base plate immediately above oil hole (S2, Fig. 38) for the side throw lever shaft; also apply oil to the looper mechanism, to the feed wheel cam paths, to the left and right clamp carrier slides and to the oil hole (U2, Fig. 5) for the feed wheel axis stud located beneath the cutting levers in the cutting lever bracket. ¶ Insert the tip of the oil can into the forward right hand open- ing (R, Figs. 3 and 8) in side of the bed and apply oil to the forward bearing (Z, Fig. 3) of the rapid feed crank shaft and apply oil to the oil holes for the pattern wheel shaft and slide bar located on the lower edge of this opening. ¶ Oil should be applied to the hinge stud (L3, Fig. 3) for the clamp closing lever (D5, Fig. 8), to the engaging stud (F4, Fig. 8) and latches connected to the operation of this mechanism as well as to all movable parts connected with the starting mechanism. ¶ Oil should be applied to the two oil holes for the buttonhole cutting shaft, to the oil cup in the hub of the cutting shaft pulley (J4, Fig. 8), to the oil hole (H4, Fig. 8) in the support for the right hand end of cutting shaft and to the hole in the head of the hand crank cap screw (K4, Fig. 8) on the right end of the cutting shaft. ¶ It is extremely important that the oiling of the machine be carried out diligently each day, using SINGER “Oil for High Speed Sewing Machines (Cloth and Leather)” for general use or “Stainless Oil for High Speed Sewing Machines” where a stain- less oil is desired. ¶ This will be an investment that will yield exceptional returns as it will reduce the demand for service as well as reduce the cost of upkeep and will greatly increase the life of the machine.

INDEX

SINGER 99W start to finish

¶ Diagram, Fig. 7, shows order of operation of mechanism in Machines 99w130 to 99w132 during the cutting and stitching of a buttonhole from start to finish.

Fig. 7 99W Operation of the Machine

A -Work Clamps are closed by Clamp Closing Lever
B -Buttonhole Cutter is tripped by Clamp Closing Lever
C -Buttonhole is cut by Buttonhole Cutting Shaft
D -Buttonhole is spread by Buttonhole Cutting Shaft
E -Rapid Feed is started by Buttonhole Cutting Shaft
F -Sewing is started by Pattern Wheel Ring
G -Rapid Feed is stopped by Pattern Wheel
X -Buttonhole is stitched (indicated by solid line)
H -Sewing is stopped by Pattern Wheel Ring
I -Rapid Feed is started by Stop Motion
J -Work Clamps are opened and Spread is released by Trip Point on Work Plates
K -Rapid Feed is stopped by Pattern Wheel
L -Starting and stopping point Dotted line represents rapid feed

Fig. 8. "X-Ray" View of Buttonhole Cutter Pulley Showing Buttonhole Cutter Engaging Stud and Latch

¶ The operator should sit a little to the left of the center of the front of the machine so that the opening in the work clamps can be fully seen. This position will be found to be the most con- venient for the operator for the reason that the work is moved from left to right in the machine when passing from one button- hole to another, and also because the finger starting lever is located above the left work clamp plate. ¶ Unlock the machine by pushing the safety lock (T4, Fig. 8) inwardly. Place the work in position in the machine so that the portion in which it is desired to make the buttonhole is directly under the opening in the work clamps. ¶ Then set the two work position gauges (N3 and X3, Fig. 6) against the edge of the work and fasten them in position. ¶ Hold the work firmly in position with the hands and at the same time press down on the finger starting lever (Y3, Fig. 6). This will trip the lever (C4, Fig. 8) out of the locking notch in clamp closing stud (F4, Fig. 8). ¶ The plunger will then be held out of engagement with the cam path in the pulley (J4, Fig. 8) by latch (D4, Fig. 8) holding the locking notch in the stud (F4, Fig. 8) until the cam path is in the correct position to receive the stud, at which time the tripping cam block on the inside face of pulley (J4) will trip the lever (E4, Fig. 8), lifting the latch (D4) and allowing the stud (F4) to engage the cam path in pulley (J4), causing the clamp closing lever (D5, Fig. 8) to be depressed and the work clamps to be lowered upon the work. ¶ The stud (F4, Fig. 8) is forced inwardly, by the stud disengaging cam block mounted in the cam path of the pulley (J4, Fig. 8), under the stud lock plate (A4, Fig. 8) into locking position and held by the lever (C4, Fig. 8) in the locking notch. ¶ As the clamp closing lever returns to its starting position, the starting lever trip (U4, Fig. 10) is forced against the starting lever arm (H5, Fig. 10), which in turn actuates the buttonhole cutting starting lever (B5, Fig. 8), causing the latch (X4, Fig. 8) in the buttonhole cutting wheel to engage the loose buttonhole cutting pulley. ¶ As the buttonhole cutting wheel (G4, Fig. 8) is fastened in a rigid position on the buttonhole cutting shaft (K4,Fig. 8), the shaft is rotated when the wheel and loose pulley are locked together by the latch (X4, Fig. 8). When the button- hole cutting shaft starts to rotate, the buttonhole cutting levers are moved into action by the operating cams on the buttonhole cutting shaft, and the cutting block and knife are carried forward to cut the buttonhole. ¶ After the buttonhole cutter has cut the buttonhole, the safety latch (W9, Fig. 10) is moved beneath the starting lever trip (U4, Fig. 10) and holds it out of engagement with the starting lever arm (H5, Fig. 10). ¶ As the cutting levers return to their starting position, the spreading lever (Q4, Figs. 6 and 8) is pushed forward against the lever (R4, Figs. 6 and 8), thus spreading the work clamps and stretching the fabric taut under the needle. ¶ During the last part of the rotation of the cut- ting shaft, the rapid feed starting lever (C5, Fig. 8) is operated, causing the rapid feed to move the work clamp plates with the work to a stitching position, after which the latch (X4, Fig. 8) in the buttonhole cutting wheel is withdrawn from the loose but- tonhole cutting pulley, releasing the wheel from the pulley and stopping the rotation of the buttonhole cutting shaft. (¶ At the same time, the cutting lock cam (W5, Fig. 8) actuates the rock shaft lever (V4, Fig. 10), forcing the cutting lock (Q5, Fig. 10) beneath the starting lever trip (U4, Fig. 10), thus locking the cutting mechanism so that it cannot operate while the buttonhole is being stitched.)

Fig. 9. "X-Ray" View of Pattern Wheel Showing Tripping Points and Sewing Up First Side of Buttonhole

¶ When the work clamp plates are brought to the stitching position, the rapid feed is disengaged by the tripping point (V5, Fig. 9) on the inner side of the pattern wheel (U5, Fig. 9) com- ing into contact with the latch (W5, Fig. 9), and the stitching mechanism is started in operation by the action of the stop lever operating plate (Z5, Fig. 9) riding up the incline (Y5, Fig. 9) on the pattern wheel ring, causing the stop lever (D6, Fig. 9) to swing back out of engagement with the stop cam on the sewing pulley. ¶ The machine then stitches the buttonhole and at the completion of the stitching, the stop lever operating plate (Z5, Fig. 9) drops off at the square shoulder (Q5, Fig. 9) on the pattern wheel ring, causing the stop lever to swing in, ready to lock in the stop cam on the sewing pulley. ¶ As the interlocking slide (J7, Fig. 10) is raised by the action of the stop cam (H7, Fig. 10), the point of the latch (K7, Fig. 10) is lowered fully f inch below the end of the second rapid feed starting lever (L7, Fig. 10). As the interlocking slide (J7, Fig. 10) drops into the notch of the stop cam (H7, Fig. 10), it raises the latch (K7, Fig. 10) which in turn raises the second rapid feed starting lever (L7, Fig. 10) as it comes into contact with it, thereby starting the rapid feeding mechanism in operation to move the clamp plates back to a starting position for the next buttonhole.

Fig. 10. View of Stop Motion Showing Shaft Speeds
Fig. 6. Threading of Machine Completed

INDEX

SINGER 99W SET UP

To Set the Needle

¶ Loosen the set screw (Q7, Fig. 13) in the needle clamp and put the needle up into the clamp as far as it will go with its long groove to the rear and its eye parallel or in line with the bed of the machine, then firmly tighten the set screw (Q7,Fig 13).

Fig 13 Needle Vibrating Mechanism

To Thread the Needle

¶ Pass the thread from the unwinder down through the hole (1, Fig. 2)❶ in the upper end of the needle thread leader, through the hole (2, Fig. 2) in the lower end of the needle thread leader, from back to front under between the tension discs (3, Fig. 2)❸,

Fig. 2. Threading the Needle

up through the slotted hole in the take-up thread guide (4, Fig. 2)❹, down through the forward hole (5, Fig. 2)❺, down through the hole in the end of the thread take-up (6, Fig. 2)❻, through the hole (7, Fig. 2)❼ in the top of the needle thread guide pin, under the needle thread pull-off (adjustable) (9, Fig. 2)❽ and down through the hollow needle bar (8, Fig. 2)❾ (inserting the thread- ing wire furnished with the machine up into the needle bar from below to pull the thread through), pass the thread from back to front or toward you through the eye of the needle, as shown in Fig. 6.

Note: ¶ When it is necessary to place the thread unwinder at the side of the machine, the needle thread leader (1, Fig. 2) at the top of the machine should be turned in the direction of the unwinder and the thread should be passed through the hole (A, Fig. 2) instead of the hole (2, Fig. 2).

To Thread the Looper

Fig 6 Threading of Machine Completed

¶ Unhook the two springs (K3 and Z3, Fig. 6) and swing out the two work clamp plates (O3 and W3, Fig. 6), then press in the buttons (S3 and U3, Fig. 6) and at the same time draw the bed end cover (T3, Fig. 6) toward you to remove it from the machine.

Fig. 3.Threading the Looper Also Showing Threading the Cord

¶ Pass the thread from the unwinder through the lower brass tube (1, Figs. 3 and 10)❶ which is attached to the right side of the bed of the machine (using the threading wire furnished for the purpose), then through the lower hole (2, Fig. 3)❷ in the bed of the machine at the front of the brass tube, through the wire thread eyelet (3, Fig. 3)❸, down, under and from right to left between the tension discs (4, Fig. 3)❹, from right to left through the right hand self-threading guide slot (5, Fig. 3)❺ in the thread controller bracket, through the slot in the thread controller (6, Fig. 3)❻ and through the left hand self-threading guide slot (7, Fig. 3)❼ in the thread controller bracket. Pass the threading wire (R2, Fig. 3) between the throat plate (O2, Fig. 3)❽ and right hand loop retainer (N2, Fig. 3)❾ down through the hollow loop retainer driving bar (8, Figs. 3 and 4). Hook the thread on the end of the wire and draw it up through the hollow bar (8, Figs. 3 and 4), then, using the tweezers furnished for the purpose, pass the thread from the hollow bar (8)① up through the slot (9, Fig. 4) ②in the heel of the looper, as illustrated in Fig. 4, down through the centre hole (10, Fig. 4) ③ in the looper and up through the hole (11, Fig. 4)④ in the point of the looper, then up through the large needle hole (12, Fig. 4)⑤ in the throat plate.

Fig. 4. Threading the Looper

To Thread the Cord

¶ The work clamp plates having been swung outward and the bed end cover removed, pass the cord from the unwinder through the upper brass tube (V, Figs. 3 and 10)❶ which is attached to the right side of the bed of the machine (using the threading wire furnished for the purpose), then pass the cord under and between the tension discs (S, Fig. 3)❷ adjacent to the cord tube, through the hole (P, Figs. 3 and 5) ❸ in the right hand side of the bed of the machine, up through the hole (G3, Fig. 5) ❹ in the cord controlling spring, thence from back to front through the cord hole (H3, Fig. 5) ❺ near the center of the throat plate, the cord leading toward the operator as shown in Fig. 5. ¶ Then swing the work clamp plates back into place and hook the springs (K3 and Z3, Fig. 6) ❻ to hold the plates in position. ¶ Also replace the bed end cover, then clamp the ends of the cord and looper thread in the thread clamps (P3 and R3, Fig. 6)❼.

Fig. 5. Threading the Cord

INDEX