US40000A - Improvement in sewing-machines - Google Patents

Improvement in sewing-machines Download PDF

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US40000A
US40000A US40000DA US40000A US 40000 A US40000 A US 40000A US 40000D A US40000D A US 40000DA US 40000 A US40000 A US 40000A
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thread
needle
spool
loop
hook
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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B57/00Loop takers, e.g. loopers
    • D05B57/08Loop takers, e.g. loopers for lock-stitch sewing machines
    • D05B57/10Shuttles
    • D05B57/14Shuttles with rotary hooks

Definitions

  • FIG. 4 shows the rim of the spool-case projected on a plane.
  • Figs. 5 and 6 are views of the rotating hook.
  • Figs. 7,8, and 9 are different views of the spool-case.
  • Fig. 10 is a top view of the loop-check. Fig.
  • Fig. 11 is a plan of the portion of the work-plate through which the needle and thread pass.
  • Fig. 12 is a longitudinal vertical sectional view of the feed bar and dog and theirappendages.
  • Fig. 13 is a top view of the dog detached from the feed-bar.
  • Fig. 14 is a transverse section of the needle on a scalemuch longer than natural size.
  • Fig. 15 is a face view of the rotating hook, spool-case, and check.
  • Fig. 16 is a diagram illustrative of the action of the needle on drawing the thread from the upper spool.
  • the subject-matter of our invention consists of several improvements in sewing-machines, a. part of which improvements are more particularly applicable to machines which make the lock-stitch, so called, by means of a needle and rotating hook and bobbins,sim ilar to what is known as the Wheeler & Wilson machine, and other improvements, which are certain new devices so combined and arr-an gedin the machine that we are able to accomplish in such a machine the same purpose that is accomplished in" a machine that uses a needle and shuttle, by means oi certain improvements which are the subject of Letters Patent to Dwight Tracy, dated September ll, 1860, No. 30,012-that is, to deliver to the needle, when it is inserted into the cloth or other material, the proper length.
  • Our fourth improvement consists in a new mode of constructing the feeding instrument, by which a more uniform feed can be maintained with varying conditions of the work; and it also consists in a new mode of constructing the feeding-cam and the parts which cpoperate with the same for the purpose of producing a variable and noiseless feed.
  • A is the frame of the machine; B, the work-pla'te; C, the main shaft, carrying the rotating hook D; E, the needlearm; P, the presser-arm, and P the presser, all, with the exception of the rotating hook D, constructed in a manner similarto what is known as the WVheelerSa Wilson sewing-machine.
  • F is the spool which supplies thread to the neetllemarranged upon a double elliptic spring, G,'which is fitted at its ends I) and c to turn upon a stationary spindle,a, which is secured in the framing A, as'shown.
  • the needle-thread shown in red color is conveyed from the spool F througha forked arm, H, attached to and vibrating with the needle-arm, and, from this arm through a spring friction-clamp, I J, at taohed to the needle-arm, thence through an intermittently -acting gripper, K L, also attached to the needle arm, and thence through the usual guide, d, at the end of the needlearm, to the eye of the needle n.
  • the part I of the frictiou-clamp-I J and the part K of the gripper K L are portions of the same plate attached rigidly to the needle-arm.
  • the mov; ableport-ionJ of thefriction-clamp is placed on a su
  • Theobject of this friction-clamp is to keep a gentle tension on the thread" between the gripper and the spool when the gripper is open.
  • the movable portion Lot the gripper constitutes a portion of a lever,L L, whose fulcrum isa knife-edgeJ, formed on the plate K; audit is kept closed upon the thread during nearly three fourths of the revolution of the rotating hook by means,
  • The-object of the gripper is tohold the thread positively to prevent any delivery of thread from the spool at the time of tighteniug each stitch.
  • the lever L constituting the movablejaw of the gripper, is confined to its fulcrum f by a slight projection, 71-, on the plate K.
  • the said lever is acted upon to open the gripper by means of anarm, i, rigidly attached to the rod M, which transmits motion from the eccentric M on the main shaft to the rocker E, which carries the needle-arm, the opening being eflected by the lever and arm being moved toward each other by the rela tive movements of the rod M and the, rocker E, and the closing beingcfiected by the spring 9 as the movements of the said rod and rocker are continued.
  • the for ked arm H renders the operating portion of the needle-thread at all times independent of the spool F by keeping a quantity of thread greater than required for the longest stitches liberated or drawn otf from.
  • the spool in advance of its being required for use, the liberation or drawing off of the thread from the spool being effected by the de; scent of the said forked arm as the needle-bar rises, the gripper KL having at the time a firm hold upon the thread, so that any irregularity in the friction of the spool or in the delivery of the thread, owing to entanglement or other cause, cannot atfe'ct the free delivery of the thread and the uniform tightening of the stitch.
  • the thread is enabled to be used from a hallor skein as well as from aspool, by which means a great saving may be effected in large manufacturing operations, owing to the lower cost of the thread in balls and skeins..
  • the rotating hook D of which Fig. 5 is a side view, and Fig. 6 acent-ral section in the plane indicated by the line :0 m, Fig. 5, differs in some particulars from those heretofore used, in order to adapt it to'work in combination with the spool-case N, and to so control the loop of needle-thread below the table as to assist in delivering the proper measured quantity of thread to the needle required to make each stitch, as will be hereinafter described.
  • the spool-case N of which Fig. 7 is an outer faceview, Fig. 8 a side view, and Fig. 9 an axial section, co isists-of a circular box deep enough to contain a spool, S, which is large enough to hold twohundred yards of the coarsest thread ordinarily used in sewing-machines.
  • This case has a hinged cover .or door, N, in its outer side to permit the introduction and removal of the spool. and it has a fixed central spindle, N attached to its back for the reception ot the spool,such spindle beingmade hollow to make the case as'light as possible.
  • p is the hingeof the door N, which closes with a snap.
  • The'said case is setin the hookin an oblique position, as shown in Fig. 2, such ob-- lique position being maintained by its being furnished with an oblique flange or shoulder, at, which extends all round, except opposite to the work-plate B, where it is omitted for a short distance, as shown at m, in the projec tion, Fig. 4, and the said flange or shoulderv resting against the ann nlarseatm, provided for it in the rotating hook, the said seat being parallel with the planes of revolution ofthe said hook.
  • the case is held up to therotating book by a guard-fingegQ, which is arranged to swing aside on a fixed pin, g, to permit the spool-case to be taken from or inserted in the book, which can only bedone while the tongue is on the case is opposite to the opening be- .tween the point and heel of the book.
  • a guard-fingegQ which is arranged to swing aside on a fixed pin, g, to permit the spool-case to be taken from or inserted in the book, which can only bedone while the tongue is on the case is opposite to the opening be- .tween the point and heel of the book.
  • the bearing-surfaces of the finger Q consist of springs q 1 which hold the case securely against the seat in the hook in such manner as to prevent rattling, but yet permit the loops to slip freely off the outer face of thecase and prevent the. thread from being checked unevenly by any movement of the case from the hook.
  • the oblique position of the case ispartly to permit the needle to pass it andpartly to enable the thread to beeasily thrown around it, which, owing to its great thickness, would otherwise be diflicult, and the prominentpart that receives the loop as it iscast from the hook'just as the stitch is -tightened keeps the loopextended, thus preventing the thread from curling around the point of-the needle in sewing tliin goods.
  • The-front of the case is so cut away as to form an opening, 0' s.
  • the ob ject of so cutting it away is twofold--viz., to allow the thread to freely leave the loop-check R,'which will vbe presently described, and to form a shoulder, 0', against which the said check" acts as a stop, to prevent the rotation ofthe case with the hook in the operation of the machine.
  • a projection, t to which the check serves as a stop to prevent the case from turning'in the opposite direction to that above mentioned.
  • the tongue k before' mentioned, having its point 12 not far from the needle, catches the thread of the loop soon after the commencement of its extension by the rotating hook, and by preventing it from being drawn round the periphery of the spool-case causes one side of it to be turned over the back of the said case.
  • the purpose of the groove k in the rotating hook is to enanle the point 12 always to catch the loop of the needle-thread as it is carried forward by the rotation of the book and-prevent it from "being drawn into the joint between the hook and spool-case.
  • Thelocking-thread leaves the spool-case through an opening, 14, in the top, and inprder to prevent its being drawn out too easily it has applied to. press upon it outside of the said hole a spring, a, in which 'is a notch, 15. to guide it to the needle-hole in the work-plate.
  • the loop-check It is made of steel or other metal and, as before described, is stationary in front of theshoulder r of the spool-case.
  • the said part 13, viewed front the top, as shown in 'Fig 10, which is a top view of the loop'cheok, has an oblique surface, so that while the thread is placed across it and held partly around it, or kept stretched tightly against it, as shownin Fig. 10 by the red litre,
  • This loop -'check is secured to the framing of the machine by means of the screw g, on which the linger Q works, and it is grooved to lit a tongue, g, on the framing,and hasa slot, q, for the passage ofthe screw q, to provide tor its adjustment in a direction concentric to the axis of the rotating hook and sp ool-ease, the object of such adjustment being to bring it farther or not so far under the spoolcase, to make itact earlier or 1 rter in the de-' scent of the needle, and thus cause a greater orl'ess quantity ot'the needle-thread to be taken from its spool, the said check acting in combination with the needle to efl'ect and regulate the supply of its thread from the spool.
  • the said check has fitted to a'niortise in its point a light spring, r, which projects very slightly from it, but is kept within the check by the pressure of the shoulder 1' against it in the running of the machine until the thread of the loopcotnmences to pass between the said shoulder and the check, when it aids to press back the said shoulder far enough to let it pass, but continues to detain the threadmomentarily after it has passed the solid portion of'the check, and hence it makes the liberation of the thread lrom the check easier and more gradual.
  • the check then continues to detain the loop until the latter has escaped from the point of the rotating hook and commences to be drawn up by the ascent of the needle.
  • the tightening of the stitch is effected in the usual manner by the combined action of the continued rise of the needle-arm and the continued rotation of the hook, except in sewing thick goods, when it receives an additional strain just before the loop is turned off the point of the book by the check.
  • the forked arm H As theuecdle is completing its upward movement the forked arm H by its descent draws off thread from the spool F. In this action of the fork H its movement is sufificient to draw off more thread than is necessary to make a stitch. The quantity of.
  • the needle cannot commence drawing thread from the spool until it has drawn the loop below the cloth tight around the check, spool-case, and hook, on account of the friction on the thread produced by the friction-clamp J being greater than the-friction on the thread passing through the cloth at2l.
  • the length of the loop to be decreased as the cloth increases in thickness the amount of the decrease will be free to be drawn up by the needie, which will correspondingly delay the commencement of drawing from the spool and the quantity taken.
  • This is effected partly by the position of the shoulder ofthe hook and check at the time of commencing to draw thread from the spool and partly by the shape of the heel or tail of the hook over which the thread rests during the drawing of the thread. This is illustrated by Figs.
  • Fig. 1 shows the positions witlrthick goods and Fig. 15 with thin goods. It will be seen in Fig. 15 that the rotating book has passed much farther and the loop is much longer, its th'r'ead being in a tortuous position, the pant passing over the 'heel resting on the fullest part 1. In Fig. 1 the hook is much less advanced, and the thread on the heel is in the lowest part, which produces the necessary shortening of the loop for the aforesaid-con rection. The length of the loop may be de creased to the desired extent by cutting out the heel at l.
  • Fig. 12 The improvement in we feeding device is best illustrated in Fig. 12, in which and in Figs. 2 and. 3 '1. represents the feed-bar, applied under the work-plate in the manner common to what is known as the four-motion feed, and having the toothed dogU connected with it by a spring, V,'to permit'theupward and downward movement'to bite and release the cloth; but the dog, instead of being rigidly attached to the spring, as is usually the case, is arranged to rock, so as to adapt itself to any increase or diminution of thickness of the work, either sudden or gradual.
  • the said dog is made'of a separate piece of steel, with a curved or rounded bottom, and a conical cavity'in the said bottom for the reception of the pointed end of an adjusting-screw, w, screwed through a block of metal, V, which is riveted or otherwise secured to the spring V.
  • Portions 18 18 of the spring are extended beyond its connection-with the said block to press upon the flat upper surfaces of shoulders y 3 provided on the sides of the dog near the middle of its length, and so keep the dog on the point of the screw, on, which. it is free to rock to accommodate itself to the varying thickness of the Work.
  • the lever Y ismounted upon an axis, Z, which is made to slide longitudinally in bear- -ings in the frame A, transversely to-the shaft C, so as to present the, contact-surface 3 to that part of the cam W which will impart just the extent of motion to the feed-dog U that will give thedesired length to'thc stitches.
  • The..-advantage in employing such a cam to actuate the feed-bar is that the contact-sun.

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  • Textile Engineering (AREA)
  • Sewing Machines And Sewing (AREA)

Description

2 Sheets-Sheet k D. TRACY & G. HOBBS.
SEWING MACHINE.
Patented Sept "m: NORRIS Prrzas 20., PHOTO-LITHQ, wasumnruu, :1v 0.
2 Sheets-Sheet 2.
D. TRACY & G.,HOBBS. SEWING MACHINE.
No. 40,000. 4 Patented Sept. 15, 1863.
mine-me: fizz/865W UNITED STATES PATENT OFFICE.
DWIGHT TRACY AND GEORGE HOBBS, OF WORCESTER, MASSACHUSETTS, ASSIGNORS TO DWIGHT TRACY, AFORESAID.
IMPROVEMENT IYN SEWING-MACHINES.
Specification forming part of Letters Patent No. 40,000, dated September 15, 1863.
To all wlto'mt't may concern: 7
Be it known that we, DWIGHT TRACY and GEORGE HOBBS, both of Worcester, in the countyof Worcester and State of Massachuselts, have invented certain new and useful Improvements in Sewing-Machines; and we do hereby declare that-the following is a full,
view of the-same--with the'framing and-cloth plate in section. Fig. 4 shows the rim of the spool-case projected on a plane. Figs. 5 and 6 are views of the rotating hook. Figs. 7,8, and 9 are different views of the spool-case.
Fig. 10 is a top view of the loop-check. Fig.
11 is a plan of the portion of the work-plate through which the needle and thread pass. Fig. 12 isa longitudinal vertical sectional view of the feed bar and dog and theirappendages. Fig. 13 is a top view of the dog detached from the feed-bar. Fig. 14 is a transverse section of the needle on a scalemuch longer than natural size. Fig. 15 is a face view of the rotating hook, spool-case, and check. Fig. 16 is a diagram illustrative of the action of the needle on drawing the thread from the upper spool.
Similar letters. and numbers of reference indicate the parts in all the figures.
The subject-matter of our invention consists of several improvements in sewing-machines, a. part of which improvements are more particularly applicable to machines which make the lock-stitch, so called, by means of a needle and rotating hook and bobbins,sim ilar to what is known as the Wheeler & Wilson machine, and other improvements, which are certain new devices so combined and arr-an gedin the machine that we are able to accomplish in such a machine the same purpose that is accomplished in" a machine that uses a needle and shuttle, by means oi certain improvements which are the subject of Letters Patent to Dwight Tracy, dated September ll, 1860, No. 30,012-that is, to deliver to the needle, when it is inserted into the cloth or other material, the proper length. of thread at each stitch necessary to make the stitch, corresponding to the thickness of material to be sewed and the length of the stitches, however they may vary, and to draw up such measured length of thread to complete the stitch by a positive motion, by which means the machine is adapted to the various conditions of work withoutadjustmentbytheoperator. Inshut tie-machines, so called, where one stitch. is completed before the next is commenced, the
free thread between the eye of the needle and the last stitch made is all upon the needle side of the cloth; butwhen the stitch is made withtheneetlle and rotating hook, as in the Wheeler 86 Wilson machine, one stitch is not completed until after the next is commenced, and a part ofthe slack or free thread is upon the opposite side of the cloth from the needle in the form of a loop, which is extended by the rotating hook. This condition of things requires the arrangement of mechanism to be modified from what is described in said Tracys PatentNo. 30,012, and the manner in which we have combined and arranged the needle and hook and bobbin and its case, with other accessory devices, to be. hereinafter described, so that they will cooperate to control the proper delivery of the needle-threadaud the uniform tightening of the stitches, as before described, constitutes the subject-matter ot'our first improvement Our second improvement consists in the'employmeut, in combination with the devices which control the needle-thread in the delivering the same to the needle and the tightening of the stitch,- oi' a device fol drawing the thread from the bobbin to make the next stitch while the needle-thread isclamped or otherwise held,
in a new combination and arrangement of theparts which form the clam ping device, by which the threadis held and released at the proper in the manner hereinafter describetLby which a much larger spool or bobbin can be used than by the modes of construction usually adopted; and it also consists in the employment, in comhinationavith a revolving hook and spool-case. or its equivalent for carrying the lower thread, ofa device which we call a loop-check, which serves to hold the spool-case in position, to hold the loop of needle-thread below the cloth,
and assist in its proper delivery to the needle,-
and also to hold the loop so as to enable the hook to leave it.
Our fourth improvement consists in a new mode of constructing the feeding instrument, by which a more uniform feed can be maintained with varying conditions of the work; and it also consists in a new mode of constructing the feeding-cam and the parts which cpoperate with the same for the purpose of producing a variable and noiseless feed.
In the drawings, A is the frame of the machine; B, the work-pla'te; C, the main shaft, carrying the rotating hook D; E, the needlearm; P, the presser-arm, and P the presser, all, with the exception of the rotating hook D, constructed in a manner similarto what is known as the WVheelerSa Wilson sewing-machine. I
F is the spool which supplies thread to the neetllemarranged upon a double elliptic spring, G,'which is fitted at its ends I) and c to turn upon a stationary spindle,a, which is secured in the framing A, as'shown. The needle-thread shown in red color is conveyed from the spool F througha forked arm, H, attached to and vibrating with the needle-arm, and, from this arm through a spring friction-clamp, I J, at taohed to the needle-arm, thence through an intermittently -acting gripper, K L, also attached to the needle arm, and thence through the usual guide, d, at the end of the needlearm, to the eye of the needle n. The part I of the frictiou-clamp-I J and the part K of the gripper K L are portions of the same plate attached rigidly to the needle-arm. The mov; ableport-ionJ of thefriction-clamp is placed on a su|allpin, d, and has applied to it, to'prO- d uce the necessary pressure, asprin g, a. secured to the'plate l K bya screw, ve. Theobject of this friction-clamp is to keep a gentle tension on the thread" between the gripper and the spool when the gripper is open. The movable portion Lot the gripper constitutes a portion of a lever,L L, whose fulcrum isa knife-edgeJ, formed on the plate K; audit is kept closed upon the thread during nearly three fourths of the revolution of the rotating hook by means,
of a conical volute spring, g, applied with its center exactly opposite to where the thread: passes through the gripper; but during the remainder of the revolution, commencing soon after the needle enters the cloth, the gripper is open to permitthe delivery of thread to the needle.
The-object of the gripper is tohold the thread positively to prevent any delivery of thread from the spool at the time of tighteniug each stitch. The lever L, constituting the movablejaw of the gripper, is confined to its fulcrum f by a slight projection, 71-, on the plate K. The said lever is acted upon to open the gripper by means of anarm, i, rigidly attached to the rod M, which transmits motion from the eccentric M on the main shaft to the rocker E, which carries the needle-arm, the opening being eflected by the lever and arm being moved toward each other by the rela tive movements of the rod M and the, rocker E, and the closing beingcfiected by the spring 9 as the movements of the said rod and rocker are continued. The for ked arm H renders the operating portion of the needle-thread at all times independent of the spool F by keeping a quantity of thread greater than required for the longest stitches liberated or drawn otf from. the spool in advance of its being required for use, the liberation or drawing off of the thread from the spool being effected by the de; scent of the said forked arm as the needle-bar rises, the gripper KL having at the time a firm hold upon the thread, so that any irregularity in the friction of the spool or in the delivery of the thread, owing to entanglement or other cause, cannot atfe'ct the free delivery of the thread and the uniform tightening of the stitch. By thus keeping a portion of the thread liberated in advance, the thread is enabled to be used from a hallor skein as well as from aspool, by which means a great saving may be effected in large manufacturing operations, owing to the lower cost of the thread in balls and skeins..
The rotating hook D, of which Fig. 5 is a side view, and Fig. 6 acent-ral section in the plane indicated by the line :0 m, Fig. 5, differs in some particulars from those heretofore used, in order to adapt it to'work in combination with the spool-case N, and to so control the loop of needle-thread below the table as to assist in delivering the proper measured quantity of thread to the needle required to make each stitch, as will be hereinafter described.
The spool-case N, of which Fig. 7 is an outer faceview, Fig. 8 a side view, and Fig. 9 an axial section, co isists-of a circular box deep enough to contain a spool, S, which is large enough to hold twohundred yards of the coarsest thread ordinarily used in sewing-machines. This case has a hinged cover .or door, N, in its outer side to permit the introduction and removal of the spool. and it has a fixed central spindle, N attached to its back for the reception ot the spool,such spindle beingmade hollow to make the case as'light as possible. p is the hingeof the door N, which closes with a snap. The'said case is setin the hookin an oblique position, as shown in Fig. 2, such ob-- lique position being maintained by its being furnished with an oblique flange or shoulder, at, which extends all round, except opposite to the work-plate B, where it is omitted for a short distance, as shown at m, in the projec tion, Fig. 4, and the said flange or shoulderv resting against the ann nlarseatm, provided for it in the rotating hook, the said seat being parallel with the planes of revolution ofthe said hook. The case is held up to therotating book by a guard-fingegQ, which is arranged to swing aside on a fixed pin, g, to permit the spool-case to be taken from or inserted in the book, which can only bedone while the tongue is on the case is opposite to the opening be- .tween the point and heel of the book.
The bearing-surfaces of the finger Q consist of springs q 1 which hold the case securely against the seat in the hook in such manner as to prevent rattling, but yet permit the loops to slip freely off the outer face of thecase and prevent the. thread from being checked unevenly by any movement of the case from the hook. The oblique position of the case ispartly to permit the needle to pass it andpartly to enable the thread to beeasily thrown around it, which, owing to its great thickness, would otherwise be diflicult, and the prominentpart that receives the loop as it iscast from the hook'just as the stitch is -tightened keeps the loopextended, thus preventing the thread from curling around the point of-the needle in sewing tliin goods. The-front of the case is so cut away as to form an opening, 0' s. The ob ject of so cutting it away is twofold--viz., to allow the thread to freely leave the loop-check R,'which will vbe presently described, and to form a shoulder, 0', against which the said check" acts as a stop, to prevent the rotation ofthe case with the hook in the operation of the machine.
At a short distance in front of the shoulder r there is formed on the case a projection, t, to which the check serves as a stop to prevent the case from turning'in the opposite direction to that above mentioned. The tongue k, before' mentioned, having its point 12 not far from the needle, catches the thread of the loop soon after the commencement of its extension by the rotating hook, and by preventing it from being drawn round the periphery of the spool-case causes one side of it to be turned over the back of the said case. The purpose of the groove k in the rotating hook is to enanle the point 12 always to catch the loop of the needle-thread as it is carried forward by the rotation of the book and-prevent it from "being drawn into the joint between the hook and spool-case. Thelocking-thread (shownin blue color) leaves the spool-case through an opening, 14, in the top, and inprder to prevent its being drawn out too easily it has applied to. press upon it outside of the said hole a spring, a, in which 'is a notch, 15. to guide it to the needle-hole in the work-plate.
The loop-check It is made of steel or other metal and, as before described, is stationary in front of theshoulder r of the spool-case. Its upper or operating part, 13, viewed looking towardthe side of the rotating hook and spool-case, as in Fig. 1, is of slightly hooked form, but so rounded as to present no angles that would hold the thread, so that it could not be drawn oif by a pull in more or less upward direction after it. is relieved from the hook. The said part 13, viewed front the top, as shown in 'Fig 10, which is a top view of the loop'cheok, has an oblique surface, so that while the thread is placed across it and held partly around it, or kept stretched tightly against it, as shownin Fig. 10 by the red litre,
the said thread cannot be drawn from under it by an upward pull; but when the thread is not thus hold closely around or across it an upward pull will draw i tofl' easily. The lower part'ot' the loop, in being drawn over the spoolcase by an operation substantially the same as that in other rotating-hook sewing-machines, arrives at the shoulder r and slips oit' itand under the loop-check, as shown in Figs. 1 and 3, and the rotating book has then drawn the part of the loop which passed behind the case (which Iwill term the back part to such a 'position that the portion of the thread under the check will have the direction shown in Fig. 10, and so be held by the check alone, and the rotating book will continue to give this direction to the back part of the loop until the loop has been entirely thrown o'fl it. This loop -'check is secured to the framing of the machine by means of the screw g, on which the linger Q works, and it is grooved to lit a tongue, g, on the framing,and hasa slot, q, for the passage ofthe screw q, to provide tor its adjustment in a direction concentric to the axis of the rotating hook and sp ool-ease, the object of such adjustment being to bring it farther or not so far under the spoolcase, to make itact earlier or 1 rter in the de-' scent of the needle, and thus cause a greater orl'ess quantity ot'the needle-thread to be taken from its spool, the said check acting in combination with the needle to efl'ect and regulate the supply of its thread from the spool. The said check has fitted to a'niortise in its point a light spring, r, which projects very slightly from it, but is kept within the check by the pressure of the shoulder 1' against it in the running of the machine until the thread of the loopcotnmences to pass between the said shoulder and the check, when it aids to press back the said shoulder far enough to let it pass, but continues to detain the threadmomentarily after it has passed the solid portion of'the check, and hence it makes the liberation of the thread lrom the check easier and more gradual. Although we have described the loop check as arranged in combination with a spool-case, yet it may be usefully employed in machines where the spool-case is not nsed,asis the casein the Wheeler & Wilson machine, before referred to, in which case the position and form ol'the same would be altered to adapt it to the hook and bobbin used in such machines;
The combined operation oftharotating hook, spool-case, thread-controlling apparatus, and loop-check is as follows: Just as the eye of the needle is descending through the cloth, and as the loop last formed and'upon the hook is approachingvery near to the check, as shown in Fig. 1,the hook byits'continned rotation draws theloop overthe shoulderr and under the check it, which detains the loop, so that it will be tightly'dra'wn around the hook and spool-case before the needle has completed its descent. after which the necessary amount of thread to allow the needle to complete its downward movement is drawn from the spool through the open gripper. This quantity is the amount necessary to form a perfectstitch. The check then continues to detain the loop until the latter has escaped from the point of the rotating hook and commences to be drawn up by the ascent of the needle. The tightening of the stitch is effected in the usual manner by the combined action of the continued rise of the needle-arm and the continued rotation of the hook, except in sewing thick goods, when it receives an additional strain just before the loop is turned off the point of the book by the check. As theuecdle is completing its upward movement the forked arm H by its descent draws off thread from the spool F. In this action of the fork H its movement is sufificient to draw off more thread than is necessary to make a stitch. The quantity of. thread drawn through the gripper byth'e needle in its descent is gaged by the thickness of the cloth and the length of feed,and as it is desirable to have the upper and lower threads interlace in the middleot'the cloth the ditferencein th'equantity required by the needle for various thickness is equal to the difference of thickness, but the ac-. tion of the needle, nnl-ss it were connected by the action of the hook and check, as will be presently explained, would be to make the difference equal to twice that amount. This action is caused by the unfinished stitch and the location of the slack thread on the opposite side of the work to thatfrom which the needlethread is supplied, as we will now attempt to explain by the aid of Fig. 16. WVhe-n the eye of the needle reaches the cloth at; 30 the loop 22, below the table,.will be shortened by the thickness of the cloth. as shown at- 21, and when it has descendedjhrough the cloth the loop will be shortened again by the thickness of the cloth, as shown at 20. It the length of .lhe loop below the table-were the same in sewing thick as in sewing thin goods, the quantity of thread drawn from the spool would be such that the under or looking thread would be just drawn to the under side. The needle cannot commence drawing thread from the spool until it has drawn the loop below the cloth tight around the check, spool-case, and hook, on account of the friction on the thread produced by the friction-clamp J being greater than the-friction on the thread passing through the cloth at2l. Hence by causing the length of the loop to be decreased as the cloth increases in thickness the amount of the decrease will be free to be drawn up by the needie, which will correspondingly delay the commencement of drawing from the spool and the quantity taken. This is effected partly by the position of the shoulder ofthe hook and check at the time of commencing to draw thread from the spool and partly by the shape of the heel or tail of the hook over which the thread rests during the drawing of the thread. This is illustrated by Figs. 1., 15, both of which show the position of the parts at the time of commencing to take thread from the spool. Fig. 1 shows the positions witlrthick goods and Fig. 15 with thin goods. It will be seen in Fig. 15 that the rotating book has passed much farther and the loop is much longer, its th'r'ead being in a tortuous position, the pant passing over the 'heel resting on the fullest part 1. In Fig. 1 the hook is much less advanced, and the thread on the heel is in the lowest part, which produces the necessary shortening of the loop for the aforesaid-con rection. The length of the loop may be de creased to the desired extent by cutting out the heel at l.
The improvement in we feeding device is best illustrated in Fig. 12, in which and in Figs. 2 and. 3 '1. represents the feed-bar, applied under the work-plate in the manner common to what is known as the four-motion feed, and having the toothed dogU connected with it by a spring, V,'to permit'theupward and downward movement'to bite and release the cloth; but the dog, instead of being rigidly attached to the spring, as is usually the case, is arranged to rock, so as to adapt itself to any increase or diminution of thickness of the work, either sudden or gradual. The said dog is made'of a separate piece of steel, with a curved or rounded bottom, and a conical cavity'in the said bottom for the reception of the pointed end of an adjusting-screw, w, screwed through a block of metal, V, which is riveted or otherwise secured to the spring V. Portions 18 18 of the spring are extended beyond its connection-with the said block to press upon the flat upper surfaces of shoulders y 3 provided on the sides of the dog near the middle of its length, and so keep the dog on the point of the screw, on, which. it is free to rock to accommodate itself to the varying thickness of the Work. The vertical mo ement of the feeding-bar V, to cause the dog U to eugage with nal movement of the bar is produced by the broad inclined face of the same piece acting against the contact-surface y upon the lever Y, (shown partly in dotted lines in Fig. 3,)
which .lever acts against the projection V upon the feed-bar, and throws it forward in the directionthat the teeth ofthe'feed dog- U'are in-' cline'd. Theinovementof"tlie'system in the;
opposite direction is produced by the spring T. The face of the catn,W,which acts upon the lever Y, is made with the incline at the periphery-of sufiicient elevation to give the feeding-dog an extent of motion in the direc- -tion of the seam suificient for the longest stitch required to be made, and at the inner part next to the shaft of an elevation sufficient to make theshortest stitch desired to be'made, and the surface in a radial direction inclined from one to the other. I
The lever Y ismounted upon an axis, Z, which is made to slide longitudinally in bear- -ings in the frame A, transversely to-the shaft C, so as to present the, contact-surface 3 to that part of the cam W which will impart just the extent of motion to the feed-dog U that will give thedesired length to'thc stitches. The..-advantage in employing such a cam to actuate the feed-bar is that the contact-sun.
face'y of the lever Y bears constantly upon it,
whatevermay be the length of stitch to be made, so that the movements of the feeding mechanism are noiseless and without abrupt-- ness in any part, however fast the machine 1.. In a sewing-machine which forms the stitches'by' means of a needle and rdtating hook, as described, the delivering to the needle at each stitch a measured'length of the needle thread corresponding to the thickness of material to be sewed and the length of the stitches to be made, and the drawing up of such measured length of thread by a uniform and positive action to complete the stitch by means of the needle and its actuating meclr anism, and the gripper for holding and con trollingthe needle-thread above the cloth, and the rotating hook andloop-check forholding and distending the loop of needle-thread below the cloth, orother devices equivalent there to, so combined and arranged as to cooperate substantially in the manner herein described.
2. The employment, in combination with the devices which control the needle-thread in delivering the same to theneedle and tightening the stitch, of a device for drawing sufiicientthread from the bobbin to make the next stitch in advance of its delivery to the needle, substantially in the manner and for the purpose described.
3. Forming the clamping device or gripper for the needle-thread by a combination of the bent lever L with the plate K on the needlearm, or their equivalents, andoperated by the stop i on the connecting-rod M, substantially as described. I 4. The employment, in combination with the rotating book, of a spool-case placed diag onally to the axisof motion of the hook, and held in position by any'appropriate devices to enable a large bobbin to be used and the loop of needle-thread to be passed around it. more readily, substantially as described. 5.- The 'employment, in combination with a needle and rotating hook for manipulating the needle-thread, ot' the loop-check, so called, constructed and operating substantially as described.
6. The employment of a detachedor movaable feed-dog, as described; in combination withthefeeding mechanism, substantially as described.
Boston, August 16, 1862.
DWIGHT TRACY. GEO. HOBBS.
Witnesses HENRY CHAPIN, 0. F. HARRIS.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3197439A (en) * 1960-08-30 1965-07-27 Standard Oil Co Preparation of polyester resins
EP2311987A1 (en) 2003-04-15 2011-04-20 Intercell AG S. pneumoniae antigens

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3197439A (en) * 1960-08-30 1965-07-27 Standard Oil Co Preparation of polyester resins
EP2311987A1 (en) 2003-04-15 2011-04-20 Intercell AG S. pneumoniae antigens

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