US484212A - Apparatus for forming a knotless thread - Google Patents

Description

(No Model.) 2 SheetsSheet 1-.

' R. M. MACINTOSH APPARATUS FOR FORMING A KNOTLESS THREAD.

No. 484,212; Patented Oct. 11,1892.

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APPARATUS FOR FORMING A KNOTLESS THREAD.

No 484,212." Patented Oo,t.11, i89Z.

x w w UNITED STATES PkTE rOrrm.

ROBERT M. MAoINToSr o-F BOSTON, MASSACHUSETTS.

APPARATUS FOR FO RM ING A KNOTLESS THREAD;

SPECIFICATION forming part of Letters Patent No. 484,212, dated October 11, 1892.

Application filed February 26, 1892, Serial No. 422,851. (No model.)

To all whom it may concerm Be it known that I, ROBERT M. MACINTOSH, residing in Boston, countyof Suffolk, and State of Massachusetts, have invented an Improv'ement in Apparatus for Forming a Knotless Thread, of which the following description, in

connection with the accompanying drawings,

lengths having their ends tied together by hand into a firm knot. The-knots in the thread thus formed are usually too large to pass through the eye of the needles of boot.

and shoe stitching or sewing machines, and as a result the said needles are frequently broken.

My invention has for one of its objects to form a continuous thread from pieces, lengths, or sections of thread composed of a plurality of strands, which is free from knots and and which is thus made especially adapted for use on boot and shoe stitching or sewing machines.

My invention further consists in an apparatus of novel construction, as will be described, upon which the continuous thread may be made and upon which it may be wound into compact form, preferablyinto the form of a spool or cylinder. The apparatus referred tois also provided with a knot-catcher or stopping device, operated by a knot in the thread to automatically stop the apparatus to permit the knot to be removed from the thread.

Other features of my invention will be pointed out in the claims at the end of this specification.

Figure 1 is a rear elevation of an apparatus with which to practice my invention; Fig.2, a top or plan view of the apparatus shown in Fig. 1; Fig. 3, a detail on an enlarged scale of the knot-catcher or automatic stopping device; Figs. 4, 5, and 6, details to be referred to; Figs. 7 and 8,'details of the strand-unit ing portion of the machine, to be referred to 3 Figs. 9 and 10, diagrams to more clearly show the manner of unitingthe ends of two pleces of thread to form a continuous knotless thread;

Fig. 10,a diagram showing the united strands; Fig. 11, a detail to be referred to; Flg. 12, a

detail of the nippers or clamping-bars, to be referred to; and Fig. 13, a detail to be re- .ferred to.

The bed-plate or table A, supporting the operating parts ofmy improved apparatus,

may and preferably will be supported upon a ,floor or other foundation by suitable legs.

(Not herein shown.) The apparatus referred to is preferably made as herein shown, t consistin g, essentially, of three parts or portionsviz., a twisting and untwisting portion, a winding portion, and an intermediate strand-uniting portion. .The twisting and untwisting.

portion of the apparatus, preferably made as herein shown, consists, essentially, of a threadguide, shown as a hollow sleeve or shaft (1,

. supportedin an upright arm a on the hub a keyed on a rock-shaft a and adapted to be moved longitudinallyon Said shaft. The

' thread-guide a is provided at one end with a thread-holding device, preferably made as herein shown, it consisting of two nippers or clamps a a made as fiat bars extended through a slot in the hub 01. on the sleeve or thread-guide a, the said bars being provided near their opposite ends with studs or p1ns 2 3, extended into cam or eccentric slots 4. 5 in a disk 6, loose on the sleeve 0. and secured in place thereon, as herein shown, by a nut 7, which is screwed upon the end of the sleeve or thread-guide a, the said disk being frictionally held in proper position on the hub by a leather or .rubber washer 8, interposed between the disk 6 and nut 7.

The nipping bars or clamps a a are pro vided near their center with openings 50, (see Fig. 12,) through which the thread 00 may pass when the said bars are in their outermost position, as represented in Fig. 4. The bars a a are adapted to be moved inward by turning the disk a sothat the eccentric or cam-shaped slots 4 5 will force the two bars toward the center of the sleeve a, and thereby nip or firmly grip the thread between them The sleeve a may be rotated in opposite di rections, as herein shown, byv gearing which preferably consists of two friction wheels or disks a (1 fast on shafts or arbors a a", and

with which co-operates a friction-disk a fast on the sleeve a. The shafts a a have fast on them two gear-wheels (L in mesh with each other and by means of which the friction-disks a a are rotated in opposite directions. One of the shafts a a may be posi tively driven from a main shaft a, herein shown as located below the table A, it being supported in suitable bearings. (Not shown.) The main shaft a is provided, as herein shown, with a pulley 03 connected by the belt a to a pulley a" on the shaft a The shafts a a are supported in a suitable standard or upright a provided, as herein shown, with the upright arm a which supports the thread guard or shield (1 herein shown as asubstantially-V-shaped piece of metal, by means of which the thread LL is protected from any oil or dirt which might be thrown off by the gears 01, a. Normally the upright arm a stands in a substantially-vertical position and the friction-disk 0, is out of contact with the friction-disks a a and the thread-carrying sleeve a is at suchtime at rest or not in motion. The thread on, after leaving the sleeve 0., is passed through a knot-catcher, herein shown as two jaws made as bars a a secured together, as shown, by set-screws a flthe jaw a being shown as forming part of an arm 0, secured to a hub a loose on a post or upright a, attached to the table A. The jaw or arm a is separated from the jaw, or arm a a sufficient distance to permit the thread when free from knots to pass freely between them, but which distance is not sufficient to permit a knot in the thread to pass therethrough. The distance between the jaws or arms a 01, may be regulated to correspond to the size of the thread being operated upon by means of an adjustable stop, (shown as a screw a 9,) which is extended up through the jaw c and against which the jaw a abuts when the latter is secured to the jaw a by the set-screws a.

The hub a has secured to it a second arm a, which co-operates .with an arm a on a rock-shaft a 7 having hearings in the post or upright a and in a second support or upright located near the opposite end of the bed-plate and not herein shown. The thread a, after leaving the knotcatcher, passes over the strand-uniting portion of the machine, to be hereinafter described, and is secured on a bobbin a detachably carried by a bobbin-holder, shownas a forked arm or yoke (1 mounted on a shaft a, supported in suitable uprights a secured to the bed-plateor table A.

The winding portion of the machine consists, essentially, as herein shown, of a winding drum or cylinder I), mounted on a shaft 1), supported in suitable bearings, herein shown as uprights or standards 1) b attached to or supported by the table A. The ,wind' ing-drum shaft 1) has loosely mounted on it a pulley 12 connected by a belt I)? to a main driving-pulley b fast on the main shaft a, the said belt, as herein shown, passing under intermediate guide-pulleys b b on a shaft 17", supported in an upright b attached to the floor or other suitable foundation; Theloose pulley b has secured to or forming part of it a clutch-hub W, of any usual or well-known construction, it being provided with the annular groove Z7 engaged by the forked arm 5 secured to the rock-shaft a. huh I) is providedwith, preferably, two lugs b on its face, which are adapted-to be brought The clutchv into engagement with corresponding lugs I3 7 on a gear or pinion b", faston the shaft 19'.

The pinion b".meshes with an intermediate gear 19 in mesh with a gear I), fast on a shaft b on which is mounted a cam-hub 19 provided witha cam-groove Z1 into which is extended a stud or projection Z9 on a vibrating arm or lever 5 herein shown as pivoted at its lower end to a bracket b secured to the under side of the table A. The vibrating arm I9 is extended up through a slot 12* in the table A and is connected by a link b to a hub or sleeve Z9 loosely mounted on a rod 12 extended the length of the winding-drum b and supported in suitable arms 6 secured to or forming part of the uprights 6 b The hub Z2 has secured to or forming part of it an arm I), extended over the Windingdrum 1) and provided at its end with an eye, through which the thread Q22 is passed, the said arm and eye forming a reciprocating thread-guide, by which the thread is carried from one end of the bobbin toward the other. The reciprocating thread-guide is actuated by the engagement of the clutch-hub 19 with the gear b", which is accomplished with the mechanism shown by rocking the shaft a so as to bringthelugs b on theclutch-hubinto engagement with thelugs b on the pinion or gear I)". The shaft a maybe rocked into its starting positionby means of a handle a, which is turned down in the direction indicated byarrow 20, Fig. 2, and when the handle 0 is thus turned the arm a on the rock-shaft is moved downward in the direction of arrow 21, Fig. 3, and the knot-catcher is then turned to engage the arm 04 with the arm (1 of the rock-shaft, and when in this position the thread a may be inserted between the jaws or arms a 01, of the knot-catcher. The rock-shaft a is automatically turned in a direction opposite to that indicated by arrow 20, preferably by a spring 0', herein shown as encircling a post or upright c on the table A and a stud or pin 0 on the under side of the rocker-arm (1 The operation of the apparatus as thus far specified may be describedas follows: The thread (L22, after being passed through the thread-guide or sleeve a and through the jaws a c of the knot-catcher, is secured to the bobbin c and the latter is then placed in the bobbin-holding arms a, andthe latter are lowered to bring the thread on the bobbin in contact with the winding-drum b. The thread on the bobbin is maintained in contact with the surface of the winding-drum, as herein shown, by means of a spring 0 wound about the shaft 61 and one end of which engages the bobbin-holding arms a and the other end of which bears against the table A, the bobbin-holding yoke having secured to it an arm 0 provided with a weight 0 to assist the spring 0 in obtaining the desired frictional contact between the thread and the winding-drum. After the end of the thread c4 has been wound upon its bobbin and brought in contact with the winding-drum b the winding-drum may be started in rotation by turning the handle 0 in the direction indicated by arrow 20, so as to engage the clutchhub 12 with the pinion b", thus producing rotation of the winding-drum and at the same time reciprocating the thread-guide b The clutch-hub is maintained in engagement with the pinion b? by means of the arm (1 of the knot-catcher, which is brought over upon the arm 0, of the rock-shaft (1 as shown in Fig. 2, when the knot-catcher is turned into its operative position. (Represented in Figs. 1 and 2.) The machine continues to run and the thread is wound upon its bobbin (L35 until a knot in the thread engages the knot-catcher, and when this takes place the arm a is turned on its pivot or post 0. and the arm a of the knot-catcher is disengaged from the rocker-arm a thereby permitting the spring 0 to move the rock-shatter, in a direc tion opposite to that indicated by arrow 20, and move the clutch-hub Z9 and its pulley out of engagement with the pinion I)", thus stopping the winding motion of the drum 1). The operator then proceeds to remove the knot from the thread in the following manner: The disk 6 is first turned so'as to cause the nippers or clamps a a to firmly pinch or grasp the thread near the thread-guide a, and the portion of the thread near the windingdrum is then also firmly clamped by inserting it under a spring-jaw (Z, (shown separately in Fig. 7,) and which is secured to an upright d on a supplemental table d supported upon the table A by posts (1 It will thus be no ticed that the portions of the thread on either side of the knot are firmly clamped, and the length of thread between the clamps may be represented as shown in Fig. 9. The operator then rocks the shaft a so as to bring the friction wheel or disk a into engagement with one of the friction disks orwheels a a ac= cording to which wheel will produce the desired rotation of the thread to untwist that portion between the nippers a a and the spring-clamp 61. Let it be supposed that the friction-disk a when engaged by the friction wheel at will rotate the sleeve a in the direction to untwist the knotted portion of the thread. After the knotted portion of the thread has been untwisted the operator moves the hub a longitudinally on the rock-shaft a toward thewinding-drum or into a position substantially as represented by dotted lines in Fig. 1, which is preferably about half-way between the clamp 01 and the original or fullline position of the thread-guide a. From this it will be seen that the portion of the thread on either side of the knot between the nippers a a and the spring-clamp d is thus made slack. The operator then takes the slack ends and by means of a needle or other fine instrument separates the individual strands on opposite sides of the knot, after which the knot is cut off from the thread, leaving the slack portions of the thread severed into two parts D D, as shown on an enlarged scale in Fig. 10. The operator then places the end D of the slack portion in the spring-clampd and the portion D in the spring-clamp d located diagonally opposite on the table 01 The next step in the process consists in uniting the individual strands of the end portions D D, which is accomplished, as herein shown, by taking two strands of the end portions D D and placing them between the jaws of a movable spring-clamp d which is first moved toward one end of the machine as, for instance, at the end nearest the winding drum-and after the two individual strands have been inserted between the spring-jaws of the clamp d, so that they are substantially taut, the said strands are united by a square knot. After these two strands have been united they are removed from the spring-clamp d and the latter is moved on the table d away from the windjug-drum a suitable distance, according to the number of strands inthe thread being united'as, for instance, if the thread is composed of five strands-as herein represented, the movable spring-clamp d is moved awa from the winding-drum substantially one-fifth' the length of the table dahha when in this" position two more individual strands of the portions D D are inserted between thejaws of the said spring-clamp and united by a IIO square knot, after which the spring-clamp d is moved away from the winding-drum b another fifth of the length of the table, and two more of the individual strands are united by a square knot. This operation continues until all the individual strands have been united, after which the loose ends or surplus portions of the individual strands beyond the knots are cut oif, and a substantially small orindiscernible knot is left in each strand. When the strands of the portions D D are united and their loose ends severed, the knots in the individual strands will appear in the strands,

substantially as represented in the diagram Fig. 10, and it will be noticed that thelength of thread between the clamps, has been shortened substantially one half its original length. (Represented in Fig. 9.) After the individual strands of the loose portions D D have been united, as described, the cam-disk 6 is turned so as to unclamp the thread, and the latter is automatically twisted by the extra twist put in that portion of the thread betact with the friction-disk a.

hind the clamps a a in the original position of the thread-guide a. This extra twist in that portion of the thread behind the threadguide clamps a a is put into the said portion of the thread when the thread-guide a is rotated to untwist the knotted portionthat is, when the friction-disk (1 is brought into con- When the camdisk 6 has been turned to release the thread from the clamps or nippers a 0, the hub a is moved back on its rock-shaft a into its normal or starting position, and the cam-disk is then turned to again clamp the thread between the nippers a, a after which the friction disk or wheel a is brought in contact with the friction disk or wheel a to still further twist the portion of the thread which has been united, and in practice I prefer to give the thread a few extra twists by means of the friction-disk a After the extra twists re ferred to have been put into the thread, as described, the disk 6 is turned to release the thread,and when the thread is thus released the extratwists referred to will extend in both directions and equalize themselves.

When I the knotted individual strands .of the thread are twisted, the knot in each individual strand is covered or concealed by the remainingstrands of the thread, so that when the united portion of the thread has imparted to it the original number of twists the surface of the thread will be entirely free from knots and will be smooth and of substantially the same diameter as the unknotted portion of the thread. After the strands have been united, as described, and the united portion given the desired number of twists the operator again starts the machine in operation by bringing the clutch-hub 12 into engagement with the pinion b" and then placing the knot-catcherin its operative position. (Shown in Figs. 1 and 2.) The machine continues to run and winds the thread upon the bobbin at until it is again automatically stopped by a knot, or if the remaining portion of the thread should be free from knots until the machine is positively stopped by the operator disengaging the clutch-hub 19 from the pinion Z)".

By means of the thread-guide b extended over the surface of the winding-drum toward the bobbin, the distance between the eye of the thread-guide Z9 and the outside or periphery of the ball of thread is maintained substantially constant, irrespective of the diameter ofthe ball, and in this way a finer or closer winding is effected and a smaller and more compact roll 6, having a substantiallysquare end, is obtained.

hen the machine is first started, the bobbin (L35 is in contact with the winding-drum, and the distance between the surface of the bobbin and the eye of the thread-guide Z9 is the same as the distance between the eye of the thread-guide Z2 and the outside of the ball c after the latter has been formed and during all stages of the formation of the ball.

In this manner the thread between the eye of the thread-guide Z9 and the ball is always kept under tension and straight, so that a closer winding is effected and the ends of the ball or roll are substantially square or at right angles to the axis of the ball or roll. By making the jaws a a adjustable, as described, any desired thickness of thread may be treated.

I claim- 1. In an apparatus for forming a knotless thread from a knotted thread composed of a plurality of strands, the combination of the following instrumentalities, viz: a thread untwisting and twisting portion, consisting of a thread-guide, a clamp or thread-holding de- Vice, and means to actuate the said threadguide to untwist the thread, a winding mechanism consisting of a cylinder or drum, mechanism to operate it and a reciprocating threadguide, and an intermediatestrand-unitingportion consisting of stationary strand-holders and a movable strand-holder clamp, substantially as described.

2. In an apparatus for forming aknotless thread from a knotted thread composed of a plurality of strands, the combination of the following instrumentalities, viz: a winding mechanism consisting of a cylinder or drum, a bobbin-holder co-operating therewith, a driving mechanism for said winding mechanism, a reciprocating thread-guide movable in the direction of the length of the said cylinder or drum, a clutch to couple the winding mechanism to the driving mechanism, and a knot-catcher provided with jaws, between which the thread is passed and one of which is adjustable toward the other to correspond to the size of thread being operated upon, the said knot-catcher controlling the operation of the clutch in one direction and operated by a knot in the thread to actuate the clutch and disengage the winding mechanism from its driving mechanism, substantially as described.

3. In an apparatus for forming a knotless thread from a knotted thread composed of a plurality of strands, the combination of the following instrumentalities, viz: a threadguide and a clamp or thread-holding device, a winding mechanism, a driving mechanism for said winding mechanism, a reciprocating thread-guide co-operating with the winding mechanism, a clutch to couple the winding mechanism to the driving mechanism, a knotcatcher intermediate of the clamp and the winding mechanism controlling the operation of the clutch in one direction and operated by a knot in the thread to actuate the clutch, as described, and a strand-uniting portion consisting of stationary strand-holders and a movable strand-holding clamp, substantially as described.

.4. In an apparatus for forming a knotless thread from a knotted thread composed of 'a plurality of strands, the combination of the following instrumentalities, viz: a thread untwisting and twisting portion consisting of a. hollow thread-guide a, a hub a to which it is connected, a rock-shaft a on which the hub a is mounted to rock therewith and to move longitudinally thereon, means to revolve the thread-guide a in opposite directions, a threadclamping device carried by the said threadguide, a winding portion consisting of a winding drum or cylinder 1), a,bobbin-holder cooperating therewith, mechanism to rotate said drum or cylinder, a clutch to connect the winding drum or cylinder with the driving mechanism, a reciprocating thread-guide, and means to reciprocate the same, and a knotcatcher normally controlling the operation of the said clutchand adapted to be operated by a knot in the thread to permit the clutch to be operated to disengage the winding drum or cylinder from its driving mechanism, substantially as described.

5. The herein described strand uniting mechanism, consisting of a table or support d stationary strand holders d d, mounted thereon, and a movable strand-holder d substantially as described.

6. The combination, with the cylinder I), mounted on a table A, and mechanism to operate it, of a sleeve orhub Z9 loosely mounted on the rod 1), an arm Z9 secured to or forming part of the sleeve Z2 and extended over the cylinder 1) and provided at its end with an eye, a vibrating arm Z1 pivoted below the said table and extended up through the same, a link 5 joining the said vibrating arm with the sleeve, a cam to vibrate said arm, a bobbin-holder co-operating with the cylinder 1), and means to press the'bobbin-holder toward the said cylinder and keep the thread in engagement with the cylinder 12, substantially as described.

7. In an apparatus for forming a knotless thread from a knotted thread composed of a plurality of strands, the combination of the following instrumentalities, viz: athread untwisting and twisting portion consisting of a thread-guide, a clamp or thread-holding device, and means to actuate the said threadguide to untwist the thread, a winding mechanism consisting of a cylinder or drum, mechanism to operate it, and a reciprocatmg threadguide, and an intermediate strand-uniting portion consisting of one or more holders for the individual strands, substantially as described.

8. In an apparatus for forming a knotless thread from-a knotted threadcomposed of a plurality of strands, the combination of the following instrumentalities, viz a threadguide and a clamp or thread-holding device, a winding mechanism, a driving mechanism for said winding mechanism, a reciprocating thread-guide co-operating with the winding mechanism, a clutch to couple the winding mechanism to the driving mechanism, a pivoted knot-catcher intermediate of the clamp and the winding mechanism and having one arm provided with jaws through which the thread is passed and its other arm co-operat ing with and controlling the operation of the clutch in one direction and operated by a knot in the thread to actuate the clutch, as described, and a strand-uniting port-ion consisting of one or more strand-holders, substantially as described.

In testimony whereof I have signed my name to this specification in the presence of two subscribingwitnesses.

ROBERT M. MAOI'NTOSH.

Witnesses:

J AS. H. CHURCHILL, SADIE O. FEARING.

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