US2980044A - Loose stitching mechanisms for single needle lock stitch machines - Google Patents

Description

April 18, 1961 F. PARRY 2,980,044

LOOSE STITCHING MECHANISMS FOR SINGLE NEEDLE LOCK STITCH MACHINES 2 Sheets-Sheet 1 Filed April 17, 1958 INVENTOR Frank Parry April 18, 1961 PARRY LOOSE STITCHING MECHANISMS FOR SINGLE NEEDLE LOCK STITCH MACHINES 2 Sheets-Sheet 2 Filed April 17, 1958 Fig.2.

Frank Parry and.)

, 2,980,044 LOOSE STITCHING MECHANISMS FOR SINGLE NEEDLE LOCK STITCH MACHINES Frank Parry, Trumbull, Conn., assignor to The Singer Manufacturing Company, Elizabeth, N..l., a corporation of New Jersey Filed Apr. 17, 1958, Ser. No. 729,112

. 6 Claims. (Cl. 112154) This invention vrelates to lock stitch sewing machines and, more particularly, to mechanism in a lock stitch- It is a further object of this invention to provide a loose stitch producing mechanism which influences only a completely concatenated stitch and does not disturb or influence the normal disposition of the sewing threads during the actual stitch forming processes.

It is also an object of this invention to provide a loose stitch producing mechanism which may be applied readily to an existing lock stitch sewing machine.

With the above and other objects and advantages in view as will hereinafter appear, this invention comprises the devices, combinations and arrangements of parts hereinafter described and illustrated in the accompanying drawings of a preferred embodiment in which:

Fig. 1 represents a vertical cross sectional view of the bed portion of a lock stitch sewing machine having a loose stitch producing'mechanism of this invention applied thereto, I

Fig. 2 represents a top plan view of a portion of the bed of the sewing machine of Fig. 1,

Fig. 3 represents an enlarged cross sectional view of the stitching point of the sewing machine taken substantially along line 3-3 of Fig. 1,

Fig. 4 represents a cross sectional view of the driving cam for the slack producing finger taken substantially alongline 44 of Fig. 1,

Figs. 5 and 6 represent enlarged fragmentary cross sectional views of the stitching point taken transversely of the sewing machine frame and illustrating in Fig. 5 the position of parts at loop seizure and in Fig. 6 the position of parts at stitch setting,

Figs. 5A and 6A represent enlarged fragmentary cross sectional views of the stitching point taken longitudinally of the sewing machine frame and illustrating the position of parts corresponding to Figs. 5 and 6, respectively.

Referring to the drawings, this invention is illustrated as applied to a sewing machine of the type having a flatwork supporting bed 11 from which rises a bracket arm 12 a portion of which is illustrated in Figs. 1 and 2. A needle bar 13 carrying aneedle 14 is journaled for endwise reciprocation in the bracket arm and a presser bar 15 carrying a presser foot 16 is carried in the bracket arm for endwise motion and is spring biased downwardly to bear against athroat plate 17 carried on the work supporting bed. I

Driven from any conventional needle bar actuating shaft (not shown) in the bracket arm by means of a timing belt 18 is abed shaft 19 journaled beneath the work supporting bed. The bed shaft carries a feed driving eccentric 20 and a feed lift eccentric 21 each operably connected in a conventional manner to afeed dog 22 which operates upwardly throughslots 23 in the throat plate to feed a work fabric across the work supporting bed.

Thebed shaft 19 extends through a bushing'24 into United States Patent 0 4 2,980,044 Patented Apr. 18, 1961 2 anoil reservoir 25 formed beneath the bed. Aninternal gear 26 fast on the bed shaft within the oil reservoir is provided with an enlargedhub 27 providing a barrel cam formed with aperipheral cam groove 28. The cam groove may, if desired, be formed as a part of a separate cam member brazed or fixed in any other known manner to the bed shaft for rotation with theinternal gear 26.

Ahook shaft 29 journaled in abushing 30 and extending into theoil reservoir 25 has apinion 31 fixed thereon and the pinion is disposed in mesh with theinternal gear 26. At the outboard extremity beneath the needle, the hook shaft carries a rotary loop-taker 32. As illustrated in the drawings, the loop-taker is of the type referred to in the art as a rotary hook, however, this invention is applicable to any known form of lower lock stitch forming instrumentalities. In Fig. 5, only theloop seizing beak 33 of the loop-taker 31 is illustrated in' the interest of clarity. It will be understood that thelooptaker 32 in the embodiment illustrated in the drawings partakes of two revolutions for each reciprocation of the needle.

The upperwork supporting surface 34 of the throat plate is formed with aneedle aperture 36 of which the upper portion is formed as illustrated in Figs. 3, 5 and 6, with adepression 35 of which the end walls in the direction of feed are flared or inclined outwardly. Theneedle 14, in cooperating with the loop-taker in the formation of stitches, reciprocates endwise in a path which extends through theneedle aperture 36. It will be understood that although theinclined depression 35 is preferred, the needle aperture may be elongated in the direction of feed thereby eliminating thedepression 35 in favor of a plain elongated needle aperture.

At the right hand side of theneedle aperture 36 in Figs. 1 and 2, i.e., that side nearest thebracket arm 12, the throatplate is formed withslot 37 open beneath the throat plate and merging into thedepression 35 of the needle aperture. Theslot 37 may be made shallow and formed completely in the throat plate, or as illustrated in Figs. 2 and 5A of the drawing, the slot may be' cut completely through the throat plate and closed at the top by athin cover plate 38 secured to the throat plate byscrews 39. Disposed in theslot 37 is afinger 40 which extends transversely of the line of feed, as determined by thefeed dog 22, and behind theneedle aperture 36 considered in the direction of feed, as indicated by the arrow in Fig. 6. Thefinger 40 is offset upwardly from abase portion 41 which is secured as by ascrew 42 to aslide bar 43 which is longitudinally slidable in aslideway 44 formed lengthwise in thework supporting bed 11. Theslide bar 43 is slabbed angularly at 45 and is fitted in the slabbed portion with acam follower pin 46 secured to the slide bar by means of anut 47 and disposed to track thecam groove 28. Acover plate 48 secured byscrews 49 over theslideway 44 constrains the slide bar in the slideway. Thecover plate 48 is formed with an aperture 50 exposing the nut ,47. Acover block 51 is secured byscrews 52 over the Thecam groove 28,.i's formed with two axially offset portions 28' and 28''. The offset portion 28' extends for approximately 270 of the periphery of the cam and theportion 28" extends for approximately of the periphery. The slide bar will thus be oscillated lengthwise of the work supporting bed, or in other words, perpendicular to the line of feed of the sewing machine, in

unison with the reciprocation of the needle. Preferably, thecam 27 is timed such that thefinger 40 under the influence of theoffset portion 28 of the cam groove will be shifted toward the free end of the work supporting bed and into a position crossing the line of stitch formation behind the needle aperture, as illustrated in Figs. 1, 6 and 6A, during the interval that the needle is raised out of the work. Similarly, the shorter interval during which thefinger 40 is retracted to one side of the line of stitch formation by theoifset portion 28" of the cam groove preferably coincides with that interval during which the needle is penetrating the work, as illustrated in Figs. and 6.

The operation of this invention is best described by initial reference to Fig. 5 of the drawings which illustrates the position of the parts at the stitching point of a sewing machine at that point in a cycle of stitch formation in which a loop of the needle thread n is being seized by the loop-taker. Thefeed dog 22, having completed its active stroke, is partaking of its return or idle motion and the bobbin thread, indicated at b, extends from the previous stitch in the work along the inclined endwall of the depression 35in the throat plate and thence through theneedle aperture 36 and to the bobbin. Theneedle thread 11 presented by theneedle 14 through the work and the throat plate will extend vertically while the needle remains in the work. Thus, owing'to the novel formation of thedepression 35 in the throat plate, a triangle is formed between the bobbin thread and the needle thread leading from the previous stitch.

As illustrated in Figs. 6 and 6A, thefinger 49 is shifted endwise into the triangle defined by the bobbin and needle threads leading from the preceding stitch. After the bobbin thread has been concatenated with the needle thread and while the stitch is being set into the work during the upstroke of the needle, the bobbin thread willv be detained about thefinger 40 as illustrated in Figs. 6 and 6A. On the succeeding downstroke of the needle, thefinger 40 will be withdrawn from the stitch releasing the bobbin thread which will then have that amount of slack or looseness measured by the length required to extend about thefinger 40.

Since thefinger 40 is moved out of the line of stitch formation, and consequently, out of engagement with the sewing threads during the work penetrating portion of the needle reciprocation, as illustrated in Figs. 5 and 5A, thefinger 40 cannot adversely affect the stitch forming process. Thefinger 40 is not moved into position to be engaged by the sewing threads until after concatenation of the sewing threads has occurred. Thefinger 40 thus influences only the stitch setting portion of a stitch forming cycle and, therefore, cannot have any adverse effect upon the thread handling characteristics of any existing lock stitch sewing machine to which this invention is applied.

Having thus set forth the nature of the invention, what I claim herein is:

1. In a lock stitch sewing machine having a frame, a work supporting throat plate carried on said frame and formed with a needle aperture and feed dog slots, a needle journaled in said frame for endwise reciprocation through said needle aperture, and a feed dog operable through said slots to feed a work fabric in a predetermined direction, mechanism for producing loose stitches comprising, a lengthwise elongate finger having a free extremity contained within the thickness of said throat plate, means supporting said finger lengthwise substantially perpendicular to said direction of feed and Widthwise beyond said needle aperture considered in the direction of feed, and means for shifting said finger lengthwise to move the free extremity of said finger into and out of a position across a line extending through said needle aperture and in the direction of feed.

2. 1m, a lock stitch sewing, machinehaving .a frame, a,

in the formation of stitches, and a work feeding mecha nism operable to advance a work fabric in a predetermined direction across said frame, mechanism for producing loose stitches comprising a throat plate carried on said frame and'having a work supporting top surface, the work supporting surface of said throat plate being formed with a needle aperture, a lengthwise elongate finger having a free extremity disposed in said throat plate needle aperture and extending lengthwise substantially perpendicular to said direction of feed and widthwise beyond the path of reciprocation of said needle considered in the direction of feed, and means for shifting the free extremity of said finger in a direction parallel to the length of said finger into and out of a position across a line extending through the path of reciprocation of said needle and in the direction of feed.

3. A device as set forth in claim 2 in which said throat plate is formed at one side with a passageway extending perpendicular to said line through the path of reciprocation of said needle and in the direction of feed merging into said needle aperture, said finger extends through said passageway, and the means for shifting the free extremity of said finger is carried within said sewing machine frame.

4. In a lock stitch sewing machine having a frame ineluding a bed, a work penetrating needle journaled for endwise reciprocation in said frame, a loop-taker carried in said bed and disposed to cooperate with said needle in the formation of lock stitches, a bed shaft journaled in said bed, means for rotating said bed shaft once for each reciprocation of said needle, an operative connection between said bed shaft and said loop taker, and work feeding mechanism operable to advance a work fabric in a predetermined direction across said frame, mechanism for producing loose stitches comprising a throat plate carried on said bed and having a work supporting top surface, said top surface of said throat plate being formed with a depression and said throat plate being formed with a needle aperture at the bottom of said depression and with a passageway disposed at one side of said needle aperture extending perpendicular to the line through the path of reciprocation of said needle and in the direction of feed and merging into said depression, a lengthwise elongate finger extending through said passageway and having a free extremity disposed in said throat plate depression and extending lengthwise substantially perpendicular to said direction of feed and widthwise beyond said needle aperture considered in the direction of feed, and means for shifting the free extremity of said finger in a direction parallel to the length of said finger into and out of a position across a line extending through said needle aperture and in the direction of feed, said means including a cam fast on said loop-taker drive shaft, a cam follower tracking said cam, and means operatively connecting said cam follower with said finger.

5. A sewing machine as set forth inclaim 4 in which said bed shaft carries a loop-taker driving gear, a looptaker drive shaft journaled in said bed, a pinion fast on said loop-taker drive shaft and in mesh with said bed shaft gear, and said cam being fast on said loop-taker driving gear.

6. A sewing machine as set forth inclaim 4 in which said cam is a barrel cam formed with a peripheral cam groove timed to shift said finger into said position across a line extending through said needle aperture and in the direction of feed while the needle is out of the work, and out of said position during work penetration by the needle.

References Cited in the file of this patent UNITED STATES PATENTS

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