US2813501A - Method of decorating a fabric with superposed thread - Google Patents

Description

N. SHOTSKY Nov. 19, 1957 METHOD OF DECORATING A FABRIC WITH SUPERPOSED THREAD Original Filed March 22, 1951 4 Sheets-Sheet 1 N. SHOTSKY Nov. '19, 1957 METHOD OF DECORATING A FABRIC WITH SUPERPOSED THREAD Original Filed March 22, 1951 4 Sheets-Sheet 2 INVENTOR. M47144 7 Sword/w BY f 224016 a vNov. 19, 1957 N. SHOTSKY 2,813,501 METHOD OF DECORATING A FABRIC WITH SUPERPOSED THREAD Original Filed March 22, 1951 4 Sheets-Sheet 3 BY M ,A-M-s JM 64AM Nov. 19, 1957 N. SHOTSKY 2,313,501

METHOD OF DECORATING A FABRIC WITH SUPERPOSED THREAD Original Filed March 22, 1951 4 Sheets-Sheet 4 INVENTOR. 11 47/04 Swans/ V BY l AAA/v United States atent O M METHOD OF DECORATING A FABRIC WITH SUPERPOSED THREAD Nathan Shotsky, Brooklyn, N. Y., assignoi' of one-fourth to Hersch Zaudcrer, one-fourth to Benjamin Zauderer, and one-fourth to David H. Turkel, all of Brooklyn,

Original application March 22, 1951, Serial No. 216,990, now Patent No. 2,687,703, dated August 31, 1954. and this application August 3, 1954, Serial No.

3 Claims. (Cl. 112-266) This invention relates to improvements in method and apparatus in a multiple-needle automatic quilting machine.

One object of the present invention is the provision of a novel mechanism and method for securing superposed threads to the surface of traveling fabric in a decorative pattern.

Another object of this invention is the provision of a novel mechanism for securing superposed threads to the surface of traveling fabric which is readily attachable to a conventional multiple-needle automatic quilting machine.

Another object of this invention is the provision of a novel automatic mechanism for securing superposed threads to the surface of traveling fabric which is readily adaptable to produce an infinite number of decorative surface patterns by a simple and quick machine adjustment and by the use of a variety of threads.

Another object of this invention is the provision of a novel automatic mechanism for securing a superposed thread to the surface of traveling fabric by lock-stitching with the stitching embracing and frictionally engaging the superposed threads.

Another object of this invention is the provision of a novel automatic mechanism and method for securing superposed threads to the surface of traveling fabric to produce shirred fabric and shirred and quilted fabric by a very simple, economical, and efficient means and method.

Another object of this invention is the provision, as a new and novel article of manufacture, of fabric having superposed thereon a plurality of threads in a pre-selected decorative pattern.

Another object of this invention is the provision, as a new and novel article of manufacture, of fabric having superposed thereon a plurality of threads in a pre-selected pattern to form shirred fabric or shirred and quilted fabric.

Another object of this invention is the provision, as a new and novel article of manufacture, of fabric having superposed thereon a plurality of threads in a pre-selected decorative pattern with the threads being secured to the surface of the fabric by automatic machine lock siitchin'g.

Another object of this invention is the provision of a new and novel threading needle for use in threading a multiple-needle automatic quilting machine having mechanism for securing a superposed thread to the surface of traveling fabric.

Yet another object of this invention is the provision of a new and novel method of threading superposed threads in a multiple-needle automatic quilting machine having a mechanism for securing superposed threads to the sur- Fig. 1 is a front perspective view of a multiple-needle automatic quilting machine embodying the improvements ofthe present invention;

Fig. 1A is a partial top view of the superposed thread supply system;

Fig. 2 is a plan view of the pressure plate, reciprocable bars, and the drive for the reciprocable bars with the bars shown in their left extreme position;

Fig. 3 is a view similar to Fig. 2 with the bars shown in their right extreme position;

Fig. 4 is a partial detail view of the bottom of the pressure plate; L

Fig. 5 is a sectional view taken on the line 5-5 of Fig. 2 and showing the needles in both of their extreme positions;

V Fig. 6 is a sectional view taken on the line 6-6 of Fig. 2;

Fig. 7 is a partial detail view showing the method of lock stitching the superposed thread to the fabric;

Fig. 8 is a transverse cross sectional view through the pressure plate showing the method of threading the superposed thread in the reciprocable bars;

Fig. 9 is an elevational view of the threading needle fixed to a handle;

Fig. 10 is a plan View of a fabric segment having superposed thereon threads in a pre-selected quilted pattern;

Fig. 11 is a plan view of a fabric segment having superposed thereon elastic threads to form shirred and quilted fabric;

Fig. 12 is a plan view of a fabric segment having superposed thereon elastic threads to form shirred fabric;

Fig. 13 is a side elevational view showing a pair of reciprocable needles and their driving means in both extreme positions;

Fig. 14 is a schematic illustration of the path of travel of the fabric from the supply roll to the processed fabric roll;

Fig. 15 is a partial plan view showing the path of fabric travel relative to the reciprocable needles;

Fig. 16 is a partial plan view showing the motor drive and transmissionto the cam drive for the carriage;

Fig. 17 is a detail partial plan view showing the cam drive for the carriage;

Fig. 18 is a detailed view in side elevation of the reciprocable needle driving means; and

Fig. 19 is a front elevational view of the traveling fabric guiding apron.

With reference to Figs. 1 and 1A the multiple-needle automatic quilting machine 10, embodying the present invention, comprises a supporting base 12; a reciprocating carriage 14, a fabric rest plate 16, a pressure plate 18, banks of reciprocable needles 20, a fabric supply roll 22, a processed fabric roll 24, feed rollers 26, a. thread rack 28, superposed thread supply structure 30, frame structure 32, and motor drive and transmission structure 34. The thread rack 28 is adapted to support a plurality of thread supply spools 35 in which the threads 38 of the spools feed downwardly to the banks of needles 20. The superposed thread supply structure 30 comprises a pair of support members 40 which are adapted to support the superposed thread supply roll 42, which roll is utilized for a purpose to be described fully hereinafter. The threads 48 from the superposed thread supply roll 42 are fed to a horizontal spring guide 44 from which the threads 48 are fed to the surface of the traveling fabric 11 in a manner to be described in detail hereinafter.

With reference to Fig. 14 there is shown a schematic illustration of the path of travel of the fabric 11 from the supply roll 22 to the processed fabric roll 24. The

traveling fabric 11 passes onto the guiding apron 36 from.

which it is fed between the fabric rest plate 16 and the pressure plate 18 by means of the feeding rollers 26. The feeding rollers 26 are driven intermittently at a constant speed from the main drive shaft 46 (Fig. 16). From the feeding rollers 26 the fabric is fed to the processed fabric roll 24. With reference to Fig. 1, the fabric rest plate 16 is fixed to, and reciprocates with, the reciprocating carriage 14, whereas the pressure plate 18 is mounted on the automatic quilting machine independently of said carriage 14. The fabric rest plate 16 is fixed to the carriage 14 in any conventional manner and it is to be understood that said rest plate and carriage combination is conventional in all respects.

In a conventional multiple-needle automatic quilting machine the banks of needles 20 are adapted to bond or sew together a plurality of layers of cloth or other textile material by stitching them automatically in various decorative patterns. The present invention provides for an attachment for such a conventional multiple-needle automatic quilting machine for securing a superposed .thread to the surface of the traveling fabric 11 in any pre-selected decorative pattern.

With reference to Figs. 2 to 4 applicants attachment mechanism for securing the superposed thread 48 to the surface of the traveling fabric 11 comprises a longitudinally slotted pressure plate 18 and a plurality of bars 52. The pressure plate 18 is longitudinally slotted at 54 and the bars 52 are adapted to mate with the slots 54. The pressure plate 18 has a plurality of spaced cut-out portions 50 which are used for a purpose to be described in detail hereinafter. Bridging the bars 52 is a transverse connector member 56 which is fixed to the bars 52 and which is adapted to synchronously reciprocate said bars relative to the pressure plate 18. In order to effect the reciprocation of the connector member 56 and thereby effect the reciprocation of bars 52, there is provided a rotating cam 58 which is driven from the main drive shaft 46 by means of the chain drive 60 and gear 62. Rigidly secured to the connector member 56 is a cam follower 64 which is adapted to ride in the slot 66 of the rotating cam 58 to impart tothe bars 52 an intermittent reciprocating motion, as will be evident from Figs. 2 and 3. There is provided in the plate 18 a plurality of spaced slots 68 which are adapted to cooperate with the posts 70 fixed to the bars 52 for guiding the bars 52 during their reciprocation. In Fig. 2 the bars 52 are shown in their left extreme position Whereas in Fig. 3 the bars 52 are shown in their right extreme position, the reciprocating and positioning of said bars being effected by the previously described rotating cam 58 and follower 64. Bars 52 have a plurality of spaced integral protuberances 72 which are adapted to guide the superposed threads 48 relative to the surface of the traveling fabric 11. There are pro vided aligned, transverse apertures 74 passing through the bars 52 and protuberances 72, said apertures 74 being adapted to receive a superposed thread 48 from the feed source or supply roll 42. It will be readily apparent that the protuberances 72, being integral with the bars 52, will intermittently reciprocate with said bars 52 between the extreme positions shown in Figs. 2 and 3. The exact shape and design of the protuberances 72 is not of controlling significance and any protuberances 72 may be utilized in the system to effect the proper positioning and guiding of the superposed thread 48 relative to the surface of the traveling fabric 11. Spaced cut-out portions 50, of the pressure plate 18, are located complementary to the protuberances 72 and to the area adjacent to the transverse apertures 74, to provide clearance for said protuberances and the area adjacent to the transverse apertures 74 on the reciprocation of the bars 52. The cut-out portions 50 are also provided to effect clearance for threading the protuberances 72 and the transverse apertures 74 with a superposed thread 48 as will be more fully described hereinafter.

The banks of needles 20 comprise a plurality of spaced needles 76 mounted in two rows with a predetermined number of needles in each row (Figs. 5 and 6). It will be readily understood that any number of rows of needles, and any number of needles in each row, may be used depending on the decorative pattern selected.

With reference to Figs. 13 and 18, the needles 76 are adapted to reciprocate vertically in a fixed path to lockstitch the superposed threads 48 to the surface of the fabric 11. All the needles 76 reciprocate in unison and both rows of needles are secured to the needle bracket 78 in any conventional manner as by screws 80. The needles 76 are reciprocated between the extreme positions shown in Fig. 13 by means of eccentric 82, connecting link member 84, and arm 86 connected to the shaft 88. It will be understood that on the rotation of the main drive shaft 46, needles 76 are reciprocated intermittently in a predetermined sequence as more fully described below. The protuberances 72 of the reciprocable bars 52 are adapted to reciprocate across the fixed needle path sequentially whereby on one down stroke of the needle 76 the latter enters the travelling fabric 11 to stitch the superposed thread 48, with the protuberances 72 positioned adjacent to and at one side of said needles, and on the next down stroke of said needles the latter again enters the fabric 11 to stitch the superposed thread 48, with the protuberances 72 positioned adjacent to and at the other side of said needles, to complete a cycle. Thus it will be seen that the protuberances 72 are adapted to reciprocate across the paths of the needles in timed sequential relationship with respect to the needles 76 whereby on the down stroke of said needles the latter penetrates the traveling fabric 11 to stitch the superposed threads 48 to said fabric with the thread-bearing protuberances 72 positioned adjacent to and on alternate sides of said needles 76. The protuberances 72 thereby guide the superposed threads 48 relative to the surface of the traveling fabric 11 and the path of the needles 76. The superposed threads 48 are lock-stitched to the fabric 11 by the needles 76 and it will be seen that each stitch will be in substantial alignment and on alternate sides of the superposed threads 48. It will be understood that the intermittent axial reciprocation of the bars 52 may be sequentially timed with the reciprocable needles 76 as described above in any conventoinal manner.

In operation, threads adapted to lock-stitch the superposed threads 48 to the surface of the fabric 11 are fed from the spools 35 to the apertures 90, of the needles 76, whereas the superposed threads 48 are fed from the supply roll 42 to the spring guide 44 and are then threaded through the aligned transverse apertures 74, passing through the bars 52 and protuberances 72. From the above it will be seen that the needles 76 reciprocate in a fixed vertical path whereas the superposed thread 48 is reciprocated in a horizontal plane relative to the surface of the traveling fabric 11 and the needles 76. Although the superposed threads 48 reciprocate in the above described manner, in the final product said superposed threads are restrained straight by means of the lockstitches 92 as shown in the fabric segment 94, illustrated in Fig. 10.

In order to allow the traveling fabric 11 to intermittently pass between the rest plate 16 and the pressure plate 18, the pressure plate 18 is adapted to reciprocate intermittently, relative to the plate 16 of the machine 10, in a vertical path. The vertical movement of the pressure plate 18 is a relatively small amount and there is sufficient clearance between the inner end of follower 64 and the bottom of slot 66 to permit such small vertical movement. With reference to Figs. 5 and 13, this reciprocation of the pressure plate 18 is effected by means of a shaft 98, fixed to said plate, transverse member fixed to shaft 98, and follower 102, mounted on member 100, which rides on cam 104 and which is integral with the shaft 88. It will be apparent from Fig. 13 thaton the rotation of the shaft 88 the cam 104 will intermittently reciprocate shaft to which is secured the pressure plate 18.

The carriage 14 reciprocates intermittently in a horizontal plane by means of cam plate 106 (Fig. 17), The carriage 14 is provided with frame structure 108 to which is attached horizontal members 110 outboard of said frame 108. A pair of spaced cam followers 112 is secured to plate 114 which is in turn fixed to the members 110, the followers 112 being adapted to cooperate with the rotating cam plate 106 whereby on the rotation of said cam plate 106 the frame 108 and the carriage 14 will be intermittently reciprocated. With reference to Fig. 16, the cam plate 106 is driven from the main shaft 46 through the intermediary of the gear case 116 and transmission gears 118 and 120, the gear 120 driving the cam shaft 122 and the cam plate 106. The main shaft 46 is driven from any suitable power source such as motor drive 124 and belt 126. A hand wheel 128 is connected to main drive shaft 46 to manually drive machine It will be understood that the bars 52, the needles 7 6, the pressure plate 18 and the carriage 14 are all driven from motor drive 124 with a constant speed intermittent motion and are all sequentially timed to properly coordinate their relative movements.

In Fig. 7 there is shown the method of lock-stitching the superposed threads 48 to the travelling fabric 11. The superposed threads 48 rest on the surface of the traveling fabric 11 and the needle 76 bearing the front thread 130 of the lock-stitch penetrates the fabric 11. This forms a loop from the thread 130 at which time the shuttle 132 bearing the rear thread 134 of the lock-stitch passes through the loop and on the retraction of the needle 76 the loop formed by the thread 130 is closed, therebyforming the lock-stitch. It will be understood that the front thread of the lock-stitch 130 is fed from the spools 35 mounted in the thread rack 28 and has its end fixed in the fabric 11. The shuttle 132 reciprocates in a shuttle receptacle (not shown) in a conventional manner. The above described lock-stitching method and apparatus, without relation to the superposed threads 48, operates on the conventional lock-stitch sewing machine principle which is used in conventional multiple-needle automatic quilting machines.

In order to thread machine 10 with the superposed thread 48 there is provided a threading needle 148 fixed in handle 136 (Fig. 9), the threading needle 148 comprising a straight shank 138, a connected generally arcuate portion 140, forming a generally obtuse angle with the shank 138, and a generally straight portion 142 extending from the portion 140 inwardly toward the shank 138, the straight portion 142 forming an obtuse angle with the generally arcuate portion 140. The portion 142 has a hooked end 144 which is adapted to engage the thread 48 and the portions 138, 140 and 142 are all integral, the shank 138 being suitably secured to the elongated handle 146. With reference to Fig. 8, the method of threading the superposed threads 48 to the bars 52 and protuberances 72 comprises the steps of mounting the hooked threading needle 148 into a cut-out portion 50 and through the transverse apertures 74 from the opposite side of said apertures to the direction of thread travel from the feed source 42, hooking the thread 48, and retracting or backing the threading needle 148 out of the transverse apertures 74 and the complementary cut-out portion 50. It will be understood that the above threading method provides for the thread 48 being hooked at 144 of needle 148 in a doubled condition and being pulled through the apertures 74 to thread the bars 52 with the superposed thread 48.

The above described apparatus also provides a method of shirring fabric by securing a superposed elastic thread to the surface of the travelling fabric 11 in any pre-selected decorative pattern. The method is carried out by supplying elastic threads 48 to the superposed thread feed source 42 and feeding said elastic threads to the fabric 11 under tension in any conventional manner. In other words, elastic threads are substituted for inelastic threads at the thread supply source 42 and said elastic threads are fed under tension. In Fig. 12 there is shown a segment of shirred fabric 150 which is formed in accordance with the above method by superposing on the fabric an elastic thread 48 and securing said thread to the surface of the fabric 11 under tension so that the thread is secured to the fabric in a pre-selected position, and on the tension release of the elastic thread 48, a shirred decorative surface pattern is formed in the fabric.

The above described method may also be used for shirring and quilting fabric by securing superposed elastic threads to the surface of traveling fabric 11 to form a quilted pattern in any pre-selected design by the use of superposed elastic threads 48. With reference to Fig. 11 there is shown a segment of shirred and quilted fabric 152 having superposed thereon a plurality of elastic threads 48 in a pre-selected decorative pattern with the elastic threads 48 being secured to the surface of the fabric under tension by lock-stitching. It will be apparent that the lock-stitching as previously described embraces and fractionally engages the threads 48 in a staggered path whereby said threads are secured to the fabric in a pre-selected quilted pattern so that on the tension release of the elastic threads 48, a shirred and quilted decorative surface pattern is formed in the fabric. It will be readily understood that the fabric segments 150 and 152 are formed by the use of the apparatus of the present invention with the superposed thread supply source 42 supplying elastic threads 48. In Fig. 10 there is shown a fabric segment 94 in which the superposed thread 48 is inelastic and is formed in a quilted pattern, whereas in Fig. 11 there is shown a fabric segment 152 bearing the same superposed thread surface design in which the superposed thread 48 is elastic. In Fig. 15 there is shown the path of travel of the fabric 11 relative to the reciprocable needles 76, it being understood that the needles 76 reciprocate in a fixed vertical path whereas the fabric 11 reciprocates with the carriage 14 in a fixed horizontal path.

With reference to Fig. 19 there is shown a front view of the fabric guiding apron 36, which is provided with a plurality of ribs 37, for guiding the travelling fabric 11 from the fabric supply roll 22 to the rest plate 16 and the pressure plate 18.

It will be readily understood that the travelling fabric 11 reciprocates with the carriage 14 in a predetermined sequence as described above to form various patterns in the fabric such as is shown in Fig. 10. The rate of feed of the travelling fabric 11 may be varied to get any desired number of stitches per inch or running length of the fabric. As is conventional in multiple-needle automatic quilting machines, the design or pattern to be sewed on the travelling fabric 11 is governed by three factors,

the cam plate 106, the gearing for the feed rollers 26 and the arrangement of the needles 76. By varying these three factors in any combination a different design or pattern may be sewn on the travelling fabric 11. With reference to Fig. 10, altering the cam plate 106 alters the width 154 of the diamond 156 of fabric segment 94. By changing the gears of the feed rollers 26, the length 158 of the diamond 156 is varied, and by changing the needle spacing arrangement on the needle bracket 78 the width 154 of the diamond 156, relative to the length 158, is varied. From the above it will be seen that the number of variations of designs or patterns that may be formed on the surface of the travelling fabric 11 is practically unlimited. Continuous straight line stitching may be accomplished by using but a single row of needles and locking the carriage 14 against reciprocation.

Thus it will be seen that the above invention provides for a novel mechanism, for securing superposed threads to the surface of travelling fabric, which is readily attach able to a conventional multiple-needle automatic quilting machine. It will also be seen that the above invention is readily adaptable to produce an infinite number of decorative surface patterns by a simple and relatively quick machine adjustment and by the use of a variety of threads. It will also 'be seen that the above invention also may be used to produce shirred fabric and shirred and quilted'fabric by a very simple, economical, and efiicient means and method. There is also provided a new and novel threading needle for utilization in threading a multiple-needle automatic quilting machine embodying the mechanism of the present invention.

While there is shown and described herein certain specific structure embodying the invention it will be manifest to those skilled in the art that various modifications and rearrangements of the parts may be made without departing from the spirit and scope of the underlying inventive concept and that the same is not limited to the particular form herein shown and described except insofar as indicated by the scope of the appended claims.

Having thus described my invention, what I claim and desire to secure by Letters Patent, is:

1. A method of decorating a fabric with a stitched superposed thread, comprising the steps of simultaneously feeding threads to a pair of needles spaced linearly of one another in a predetermined direction, moving the fabric simultaneously in the said predetermined direction and laterally of said direction according to a preselected pattern, stitching the said threads to the surface of the fabric by the said needles to form a decorative design in the said surface according to the said preselected pattern.

2. A method of decorating a fabric With a stitched superposed thread, comprising the steps of simultaneously feeding threads to a pair of needles spaced linearly of one another in a predetermined direction, moving the fabric simultaneously in the said predetermined direction and laterally of said direction according to a preselected pattern, reciprocating said threads in a direction transverse the path of said needles, stitching the said threads to the surface of the fabric by the said needles to form a decorative design in the said surface according to the said preselected pattern.

3. A method of shirring and decorating a fabric with a stitched superposed thread, comprising the steps of simultaneously feeding elastic threads under tension to a pair of needles spaced linearly from one another in a predetermined direction, moving the fabric simultaneously in the said predetermined direction and laterally of said direction according to a preselected pattern, stitching the said elastic threads to the surface of the fabric by the said needles to form a shirred decorative design in the said surface according to the said preselected pattern.

References Cited in the file of this patent UNITED STATES PATENTS D. 107,821 Fellegi Jan. 4, 1938 260,994 Koch July 11, 1882 370,246 Cornely Sept. 20, 1887 379,477 Koch Mar. 13, 1888 2,165,469 Fellegi July 11, 1939 2,343,614 Harpham Mar. 7, 1944 2,525,312 Prazak et al. Oct. 10, 1950 2,564,959 Corallo Aug. 21, 1951 2,615,409 Nogler et al Oct. 28, 1952 2,649,062 Nogler et al Aug. 18, 1953 FOREIGN PATENTS 66,833 Norway Dec. 20, 1940

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