Description:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to machines for manufacturing border panels, which encircle the periphery of a mattress and are sewn to the top and bottom face panels of the mattress to form an envelope completely enclosing the mattress.
2. Description of the Prior Art
Border panel manufacturing machines are old, see Jas. A. Cash U.S. Pat. No. 3,371,630 granted Mar. 5, 1968. It is old to provide two heads for simultaneously sewing hems into the opposite long outer margins of a single border panel. The relative positions of the heads are adjustable to accommodate panels of different widths but the position of each head is fixed during each hemming operation.
The Bell U.S. Pat. No. 2,611,910 shows an elongate zipper centrally mounted upon a border panel composed of one layer of fabric. The Marsico U.S. Pat. No. 3,287,749 granted Nov. 29, 1966 shows an elongate zipper mounted on an elongate border panel composed of multilayers or components wherein the manufacturing process comprises: providing a 1st border panel component assembly of fractional width; similarly providing a 2nd border panel component assembly of fractional width; sewing the 1st assembly to form the "left half" of a given border panel of full width; sewing the 2nd assembly to form the "right half" of the same border panel of full width; and thereafter sewing one elongate half of a zipper into the left half of the given panel and separately sewing the other elongate half of the zipper into the right half of said panel.
SUMMARY OF THE INVENTION of Objects Of the Invention
The principal object of the present invention is to provide a flexible border panel manufacturing machine which, in one operation, is capable of simultaneously sewing together the strip-like component assemblies of two different border panels of the same or different full widths and which, in another operation, is capable not only of sewing two separate border panel component assemblies of half width (or appropriate fractional widths) into one integrated border panel of full width but also of simultaneously sewing into the respective halves (or fractions) of that border panel component assembly a centered (or off-centered) closed zipper strip arranged between them.
Another important object is to provide a flexible border panel manufacturing machine of higher capacity and of simple design, which is easy to make, assemble, operate and maintain and the parts of which are more accessible for repair and maintenance purposes.
Statement of the Invention
The principal object of the present invention can be readily achieved by widening the machine to receive two side-by-side panel component assemblies of full width; providing the machine with two sewing heads separately mounted for transverse reciprocating movement; providing drive means for continuously operating the sewing mechanisms while intermittently feeding both panel assemblies and intermittently reciprocating the heads transversely with dwell periods between transverse strokes; and arranging each head so that the outer limit of its reciprocating movement can be lengthened or shortened without affecting the inner limit thereof. With two heads operating on two separate border panel component assemblies, each of full width, the production capacity of the machine is doubled. The independent adjustment of the outer limit of the outward stroke of each head enables one head to be adjusted to sew a 1st panel component assembly of one width while the other head is adjusted to sew a 2nd panel component assembly of the same width or of a different width.
Other important objects of the invention are accomplished by providing two or more fabric strips forming the superposed components of a 1st panel assembly of fractional width; similarly providing a 2nd strip forming a 2nd panel component assembly of the same or different fractional width; intermittently feeding said 1st and 2nd assemblies simultaneously through the machine in slightly spaced side-by-side relationship; contemporaneously feeding a 3rd strip, in the form of a closed zipper strip, between the 1st and 2nd panel component assemblies with the flanges of the closed zipper strip lapping the adjacent margins of said 1st and 2nd assemblies; continuously sewing the components of each assembly transversely together during each transverse head-reciprocating, non-feeding period and longitudinally together during each head-dwelling, longitudinal-feeding period; sewing the 1st flange of the closed zipper strip longitudinally to the inner margin of the 1st panel assembly during one longitudinal-feeding period, which occurs when both heads dwell following the end of each rightward stroke; and sewing the 2nd flange of the closed zipper strip longitudinally to the inner margin of the 2nd panel assembly during the next longitudinal feeding movement, which occurs when both heads dwell following the end of each leftward stroke. In this manner, the zipper is sewn to the border panel product contemporaneously with the sewing of the components of each half of that assembly. This practice avoids the necessity for an earlier or later independent sewing operation for zipper mounting or securing purposes.
BRIEF DESCRIPTION OF THE DRAWINGS
The preferred embodiment of my invention is illustrated in the accompanying drawings, wherein:
FIG. 1 is a front elevational view which omits the windup reel;
FIG. 1A is a partly broken perspective view of the "left" sewing head and its mounting plate which are shown on the left side of FIGS. 1 and 2;
FIG. 1B is a front elevational view of the reciprocating drive oscillating arm shown on the left side of FIG. 1;
FIG. 2 is a top plan view of the machine as it appears in FIG. 1;
FIG. 2A is a fragmentary perspective view of the indexing mechanism controlling the intermittent movement of the lower feed roll;
FIG. 3 is an elevational view of the right side of the machine as seen in FIGS. 1 and 2;
FIGS. 3A and 3B are perspective views of the front and rear declining arms respectively used in the front and rear border panel clamping means.
FIG. 4 is a view similar to FIG. 3 but corresponding generally to one taken along line 4--4 of FIG. 1;
FIG. 5 is an exploded cross-sectional view of two full width border panel component assemblies arranged in side-by-side relationship;
FIG. 6 is a fragmentary view corresponding generally to one taken along line 6--6 of FIG. 1 but omitting certain details such as the chains seen in FIGS. 1 and 4;
FIG. 7 is a fragmentary view corresponding generally to one taken along line 7--7 of FIG. 6 at the extreme limit of leftward reciprocation;
FIG. 8 is a fragmentary view corresponding generally to one taken along line 8--8 of FIG. 6;
FIG. 9 is an exploded cross-sectional view of two border panel component assemblies, of different full widths, arranged in side-by-side relationship; and
FIG. 10 is an exploded cross-sectional view of two half width component assemblies for one full width border panel plus a strip of closed zipper material.
DESCRIPTION OF THE PREFERRED EMBODIMENT
The preferred embodiment comprises elements A-I which include conventional structure of conventional operation and inventive structure.
Conventional Structure
The conventional content of elements A-I may be stated broadly as comprising: A. a base; B. work supply means; C. work feed means; D. work tensioning means; E. work sewing means; F. work clamping means; G. clamp operating means; H. work-product-receiving means; and I. drive means.
A. base
The base 1, over which the work moves longitudinally forward in a direction proceeding from the rear end of the base toward the front end thereof, comprises: a box-like sheet metal housing; and any suitable form of skeletonized structural frame enclosed therein.
B. work Supply Means
The work supply means, which is spaced rearwardly from the rear end of the base 1 and suitably mounted preferably on a rearward extension of the base 1, includes: a supply roll of ticking 4; a supply roll of wadding 5; and, in some cases, a supply roll of scrim or backing (not shown). The supply rolls are not shown. The ticking 4 and wadding 5 are best seen on the left side of FIG. 5.
C. work Feed Means
The work feed means is located over the front end portion of the base and functions to pull the work from the rear supply rolls forwardly over the base 1 through a sewing zone between the rear end of the base and the work feed means. The work feed means comprises: an upper driven roll 8; and a lower drive roll 9 geared at one end to the upper roll 8 and carrying a drive gear 10 on its opposite end.
D. work Tensioning Means
The work tensioning means, which is mounted on the base 1 and its rearward extension, comprises a suitable zigzag arrangement of rearmost and intermediate friction bars 12 and 13 for the ticking. These bars are located between the rear supply roll of ticking 4 and the sewing heads. The wadding is not tensioned. The backing scrim may be tensioned but often is not.
E. work Sewing Means
A sewing machine or head 15, which is located on the top of base 1 between the rear end thereof and the work feed rolls, has a head frame and a base frame with a sewing zone therebetween, a drive pulley 16, a sewing needle which is supported above the work for vertical reciprocation through the work and a cooperating thread-locking means (not shown) supported in the sewing machine base over which the work travels. The sewing machine 15 is mounted on a plate 17, which is slidably supported on front and rear transverse rods 18, carried by the base, for right and left reciprocating movement.
F. work Clamping Means
During all feed and non-feed intervals, the work is clamped on the rear side of the sewing zone, by a transverse clamping bar 19, and on the front side of the sewing zone, by the feed rolls 8, 9.
The work is unclamped for threading and other purposes by mounting the front and rear clamping means for translational down and up movement bodily into and out of clamping position. The rear clamping bar 19 is rotationally carried at opposite ends by the upper ends of rearwardly declining rear arms 20 which are pivoted midway at 21 to upright brackets 22 on the base 1. The upper feed roll 8 is carried at opposite ends by the upper ends of a pair of forwardly declining front arms 24 which are pivoted at their mid-points 25 to the base 1.
G. clamping Operating Means
For clamp arm operating purposes, the opposite lower ends of the rearwardly declining rear arms 20 are connected to the pistons of a pair of rear base-mounted air cylinders 28. The opposite lower ends of the forwardly declining front arms 24 are connected to the pistons of a pair of front base-mounted air cylinders 30. It is conventional to spring-bias the cylinders 28 and 30 in the down direction to release the work for threading and other purposes and air-energize them in the up direction to force the feed roll 8 and the clamping bar 19 downwardly to clamp the work for feeding purposes. The flow of air to the cylinders from a suitable compressed air source is controlled by foot pedal 68.
H. work-Product-Receiving Means
The work-product-receiving means is in the form of a power driven windup reel 32 (FIGS. 3-4) carried by a rotational cross-shaft, which is mounted on a forward extension of the base 1. This cross-shaft (with reel 32) is conventionally driven through a slip clutch 33 and a longitudinal drive shaft 34.
I. drive Means
The preferred drive means comprises: independent drive means for the sewing machine; and a common drive means (a) for reciprocating the sewing assembly (i.e., head 15, pulley 16 and slidable mounting plate 17) with a dwell period at the end of each stroke, (b) for indexing the feed rolls 8, 9 rotationally during each dwell period and (c) for continuously rotating the windup reel drive shaft 34.
The independent sewing machine drive, which continuously operates the needle and thread-locking means of the sewing machine 15, comprises: a continuously operating electric motor 36 rigidly mounted to depend from the underside of slidable plate 17, which bodily carries the motor 36 for reciprocating movement as a part of the head-pulley-plate assembly 15-17; and a belt 37 connecting the drive pulley of the motor 36 to the drive pulley 16 of the sewing machine 15.
The common drive means for the reciprocating, feeding and windup functions includes a continuously rotating base-mounted motor 39 (see FIG. 1) connected on the front side of the machine by vertical sprocket chain 40 and sprocket 41 to drive a base-mounted main drive shaft 42 extending longitudinally through the machine.
The windup reel 32 is driven from shaft 42 and its sprocket 43 through a sprocket chain 44 which connects sprocket 43 to a sprocket 45 on the reel drive shaft 34. This drive is continuous except for the slippage operation of the slip clutch 33.
The sewing machine is reciprocated intermittently by a main drive train interconnecting the main drive shaft 42 with the reciprocatable plate 17, on which the sewing machine is mounted. As seen in FIGS. 1 and 7, this main drive train includes: a main cam 46 on the front end portion of the main shaft 42; a horizontally-slidable main bar 47 reciprocated by the main cam 46, which is shaped to provide a dwell period at the end of each stroke; a short link 48 connecting the main reciprocating bar 47 to an upright base-mounted oscillatable arm 49, the lower end of which is pivoted to the base; and a longer inclined link 50 interconnecting the oscillating arm (at an upper point along its length) with the lower end of a vertical post 51, the upper end of which is rigidly secured to said slidable plate 17 for plate reciprocating purposes.
The oscillatable arm 49 is provided with a long series of perforations 52 spaced along its length to receive the connection between arm 49 and the adjacent end of the inclined long link 50 for stroke length adjusting purposes. As that connection is raised, its horizontal arc of travel increases for the same fixed angle of arm 49 oscillation; hence, the length of the horizontal stroke it imparts to arm 51 and, through arm 51, to the sewing head/plate assembly 15-17 increases. With this increase, the inner limit of the sewing head stroke moves inwardly toward the CVL plane while the outer limit moves outwardly from that plane.
It is obviously desirable to hold the inner limit of that reciprocation at a substantially fixed location. To this end, the perforations 52, on "left" arm 49, are located along a vertical arc which, as the connection between arm 49 and long link 50 rises, shifts that connection "leftward," as seen in FIG. 1. The size of this leftward shift is made sufficient to shift the reciprocation as a whole "leftward" to the degree necessary to hold the inner limit of the reciprocation at its original position. In other words, sewing head 15's leftward shift of the inner limit of its leftward stroke is held at zero while the leftward shift of the outer limit of its rightward stroke is doubled over what it would be without any such stroke-length adjustment.
The work feed means is operated intermittently by a drive train interconnecting the main drive shaft 42 with the lower drive roll 9 of the work feed means. This drive train includes: a cam 53 on a mid-portion of the main drive shaft 42 between cam 46 and sprocket 43 of the front reciprocating drive and the central windup drive; a horizontal arm 54 pivoted to the base and provided midway of its length with a follower in the form of a roller 54a resting on top of cam 53 to be oscillated thereby; a vertical reciprocating link 55 on the outer end of oscillating arm 54, and an indexing connection, (including horizontal arm 56 interconnecting the upper end of link 55 with a horizontal shaft 57,) which is so arranged as to turn shaft 57, during the upward stroke of vertically reciprocating link 55 and leave it remain stationary during the next downward stroke; a gear 58 on intermittently rotated horizontal shaft 57; and a chain 59 interconnecting the intermittently rotated gear 58 with drive gear 10 on one end of lower drive roll 9, the other end of which is geared to upper drive roll 8.
Conventional Operation
The machine is 1st loaded with a supply of full width materials required for the manufacture of one zipperless full width panel product, these materials, including ticking and wadding (and scrim, if used). The ticking is now threaded around the friction bars 12, 13 and all of these supply materials, assembled in close superposed relationship, constitute the starting work, or workpiece or 1st unsewn panel strip. This workpiece is directed over the base 1 and under the rear rotatable clamping bar 19 which is raised, thence through the sewing zone and between the work feed rolls 8 and 9, with the upper roll 8 raised and ultimately to the windup reel 32.
When the rotatable clamping bar 19 and the upper feed roll 8 are lowered and drive motors 36 and 39 started, the machine will operate automatically through successive cycles, each of which embraces four intervals comprising: a 1st non-feeding (or stroke) interval; a 1st feeding (or dwell) interval; and repetitions thereof starting with a 2nd non-feeding (or stroke) interval and a 2nd feeding (or dwell) interval.
During the 1st non-feeding or stroke interval, the work or workpiece is stationary while the work sewing machine is slidably moved transversely through one stroke of a 1st reciprocation to sew one transverse line of stitching across the work. During the 1st feeding or dwell interval, the continuously operating sewing machine dwells while the feed rolls turn to pull the work forward longitudinally through the sewing zone during which the sewing machine needle sews, say the outer long margin of the moving work, with one longitudinal line of stitching.
During the 2nd stroke interval, the work is stationary while the sewing machine is slidably moved transversely through the return stroke of its aforesaid 1st reciprocation to sew another transverse line of stitching across the work. During the 2nd dwell interval, the continuously operating sewing machine dwells while the feed rolls rotate to pull the work forward longitudinally through the sewing zone during which the sewing machine needle sews, say the opposite or inner margin of the moving work, with the 2nd longitudinal line of stitching.
During the foregoing cyclic operation, the windup reel 32 is operated continuously. When the flow of sewing material, from the machine to the windup reel, slows down or ceases, the slip clutch permits the windup reel to slow down or stop while the windup reel drive means continues to operate.
Inventive Structure
In accordance with one phase of my invention, the machine is modified in two basic respects, viz: A. it is provided with a duplicate set of border panel supply, sewing and windup means; and B. its base is transversely widened and appropriate transverse parts are transversely lengthened to accommodate the addition of the foregoing duplicate set of means so that the machine may contemporaneously supply, sew and wind up two border panels of the same full width or of different full widths with such panels arranged in side-by-side relationship.
Looking at FIGS. 1, 2 and 5, the duplicate border panel supply, sewing and windup means includes (on the "right" side of a centrally-disposed vertical, longitudinal plane, hereafter called the CVL plane,) supply rolls of ticking 4' and wadding 5' (and scrim, if used); a 2nd sewing head, drive pulley and mounting plate assembly 15', 16' and 17' arranged (on the right side of the CVL plane,) with the duplicate sewing head 15' in endwise head-to-head allochiral relationship with the 1st sewing head 15 for contemporaneous right and left movement therewith; a 2nd windup reel (not shown) mounted on the same cross-shaft; a 2nd sewing machine drive motor 36' and belt 37' for the pulley 16' of head 15'; and a 2nd drive train interconnecting the main drive shaft 42 with the reciprocatable plate 17'. This 2nd drive train includes: a short link 48' connecting "right" oscillating arm 49' with long link 50'; and a vertical post 51' connecting link 50' with plate 17'. The sewing heads are arranged in head-to-head relationship with their respective needle ends in opposed spaced relationship from opposite sides of the interposed CVL plane.
The transverse widening and lengthening variations required to accommodate the addition of the foregoing duplicate parts include: transversely widening base 1 and its rearward extension, which supports the rolls of ticking 4 and 4' and wadding 5 and 5' in side-by-side relationship; and transversely lengthening certain parts including the feed rolls 8 and 9, the rear ticking friction bars 12 and 13, the sewing machine slide bars 18, the rear rotatable work-clamping bar 19 and the reciprocating main bar 47.
The 2nd supply, sewing and windup means contemporaneously operates automatically through the same successive cycles as the 1st means; hence, each cycle embraces the aforesaid two stroke and two dwell intervals. In so operating, it can be used to manufacture (at the same time) two separate full width left and right panels of the same full width size as seen in FIG. 5 in which case production is doubled. It can also be used to make two full width panels of different full width sizes as seen in FIG. 9.
The duplicate supply, sewing and windup means may also be used to supply and sew the "left" and "right" fractional width components of a single border panel of desired full width with a closed zipper strip contemporaneously fed into the sewing zone in position to bridge the gap between the overlap the top or bottom side of either the ticking or other component of the fabric assembly so as to be sewn to all components thereof in the sewing zone. The ticking and wadding components may be of the same fractional width or of different fractional widths.
To this end, a supply roll (not shown) of zipper strip material 62 is mounted on the base 1 and suitably directed through the machine with its zipper 63 closed. As shown in FIG. 10, zipper strip 62 is positioned between the left and right fractional width components and with its left and right flanges 64 and 65 lapping the adjacent inner bottom-side margins of the wadding 5 and 5'. With this arrangement, the left and right sewing machines 15, 15' operate contemporaneously to sew (a) the longitudinal left-outer margin 66 and the left-inner margin of their respective panel components during each "left" dwell period and (b) the longitudinal right-inner margin and right-outer border margin 67 of their respective panel components during each "right" dwell period. In each of the alternate inner margin-sewing operations, the corresponding machine sews the corresponding flange of the closed zipper strip to the inner margin of the corresponding work or border panel component assembly. Thus, at the end of the left transverse-sewing stroke, the right machine 15' sews the right flange 65 of the zipper strip 62 to the adjacent inner left margin of the panel on the right.
In accordance with a 2nd phase of my invention, the "left" halves of the FIGS. 1-2 slide bars 18 are extended leftwardly outward beyond the outermost limit of the leftward reciprocation of the left head-pulley-plate assembly 15-17, a distance sufficient to permit the "left" assembly 15-17 to be shifted leftwardly along the bars 18 to an outer inoperative position (such as the one indicated by dotted lines at the left side of FIG. 2) where it is readily accessible for maintenance and repair purposes without requiring the sewing machine to be bodily removed from the machine. This shift requires that post 51 of the left assembly first be disconnected from inclined arm 50. The "right" halves of the slide bars 18 are similarly extended rightwardly for a similar distance so that, when post 51' is disconnected from arm 50', the right sewing machine assembly 15'-17' may be shifted rightwardly to a corresponding inoperative position for corresponding maintenance and repair purposes.
In accordance with a 3rd phase of my invention, the rear cylinders 28 (FIG. 3) are arranged to utilize spring pressure and unbalanced weight to force the rear clamping bar 19 up and pressurized air to force it down while the front cylinders 30 are double-acting air cylinders utilizing pressurized air for both movements with unbalanced weight supplementing the down movement of feed roll 8. Furthermore, in controlling the operation of the rear and front cylinders 28, 30, a seesaw pedal 68 (FIG. 3) is arranged at the floor level of the rear end of the machine for movement to three stable positions, via: (1) rear-end-down to clamp work at rear and front; (2) neutral to clamp at front only; and (3) front-end-down to unclamp work at both front and rear.
The control is such that when the rear end of the pedal 68 is pushed down, pressurized air on both front and rear cylinders 28 and 30 press the clamping means down. In the neutral position of pedal 68, the source air is cut off and the cylinders vented so that the front roller 8 remains down by unbalanced weight only whereas the rear clamping bar 19 is forced up by both spring pressure and unbalanced weight. When the front end of pedal 68 is forced down, air pressure forces the front feed roll 8 up while spring pressure and unbalanced weight hold the rear clamping bar 19 up. In other words, the clamping bar 19 is up in both the neutral and front-down positions of the pedal 68 while the front feed roller 8 is down in both the neutral and rear-down positions of the pedal 68.
In accordance with a 4th phase of my invention, each oscillating arm 49 (49') is provided with a short vertical arc of perforations 70 (70') to receive the short links 48 (48'). The holes 70 are so located as to hold the lever 49 to a fixed "inner" position, which corresponds to a desired fixed inner limit of the sewing head 15. Consequently, when the connection of link 48 to lever 49 is adjusted downwardly, the angle of oscillation of lever 49 is widened with a corresponding shift of the outermost position of the oscillating lever 49 to the left as seen in FIG. 1. This increase in the angle of oscillation of lever 49 effects a corresponding increase in the length of the stroke of the sewing head 15 from its fixed inner limit to a new outer limit. The foregoing changes on the "left" side of the machine, as seen in FIG. 1, are independent of the "right" side thereof which may be changed at the same time or at different times to the same extent, to different extents or not at all.