Bag making method and machine

A length of woven plastic fabric in tubular form is advanced from a source of supply while telescoped over a separator plate which maintains the two plies of the tubular stock in separated relation. A heated knife blade aligned vertically with the downstream end of the separator plate is reciprocated vertically to sever the tube stock into bag blanks. The severed edges on the upstream side of the heated knife remain separated rather than being heat sealed together by the heated blade. The severed blank is impaled on needles mounted on an endless chain which conveys the blanks laterally through a sewing machine and/or a sealing mechanism for securely closing one end of the blanks. Thereafter successive blanks are conveyed to a stacking device which disengages the blanks from the needle chain and stacks them horizontally one upon another.

This invention relates to an apparatus and method for making bags and, more 
particularly, to a method and apparatus for making bags from flat tubular 
stock in the form of woven plastic fabric. 
In the manufacture of bags from woven plastic fabric the material is 
normally supplied in the form of a continuous length of flat tubular 
fabric. In the course of manufacture the tubular stock is cut to length to 
form bag blanks having one end closed and the other end open for filling 
the bag. Cutting the woven tubular stock to bag length by shears or knife 
blades is impractical because the threads or ribbons at sheared edges will 
fray and unravel. Therefore, woven plastic fabric is normally heat cut so 
that the strands of plastic at the cut edges will be fused together. One 
of the problems encountered in heat cutting plastic tubular stock is that 
the severed edges of the two plies of stock on both sides of the heated 
cutter become at least partially heat sealed or fused together. Thus, the 
trailing end of one bag blank and the leading end of the next successive 
bag blank are both at least imperfectly closed by heat sealing. A separate 
operation is therefore required to break or open one heat seal on each 
bag; that is, to separate the heat sealed edges at one end of each blank 
so as to provide an open end for filling the bag. 
The heat seal resulting from the heat cutting is usually an imperfect one 
and, consequently, after the blank is cut to length it is usually indexed 
laterally so that the bottom end of the bag may be more perfectly closed 
as by stitching. This is normally accomplished by conveying the bag 
laterally on a conveyor belt through the sewing machine after which the 
bags are stacked one upon another so as to be ready for delivery or use. 
In the manufacture of waterproof bags the woven tubular fabric encloses a 
tubular sheet plastic liner which is heat sealed at each end of the bag. 
The mechanism for laterally conveying the bag blanks and for stacking them 
after the bottom end is sewn and heat sealed is not only cumbersome and 
costly, especially when the bottom end of the bag is guided through a 
sewing machine, but also tends to produce a slower than desired production 
rate because of several unavoidable problems, such as the necessity of 
synchronizing the operation of various separate mechanisms. 
The primary object of the present invention is to provide a method and 
apparatus for manufacturing bags, particularly plastic bags, which avoid 
the problems encountered with the above-described method and apparatus. 
A more specific object of this invention is to provide a method and 
apparatus for heat cutting tubular plastic bag stock such that the two 
plies of the blank at only one side of the line of cut become fused or 
sealed together. 
Another object of this invention is to heat cut plastic tubular bag stock 
by advancing flat tubular stock to a heat cutter with a separator plate 
between the two plies of the tubular stock that extends to directly 
adjacent the line of cutting so that along at least one side of the line 
of cutting the edges of the superimposed plies of the tubular stock are 
maintained in a separated condition. 
Another object of this invention is to convey bag blanks laterally after 
being cut to length by engaging them with a series of needles on a 
laterally moving conveyor. 
A further object of the invention is to transport bag blanks laterally 
while vertically suspended from a chain-supported series of needles. 
Another object of the invention resides in the provision of a simple 
mechanism for vertically disengaging bag blanks suspended from a needle 
chain to enable the vertically oriented blanks to be stacked horizontally 
upon one another.

Referring to the drawings, the bag making machine illustrated includes a 
generally upright structural frame 10 on which the various components of 
the machined are mounted. For example, at one end of the frame 10 there is 
provided an accumulator box 20 for storing a long length of the tubular 
fabric stock, such as woven polypropylene. Accumulator box 20 is merely 
one example of supplying a continuous length of tubular stock to the bag 
making apparatus. The flat tubular stock, which is generally designated 
22, is adapted to be intermittently advanced through the machine in a 
generally horizontal path by a feed mechanism 24 and cut into successive 
blanks by an intermittently-operated cut off mechanism 26. As the tubular 
stock 22 is progressively fed from box 20 it advances in a downstream 
direction toward cut off mechanism 26 while telescoped over a horizontally 
disposed separator plate 28. 
Separator 28 (FIG. 6) is generally rectangularly shaped and is supported 
horizontally on a pair of rollers 30,32 which are journalled on frame 10. 
The central portion of plate 28 has two pair of transversely aligned 
rollers 34 mounted thereon in a manner such that the rollers project from 
both the top and bottom faces of the plate. On the underside of the plate 
28 rollers 34 are engaged by roller 32 and on the top side of the plate 28 
rollers 34 are engaged by a roller 36. Rollers 32, 34,36 are so arranged 
as to prevent separator plate 28 from shifting forwardly on frame 10. The 
flat tubular stock 22 is threaded over plate 28 such that the upper ply 40 
overlies the top face of plate 28 and is threaded between rollers 34,36 
and the lower ply 42 underlies the bottom face of plate 28 and is threaded 
between rollers 32,34. In order to faciliate the movement of the tubular 
stock 22 past plate 28 the plate is also preferably provided with a 
plurality of laterally projecting rollers 44 adapted to engage the 
laterally opposite edges of stock 22 at the inner sides thereof. Rollers 
44 are preferably arranged as two pair spaced longitudinally of plate 28 
on opposite sides thereof. The rear rollers 44 are arranged to be engaged 
by pivoted latches 46 on frame 10 to prevent movement of the plate in a 
rearward or upstream direction on the frame and the forward pair of 
rollers 44 are adapted to be engaged by guide rollers 48 (FIG. 3) located 
externally of the tubular stock 22 for preventing lateral movement of 
plate 28. 
Separator plate 28 is supported on frame 10 so that its forward or 
downstream end 50 is transversely aligned with a heated knife blade 52 
(FIG. 5) of cut off mechanism 26. The heated knife blade 52 is arranged to 
be reciprocated vertically by any suitable means. In the embodiment 
illustrated these means are illustrated diagrammatically as a pair of 
fluid cylinders 54, the knife bar 52 being secured at each end thereof to 
the lower ends of piston rods 56 associated with cylinders 54. 
Cut off mechanism 26 also includes opposed upper and lower U-shaped clamps 
58,60 adapted to be reciprocated vertically toward and away from each 
other by any suitable means, such as fluid cylinders 62. As is clearly 
shown in FIG. 5, the upstream legs 64 of clamps 58,60 are adapted to clamp 
the upper and lower plies 40,42 of the flat tubular stock 22 against the 
top and bottom faces of the plate 28. The downstream legs 66 of the clamps 
are adapted to clamp the two plies of the flat tubular stock together 
along a line spaced downwardly from the heated cutting knife 52. 
The feed mechanism 24 includes a transversely extending carriage 68 (FIGS. 
1 and 3) mounted for longitudinal sliding movement on guide bars 70. 
Carriage 68 is connected to a chain 72 trained around sprockets 74, one of 
which is motor driven. The stroke of carriage 68 on guide bars 70 is 
controlled in any suitable manner, such as by limit switches 76 adjustably 
mounted on guide bars 70 and adapted to be engaged by the carriage at the 
opposite ends of its stroke. A plurality of depending arms 78 are mounted 
on carriage 68 in laterally spaced relation. Each arm has a stationary, 
horizontally extending finger 80 (FIG. 3) mounted thereon and also upper 
and lower fingers 82 pivotably mounted thereon. Fingers 80,82 are aligned 
in a vertical plane and fingers 82, provided with gripping pads 83, are 
normally biased by a spring 84 towards each other into engagement with the 
stationary finger 80. 
The downstream end portion of separator plate 28 has a plurality of 
longitudinally extending notches 86 formed therein. The stationary fingers 
80 on carriage 68 are aligned longitudinally and horizontally with notches 
86. The fingers 82 of each set are adapted to be separated against the 
bias of spring 84 by an eccentric cam 88. Cams 88 are mounted on a common 
shaft 89 journalled on the depending arms 78. Suitable means (not 
illustrated) are provided for rotating shaft 89 to open or separate 
fingers 82 as the carriage reaches the end of its advance stroke remote 
from plate 28 and to close the fingers and thus grip the leading end of 
the tubular stock 22 at the start of its advance stroke wherein the free 
ends of the stationary fingers 80 are disposed within the notches 86 in 
plate 28. 
The operation of the stock feed mechanism 24 and the cut off mechanism 26 
is synchronized such that, when the retraction stroke of the carriage is 
initiated (the carriage starts moving towards plate 28), fingers 82 are 
separated and, before the carriage is retracted to a position wherein the 
stationary fingers 80 are positioned within the notches 86 of plate 28, 
clamps 58,60 are separated to permit entry of the fingers therebetween. As 
the carriage begins its advance stroke, fingers 82 close on fingers 80 
thus clamping the upper and lower plies of the flat tubular stock 22 
against the fingers 80 so that, when the carriage advances, a 
predetermined length of the stock 22 is advanced over plate 28. When the 
carriage reaches the end of its advance stroke, clamps 58,60 close and 
thereby retain the stock 22 in a taut condition between the clamped 
portions thereof. After the stock is so clamped, cylinder 62 is actuated 
by any suitable means, such as a switch 90 on clamp 60, so that the heated 
knife blade 52 descends and severs the upper and lower plies 40,42 of the 
stock along the forward edge 50 of plate 28. Since the upper and lower 
plies 40,42 of the woven plastic web on the upstream side of heated knife 
blade 52 are separated by plate 28, the severed strands of the woven 
fabric will be fused but the two plies will remain separated as the knife 
blade 52 descends therethrough. On the other hand, since the two plies of 
the stock are not maintained in a separated condition on the downstream 
side of knife blade 52, then it is likely that the heat severing action of 
blade 52 will not only fuse the woven strands, but also cause the two 
plies of the downstream side of the blade to become at least partially 
heat sealed together. After the stock is so severed, clamps 58,60 
separate, the bag blank severed from stock 22 is advanced laterally by the 
hereinafter described needle chain 92 and carriage 68 is again advanced to 
grip the leading end of the stock around plate 28. 
As pointed out above, after the stock is severed by the cut off mechanism 
26, clamps 58,60 separate and the severed bag blank is conveyed laterally. 
The means preferably employed for conveying the blank laterally comprises 
a needle chain 92 which consists of a series of pivotally connected links 
94 extending in an endless path around a series of sprockets 
96,98,100,102, 104. The alternate links are formed with flanges 106 from 
which needles 108 project vertically. The upper run 110 of needle chain 92 
extends longitudinally through the lower U-shaped clamp 60 and is 
supported on a rail 112. On the underside of clamp 60 there is mounted, 
adjacent the opposite ends thereof, a pair of solenoids 114 having 
vertically reciprocable plungers 116 extending through the bottom wall 118 
of clamp 60. Solenoids 114 are controlled by suitable switches, such as 
the switches 90 on clamp 60, to lift rail 112 after the clamps 58,60 close 
and before knife blade 52 descends to sever the bag blank. When rail 112 
is lifted within clamp 60 (FIG. 5) the needles 108 are caused to penetrate 
through the two plies of the stock on the downstream side of the line of 
cut of knife 52. Thus, after the stock is severed and clamps 58,60 
separate the upstream end of the bag blank, generally designated 120 in 
FIG. 5, is impaled on the needles 108. Therefore, since the downstream end 
of the bag blank 120 has been released by the fingers 80,82, the bag blank 
120 will hang vertically downwardly from needles 108 so as to be capable 
of being conveyed laterally in a generally vertically oriented position. 
Although it is necessary to raise rail 112 only slightly to cause the stock 
to become impaled on needles 108, if desired, sprocket 96 can be pivotally 
supported as by a link 122 biased by a spring 123 to provide the necessary 
slack in the needle chain to accommodate for the raising and lowering of 
rail 112. 
One of the chain sprockets is motor-driven at predetermined intervals for 
predetermined periods so as to index each bag blank 120 laterally after it 
has been severed. Downstream of the severing mechanism in the path of 
travel of the needle chain there is preferably arranged a sewing machine 
124 along the top run 110 of the chain for stitching together the two 
plies of the bag which may have been imperfectly heat sealed by the heated 
knife blade 52. Stitching of the two plies of the bag blank together in 
this manner is desirable where the stock is a woven plastic fabric of the 
type commonly used for forming bags adapted to sustain heavy loads. If 
desired, and especially if the bag stock is provided with an impervious 
polyethylene liner 125 which has a substantially lower sealing temperature 
than polypropylene, the bag blank is also advanced through a pair of heat 
sealing rolls 126 for forming a waterproof heat seal along the lower end 
of the liner without affecting the integrity of the woven fabric bag. The 
stitch line and the line of heat sealing may coincide as indicated at 128 
in FIG. 9 or the heat seal may extend along a line slightly above the 
stitch line. 
At a location downstream of sewing machine 124 and heat sealing rolls 126 
it becomes necessary to disengage the bag blank from the needle chain so 
that the successive blanks can be stacked flat upon one another. In the 
present arrangement this is readily accomplished by means of a stacker 
mechanism 130. The stacker mechanism, the details of which are shown in 
FIG. 9, includes a flat open frame 132 of rectangular shape which is 
pivotally supported along one edge thereof as at 134 on upright brackets 
136. Frame 132 is arranged to be pivotally actuated from a generally 
upright position (shown in solid lines in FIG. 9) to a generally 
horizontal position by means of a crank link 138 driven by a motor 140. An 
L-shaped arm 142 is pivotally supported as at 144 beneath needle chain 92 
and normally rests on a stop 146. The free end of arm 142 is formed with 
an upright hand 148 which, when arm 142 rests on stop 146, is located just 
slightly below the needles 108 on chain 92. At each end thereof arm 142 
pivotally supports a pair of depending links 150 formed with generally 
U-shaped notches 152 at the lower ends thereof. The length of links 150 
and the height of frame 132 are proportioned such that, as frame 132 is 
pivoting upwardly from a horizontal position (clockwise as viewed in FIG. 
9), when it reaches an upright position it engages the freely suspended 
links 150 and, as the frame continues to the solid line position 
illustrated in FIG. 9, it swings links 150 to the position illustrated 
wherein the upper end of frame 132 engages within notches 152. Thereafter, 
as frame 132 pivots toward the horizontal position, it swings links 150 to 
an upright position and causes the hand 148 to displace the upper end of 
the bag blank 120 upwardly and thereby disengage it from needles 108. 
Then, as the frame 132 continues its swinging movement toward the 
horizontal position, it releases links 150 and engages the vertically 
extending bag blank 120 and swings it into a horizontal position so that 
the successive blanks are stacked vertically one upon another as indicated 
at 154 in FIG. 7. 
Thus it will be seen that the method and apparatus disclosed herein has 
distinct advantages with respect to present methods and apparatus for the 
manufacture of bags, especially plastic bags. It will be noted, for 
example, that, when the feed mechanism 24 advances a predetermined length 
of the tubular stock 22, the stock is in a taut condition since the upper 
and lower plies are threaded between rollers 32,34,36. After the stock is 
fully advanced and before it is released from between fingers 80,82, the 
clamps 58,60 engage the stock. Solenoids 114 are energized to impale the 
stock on needles 108 and then the heated knife 52 severs it along the 
leading edge 50 of separator 28 so that the severed edges of the stock on 
the upstream side of knife 52 remain separated while the edges of the two 
plies on the downstream side of the heated knife blade are at least 
imperfectly heat sealed together. After the stock is engaged by clamps 
58,60, its leading end is released by fingers 80,82 so that the severed 
bag blank will be suspended vertically from the needles. By the time the 
needle chain 92 has advanced the severed bag blanks 120 laterally beyond 
separator plate 28, the carriage 68 with the fingers 82 open has returned 
to a position wherein the stationary fingers 80 have advanced into the 
slots 86 at the downstream end of separator plate 28. Thereafter, 
eccentric cams 88 are actuated to permit the fingers 82 to clamp the two 
plies of the stock against the stationary fingers 80, at which time the 
carriage is driven by the chains 72 to again advance the desired 
predetermined length of the tubular stock 22. 
As pointed out previously, the bag blanks 120 are conveyed laterally by the 
upper run 110 of needle chain 92 through the head of a sewing machine 124, 
and also between sealing rolls 126 if a waterproof liner is employed, so 
as to secure the two plies of the tubular stock together at the closed end 
of the bag. The line of stitching and sealing is spaced slightly above the 
needle-impaled portion of the bag blank as indicated at 128 in FIG. 9. 
After the vertically suspended bag blanks are securely closed at one end 
the stacker mechanism disengages them from the needle chain and stacks 
them horizontally one upon the other.