Note: Descriptions are shown in the official language in which they were submitted.
--1--
SPLAYED ROLL FOLDER FOR
DHESIVE PPPLICATION
Adhesive closures for bags, such as thin plastic sandwirh
bags, have been widely used. A transverse adhesive streak near the
mouth of a sandwich bag is generally preferred for this purpose.
However, a streak of exposed and unprotected adhesive adjacent to the
mouth of such a bag structure has presented many drawbacks. When these
bags are packaged within a dispensing carton, either in continuous roll
form or individually adjacent to one another9 the bags have a tendency
to stick to one another as well as to exterior objects fol'owing
dispensing of individual bags from the container, thus making it
difficult to utilize the bags. In addition, the adhesives which are
used are necessarily relatively non-aggressive in an attempt to
alleviate such problems, thereby making the closures less effective
than would otherwise be possible.
An improved Z-fold adhesive striped closure has been described
in U.S. Patent 3,990,627 for protecting an adhesive streak extending
across the front wall flap of a small bag, such as a sandwich bag. A
fast and simple method and apparatus for making such Z-folds or pleats
in a continuously advancing sheet is needed, however, particularly in
the manufacture of sandwich bags which are serially connected in roll
Norm by a perforated or weakened structure.
An additional device of the prior art has long been used for
olosing large plastic bags, such as trash bags. This device is a
flexible strip of material such as paper9 enclosing a bendable piece of
metal wire. Such strips are commonly placed in the box of trash bags
as an easily ruptured sheet or are adhesively attached to each bag by a
piece of tape.
However, it would be far preferable to have each strip as an
integral paIt of the bag structure. A convenient means for doing so is
an adhesively secured pleat within which the closure strip is disposed,
but no method or apparatus is available for forming such a pleat and
placing the strip therein. Similarly, a drawstring can be placed
within a pleat for subsequently closing the mouth of a bag by pulling
upon both ends of the drawstring and then tying it.
A third area of interest in the prior art is the opening of
plastic bags and other containers, such as foil-laminated bags for food
products, shipping bags for fertilizer, animal feed and the like. Many
of the bags are so tough and difficwlt to open that a piece of wire or
string is sometimes attached to the bag structure to serve as a cutting
tool. ~Dwever, using the wire or string for its intended purpose is
not always easy. Q simple and reliable device for incorporating the
wire or string into the bag structure and for readily using it to opPn
the bag by slicing through the sheet material thereof would be a
distinct advance in the art. A pleat enclosing the cutting material
would~provide this structure, but again the prior art provides no
method or apparatus therefor.
The present invention solves these prior art problems and
provides a method and apparatus for making a pleat which selectively
encloses a streak of adhesive, a length of metal wire, a string, or
another useful object for a variety of sealing, tying, or cutting
purposes as desired by the user of structures incorporating the pleat
which is made in continuously advancing sheet of flexible material of
indeterminate length, such as polyethylene or polypropJiene film.
The apparatus of one aspect of this invention, for folding a
strip in a continuously advancing sheet oE indeterminate length and for
forming a pleat in the sheet, broadly~comrpise$,.in combination:
A. a tensioning means or subjecting a reaoh ox the sheet to
tension along a line of departure that is transversely disposed to
the sheet; and
B. a composite roll, comprisin3:
1) a composite peripheral surface which receives the
reach along a line of arrival thereon, the sheet thera~ter
traveling over the composite peripheral surface through a
peripheral distance,
2) an imaginary axis of rotation that is disposed in
parallel to the line of departure, and
3) two parts, having: -
a) axes of rotation which are inclined towards each
other at a pleat angle, and
b) adjacent circular sides which form a circularly
converging gap and are in revolving contact along a pinch
zone, the tensioning means being disposed so that the
peripheral distance extends through a peripheral angle of
from 45 to 180 between the line ox arrival and the pinch
zone.
As one specific embodiment, the tensioning means comprises a
first roll, having a first axis of rotation and a first peripheral
surface on which the line of departure is disposed. In combination
therewith, a first nip roller is in rolling contact with the first
per1pheral surface to for a first nip therebetween, the sheet being
arranged to pass through this first nip. In further combination with
the first roll, a second nip roller is in rolling contact with the
composite peripheral surface to form a second nip therebetween at the
pinch zone, the sheet similarly being arranged to pass through this
second nix. us thus combined, the apparatus is most suitably arranged
to operate with a peripheral distance of 90.
As another specific embodiment in combination with the first
roll, the two parts are:
A. a first component roll which has a second axis of rotation
and a second peripheral surface; and
B. a second component roll which has a third axis ox rotation
and a third peripheral surface, the third axis of rotation being
inclined at the pleat angle to the second axis and the third axis
of rotation appearing to be disposed in parallel to the ~ir~t axis
when viewed in parallel to the reach, whereby the peripheral
distance is 90.
~33~
- 3a -
The foregoing aspect of the inventicn are
also disclosed, and are claimed, in Canadian Patent No.
1,199,894 of F.J. ~errington, issued January 28, 1986,
~2~3~
4--
In genPral, the depth of a pleat is one half of the width of
the strip that is measured on the first peripheral surface. This depth
is measured, at a 90~ wrap of the film over the composite peripheral
surface, by the formula: lJ2 projected distance x tangent of the pleat
angle, the projected distance being the length of the reach plus the
radius of the composite roll.
hs a further specific embodiment, the first component roll is
substantially wider than the second component roll. The first
component roll is therefore generally disposed in parallel to the first
axis of rotation, and the second component roll is an inclined roll.
The parallel and inclined rolls are operably arranged so thiat
the circular side of the parallel roll, along the circularly converging
gap, has a beveled surface adjacent to the second peripheral surface,
and this beveled surface is beveled at the pleat anyle from the
perpendicular to the second peripheral surface. As one embodiment
thereof, a portion of the beveled surface, adjacent to the second
peripheral surface, herein is termed a pleat surface and the remaining
portion thereof is termed a drive surface. A circumannular recess is
provided in the circular side of the inclined roll or is alternatively
provided in the pleat suface of the parallel roll. It ls additionally
satisfactory to provide matins recesses in the circular sides of both
rolls.
This circumannular recess has an axially measured width
equalling at least twice the thickness of the sheet, and, as a
practical matter when a streak of adhesive is to be enclnsed within the
pleat, the width ox the cireumannular recess additionally equals the
thickness of the streak, because lt is generally not desirable to
spread or smear the adhesive. Further, this width additionally equals
the thickness of a cutting cr closing device if it is to be enclosed
within the pleat.
The circumannular recess has a radially measured width which
is slightly greater than the width of the pleat and is equal to the
radially measured width of the pleat surface. The circumannular drive
~3~
surface, which is in rolling contact with a portion of the circular
side of the inclined roll while passing by the pinch zone, is disposed
radially inwardly of the recess.
As one specific embodiment9 the third peripheral surface is
the surface of a right circular cylinder, and as another embodiment,
the third peripheral surface is the surface of a right circular cone.
Indeed, the third peripheral surface is inclined at a bevel ang1e9
measured from the third peripheral surface to the perpendicular to the
circular side of the inclined roll, which can vary prom 0~ to 5. In
general, this bevel angle is one half of the pleat angle and the pleat
angel is from 0.25 to 5, preferably being 1.5.
In the apparatus comprising a parallel roll and an inclined
roll, the inclined roll is rotatably supported by a bearing assembly.
The apparatus also comprises a hinged mounting assembly to which the
bearing assembly is attached. A biasing means for pressing the
inclined roll toward the parallel roll, whereby the inclined roll is
driven entirely by contact of its circular side with the drive surface
within the vicinity of the pinch 20ne, exerts a Force at the drive
surface that is from one pound to ten pounds.
A method for pleating a continuously advancing flexible sheet
of indeterminate length according to another aspect of this invention
broadly comprises the following steps:
A. passing the sheet as a reach under selectively varied
tension prom a line of departure to a line of arrival; and
B. passing the sheet under this tensinn and over a composite
peripheral surface from the line of arrival to a pinch zone,
through a peripheral distance subtended by a peripheral angle of
from 45 to 18û and over a circularly converging gap having a
pleat angle of from 0.25 to 5 and ending at the pinch zone.
The pleat angle is suitably 1.5 and the peripheral angle i5
suitably 90. Under these conditions, tension i5 exerted
perpendicularly to the line of departure on one side of the gap and is
oblique to the line of departure on the other size of the gap.
~3~
- 6
An improved method for forming and protecting an
adhesive streak, in the manufacture of adhesive closure bags, is
provided in accordance with a further aspect of this invention,
comprising the following steps:
A. longitudinally depositing the streak, having a
selected adhesiveness, along a selected strip on one side of a
continuously advancing sheet of indeterminate length; and
B. longitudingally pleating the strip, whereby the
streak is entirely within the pleat and is adhesively attached to
at least one interior surface of the pleat, by:
1) passing the sheet under a selected tension from
a striper roll to a composite roll which comprises a
parallel roll and an inclined roll, this strip being
approximately aligned with a circularly converging gap
which is formed between the peripheral edge of the
parallel roll and the adjacent peripheral edge of the
inclined roll and the adjacent circular sides of the
inclined and parallel rolls being in rolling contact
in the vicinity of a pinch æone at the convergence of
the edges, whereby the sheet is longitudinally divided
into a portion having parallel tension between the
stripper roll and the parallel roll and a portion
having oblique tension between the striper roll and the
inclined roll;
2) during the passing, transversely moving the oblique-
tension portion toward the gap; and
3) forcing a strip of the oblique-tension portion into
the gap to form the pleat.
The gap generally subtends a pleat angle of from 0.25 to 5 and is
most suitably 1.5.
This aspect of the invention is also disclosed9 and is
claimed, in Canadian Patent Application NoO 488,275, Herrington,
filed August 7, 1985, of which the present application is a
divisional.
The width of the strip varies directly with the distance
of the passing operation between the striper and composite rolls and
- 6a - ~334~
additionally varies directly with the pleat angle. The forcing
operation occurs through a peripheral wrap-around distance subtended
by a peripheral angle of 45 to 180. Specifically, at a peripheral
angle of 90, the width of the strip is measured by the tangent of the
pleat
~.~33~
angle times the projected distance from the line of departure on the
striper roll to the pinch zone. Although it is not necessary, the
inclined roll is usually biased toward the parallel xoll.
Alternatively, or in combination with such biasing, the contact surface
of the rolls may be provided with abrasive or roughened surfaces, 8S is
known in the clutch art.
For sandwich bags and most consumer products, the streak of
adhesive is a continuous length of a selected adhesive. However, the
adhesive may alternatively be added at spaced intervals along the strip
in order to secure a bendable segment which i5 placed in contact with
the spaced adhesivP and is aligned with the strip. This bendable
segment may be a length of tying wire, a length of cutting wire, or a
drawstring, to be used alternatively for closing or opening the bag.
In the drawlngs appended to this specification:
Fig. 1 is a schematic side view of an apparatus for pleating a
continuously advancing sheet of plastic material having an
indeterminate length.
Fig. 2 is a schematic plan view of the striper roll and the
composite roll of the invention, looking in the direction of the arrows
2-2 in Fig. 1, with arrows illustrating the parallel and sidewise
movements of the sheet over the reach between the lines of contact of
the sheet with these rolls and into the circularly converging gap
between the inclined and parallel parts oF the composite roll.
Fig. 3 is a schematic top view, taken in the direction of the
arrows 3-3 in Fig. 1, of the striper roll and of a particular
embodiment of the composite roll seen in Figs. 1 and 2.
Fig. 4 is a sectional view of a portion of the composite roll
of Fig. 3 at the pinch zone between inclined and parallel parts of the
composite roll.
Fig. 5 is a schematic top view, taken in the direction of the
arrows 5-5 in Fig. 1, of another specific embodiment of the composite
roll seen in Flgs. 1 and 2.
Fig. 6 is 8 sectional view of a portion of the composite roll
of Flg. 5 at the pinch zone thereof, similar to Fig. 4.
~33~
Fig. 7 is a sectional view through the reach of a film sheet,
looking in the direction of the arrows 7-7 in Fig. 1, showing the pleat
as it is being initially formed.
- Fig. 8 is another sectional view through the film shePt and
the underlying composite roll7 looking in the direction of the arrcws
8-8 in Fig. 1, showing the pleat being folded further within the
r~rCularly converging gap of the composite roll.
Fig. 9 is a longitudinal sectional view ox the inclined and
parallel parts of the composite roll, showing the system of
angular-contact ball bearing used for support thereon.
Fig. 10 is a longitudinal sectional view of the inclined part
ox the composite roll and of the hinge biasing device thereof taken
at 90 to the section shown in Fig. 9.
Fig. 11 (located in the fourth sheet of drawings,with Figs. 7
and 8) is a schematic plan view of a striper roll, a nLlti-piece roll,
and a sheet passing between these rolls, sinilar to jig. 2.
Fig. 12 (located in the fourth sheet of drawings,with Figs. 7
and 8) is a schematic sectional view through a sheet having a plurality
of pleats after it has passed over the m~lti-piece r~11 ox Fig. 11.
Fig. 13 (located in the second sheet of drawings, with Figs. 3
and 4) i5 a sectional elevation throuyh both sides of a two-pleat trash
bag having drawstring pleat fur holding a drawstring and closing the
top o the bag and a sealing pleat or forming a sealing strip, the draw-
string and sealmg pleats having been jade on the some side of the firm.
Fig. 14 (located in the second sheet of drawings, with Figs. 3 and
4) is a sectional elevation through a trash receptacle of conventional
plastic construction into which the bag of Fig. 13 has been inserted and to
the sides of which this bag has been~adhesively attached.
Referring to Figo 1, the apparatus of one aspect of this invention
broadly comprises a first nip roller assembly 10, a striper roll 20, a
composite roll 30, and a second nip roller assembly 40.
The first nip roller assembly 10 comprises a roller l having
a peripheral surface 11 and an axis ox rotation 13, and an arm 15 which
is pivotally attached at one end to a frame (not shown in the drawings)
9 :~33~
and is rotatably attached at its other end to a pin at axis 13. Thy
strlper roll 20 comprises a peripheral surface 21 and an axis of
rotation 23.
A continually advancing sheet 50 ox indeterminate lcnyth, as
shown in Figs. 1 and 2, approaches the apparatus as reach 51J passes
under first nip roller 12 through a nip 19 between roller 12 and roll
20, and continues over surfac2 21 of stsiper roll 20, through a
peripheral length measured by angle 28, to a line of departure 27. The
sheet of film 50 passing over surface 21 through peripheral distance 28
is readily available for depositing at lPast one streak of adhesive 29
upon its outer surface.
AS an alternative embodiment, line 27 can be the nip between a
pair of nip rollers or can represent unrolling ox a supply roll
equipped with a constant-height mechanism. If a pair of nip rollers is
used and if a streak of adhesive 29 is deposited on one side before the
film reaches the rolls, the roller contacting this side is grooved to
avoid contact with the adhesive streak.
The sheet of film being pleated leaves line 27 and travels as
a tensioned reach 53 to a line of arrival 37 of composite roll 30.
Sheet 50 then passes over surface 31 of composite roll 30 through
angular distance 39 to nip 49 between composite roll 30 and second nip
roller 42 and finally over the second nip roller to leave ln the
discharge direction as departing reach 55 which contains a pleat 55.
Instead of passing through nip 49~ sheet 50 can leave roll 30
as a reach which extends from pinch zone 38 in the opposite direction
to reach 55, whereby nip roller assembly is not needed. As seen in
Fig 2, film 50 has edges 52 and 54 as it passes in the form ox reach
53 from striper roll 20 onto composite rol} 30~ Reach 53 is under
selectively varied tension that is represented by vectors 57 and 59 and
moves sidewise, in the direction of vector So, according to the
guidance provided by the composite peripheral surface of roll 30.
Composite roll 30 is to be understood as rotating on imaginary
axis 33 and as comprising two or more composite rolls having axes of
rotation which are inclined toward each other when viewed às seen in
-10~ ; 33~
Fig. 2, while rotatively contacting each other along a pinch zone 38
which is close to peripheral surface 310 When viewed at 90 to the
view of Fig. 2, however, these axes of rotation always appear as a
straight line.
When two rolls are of approximately equal width, to Norm a
pleat 5~ in the middle of the advancing sheet of firm 50, both of the
rolls are preferably inclined with respect to roll 20~ When the rolls
are of unequal width, however, tD form a pleat 5B which is near one
edge 52,54 as seen in Fig. 2, it is generally more convenient that the
wider roll be parallel to roll 20.
This configuration is shown in Figs. 2, 7, 8, 9 and 10,
wherein composite roll 30 comprises a wide roll 60, which is disposed
in parallel to roll 20 and has axis 33 as its axis of rotation, and a
narrow roll 8û, having an axis of rotation, which is inclined to the
direction of travel of the sheet of film when rolls 20,30 are disposed
as seen in Figs. 1 and 2. These two rolls 60,80 are hereinafter
designated or convenience as parallel roll 6û and inclined roll 80.
Ralls 60,80 are inclined to each other at pleat angle 32,
whereby roll 80 has axis of rotation 82 which is inclined by pleat
angle 32 to axis 33 when viewed at 90 to pinch zone 38, as seen in
Fig. 2. Roll 60 has peripheral surface 61, and roll 80 has peripheral
surface 91.
Specifically, as seen in Figs. 1 and 2, composite roll 30
comprises a peripheral surface 31, a parallel roll 60, an inclined roll
80, a pleat angle 32, a pinch zone 38, a shalt 35, and an axis of
rotation 33. The second nip roller assembly 40 comprises a roller 42,
having a peripheral sur~aoe 41 and an axls of rotation 43, and an arm
45 which is pivotally attached at ane end to the frame and is rotatably
attached at the other end to a pin at axis 43.
Composite roll 3û can have any diameter that is reasonable and
convenient, such as the same diameter as roll 20, and can be spiced
prom roll 20 at any suitable distance. However, this distance,
illustrated by reach length 34, affects pleating performance.
~339~
Pleat 58 is formed from a strip on roll 20 having width 5S
which is determined by the sidewise distance that fi:Lm 50 moves
together while travelling over distance 34 within reach 53 plus the
sidewise distance that the film continues to move to(3ether within the
gap after contacting composite roll 30. Figs. 7 and 8 illustrate these
stages of pleat fDrmation. At tlle preferred wrap around over composite
roll 30 of 90, this width 56 is conveniently expressed in terms of a
right triangle which is clearly seen in Fig. 2.
Therefore, when line of arrival 37 is 9û from pinch zone 3
(i.e., angle 39 equals 90~), the depth of a pleat 58 is therefore lf2
of width 56 which can be calculated by the formula: projected distance
17 x tangent of pleat angie 32, wherein projected distance 17 is the
sum of reach length 34 plus the radius of roll 30.
Pleat angle ~2 is 0-25 to 53 preferably 1.5D. When pleat
angle 32 is small, such as 1.5 or less there is relatively less edge
distortion of the sheet of film. Edge distortion created by using a
large pleat angle 32~ however, can be alleviated by applying heat from
infrared devices along edge 54 andJor strip 55.
If a relatively deep pleat 58 is needed, a larger pleat angle
32, a longer peripheral distance or wrap around distance corresponding
to anglP 39, a longer reach 53, or a combination of two or more of
these variables, may be utilized. If reach 53 must be as short as
possible, as another example, the same pleat depth can be obtained by
increasing pleat angle 32 and/or increasing the peripheral distance
over surface 31.
This peripheral distance can be varied by changing the
diameter of roll 30 or by changing the amount of wrap around roll 30,
ire., angle 39, which is preferably 90~ but which can vary from 45D to
180~. The greater is angle 39, the shorter can reach 53 be or the smaller
can be the diameter of composite roll 30, as embodied by parallel roll
60 and inclined roll 809 to obtain a desired pleating distance.
This strip of film having width 56, as seen in Fig. I, can be
identified throughout its length along the periphery of roll 207 and at
any convenient place along this length a streak of adhesive 29 can be
33~
deposited and selectively solidified before reaching roll 30. AS seen
in FigsO 7 and 8, the strip in roll 20 is progressively folded to form
pleat 58 and enclose streak 29.
Instead of streak 29, a cutting or closing device, such as a
piece of drawstring, a piece of outting string or wire, a flexible tie
strip, or the like can be longitudinally deposited on the strip to be
pleated, preferably in combination with a drop or two of adhesive or
securing the device in place. If desirable to locate one or both ends
of a short piece, such as a flexible tie strip which is disposed within
a pleat 58, one or more portions of the pleat can be excised to expose
one or both ends of the tie strip.
Surface 81 of inclined roll 80 can be the surface of a right
circular cylinder or the surface of the frustum of a right circular
cone, so that surface 81 is inclined at bevel angle 89 from the
perpendicular to its circular side 83,85, as seen in Figs. 3, 4, 5, and
6. Bevel angle 89 can, therefore, vary prom û to 5 or more and is
preferably selected in accordance with such film characteristics as
tendency to stretch, gage uniformity, evenness of edge 54, and the
llke, in order to minimize distortions along edge 54 and pleat 58. In
general, bevel angle 89 is one half of pleat angle 32.
Looking from roll 20 along reach 53 toward roll 30, as in Fig.
3, an observer sees frustum-shaped inclined roll 80' forming a convex
outline (partly in phantom behind roll 20) where line of arrival 37
crosses circularly converging gap 78 between rolls 6û,80. At pinch
zone 38, as seen in Fig. 4, surfaces 61,81' Norm a linear outline.
Guidance of film sheet 50 through the pleating distance is not affected
by this convex relationship of peripheral surfaces 61,81' at line 37 or
by the linear outline in the vicinity of pinch zone 38; instead such
guidance is effected by the angular relationship of axes 33,82'.
Looking prom beyond roll 20 along reach 53 toward roll 30, as
in Fig. 5, an observer sees right-cylindrically shaped inclined roll
80" forming a linear outline where line of arrival 37 crosses circular
converging gap 78 between rolls 60,~0". At pinch zone 38, as seen in
Fig. 6, surfaces 61,81" from a concave outline. Again, however,
~3~
-13-
dijrectional guidance of film sheet 50 through the pleating distance is
not affected by the linear outline along line of arr:ival 37 or the
concave outline in the vicinity of pinch zone 38 and nip 49; it is the
angular relationship between axes 33,B2" that is determining.
Accordingly, if bevel angle ~9 is equal to pleat angle 32,
beveled surface 81' is parallel to and aligned with surface 61 only
when at pinch zone 38, as seen at the bottom of Fig. 4. At other
angular positions along peripheries 61,81, as exemplified by beveled
surface 81 on the opposite side of inclined roll 80 as seen in the
middle of Fig. 2, beveled surface B1 is not at all parallel to surface
61 but forms a clearly convex angle therewith.
As particularly shown in Figs. 4, 6, and 9, inclined roll 80
is driven entirely by contact throughout pinch zone 38 along a contact
portion of its inner side surface 85, near its periphery, with a
contact portion of beveled surface 77 of roll 6û. Beveled surface 77
is beveled at angle 79, which is generally equal to pleat angle 32,
measured from the perpendicular to surface 61. Surface 77 is divided
into a recess portion having depth 84 and a drive portion having
remaining depth 88.
The radially measured deoth as of such contact, as seen in
Fig. 4, is limited by the thickness of cylindrical drum 62 minus the
radially measured depth 84 of the pleat recess having side 83 and width
86 along pinch zone 38. Depth 88 is slightly greater than the depth of
a pleat 58 to be produced within this circumannular recess. The recess
can also be partly cut out of each roll 60,80, as seen in Fig. 8,
wherein inclined roll 8û has a shallow recess with circumannular side
83a and parallel roll 60 has a matching shallow rece$s with
circu~annular side 77a, the total thickness being greater than the
thickness of pleat 58.
This width 86 between side 83 and surface 77 along pinch on
38 ls principally chosen in accordance with the thickness of the sheet
of film being pleated and is always at least twice as great as the
sheet thickness. In general, it is not desirable to squeeze adhesive
streak 29. Therefore, width 86 is at least twice the thickness ox film
-14-
sheet 50 plus the thickness of film streak 29. Similarly, lf a cutting
or closing device, such as a piece ox wire or string is to be enclosed
within pleat 58, thickness 86 is increased to accommodate its
additional thickness.
The patch of movement 57 within reach 53 is parallel to edge
52 as the corresponding portion of the sheet approaches parallel roll
6û. However, the portion of sheet 5û approaching inclined roll 80 of
composite roll 3û has an oblique path of movement (as indicated by
vector 59) which is para?lel to edge 54 of sheet 50. Inclined roll ~0
and parallel roll ~0 are inclined at pleat angle 32 to each other and
circularly converge tn pinch zone 38 which is 90 away from line of
arrival 37, aS seen in Fig. 2.
Parallel roll 60 comprises a cylindrical drum 62 having a
peripheral surface 61, parallel circular sides 63,73, hubs 65,75, a
shaft 71, a key 67 in a keyway within shaft 71 and hub 65, and a bolt
69 holding key 67 in place. Inner edge 77 of cylindrical drum 62 is
also beveled at angle 79 along its entire circular periphery.
Inclined roll 80 of composite roll 30 is a solidly constructed
annular disc with a large circular opening at its center, comprising a
beveled peripheral surface 81, an inner circular side 85, a
circumferential recess having cirCumannular side 83 at the outer edge
of its inner side 85, and a stepped cylindrical hub surface 87 for
insertion of bearing assembly 90. This circumferential recess can
alternatively be in inner edge 77 of roll 60 or can be partially jut
into circular sides 77,83 of both rolls 609aO.
- Bearing assembly 90 comprises a mounting shaft 91 for inclined
roll 8û, ball bearings 97, an outer race 93 for ball bearings 97, an
inner race 95 for ball bearings 97s a load nut 98 for mounting shalt
91, and a cap housing 99 for outer race 93O Outer race 93 us inserted
into contact with hub surface 87. Load nut 98 threadably positions
inner race 95 around mountlng shaft 91. Cap housing 99 is attached
with four bolts to inner side B5 of inclined roll 80.
-15~ 33~
The offset or inclined roll bearings are termed
a ular COntaGt bearings and are sold as "~a~nir" 720 Series ball
bearings by the Fafnir Bearing Co., New Britain, Connecticut. These
are duplex bearings with back-to-back mounting to provide axial and
radial rigidity and equal thrust capacity in either direction when used
in a fixed location.
Hinge mounting assembly 100 is shown in both Figs. 9 and 10.
This assembly comprises a hinged bracket arm 101, a bracket 10~ which
is rigidly attached at right angles to arm 101~ a hinge 105~ and a base
107, hinge 105 being attached to both bracket 103 and base 107. A
spring mounting pedestal 109 receives the biasing force 108 of a
compressive spring having a force of 2 to 20 pounds, preferably 10
pounds, to exert a contact pressure of approximately 1 to 10 pounds,
preferably 5 pounds, along the portion within pinch zone 38 of the
annular strip of surface 85 having width 88, to effectuate driving
contact with surface 77 of roll ~0.
Composite roll 30 can be expanded from a two-piece roil to a
multi-piece roll 100 having an axis of rotation 113, as seen in Fig.
11, which comprises a parallel roll 60, a pair of primary inclined
rolls 111, and 2 pair of secondary inclined rolls 113. Strips 116
which are wormed over roll 20 move together while entering circularly
converging gaps 115 between rolls 601111 and between rolls 111,113 to
form pleats 118 within pinch zones 117, as seen in Fig. 12. Secondary
rolls 112 are necessarily smaller than primary rolls 111 if these rolls
are shaped as the frustum of a cone.
A plurality ox pleats llB are prarticable for repeated sealing
of bags and the like when dusty conditions destroy the usefulness of an
adhesive streak after one use thereof. They are also helpful when one
pleat can be peelingly opened for sealing purposes and another pleat
can be aggressively sealed (as when two streaks ox adhesive are placed
in contact) and utilized for holding a drawstring or metal tie for
closing purposes or for holding a cutting wire, for example, for
opening purposes.
trademark
~16~ 33~
Moreover, two apparatuses of this invention can be combined in
series to form one or more pleats on each side Df a sheet of film, by
reversing the direction in which the striper roll and the two-piece or
multi-piece roll rotate for each apparatus. The pleat which is thereby
formed on the inside ox a bag can be of substantial width, and by
bringing together opposed streaks of adhesive, a very strong and
effective interior seal can be obtained. Thereafter, the pleat which
is thereby formed on the exterior of the bag can be used to close a
protective flap, as in a sandwich bag, or to provide a tie as a back-up
closing means or to provide a cutting tool in the form of a wire or
monofilament. Such a combination is particularly helpful under field
conditions for large bags when a hot-melt sealing machine is not
available.
Manufacturing two-pleat trash bags is described in the
following illustrative example and in Fig. 13. Usage of the z-folds or
pleats of Fig. 13 is illustrated in the accompanying Fig. 14.
- A two-oleat strip-folding apparatus of thy invention is set up
for forming two closely spaced pleats on the same side of a
continuously advancing sheet of indeterminate length. A supply of
1.5-mil. polyethylene film is arranged to pass over the sing}e
two-pleat apparatus (arranged as on the left side of apparatus llû in
Fig. 11), forming two continuous and relatively large pleats 131,137,
and then on two a winder. The wound roll is subsequently unwound onto
a transverse cutting means which separates the pleated film into a
large plurality of transversely extending strips which then move at 9o
tû a folding apparatus and finally to an edge sealing apparatus,
forming a plurality of trash bags 120 having the sectional
configuration shown in Fig. 13. The pleats and portions of this bag
120 are referred to hereinafter while describing the pleatiny
operations.
At first pleat 131 begins to be formed on the striper roll, a
streak of adhesive 133 is added along one outer edge only. Streak 133
is narrow, very aggressive, and highly viscous, so that it spreads very
little9 even though not pre-cooled, while passing through the pinoh
-17-
zone. continuous length of drawstring 135 is then laid in the center
ox pleat 131 without substantial contact with adhesive 133.
Preferably, however, there is sufficient contact with the adhesive that
the drawstring will not slip endwise out the pleat prior to use but can
be broken free by a moderate pull during use thereon.
As a second strip ~e~ins to be folded while passing over the
striper roll for making attachment pleat 137, a streak of adhesive 139
is deposited thereon in the same manner as streak 29, as shown in Fig.
2. Adhesive streak 139 is substantially pre-ccoled before passing
through the pinch zone.
After the pleater film hàs passed through the cutting
operation, the transverse moving operation, and the edge sealing
operation bags 120 are formed, each having folded bottom edge 125,
sides 121, top edge 129, and two pleats 131,137 which are both on the
inside of the bag. When the side edges are cut, drawstring 135 is also
severed. However, its ends are easily accessible because pleat 131 is
wide enough to insert fingers for grasping the cut ends of drawstring
135.
These pleats are utilized as shown ln Fig. 14 in combination
with a trash receptacle 140 having bottom 141, sides 143, and top edge
145~ Beginning at the top of bag 12û, pleat 137 is snapped open, after
bag 120 has been inserted into trash receptarle 140, and adnesive
streak 139 is pressed against sides 143, near top edge 145 ox the
receptacle, so that bag 120 does not fall down inside the receptacle.
After bag 120 has become substantially willed with trash,
adhesive streak 139 is pulled away prom sides 143 and pressed against
adjacent portions ox side 121, essentially reforming pleat 137 in order
to obviate sticking to the user's hands5
Pleat 131 is then utilized by pulling upon the exposed ends ox
drawstring 135 and tying drawstring 135, whereby the filled bag 120 is
suitable for immediate disposal .
After testing, lt is found that bag 120 has a distinct
handling advantage, with respect to closing when nearly willed, over
bags ox the prior art which require one hand to be used for squeezing
~L~33~
ye topmost few inches of a nearly filled bag while the other hand
makes a desperate attempt to secure a tie strip around the slippery
~Ilm~ Mbreover, bag 120 can contain a larger amount of trash than the
prior art bags because lts upper portion need not be compressed as much
as these bags in order to shorten its drawstring 135 sufficiently to
effectuate closure thereof.
