Note: Descriptions are shown in the official language in which they were submitted.
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DISPENSING CLOSURE WITH UNITARY STRUCTURE
FOR RETAINING A PRESSURE-ACTUATED FLEXIBLE VALVE
This is a divisional of Canadian Patent
Application Serial No. 2,058,897, filed January 7, 1992.
TECHNICAL FIELD
This invention relates too container closures, and
more particularly to a squeeze-type container dispensing
closure which opens to dispense a fluid product from the
container when the container is squeezed and which
automatically closes when the squeezing pressure is released.
BACKGROUND OF THE INVENTION AND TECHNICAL PROBLEMS
POSED BY THE PRIOR ART
A variety of packages, including dispensing
packages or containers, have been developed for personal
care products such as shampoo, lotions, etc., as well as for
other fluid materials. Closures f_or these types of
containers typically have a flexible, self-sealing, slit
type dispensing valve mounted over the container opening.
When the container is squeezed, the fluid contents of the
container are discharged through the valve.
Some of these types of closures employ multiple
piece housings or bodies in which the valve is mounted.
While closures used for such packages may function generally
satisfactorily, in some applications it can be desirable to
eliminate multiple piece constructions. Further, there is a
need for an improved closure which can be more easily
manufactured and assembled with reduced manufacturing costs.
Also, it would be advantageous if such an improved
closure could be provided with a design that would
accommodate high speed, high quantity manufacturing
techniques with a reduced product reject rate.
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With some conventional designs, there is a
danger that the flExible, self-sealing, dispensing valve
may be partially ar completely dislodged.from the
container closure. This would permit the container
contents to spill out. .~Iso, there is a danger that a
small child might attempt to swallow the loose valve.
In view of these potential problems, it would be
desirable to provide a closure design having an improved
valve sealing and retention capability.
a0 In addition, it would be beneficial if the
design of such an improved closure could accommodate use
of the closure with a variety of conventional containers
having a variety of conventional container finishes,
such as conventional threaded and snap-fit attachment
configurations.
SUM2~iARY OF THE INVENTION
The present invention provides a dispensing
closure suitable for an opening in a sc;ueeze-type
container. The closure includes a body for attachment
to the container at the container opening to define a
dispensing passage for communicating between the
container interior and exterior through the container
opening.
Carried within the body is a flexible, self-
sealing valve of the type which opens in response to
increased container pressure. The valve has a
peripheral flange disposed in the body to mount the
valve in the dispensing passage.
The body is of unitary construction and is
3~ molded from thermoplastic material with (1) an annular
seat around the dispensing passage for engaging the
valve flange and (2) a first wall extending from the
seat to define a cavity around the seat for receiving
the valve flange.
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The body has a second wall extending from the
first wall. The second wall is deformed into a generally
annular configuration extending radially inwardly from the
first wall to overlie the seat and clamp the valve flange
between the seat and the second wall.
The invention may be summarized as a dispensing
closure suitable for an opening in a squeeze-type container,
said closure comprising: a body for attachment to said
container at said container opening, said body defining a
dispensing passage for communicating between the container
interior and exterior through said container opening, said
body being of unitary construction and molded from
thermoplastic material; a flexible, self-sealing valve of
the type which opens in response to increased container
pressure, said valve having a peripheral flange disposed in
said body to mount said valve in said dispensing passage;
and said body having (1) an annular seat around said
dispensing passage for engaging said valve flange, (2) a
first wall extending from said seat to define a cavity
around said seat for receiving said valve flange, (3) a
second wall that extends from said first wall and that is
deformed into a generally annular configuration extending
radially inwardly from said first wall to overlie said seat
to clamp said valve flange between said seat and said second
wall, (4) a skirt with securing means for engaging
cooperating means on said container, (5) a top wall
extending inwardly from said skirt to define said dispensing
passage, seat, first wall, and second wall, and (6) flexure
means for permitting outward displacement of said seat,
first wall, and second wall with a minimum of distortion,
said flexure means including an annular channel located in
said top wall radially outwardly of said first wall to
define a reduced thickness section of said top wall to
accommodate elongation of said section when said top wall is
engaged by said container.
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Numerous other advantages and features of the
present invention will become readily apparent from the
following detailed description of the invention, from the
claims, and from the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
In the accompanying drawings forming part of the
=specification, in which like numerals are employed to
rdesignate like parts throughout the same,
FIG. 1 is a perspective view of one form ~f a
to closure of the present invention showing an optional lid in
a closed position on the closure;
FIG. 2 is a perspective view of the closure in
FIG. 1 shown with the lid in an open position;
-3a-
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FIG. 3 is a fragmentary view similar to FIG.
2, but showing an exploded, perspective arrangement of
the closure in an intermediate stage of manufacture;
FIG. 4 is a greatly enlarged,_fragmentary,
cross-sectional view taken generally along the plane 4-4
Zn FIG.
FIG. a is a greatly enlarged, cross-sectional
view taken generally along the plane 5-5 in FIG. 2:
FIG. 6 is a fragmentary, plan view of the
closure body taken generally along the plane ~-6 in FIG.
3;
FIG. 7 is a fragmentary, cross-sectional view
of a second embodiment of the closure of the present
invention;
FIG. 8 is a fragmentary, cross-sectional view
taken generally along the plane 8-8 with the valve
omitted to illustrate interior detail:
FIG. 9 is a fragmentary, plan view of~a molded
closure body of a third embodiment of the closure of the
present invention shown with the valve omitted to
illustrate interior detail:
FIG. 10 is a fragmentary, cross-sectional view
of the molded body of a fourth embodiment of the closure
of the present invention illustrating an intermediate
stage of manufacture before the valve is inserted and
the peripheral wall is formed into engagement with the
valve flange;
FIG. 11 is a fragmentary, cross-sectional view
of the fourth embodiment of the closure of the present
invention showing the assembled closure at the
completion of manufacture~
. FIG. 12 is a fragmentary, cross-sectional view
of a fifth embodiment of the closure of the present
invention shown after molding the body, but prior to
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installation of the valve and prior to deformation of
the body wall to engage the valve; '
FIG. 13 is a fragmentary, cross-sectional view
of the fifth embodiment of the closure in the fully
assembled condition at the completion of manufacture;
FIG. 1~ is a fragmentary, cross-sectional view
of a sixth embodiment of the closure of the present
invention;
FIG. 15 is a fragmentary, cross-sectional view
taken along the plane 15-15 in FIG. 14 but with the
valve omitted to illustrate interior detail:
FIG. 16 is a fragmentary, cross-sectional view
of a seventh embodiment of the closure of the present
invention;
FIG. 1? is a fragmentary, cross-sectional view
of a body of an eighth embodiment of the closure of the
present invention shown after molding but prior to
insertion of the valve and prior to deformation of the
body wall to engage the valve.
FIG. 18 is a fragmentary, cross-sectional view
of the closure at the intermediate stage of manufacture
shown in FIG. 3 and with an ultrasonic horn beginning to
engage the closure body peripheral wall prior to
deformation of the wall; and
FIG. 19 is a view similar to FIG. Y8, but
after completion of the deformation of the closure body
peripheral wall.
DESCRIPTI~N OF THE PREFERRED EMB~DIMENTS
While this invention is susceptible of
embodiment in many different forms, this specification
and the accompanying drawings disclose only some
specific forms as examples of the invention. The
invention is not intended to be limited to the
embodiments so described, and the scope of the invention
will be pointed out in the appended claims.
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For ease of description, the closure
of this invention is described in the normal (upright)
operating position, and terms such as upper, lower,
horizontal, etc., are used with reference to this
position. It will be understood, however, that the
closure of this invention may be manufactured, stored,
transported, used, and sold in an orientation other than
the position described.
with reference to the figures, a first
embodiment of the closure of the present invention is
illustrated in FIGS. 1-6 and is represented generally in
many of those figures by reference numeral 40. The
closure 40 is adapted to be disposed on a container,
(not illustrated] which has a conventional mouth or
opening formed by a neck or other suitable structure.
The closure 40 may be fabricated from a thermoplastic
material, or other deformable materials, compatible with
the container contents.
As best illustrated in FIGS. 3°3, the closure
40 includes a housing, base, or body 50. In the
illustrated embodiment, the housing or body 50 includes
a peripheral wall in the form of a cylindrical skirt 52.
The skirt 52 includes, on its interior surface, a
conventional thread 54 or other suitable means (e. g.,
snap-fit bead (not illustrated]) for engaging suitable
cooperating means such as a thread or other suitable
means (e. g., snap-fit bead) on the container neck (not
illustrated) to releasably secure the body 50 to the
container.
In the first embodiment illustrated in FIGS.
1-6, the body 50 includes a top wall 5S (FIGS. 2, 4, and
5) which defines a divided dispensing passage 62 as best
illustrated in FIGS. 4, 5 and 6. The dispensing passage
62 establishes communication between the container
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interior and exterior through the container opening
defined by the container neck.
As best illustrated in FIG. 5, the body 50
includes an internal sealing ring 64 which projects
downwardly from the underside of the top wall 58 and
functions as a seal for protruding against or into the
container neck for engaging a peripheral surface of the
neck to effect a tight seal.
The closure body top wall 58 also includes a
central support member 68 within the dispensing aperture
62 for supporting a dispensing valve '~0 as described in
more detail hereinafter.
The support member 68 has an upwardly facing
concave surface 74 (FIGS. 5 and 6) which is surrounded
by a flat, annular, peripheral surface 76. The support
member 68 is maintained in position within the
dispensing passage 62 by radially oriented arms 80 (FIG.
6) which extend from an annular seat or valve clamping
member 84 (FIGS. 3 and 4).
The upwardly facing surface of the seat or
clamping member 84 may be characterised as a seating
surface or clamping surface 112 for engaging the valve
70 as will be described in detail hereinafter.
The closure body 50 is initially molded as a
unitary construction from thermoplastic material in a
configuration or "pre-form" which is subsequently
deformed during the manufacturing process to retain the
valve 70. In particular, the closure body 50 is molded
with a peripheral wall 88 (FIG. 3) which extends
upwardly from the body clamping member or seat 84 to
define a cavity around the seat 84 for receiving the
valve 70.
Subsequently, the valve 70 is disposed in the
valve body to mount the valve 70 in the dispensing
passage with the valve on the seat 84, and then the
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peripheral wall 88 is deformed, by a novel process
described hereinafter, so that the wall 88 has a lower
portion or first wall 88' that remains generally
undeformed and so that the wall 88 has an upper portion
or second wall 8s°' deformed into a generally annular
configuration extending radially inwardly from the first
wall 88'. The second wall 88" functions to overlie a
portion of the valve 70 and clamp the valve 70 between
the seat and the second wall 88" illustrated in FIG. 5.
As illustrated in FIGS. 3 and 5, the valve 70
includes a flexible central wall 92 which is disposed
across at least a portion of the dispensing passage in
the body 50. The valve central wall 92 defines at least
one norFnally closed dispensing slit 94. Preferably, two
such slits 94 are disposed at intersecting right angles
to form a cross shape. Each slit 94 extends completely
through the thickness of the central wall 92.
The valve central wall on 92 is surrounded by
generally cylindrical portion 96 from which extends a
flange 98. In the preferred form illustrated in the
first embodiment of the closure shown in FIGS. 1-6, the
valve flange 98 has a cross-sectional shape as viewed in
FIG. 5 which may be characterized as a "dovetail°' shape.
When the valve a0 is disposed in the closure
body 50 in the dispensing passage 62, the valve
peripheral flange 98 is oriented to define a central
plane 100 (FIG. 5) that is generally transverse to the
discharge passage 62. The thickness of the flange 98
normal to the plane is greater at the peripheral radial
edge of the flange than inwardly thereof. The thickness
of the valve flange 98 may also be characterized as
decreasing with increasing distance from the flange
peripheral edge. The flange 98 defines first and second
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engagement surfaces 101 and 102 which are symanetrically
oriented on opposite sides of the central plane.
The valve 70 is securely retained in the
closure body 50 by deforming the body wall 88 to engage
the valve flange 98. To this end, the wall 88 is
deformed so that the upper portion 88" defines a first,
or upper, clamping surface 111 to engage the surface 101
of the valve flange g8.
The first clamping surface 111 is spaced from
the valve body lower, or second, clamping surface 112.
Both clamping surfaces 111 and 112 are symmetrically
arranged on opposite sides of the valve flange central
plane 100 (FIG. 5). The spacing between the clamping
surfaces 111 and 112 is less at a location adjacent the
dispensing passage than at a location outwardly
therefrom. That is, the spacing between the clamping
surfaces increases with increasing distance from the
dispensing passage.
Preferably, the surface profile of each
clamping surface 111 and 112 generally conforms to the
surface profile of the adjacent valve flange surface 101
and 102, respectively. Also, in the preferred
embodiment, the valve flange engagement surfaces 101 and
102 diverge in a direction away from the dispensing
passage in a uniform manner, such as at the constant
taper angle illustrated.
Similarly, the spaced-apart clamping surfaces
111 and 112 also preferably diverge in a direction away
from the dispensing passage in a uniform manner, such as
at the constant taper angle illustrated. Preferably,
and as illustrated in FIG. 5, the first clamping surface
111 on the wall 88~~ has a frustoconical configuration,
and the second clamping surface 112 on the closure body
seat 84 also has a frustoconical configuration.
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The above-described novel valve flange
clamping structure is preferably formed by swaging or
deforming the annular peripheral wall 88 (FIG. 3) by
applying mechanical and ultrasonic energy to the wall 88
while guiding the deformation with a suitable forming
surface. FIG. 18 illustrates an arcuate, concave
forming surface 300 that defines an annular, downwardly
open, channel in a generally cylindrical fixture or horn
310 that is attached in a conventional manner to a
conventional ultrasonic thruster assembly (not
illustrated).
The thruster assembly generates ultrasonic
energy in the form of high frequency vibrations which
are directed by the horn 310 into the peripheg~al wall 88
of the closure body. As the horn 310 vibrates at an
ultrasonic frequency, the horn 310 is moved toward the
closure body while engaging the exterior peripheral
surface of the wall 88. The distal end portion of the
wall 88 contacts the curved surface 300 and is urged
2o radially inwardly.
When sufficient ultrasonic energy is directed
into the wall 88,~ localized heating by dissapation of
the ultrasonic vibrations occurs, and the temperature of
the wall 88 rises above the melting temperature of the
wall material. The wall, or a portion thereof, begins
to melt and deform. As the wall is deformed completely
into engagement with the valve flange 98 as illustrated
in FIG. 19, the wall portion 88'°, which lies between the
upper engagement surface 101 of the flange and the.
arcuate forming surface 300 of the horn, is formed so as
to generally conform to the surfaces 101 and 300.
- A conventional ultrasonic thruster assembly
that may be used in the above-described process is the
Model 48B2001 Thruster sold in the United.States of
America by Dukane Corporation, Ultrasonic Division, St.
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Charles, Illinois 60174 LT.S.A. Such an assem~rly
operates with an output power of 2,000 watts at an
output frequency of 20 kilohertz with a maximum
available clamping pressure of 540 pounds. The details
of the structure and operation of such~a conventional
machine form no part of the present invention.
In one contemplated embodiment of the closure
of the present invention, the closure body is initially
molded from polypropylene so that the dispensing opening
62 has an outside diameter of about 0.504 inch as
defined by the inner periphery of the valve seat 84.
The frustoconical clamping surface 112 of the valve seat
84 slopes at an angle of about 22 degrees downwardly to
the base of the peripheral wall 88 which has an inner
diameter of about 0.705 inch. The outer diameter of the
wall 88 is about 0.'778 inch. The height of the wall,
from the underside of the top wall 58 to the top end of
the wall 88, is about 0.298 inch.
The step of swaging or otherwise deforming or
reforming the peripheral wall 88 to securely clamp the
peripheral flange 98 of the valve 70 may be effected
with processes other than ultrasonic forming. The
peripheral wall 88 may be reformed by engaging wall 88
with an appropriate tool to guide the bending or
deformation of the wall 88, and heat may be introduced
by other means, such as by chemical reaction,
convection, etc. Also, depending upon the material from
which the closure body is molded, the wall 88 could be
cold formed to form the wall 88".
The novel closure illustrated in FIGS. 1-6
provides a clamping arrangement which securely holds the
valve 70 in the closure body without requiring special
internal support structures or bearing members adjacent
the interior surface of the valve cylindrical portion
96. This permits the region adjacent the interior
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surface of the cylindrical portion 96 to be
substantially open, free, and clear so as to minimize
any restriction on the flow of the container contents
through the passage 62.
The valve 70 functions in a well-known manner.
When the container' 42 (FIG. llj is subjected to external
forces, as when the container is squeezed to dispense
the contents, the fluid material in the container is
forced up against the valve 70~to temporarily deform the
valve central portion 92 whereby the fluid material is
discharged from the container through the slits 94.
When the application of external pressure on the
container is terminated, the inherent resilience of the
valve material causes the valve to return to its normal,
unstressed, closed orientation. Flexible, self-sealing
valves of this type are well-known in the art. For
example, see U.S. Patent Nos. 1,607,993, 1,825,553,
2,802,607, 2,937,°i95 and 3,257,046.
The valve 70 may be fabricated from
thermoplastic materials, such as polypropylene,
polyethylene, copolyester elastomers, polyurethane,
various styrenes, and chlorinated olefins. It is also
contemplated that other materials may be used, such as
thermoset materials, including silicone, natural rubber,
and ethylene.
The closure may be provided with a lid 120.
The lid 120 may be a separate, unconnected component
which may be placed on, and removed from, the closure
body 50. Preferably, the lid 120 is mounted to an edge
of the closure body 50 as illustrated in FIG. 2. The
lid is adapted to be pivoted between (1) a closed
- position (FIG. 1) over the closure top wall 58 and valve
70 and (2) an open position spaced away from the top
wall 58 and valve 70 (FIG. 2).
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In the preferred embodiment, the lid 120 is
connected to the closure body 50 by suitable means, such
as a snap-action hinge 124 as illustrated in FIG. 2.
Such a snap-action hinge 124 is formed integrally with
the closure housing 50 and lid 120. The illustrated
snap-action hinge 124 is a conventional type described
in U.S.A. Patent No. 4,403,712:
Preferably, the lid 120 and closure body are
molded as a unitary structure from suitable
l0 thermoplastic materials, such as polypropylene or
polyethylene.
When the closure body is molded from
thermoplastic materials, the provision of the flat
annular surface 76 around the concave support member
surface 74 aids in the molding process. '.Chis eliminates
having to mold an «cute angle at the peri~,~heral edge of
the concave surface 74. Such a sharp angle is difficult
to mold and is more likely to break.
when a closure is applied to a container,
there is a potential for distorting the closure and
loosening the clamped valve ~0~ In particular, as the
closure body 50 engages the top end surface of the neck
of the container, the closure body top wall 58 begins to
be pushed upwardly.
Because the closure top wall 58 is connected
about its outer periphery to the side wall or skirt 52
of the closure body 50, the top wall 58 can have a
tendency to move upwardly a greater amount at locations
radially inwardly from the periphery of the closure body
than it does at the outer periphery of the closure body.
This could cause a "bowing" or "doming" of the top wall
- 58 which would cause the walls 88~ and 88~~ to be
expanded radially outwardly as well as ascially upwardly.
This could result in an increase in the diameter of the
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walls 88' and 88". As a consequence, the valve 70 could
become loose in the walls 88' and 88".
The closure 40 can be provided with a unique
structure that functions to overcome the "doming"
tendency of the closure body 50 when it is applied to a
container. Specifically, an annular channel 140 is
defined in the top wall 58 radially outwardly of the
wall 88'. Preferably, the channel 140 has a V-shaped
cross-section and opens upwardly around trre wall 88' to
l0 define a reduced thickness section in the top wall.
This accommodates elongation of the sectian when the top
wall 58 is engaged by the end of the container neck.
Specifically, when the upper end of the
container neck engages the closure top wall (at seal 64
on the top wall 58), the portion of the top wall 58
radially inwardly of the annular channel :140 is moved
upwardly with considerably less "doming" because the
reduced thickness section below the channel 140 can
deform and elongate. This acts as a flexure means or
hinge means to some extent.
The portion of the top wall 58 radially
inwardly of the channel 140 is thus pushed up with
considerably less ~distortion~ and the walls 88' and 880'
tend to remain in the original, unstressed orientations.
This means that the diameters of the walls 88' and 88"
remain substantially unchanged as the clasure is tightly
engaged with the container neck. As a result, the valve
70 will remain securely retained within the closure 40.
Another feature of the preferred
embodiment of the closure prevents inadvertent discharge
or leakage of the container contents out of the closure.
- This feature relies on a unique cooperation between the
closure lid 120, t:he valve 70, and the support member
68.
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Specifically, the closure lid 120, as best
illustrated in FIGS. 2 and 4, includes an annular
sealing collar 160 for engaging the valve central wall
92 when the lid 120 is closed as illustrated in FIG. 4.
The collar 160 forces the valve central wall 92 against
the closure body support member 68 so as to seal the
valve closed around the slits 94 (FIGS. 2 and 3).
Preferably, the Iid 120 also includes an outer
annular sleeve 170 that is shorter than the annular
sealing collar 160. The lid 120 further includes lugs
172 which are circumferentially spaced apart around the
inner periphery of the lid sleeve 170. The lugs 172 are
unitary with the lid sleeve x.70, and each lug 172 has an
end surface that is coplanar with the sls:eve end
surface.
The lugs 172 and sleeve 170 function to force
a peripheral, annular flat surface 178 of the valve 70
downwardly when the lid is closed (FIG. ~). This helps
to deform the valve central wall 92 downwardly to
conform with the support member 68 so that the valve
slits 94 are effectively sealed within the annular
sealing collar 160.
Further,. to ensure that the sealing collar 160
effectively engages the valve central wall 92, the
sealing collar 160 preferably has a frus~toconical end
surface 180. The frustoconical end surface 180 defines
an angle that is equal to the angle of a line tangent to
the support member concave surface 74 at a point axially
aligned with a selected point on the end surface 180
when the lid is closed.
When the closure lid 120 :i.s open, the valve
70, owing to its inherent resiliency, returns to its
original, unstressed configuration (FIG. 5). In that
configuration, the valve central wall 92 is spaced
upwardly from the support member concave~surface ?4, and
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the valve cylindrical portion 96 assumes its original,
unstressed cylindrical configuration. In this
configuration, the contents of the container may pass up
through the dispensing passage 62 and out through the
valve 92 when the pressure of the liquid is sufficient
to overcome the resilient closure forces of the valve
700
The valve retention capability of the closure
can be increased even more by providing at least one
projecting protrusion on one or both of the clamping
surfaces. The protrusions, such as teeth-like
projections, spikes, ridges, and rings, would increase
the retaining force because they would become embedded
in the valve flange material or otherwise deform the
valve flange material:
FIGS. 7-17 illustrate such additional valve
retaining structures. These embodiments may be used to
retain self-sealing, flanged valves. The particular
valve internal configurations, wall thicknesses~
curvatures of the valve central wall portions, etc. may
be of any suitable design consistent with the valve
mounting flange structure that is illustrated.
FIGS. 7 and 8 illustrate a second embodiment
of the invention wherein the closure body includes a top
wall 58A defining the dispensing passage 62A. No valve
support member, such as valve support member C8 shown in
FIG. 3, is provided in this embodiment.
A self-sealing valve 70A is provided with a
peripheral flange 98A which is seated on an upwardly
facing surface 112A on the body seat 84A and which is
clamped by an upper wall 88A". The clamping surface
112A includes protrusions 130A, and these protrusions
130A have the foray of annular rings which each have a
sharp edge for gripping the valve flange 98A.
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FIG. 9 illustrates a modification wherein the
closure body includes a valve flange seat having an
upwardly facing clamping surface 1128 which is provided
with partial rings 1318 in a segmented form. The ring
arrangement may be divided as il3ustrated among four
quadrants with a single ring segment 1318 in each of two
opposing quadrants and with two ring segments 1318 in
each of two other opposing quadrants. In the quadrants
that have two ring segments 131B, the ring segments 1318
are spaced-apart a.nd are radially offset with respect to
the single ring segments 131B in the adjacent quadrants.
Each ring segment 1318 may have a rectangular or square
cross-sectional profile as illustrated. Alternatively,
the ring segments 1318 may have a sharp, inverted V-
shaped profile similar to the profile of the rings 130A
illustrated in FIG. 7 and 8.
FIG. 10 illustrates another embodiment of the
closure body -- prior to insertion of the valve and
deformation of the peripheral wall 88C. The closure
body includes a seat 84C having sharp, annular rings
1300 similar to the rings 130A desc'.~ibed above with
reference to FIGS. 7 and 8.
In addition, an upper portion of the
peripheral wall 88C includes a plurality of inwardly
directed, sharp rings 1400 which may have the same
cross-sectional configuration as the rings 130C.
When the wall 88C is defo~c°xned into engagement
with the valve flange 98C as illustrated in FIG. 11, the
rings 1300 engage the bottox~ surface of the valve flange
98C, and the rings 140C engage the top surface of the
flange 98C.
The alternate embodiment illustrated in FIGS.
12 and 13 is similar to the above-described embodiment
illustrated in FIGS. 10 and 11. However, in the
embodiment illustrated in FIGS. 12 and 13, the closure
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body includes a peripheral wall 88D which has gripping
rings 140D extendirdg in a spaced-apart configuration
over essentially the entire height of the interior
surface of the walk. 88D. The closure body also includes
a valve seat 84D with gripping rings 130D.
When a valve is disposed in the closure body
with the valve flange 38D seated on the seat 84D as
illustrated in FIG. 13, the wall 88D can be deformed so
that all of the peripheral surfaces of the flange 98D
are engaged and gripped by the rings 130D and 140D.
FIGS. 14 and 15 illustrate an alternate
embodiment wherein a valve flange 98E is gripped between
a valve seat 84E and a wall 88E. The seat 84E includes
a plurality of upwardly projecting, spaced-apart spikes
160E which grip the underside of the valve flange 98E.
These spikes 160E may be arranged, as best illustrated
in FIG. 14, in two, concentric circles.
FIG. 16 illustrates an alternate form of the
closure of the present invention wherein the closure
body includes a valve flange seat 84F which has a
generally flat flange-engaging surface 112F. The
surface 112F does not slant downwardly with increasing
radial distance. The surface 112F is adapted to engage
and clamp a generally flat surface 102F of a self-
sealing valve flange 98F.
The valve flange 98F has an upper surface 101F
which slants upwardly with increasing radial distance.
The surface 101F is engaged by a deformed wall 88F°'. If
desired, protrusions, such as the above-described spikes
or rings, could be provided on the seat clamping surface
112F and on the wall 88F°'.
FIG. 17 illustrates another emb~diment of a
closure body having an annular seat 84G for receiving
the flange of a self-sealing valve knot illustratedj.
The closure body 'also includes an upwardly projecting,
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23258-1667D
-° 19
annular, peripheral wall 88G which can be deformed into
engagement with the valve flange. Protrusions such as
spikes or retaining rings could be provided if desired.
It is contemplated that, in some applications
and for some materials and sixes, the inner surface of
the wall 88G can be molded with an annular. channel 180G.
This reduces the thickness of the wall 88G which could
cause the wall 88G to preferentially bend at that
region. However, experiments have shown that, for some
l0 combinations of materials, configurations, and sizes,
the thin section of material adjacent the channel lBOG
may function as an energy director and lead to an
undesireable shearing at the channel 180G.
In all of the above discussed embodiments
where it is a desired to provide protrusions on the
clamping surfaces of the clovure body, each protrusion
may be provided in the form of an elongate member (e. g.,
tooth or spike) bent over near its base so as to extend
generally radially outwardly relative to the dispensing
passage and generally parallel to the engagement surface
of the valve flange. With such an arrangement, forces
tending to pull the valve flange inwardly and upwardly
out of the closure body will cause the "bent over"
spikes to engage the flange and be forced radially
inwardly. This would tend to urge the spikes to pivot
away from the "bent over" position toward a vertical
position. This would increase the engagement between
the spikes and the valve flange and contribute to
increased reaction forces for retaining the valve
flange.
It will be readily observed from the foregoing
detailed description of the invention and~from the
illustrations thereof that raumerous variations and
modifications may be effected without departing from the
CA 02433162646 2003-06
23158-1667D
true spirit and scope of the novel concepts or
principles of this invention.
