Multiple-orifice dispensing system with improved seal

A dispensing structure is provided for a container that has an opening from which a product can be dispensed. The structure includes a body for extending around the container opening. The body is provided with a plurality of dispensing apertures. A lid is provided for sealingly occluding the foraminous member and for moving between a closed position and an open position. The lid has two spaced-apart sealing walls for sealing the sides of the body channel over the dispensing apertures.

CROSS REFERENCE TO RELATED APPLICATION(S) 
Not applicable. 
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT 
Not applicable. 
REFERENCE TO A MICROFICHE APPENDIX 
Not applicable. 
TECHNICAL FIELD 
This invention relates to a system for dispensing product from a container. 
The invention is more particularly related to a sealable closure system 
that can be opened to facilitate dispensing of a particulate material such 
as a powder or granular substance. 
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 particulate materials, including cosmetic products such 
as powders and including food products such as herbs, spices, granular 
salt, etc., as well as other materials. Such containers typically have an 
open upper end on which is mounted a closure. 
One type of dispensing closure for containers includes a base having many 
small dispensing holes and a lid mounted to the base for covering the 
holes. When the user opens the lid and inverts and shakes the container, 
the product particles are sprinkled out through the holes. 
While the above-described type of container closure functions generally 
satisfactorily, it would be desirable to provide an improved dispensing 
structure for containers. With some types of prior art closures, multiple 
dispensing holes are individually occluded with separate plugs on the 
underside of the closed lid. See, for example U.S. Pat. No. 4,369,901. 
Such a structure may be difficult to manufacture so as to provide ease of 
closure and reliable sealing of each hole when the lid is moved to the 
closed position. 
If the individual plugs were eliminated so as to simplify manufacture and 
make the closing process easier, then the particulate material could pass 
through the holes under the closed lid and accumulate on portions of the 
closure under the lid. Then, when the lid is subsequently opened, the 
accumulated material outside of the holes becomes visible and is not 
aesthetically pleasing. Further, as the lid is moved to the open position, 
some of the accumulated material may get knocked off of, or thrown 
outwardly from, the closure. 
Thus, it would be desirable to provide an improved dispensing structure 
which could substantially eliminate or lessen the accumulation of product 
adjacent the exterior of the dispensing holes. 
Further, it would be desirable if such an improved dispensing structure 
could employ a lid sealing system which would function more reliably to 
preserve the freshness of the product in the container when the dispensing 
structure is in a closed condition. 
It would also be advantageous if such an improved dispensing structure 
could accommodate individual dispensing holes having a variety of shapes. 
It would also be desirable if such an improved dispensing structure could 
provide more consistent opening and closing resistance forces. 
It would also be beneficial if such an improved dispensing structure could 
accommodate use of a variety of different materials. Further, it would be 
desirable if such an improved dispensing structure could be provided with 
a design that would accommodate efficient, high-quality, large volume 
manufacturing techniques with a reduced product reject rate. 
The present invention provides an improved dispensing structure which can 
accommodate designs having the above-discussed benefits and features. 
SUMMARY OF THE INVENTION 
According to one aspect of the present invention, a dispensing system or 
structure is provided for a container that has an opening to the container 
interior. The dispensing structure includes a body for extending around 
the container opening. The body defines an end wall. A continuous channel 
is defined in the end wall at least in part by an outer seal surface and 
an inner seal surface spaced from the outer seal surface. There are a 
plurality of spaced-apart dispensing apertures in the channel between the 
inner and outer seal surfaces. 
The structure also includes a lid with a continuous outer seal wall and a 
continuous inner seal wall spaced from the outer seal wall. The lid is 
movable between (1) a closed position over both the body end wall wherein 
(a) the outer seal wall sealingly engages the body outer seal surface, and 
(b) the inner seal wall sealing engages the body inner seal surface, and 
(2) an open position away from the closed position to permit dispensing of 
the product. 
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.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
While this invention is susceptible of embodiment in many different forms, 
this specification and the accompanying drawings disclose only one 
specific form as an example of the invention. The invention is not 
intended to be limited to the embodiment so described, however. The scope 
of the invention is pointed out in the appended claims. 
For ease of description, the dispensing structure 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 dispensing structure of this 
invention may be manufactured, stored, transported, used, and sold in an 
orientation other than the position described. 
A presently preferred embodiment of a dispensing structure or system of the 
present invention is illustrated in FIGS. 1-11 and is designated generally 
therein by reference number 20. In the preferred embodiment illustrated, 
the dispensing structure is provided in the form of a closure 20 which is 
adapted to be mounted on a container 22 (FIGS. 1 and 8). The body of the 
container 22 may have any suitable configuration. The container 22 could 
have an upwardly projecting neck which is adapted to receive the closure 
20 and which may have a different cross-sectional shape than the container 
body. 
The container 22 would typically contain a powdered material, granular 
material, shredded material, or other fine particulate material (e.g., 
baby power) or coarse particular material (e.g., a ground spice used for 
food preparation). 
The container 22 may have a rigid wall or walls, or the container 22 may 
have a somewhat flexible wall or walls. The container 22 defines an 
opening 23 (FIG. 8), typically at the upper end of the container 22 or 
container neck (if the container has such a neck). 
Although the container 22, per se, need not necessarily form a part of the 
present invention, per se, it will be appreciated that the dispensing 
structure or system of the present invention may be provided as a unitary 
portion, or extension, of the top of the container 22. However, in the 
preferred embodiment illustrated, the dispensing structure 20 is a 
separate element or closure which is adapted to be mounted to a previously 
manufactured container 22 which has an opening to the container interior. 
As shown in FIG. 2, the preferred embodiment closure or dispensing 
structure 20 of the present invention includes a base portion or body 30 
and a lid 50. As illustrated in FIG. 8 for the preferred embodiment of the 
dispensing structure 20, the body 30 may be characterized as having or 
defining a skirt 62 for receiving the upper end of the container 22. The 
skirt 62 includes suitable connecting means, such as conventional snap-fit 
beads 64 adapted to be threadingly engaged with a mating container groove 
65. The closure body 30 and container 22 could also be attached with 
either a dual snap-fit bead engagement or a mating thread engagement. 
Also, the closure body 30 could be permanently fixed to the container 22 by 
means of induction melting, ultrasonic melting, gluing, or the like, 
depending upon the materials used for the closure body 30 and container 
22. As previously mentioned, the closure body could also be formed as a 
unitary part, or extension, of the container 22. 
As illustrated in FIGS. 8 and 9, the top of the closure body 30 defines a 
peripheral deck 66 for limiting the closing movement of the lid 50. The 
deck 66 may be characterized as the upper, end surface of the closure body 
skirt 62. As can be seen in FIG. 8, the closure body 30 includes an upper 
end wall 70 which is formed as a unitary extension of the closure body 
deck 66. The end wall 70 includes an outer shoulder 72 projecting upwardly 
from the peripheral deck 66. The end wall 70 further includes a raised 
central portion 74 which projects above the shoulder 72 and which defines 
a radially outwardly facing peripheral surface 66. 
Projecting downwardly from the underside of the end wall shoulder 72 is an 
annular plug seal 73. The plug seal 73 is adapted to be received inside of 
the opening 23 at the upper end of the container 22 when the closure body 
30 is properly mounted on the container 22 (FIG. 8). The plug seal 73 
sealingly engages an inner edge or inner surface of the container 22 to 
prevent the contents of the container from leaking or flowing into the 
annular volume adjacent the inside of the closure body skirt 62. 
As shown in FIG. 8, the closure body end wall raised central portion 74 
defines a continuous channel 80 which has a generally annular 
configuration. The channel 80 is defined in the end wall raised central 
portion 74 at least in part by an outer seal surface 82 and an inner seal 
surface 84 which is spaced inwardly from the outer seal surface 82. 
The bottom of the channel 80 is defined by a generally annular bottom wall 
86 as shown in FIGS. 2 and 8. Further, as shown in FIG. 2, the channel 
bottom wall 86 defines a plurality of spaced-apart dispensing apertures 90 
between the channel outer seal surface 82 and the channel inner seal 
surface 84. The apertures 90 communicate through the bottom wall 86 of the 
closure body end wall 70 with the interior of the closure body 30. Hence, 
when the closure body 30 is mounted on the end of the container 22, the 
apertures 90 are in communication with the product held within the 
container 22. 
As can be seen in FIG. 11, the closure body end wall channel 80 preferably 
has a novel sealing system defined by the outer seal surface 82 and the 
inner seal surface 84. The outer seal surface 82 is in the form of a 
continuous, radially inwardly projecting seal bead having a transverse 
cross-sectional configuration of a semicircle (as can best be seen in FIG. 
7). The inner seal surface 84 has a generally frustoconical configuration. 
The configurations of the outer seal surface 82 and inner seal surface 84 
are particularly well suited for establishing a seal with the lid 50 when 
the lid is closed. 
The lid 50 may be completely separate from the closure body 30. However, 
preferably the lid 50 is connected to the closure body 30 with a suitable 
hinge 100 (FIG. 2). One preferred hinge is the snap-action hinge disclosed 
in the U.S. Pat. No. 5,642,824. Preferably, such a snap-action hinge 
provides a bi-stable action for maintaining the lid in a substantially 
closed position (FIG. 1) or in a substantially open position (FIG. 2). 
The lid 50 includes a generally planar, central cover portion 102 (FIG. 8) 
surrounded by a peripheral skirt 104. The skirt 104 is adapted to limit 
the lid movement to the closed position by engaging the body deck 66 
outwardly of the shoulder 72. The front of the lid 50 overhangs a notch 
105 in the body skirt 62. When the lid 50 is closed, the user can insert 
the end of a thumb or finger under the lid skirt 104 at the closure body 
notch 105. The user can then push upwardly to lift the lid 50 to an open 
position. 
As shown in FIGS. 2 and 9, the lid 50 includes an annular collar 110 
projecting downwardly from the underside of the lid cover portion 102. The 
collar 110 includes a radially inwardly projecting bead 112 (FIGS. 8 and 
11). When the lid 50 is closed, the lid bead 112 engages an outwardly 
radially extending lip 114 (FIG. 7) which is defined on the front half of 
the closure body raised central portion peripheral surface 76. The lid 
collar bead 112 effects a snap-fit engagement with the closure body lip 
114 to hold the lid 50 in the closed configuration. 
The lid 50 also includes an outer seal wall 120 and an inner seal wall 124 
as shown in FIGS. 2 and 8. The seal walls 120 and 124 project downwardly 
from the underside of the lid cover portion 102. As can be seen in FIG. 
11, the outer seal wall 120 has an arcuate sealing surface 126 facing 
generally radially outwardly. The inner seal wall 124 has an arcuate 
sealing surface 128 facing generally radially inwardly. 
The outer seal wall sealing surface 126 is adapted to sealingly engage the 
closure body outer seal surface 82. The lid inner seal wall arcuate 
sealing surface 128 is adapted to sealing engage the closure body inner 
seal surface 84 when the lid 50 is closed (FIG. 11). 
When the lid 50 is closed, the container product cannot be dispensed owing 
to the sealing engagement between the lid sealing walls 120 and 124 with 
the body outer seal surface 82 and body inner seal surface 84, 
respectively. 
When the lid 50 is open, the container 22 can be inverted to dispense the 
container product through the apertures 90. When the container 90 is 
returned to an upright orientation, some of the product may settle in the 
closure body annular channel 80 on top of the bottom wall 86 between the 
apertures 90. However, after the lid 50 is closed, such material is 
prevented from moving outside of the channel 80 by the lid outer seal wall 
120 and lid inner seal wall 124. Thus, very little, if any, of the product 
will be lodged on the exterior surface of the closure body raised central 
portion 74. Hence, when the lid 50 is re-opened, there will be very 
little, if any, material on the upper surface of the raised central 
portion 74 that could look messy and/or be flung outwardly as the lid 50 
is raised. Further, because substantially all of the container product 
will be below the sealing surfaces (body seal surface 82 and lid surface 
126, and body seal surface 84 and lid surface 128 in FIG. 11), the 
material will stay sealed from ambient atmosphere and remain fresher. 
Because the seal walls 120 and 124 each has a continuous, closed 
configuration, and because the walls 120 and 124 are designed to enter 
into the single channel 80 together, the closure lid 50 can be readily 
closed without having to maintain exceptionally close tolerances and 
alignments. For example, in prior art closures wherein a plurality of 
plugs project downwardly from the underside of the lid, each of the plugs 
must enter into a separate dispensing hole. In order to insure that all of 
the plugs properly enter into the holes, proper alignment between the lid 
and the closure body must be maintained, and such alignment may be 
difficult to maintain without relatively massive hinge structures or 
alignment structures that would necessarily increase the difficulty and 
cost of manufacture. 
In contrast, in the present invention, the seal walls 120 and 124 can be 
configured to provide relatively flexible or deformable structures which 
readily enter into the channel 80, and the manufacturing tolerances may be 
greater. Further, the seal walls 120 and 124 provide exceptional sealing, 
especially in conjunction with the illustrated preferred configuration of 
the closure body seal surfaces 82 and 84. 
The use of the outer seal wall 120 and inner seal wall 124 in the lid 50, 
in conjunction with the closure body channel 80, allows the dispensing 
apertures 90 to have a variety of different configurations. The apertures 
90 may be generally cylindrical bores as illustrated. Alternatively, the 
apertures 90 may have other shapes, such as a square shape, a star shape, 
etc. Indeed, in a given closure, each aperture 90 could have a different 
shape. The apertures could, for example, be formed as letters or numbers 
in the channel 80 so as to provide specific indicia setting forth product 
identification, advertising, or other messages. 
The lid sealing walls, especially the outer sealing wall 120, may be 
utilized to provide a resistance to opening and closing. This may be 
employed as an adjunct to, or instead of, the lid body latch feature 
described above with reference to the lid bead 112 and body rib 114 (FIG. 
9). However, in the illustrated, preferred embodiment, the lid sealing 
walls 120 and 124 are not employed to establish a lid/body latching 
feature. Thus, the engagement of the lid sealing walls 120 and 124 with 
the closure body raised central portion 74 can be effected with reduced 
engagement forces so as to minimize the forces that may be required to 
close the lid 50 and to open the lid 50. As a result, the lid latching 
force during closing, and the lid unlatching force during opening, can be 
more precisely designed as a function of the specific latching structures 
(e.g., the lid bead 112 and closure body rib 114 (FIG. 9)). 
It will also be appreciated that the closure of the present invention can 
be embodied in a design, such as the preferred design illustrated in FIGS. 
1-11, wherein the closure body material in the orifice area has a more 
uniform material thickness, and this simplifies the thermoplastic molding 
process. 
It is presently contemplated that many applications employing the 
dispensing structure 20 will be most conveniently realized by molding the 
dispensing structure 20 from suitable thermoplastic material or materials. 
In the preferred embodiment illustrated, the body 30, hinge 100, and lid 
50 are preferably molded as a unitary structure from a suitable 
thermoplastic material such as polypropylene. 
It will also be appreciated that the dispensing structure 20 can be readily 
designed to incorporate appropriate tamper-evident features and/or 
child-resistant features. Such features may be incorporated within the 
structure of the closure body and lid and/or may include overcap 
structures or shrink film systems (not illustrated). 
It will be readily apparent from the foregoing detailed description of the 
invention and from the illustrations thereof that numerous variations and 
modifications may be effected without departing from the true spirit and 
scope of the novel concepts or principles of this invention.