Closure mechanism for liquid containers

A closure mechanism is disclosed for a package for liquids where the package includes a container for housing a liquid and having opposing surfaces defining a discharge opening exposing a container interior. The closure mechanism inlcudes an intermediate member mounted on the container and covering the discharge opening. The intermediate member has a pour spout extending from a first end to a second end. A wall surrounds the pour spout and is spaced therefrom to define a liquid retaining volume. A floor is disposed within the volume adjacent the first end of the spout and having a floor opening providing liquid flow communication between the liquid retaining volume and the container interior. A cap is provided removably connected to the package and sized to cover the spout and the liquid retaining volume. A closure plate is provided for blocking flow of liquid through the floor opening when the cap is disconnected from the package.

BACKGROUND OF THE INVENTION 
1. FIELD OF THE INVENTION 
This invention pertains to a package for liquid products and more 
particularly to a package including a selectively operable drain for 
preventing undesired dripping of liquid from the package. 
2. DESCRIPTION OF THE PRIOR ART 
In the prior art, liquid containers with so called "dripless" pouring 
spouts are well known. An example of one such container is shown in U.S. 
Pat. No. 4,550,862 to Barker, et al. dated Nov. 5, 1988. In Barker, the 
liquid containing package is provided with a transition collar having an 
outwardly extending pouring spout. A drain hole is provided on the 
transition collar so that any liquid which drips down the side of the 
spout is drained back into the container. In the Barker patent (in columns 
1 and 2 thereof), a purported disclosure of the prior art of dripless 
pouring spouts is set forth. 
With a liquid container having the structure of the aforementioned U.S. 
Pat. No. 4,550,862, the drain hole of the transition collar is always 
open. This is not always desirable. The drain spout only needs to open 
after the pouring operation has been completed. At this time, the cap is 
normally in place on the container. It is an object of the present 
invention to provide a liquid containing package which drains only when 
the cap is inserted onto the package. 
SUMMARY OF THE INVENTION 
According to a preferred embodiment of the present invention, a closure 
mechanism is provided for a liquid package where the package includes a 
container for housing a liquid and having a discharge opening exposing an 
interior of the container. An intermediate member is mounted on the 
container and covers the discharge opening. The intermediate member has a 
pour spout. Walls spaced from the spout define a liquid retaining volume. 
The member includes a floor adjacent a first end of the spout and having a 
floor opening therethrough to provide liquid flow communication between 
the liquid retaining volume and the container interior. A cap is sized to 
be removably connected to the package and further sized to cover the spout 
and the liquid retaining volume when the cap is connected to the package. 
Blocking means are provided for blocking flow of liquid through the floor 
opening when the cap is disconnected from the package.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to the several drawings wherein like numerals indicate the 
same elements throughout the views, a preferred embodiment of the present 
invention will now be described. In the preferred embodiment, the liquid 
containing package 10 includes a container 12 for housing a liquid and 
intermediate member 14 and a cap 16. The container 12 defines an interior 
18 (shown in FIG. 6 and 7). Opposing surfaces of the container define a 
discharge opening 20 exposing the interior 18. 
The intermediate member 14 includes a hollow pour spout 22 extending from a 
first end 24 to a second end 26. The member 14 further includes a 
generally cylindrical wall 28 surrounding spout 22 and spaced therefrom to 
define a generally annularly liquid retaining volume 30. As shown best in 
FIGS. 3 and 4, cylindrical wall 28 is maintained in generally parallel 
axially alignment with spout 22 by means of a floor 32. Floor 32 connects 
first end 24 of spout 22 with the opposing ends of wall 28. 
Intermediate member 14 is formed of injected molded plastic. When formed, a 
narrow or thin hinge (line 34) is formed in the floor 32. 
As shown best in FIG. 4, spout 22 is not coaxial with wall 28. Instead, 
spout 22 is slightly spaced off-center from the center of the cylinder 
defined by wall 28. Therefore, liquid retaining volume 30 includes a first 
half 30a and a second half 30b with 30a being smaller than 30b. Hinge line 
34 is disposed in that portion of floor 32 beneath volume 30b with hinge 
line 34 adjacent first end 24 of spout 22. 
As shown in the figures, intersecting surfaces of floor 32 and wall 28 
define a generally circular connecting line 36. Hinge line 34 separates 
circular connecting line 36 into a first half 36a disposed beneath volume 
30a and a second half 36b disposed beneath volume 30b. At line 36a, floor 
32 is integrally molded with wall 28. However, at line 36b, floor 32 is 
not molded to wall 28. Instead, line 36b represents a cut or line of 
disconnection between floor 32 and wall 28. For clarity, line 36b extends 
from a first end 36b' to a second end 36b". Points 36b' and 36b" are 
coincident with the terminal ends of hinge line 34. 
That portion of floor 32 to the right of hinge line 34 (when viewed in FIG. 
4) comprises a movable closure plate 38 which is hingedly connected to 
floor 32 at line 34. Plate 38 is pivotable about line 34 to a first 
position (shown in FIGS. 7 and 8) with plate 38 spaced from wall 28 to 
define a floor opening 40 in liquid flow communication with the interior 
18 of container 12. Closure plate 38 is pivotable about the axis 34 to a 
second position (shown in FIGS. 3 and 6) where the closure plate 38 covers 
the opening 40 and, at line 36b, closure plate 38 abuts wall 28 in 
generally liquid sealing engagement. In the molding process, the plastic 
of intermediate member 14 is selected and molded so that closure plate 38 
is biased to the second position as shown in FIG. 3 but is resilient to 
act against that biasing to be moved to the first position of FIG. 7. 
As shown in the figures, closure plate 38 includes a generally centrally 
located raised portion 42. Wall 28 includes a cut out 44 to follow line 
36b with raised portion 42. Raised portion 42 consists of two generally 
triangular shape planar surfaces 46 and 48 joined to each other and 
closure plate 38 at linear connecting lines 49, 50 and 51 (shown only in 
FIG. 4). At line 50, adjacent line 36b, raised portion 42 is provided with 
a flat 52. 
Intermediate member 14 is connected to container 12 by means of a threaded 
collar 54. As shown best in FIGS. 1 and 5, container 12 includes a 
cylindrical wall 55 which defines discharge opening 20. Wall 55 is 
provided with external threads 56. An alternative to threaded connections 
is to provide wall 55 and collar 54 with opposing annular rings. The 
opposing rings would interlock in a snap fit when the intermediate member 
is forced onto the container. 
Intermediate member 14 includes collar 54 surrounding wall 28 and spaced 
therefrom by an annular flange 58. Collar 54 includes internal threads 60 
and external threads 62. Internal threads 60 are disposed to threadedly 
engage external threads 56 so that intermediate member 14 may be threaded 
onto wall 54. A seal 64 extending from annular flange 58 abuts a terminal 
end of wall 54 in sealing engagement (shown in FIG. 5) when intermediate 
member 14 is threaded onto container 12. When so connected, the member 14 
covers opening 20 with spout 22 in communication with the interior 18. 
Cap 16 includes a generally cylindrical wall 70 sized to surround spout 22 
and be received within volume 30. A first end of cap 70 is closed by a lid 
72 with a second end of wall 70 terminating at a free end 74. Between cap 
72 and free end 74, an annular collar 76 spaced from wall 70 by an annular 
flange 78. Collar 76 is provided with internal threads 80 which are 
disposed to threadedly engage external threads 62 so that cap 16 may be 
threadedly received on intermediate member 14. A seal 82 extends from 
annular flange 78 toward annular flange 58 (shown in FIG. 5) to provide 
liquid sealing engagement between cap 16 and intermediate member 14 when 
the cap 16 is threadedly received onto intermediate member 14. 
Wall 70 is dimensioned such that as cap 16 is threaded onto intermediate 
member 14, free end 74 opposes flat 52. As the cap 16 is threaded onto 
intermediate member 14, free end 74 is urged downwardly (when viewed in 
FIGS. 6 and 7) such that free end 74 abuts flat 52 and forces it 
downwardly against the natural biasing of the plastic. Accordingly, 
closure plate 38 is urged by free end 74 to pivot about hinge axis 34 and 
expose floor opening 40. Accordingly, any liquid which may be retained 
within volume 30 will flow from volume 30 into container interior 18. As 
the process is reversed (i.e. the cap 16 is unthreaded and removed from 
intermediate member 14), free end 74 moves upwardly (when viewed in the 
views of FIGS. 6 and 7) and the natural biasing of the plastic urges 
closure plate 38 upwardly such that plate 38 is in sealing engagement with 
wall 28 to close floor opening 40. Therefore, floor opening 40 is only 
open when cap 16 is fully inserted onto the intermediate member 14. 
From the foregoing detailed description of the present invention, it is has 
been shown how the objects of the invention have been attained in a 
preferred manner. However, modifications and equivalents of the disclosed 
concepts such as readily occur to those skilled in the art are intended to 
be included within the scope of this invention. Thus, the scope of the 
invention is intended to be limited only by the scope of the claims as 
are, or may hereafter be, appended hereto.