CA1322190C - Valved container closure - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE
A container closure lid having a valved spout is disclosed. The valve is normally closed so as to prevent spillage from the container. In use, the valve is opened by the application of force laterally to the edge of the valve. In addition, a valved spout which is particularly adapted to permit close stacking of the lids is disclosed.

Description

VALVED CONTAINER CLOSURE I 3 2 2 I q O
BACXGROUND AND STATEMENT OF OBJECTS
This invention relates to a closure for a container and is particularly concerned with containers as employed in the so-called fast food industries. Containers of this type are commonly provided with a cup or body and a closure lid. In some arrangements, it is contemplated to remove and discard the lid when access is desired to the food or other material to be supplied in the container. In some instances, a container lid is employed having a deflectable or removable area adapted to be used either directly for drinking or adapted to be opened for insertion of a drinking strawO
In general, prior art arrangements of the kind referred to are not adapted to be reclosed or resealed after they have been opened for use; and in consequence, in the absence of exercise of special handling care, the liquid or material in the container is subject to being inadvertently spilled after the original closure is de~lected or disturbed.
It is a ma~or objective of the present invention to provide a closure for a container, particularly adapted to handle liquids, and in which a drinking spout is provided, the drinking spout not only having an aperture for withdrawal of the contained liquid, but also having a valve therein adapted tG
close when the liquid is not being withdrawn through the spout.
It is a further object of the present invention to provide an arrangement of the kind above referred to in which the valve in the spout is operable by engagement of the lip5 of .9 : ' ' ' . :

. ''`` "''~ . ' ' ' ~' '. " ~:, . :

the user with the exterior of the spout, thereby providing for automatic opening of the spout when the usar desires to withdraw liquid from the container through the spout, and also providing for automatic closing of the valve in the spout when the lips of the user are again separated from the spout.
In addition to the foregoing, it is a further objective of the invention to provide an initial closure tab associated with the spout in relation to the valve so that for purposes of shipment and handling, the closed container will remain substantially sealed until the closure tab is intentionally removed.
It is a further object of the invention to provide a closure which is configured in such a manner as to permit stacXing of complementary closures in an array.
BRIEF DESCRIPTION OF THE DRAWINGS
How the foregoing ob~ects and advantages are attained will appear more fully in the following description of the drawings, in which:
Figure 1 is an overall perspective view of a lid or closure or container according to the present invention, the lid having a spout adapted to surround or house a control valve, the valve being illustrated in Figure 1 in separated relation to the lid in several positions bel.ow the illustration of the lid itself, as will be explained more fully hereinafter.
Figure 2 is a fragmentary sectional view of the upper portion of a cup having a closure or lid according to the present invention, including the spout and the interior valve, , ~

1 32~ 1 90 this figure showing the valve in opened position, as a result of engagement of the lips of a user.
Figure 3 is a fragmentary view taken as indicated by the section line 3-3 applied to Figure 2, but showing the parts disengaged from a user and with the interior valve in closed position~
Figures 3A and 3B are sectional views taken as indicated by the sections lines A-A and B-B applied to Figure 3.
Figure 4 is a view similar to Figure 3 taken as indicated by the section line 3-3 applied to Figure 2, but Figure 4 shows the valve in opened condition.
Figures 4A and 4B are sectional views taken as indicated by the section lines A-A and B-B applied to Figure 4, these sectional views also showing the valve in opened condition.
Figures 5, 5A and SB are views illustrating a modification of the arrangement shown in Figures 1-4, Figures 5A
and 5B being taken as indicated by the section lines A-A and B-B
applied to Figure 5 and showing the valve in closed position.
Figures 6, 6A and 6B are views of still another embodiment, the views again being similar to Figures 3, 3A and 3B, with the sectional views 6A and 6~ being taken as indicated by the section lines A-A and B-B applied to Figure 6 and showing the valve in closed position.
- Figure 7 is a perspective view of a closure according to the present invention which is particularly intended for use in closing a container by establishing a frictional fit with the . ,, ~, .

- ' ~

internal container wall, the control valve is shown fragmented below the closure.
Figure 8 is a fragmentary section through the lines 8-8 of Figure 7.
Figure 9 is an illustrative fragmentary section through the lines 3-3 of Figure 8 and depicts multiple closures to illustrate the stacking feature thereof.
Figure 10 is a fragmentary top plan view of the closure as depicted in Figure 7.
Figure 11 is a perspective view of a closure according to the present invention having a modified valve and spout h~ight which facilitates stacking of multiple complementary lids.
Figure 12 is a fragmentary section through the lines 12-12 of Figure 11.
Figure 13 is an illustrative fragmentary section through the lines 1~-13 of Figure 12 illustrating stacking of the closure.
Figure 14 is a fragmentary top plan view of the closure depicted in Figure 11.
Figure 15 is a perspective view of a closure according to the present invention illustrating a modified valve arrangement which facilitates stacking.
Figure 16 is a fragmentary ~iew through the lines 16-16 of Figure 15 illustrating the modified valve in a stacking arrangement.

,: . ~ ,,. , - - .

. . :
, - ~. , .

~ 3~2 1 9~
Figure 17 is a fragmentary sectional view through the lines 17-17 illustrating a stacking arrangement.
Figure 18 is a fragmentary top plan view of the closure of Figure 15.
DETAILED DESCRIPTION OF THE DRAWINGS
Referring first to Figures 1 and 2, the container is indicated by the re~erence numeral 7, and the lid for the container is indicated at 8. The container may be formed of any desired material, quite commonly a sheet plastic or molded foamed plastic or paper or cardboard; and the lid may also similarly be formed of materials of the same type. In embodiments such as herein illustrat2d, in which the spout 9 is integrally molded or formed with the remainder of the lid 8, it is preferred that the material employed have the characteristics of sheet material having substantial flexibility and resilisncy so that the spout may readily be compressed by the lips of the user, for the purposes fully described herebelow. As is customary with lids of the kind referred to for containers of the kind referred to, the lid ordinarily has a peripheral groove or socket 10 adapted to receive and interengage with the upper edge of the cup 7 itself.
The spout 9 is connected with the lid and the spout has a flow passage between the interior and the exterior of the cup;
and preferably, this flow passage is of ovoid cross section and also of progresslvely reduced dimensions from the surface of the lid 8 upwardly to the delivery opening 11 (see the figure details indicated by the letters C and D associated with Figure 1).

, .

`I ~ 2~2 il i~ ~

Although the spout 9 and the lid may be separately formed or molded and then interconnected, they may also, as is disclosed in Figures 1-4, be integrally molded with the remaining structure of the lid.
With the foregoing dPscription of the general arrangement of the lid and the spout in mind, attention is now directed to tha four illustrations mar~ed A, B, A', and B', these i.llustrations showing the interior control valve indicated generally by the l~tter V. This valve is positioned within the spout g but is shown in exploded relation to the spout in the illustrations marked A, B, A' and B'. Certain details of the valve are also more fully disclosed in Figures 3, 3A, 3B, 4, 4A
and 4B.
The valve is preferably formed of flexible and resilient material, for example, synthetic rubbe~ compositions.
The valve has an upwardly presented opening of ovoid shape similar to ths ovoid shape of the upper or delivery opening 12 of the spout 9 and fitting just insi.de of the delivery opening 11 of the spout. The valve further has taper~d or inclined surfaces 13-13 (see also Figures 3 and 4) converging downwardly and meeting at the lower edge 14 of the valvs, as will clearly appear from comparison of Figures A and A1 positioned below the main portion of Figure I and also shown in ~igures 3 and 3B.
The valve in opened position is shown in Figures B and B' below the main portion of Figure 1.
The detail Figure A and A' in the l w er part of Figure 1 shows ths valve when in the closed or "at rsst" position. The . .
:~

I ~22 1 9rJ
valve is opened ~y application of lip pressure, as indicated by the arrows at the sides of Figure 4A, this lip pressure being communicated through the side walls of the spout 9, as clearly appears in Figure ~, and transmitted through the side walls to the walls 15 of the valve V, which lie between the converging walls 13. When this occurs, the side walls 13 of the valve separate from each other in the manner clearly shown in Figures 4, 4A and 4B, there~y opening the valve port along the lower edge of the valve and thus provide communication from the interior of the container upwardly through the spout 9. This provides for delivery of the liquid from the container upwardly through the valve and out of the delivery opening 12 of the valve and thus also out of the delivery opening 11 of the spout 9.
When the lip pressure is again released from the side walls of the spout, the converging walls 13 of the valve again move to close the opening along the line 14 at the lower end or the convPrging walls 13.
The automatic closure of the valve when the lip pressure is released is not only desirable in order to avoid leakage, but when handling heated liquids, is also advantageous in reducing heat loss of the contents of the container.
The foregoing alternate opening and closing of the valve, as a result of the action of the lips of the user, will be fully apparent from comparison of Figures 1, 2, 3, 3A, 3B, 4, 4A and 4B.

. ' ~.- ~' ; :
~, 1 3~2 1 qO
The li~ 8 is desirably provided with a very small aperture, for instance, in the central region, as indicated at 8a in Figures 1 and 2, thereby providing for ingress of air as the contents of the cup are being withdrawn through the valve, and thus prevent development of negative pressure within the cup during delivery of the liquid. An appropriate aperture for this purpose need only have very small cross-sectional dimension and will, therefore~ not even result in leakage of the liquid under any normal handling conditions.
In the embodiment of Figures 1-4, see particularly tha detail indicated at the letter C of Figure 1, a separable tab 16 is initially provided in position overlying the delivery opening 11 of the spollt 9, for the purpose of sealing the container for prepackaged products. This tab desirably has adhesive bonding and is readily manually removable in prepaxation for use of the cont~iner and the valved spout. This tab alternately be molded or formed intagrally with the spout wall, and arranged for manual separation from the body of the spout.
For effecting the feed operation above described, it is desirable that the spout 9 be formed of ~heet material which has some flexibility, and preferably also some resilience so that it will return to the closed position when the lip pressure is released.
The sheet material employed for the valve used within the spout should a~so be flexible and resilient. This is important 50 that after opening of the valve by compression under the action of the lips of the user, and subsequent release of the lip engagement, the inclined valve walls 13, which meet along the lower edge 14 when the valve is closed, will return to the "closed" position. When the valve i5 opened by external pressure applied to the spout, the lower part o~ the walls 15 move toward each other so that the dimension in the direction of the line 14 is reduced and this causes opening o~ ~he valva.
The proportions of the valve itself, and also of the interior of the spout 9, are also configured so as to provide a peripheral sealing interengagement between the outer surface of the valve and the inner surface of ~he spout in the upper region of the spout and valve. This is important in order to avoid any tendency for leakage from the spout except when the valve is intentionally opened. In the specific embodiments as herein disclosed, it is contemplated that portions of the external surface of the valve itself such as the side walls 15 be adhesively bonded to the lnterior surfa~e of the spout. With the configurations illustrated in the drawings, this is desirably effected throughout the height of the valve, i.e., throughout the height of the side walls 15. In this way, the rebound of the spout walls after separation of the lips ser~es to assure reclosiny of the valve along the line 14.
As above indicated, the lid and the spout are desirably formed, as by molding, from sheet plasti material~ The entire lid, including the spout, may be molded as a single unit or, if desired, the spout and the planar portion of the lid may be s parately formed and then interconnected. In any event, the thickness of the material used in the spout should be on the : ~ ;: . ~ `, .
:
.
:-. ~
~ ' :

order of from about .001" to .050", so that the spout may readily be compressed by forces pxoduced by the lip engagement.
Compression of the sides of the interior valve V is, of course, also required; and as above indicated, the valve material is desirably resilient, and the thickness of the material used for the valve may also lie within abouk the range of thickness above referred to for the SpQUt wall.
The wall of the cup 7, on which the lid is employed, may be made of any of a wide variety of materials, one common matarial used for this purpose being foamed plastic. Material of this type is not only lightwaight, but provides adequate strength and rigidity, as is well known.
In the alternative embodiment illustrated in Figures 5, 5A and 5B, the arrangement of the interior valve and the general configuration of the spout are similar to those described above in connection with the first embodiment. However, in the embodiment o~ Figures 5, SA and 5B, the upper edge of the spout 9 is provided with an interned flange 9a overlying the upper open end of the valve V. This provides a flange surface for interengagement with the upper edge of the open end of the valve, which may be desirable with certain materials in order to stabilize the valve in the spout.
Another alternative for similar purposes is illustrated in Figures 6, 6A and 6B. In this embodiment, the upper edge of the valve is provid2d with laterally extending flanges 9b which overlie the upper edges of the spout 9; and this will provide a .' :: ' -:- :

similar stabilizing action in the relation between the valve and the spout.
With reference to Figure 7, there is illustrated an alternative embodiment of the invention which i5 particularly intended to provide for improved stacking of multiple complementary closures in a top to bottom array. The closure 8 is depicted as having a peripheral groove lO which is intended to establi.sh a compression fit with the interior wall of the container. ~xcept ~or the valve V, the embodiment of Figure 7 is very similar to the previously described embodiments.
In the present embodiment, the closure lid 8, spout 9 and valve V are all molded as a unitary structure, see Figures 8 and 9. For purposes of illustration, the valve V has been fragmented and dropped below the lid 8 in Figure 7. From this fragmentary view, it can be seen that the valve V has converging walls or opposed planar ~erminal portions 13 which converge at the lowar edge or valve~ apex 14. This construction is similar with the prior embodiments.
ln the present embodiment the side walls 15 of the valve V do not paral~el the outer wall 20 of spout 9 as in prior embodiments, see Figure 9. Side walls 15 in this embodiment taper inwardly from the outlet portion 24 of spout 9. The valve V and the spout 9 merge a~ the outlet end as indicated by 24 and form a common open end 26.
As can be seen ~rom Fiqure 9, the present embodiment provides a tapered space batween ~he inner surface 22 of spout 9 and side wall 15. Likewise, the length or the valve apax 14 is .:- ,~ ~ , - , ~
, ~, ~ .. ...

. - , -. ::: .;

~: `

1 3~21 sn less than the related coplanar length of the outlet portion 24 of spout g and the valve end 28 will pass into the open end of a complementary spout beyond the merger portion 24.
With reference to Figure 8, it can be seen that the converging walls 13 of valve V are spaced from the inner surface 22 of spout 9.
As can be seen with reference to ~igures 8 and 9, the present embodiment provides improved stacking of multiple complementary closures in an array which is better suited for packing and shipping of the closures. In stacking, the open end 26 of a first spout ~ will fit within the inlet end 23 of the second spout 9. Likewise, the open end 26 will fit within the space defined between interior surface 22 and side walls 15.
The valved~ end 28 then becomes nested within the spout of the closure immediately beneath it.
With reference to Figure 10, it can be seen that the present construc~ion provides a valve which is tapered inwardly on all sides toward the lower edge or valve apex 14. Due to the integral nature of the spou~ and valve, the application of pressure to the spout 9 in the direction as indicated by the arrows in Figure 9 will be t~nsmitted to the valve apex 14 and the valve will be open to permit dispens ng of the fluid. In the event of accidental tipping of the container, the nesting of the spout about the valve V will provide further shock absorbency to avoid accidental opening of the spout. It will be understood by those skilled in the art that a force which is sufficient to dislodge the lid or to ~amage the seal between the , - ~

- . . .

13221qO
closure and the container will still result in accidental fluid discharge.
With reference to Figure 11, there is illustrated an alternative embodiment of the invention which is particularly intended to provide for reduced valve size in the spout and to provide for some stacking of multiple complementary closures in a top to bottom array. The closure 8 is depicted as having a peripheral groove which is intended to fit about the rim of a container as discussed with previous embodiments. Except for the valve V, the embodiment of Figure 11 is very similar to the previously described e~bodiments.
In the present embodiment, the closure lid 8, spout 9 and the valve are all molded as a unitary stxucture, see Figures 12 and 13. For the purposes of illustration, the valve V has been fragmented and dropped below the lid 3 in Figure 11. From this fragmentary view, it can be seen that the valve V has converging walls or opposed planar terminal portions 13 which converge at the lower edge or valve apex 14. This construction is similar to those previously described, however, in the present embodiment the side walls, previously identified as 15, of the valve V have been eliminated and are replaced by the wall 20 of the spout 9.
With re~erence to Figures 12 and 13, it can be seen that the opposed planar t~rminal portions 13 taper inwardly toward the lower edge or valve apex 14 to produce the valve end 28. This is consistent with prior embodiments. However, in this embodiment, the merger at 24 coincides with open end 26.

,:
:: . .:

- , : -This effectively produces the inverted W instant cross section as shown in Figure 12. ~he arcuate portions of the ovoid shaped spout serve the function of the end walls 15 which have been eliminated by this construction.
With reference to Figure 13, it can be seen that the lower edge or valve apex 14 extends across the interior o~ the spout 9. Accordingly, e~forts to stack closures according to this embodiment are limitad by tha abutment of open end 26 of a first spout against the valve end 28 of the prior spout.
As noted the instant section of the valved spout, shown in Figure 12, will appear as an inverted W with the opposed terminal portions converging at the apex thereof to form the valve apex. Since the valve apex extends across the spout, it will be the determining ~actor in controlling the degree of stacking. hccordingly, the valve apex 14 should be ideally placed as close to the open end 26 as is consistent with the resilience of the selected material.
Figure 14, a top plan view clearly shows the relationship of planes 13 with respect to the walls 20.
With respect to Figure 15, there is shown a further embodiment of the present invention whi~h is particularly adapted for stacking. The closure 8 is similar to those previously described, however, the spout and valve arrangement is different. The spout and valve are of a unitary construction with the closure, as previously described, however, the spout has been modified by the addition of notch 30, see Figure 15.
The sides of the notch 30 are defined by the converging planes .

, ~

il 3~
13 which define the terminal portions of the valve. As can be seen more clearly with reference to Figure 16, the valve in cross section resembles an inverted W shape. This is similar to the view of Figure 12, however, the present embodiment does not incorporate the arcuate portions of the spout. Accordingly, the external portions of the spout 9 generally define an inverted W
shape. As with previous embodiments, the opposed planar terminal portions 13 converga at valve apex 14. As can be seen with reference to Figure 16, the modification of spout 9 so that the outward configuration thereof paraIlels the configuration of the valve results in a condition of improved stacXing of complementary lids. Likewise, the location of the valve immediately adjacent the free end of the spout provides the maximum stacking area beneath the valve.
As can be seen with reference to Figure 17, multiple closures may be stacked in the usual array. In practice, that portion of the closure which forms the peripheral groove 10 is generally pliable enough so that closures may be stacked in a nested fashion one upon the other. In such a condition, the apex 14 of a first valve would move into virtual abutment with the apex of the closure beneath it. Thus, the valved spout is comprised of a body portion which defines the spout exterior and valved portion which closes the spout As can be appreciated by comparing the various embodiments, the embodiment of Figures 15 through 18 provides the greatest degree of stackability. Since the ability to stack is improved, the overall height of the spout 9 is not as ',,,: ' :' - , , , :, , 13221qO

critical and the spout may be produced in a height sufficient to assure that the valve end 28 of ~he spout will easily reach into the user's mouth~
It will be understood that certain terms have been used as terms of description and not of limitation and that the scope of the invention is defined by the claims.

* * *

.
~' ~

'' ' ' ' '. " ' :, , ~' ' .
'~' ' ,

Claims (23)

1. A valved spout for controlled dispensing of a liquid from a container, said spout comprised of outer and inner resilient members, said outer member having inlet and outlet ends and a body segment which defines the exterior of said spout and said inner member, positioned between said inlet and outlet ends of said outer member to control dispensing, having an open end positioned adjacent said outlet and a valved end extending toward said inlet, said valved end having opposed terminal portions which define an apex opened by application of force in a direction edgewise to said opposed terminal portions.

2. A stackable valved spout for controlled dispensing of a liquid from a container, said spout comprised of outer and inner resilient members, said outer member has a fixed and a free end and a body segment which is of decreasing size from the fixed end toward the free end and defines the exterior of said spout, said fixed end further has an interior open volume which is greater than the exterior volume of said free end and said inner member, positioned within the said outer member to control dispensing, has an open end positioned adjacent said free end and a valved end extending toward said fixed end, said valved end having opposed terminal portions which define an apex opened by application of force in a direction edgewise to said opposed terminal portions.

3. The valve of claim 2 wherein said valved end of the spout has a length less than the related coplanar length of the free end.

4. The valve of claim 2 wherein said free end has a notched, non-circular configuration and the valve has a parallel configuration and closes said free end.

5. A container closure for selectively dispensing a liquid, said closure comprising:
a lid portion for closing the container and defining the base of-the closure;
a valved spout integral with said lid portion for dispensing liquid from the container, said valved spout further comprised of:
outer and inner resilient members nested one within the other;
said outer member defines the exterior of the spout and has a first end integral with said base and a second end for dispensing a liquid; and said inner member controls dispensing and is positioned between the ends of said outer member with an open end positioned adjacent to said second end thereof and a valved end extending toward said first end thereof, said valved end having opposed terminal portions defining a valve apex opened by application of lateral compression in a direction edgewise to said opposed terminal portions.

6. The closure of claim 5 wherein the valved end of said inner members is receivable within the outlet end of a second like closure so that multiple complementary closures may be stacked in an array.

7. A controllable valve device for use in dispensing a liquid from a container, said device comprising: two resilient components nested one within the other; an open end outer component which has a first end presented toward the container and a second end presented away from the container; and an inner component having an open outlet end and a valved end, said outlet end is presented in the same direction as the second end of the outer component with the outer wall of said outlet end in circumferential engagement with an inner wall of the outer component and said valved end defining a normally closed valve yieldingly openable by application of lateral compression through the wall of the outer component.

8. A controllable valve device for use in dispensing a liquid from a container, said device comprising two tubular components nested one within the other and each formed of resilient sheet material, the outer one of said components being normally open at both ends and having its inlet end presented toward the container and its outlet end presented in a direction away from the container, and the inner one of said components ?aving an outlet end normally open and presented in the same direction as the outlet end of the outer component, and the inner component having its outer wall in circumferential engagement with the inner wall of the outer component and having an inlet end presented in the same direction as the inlet end of the outer component, and the resilient sheet material of the inner component having surfaces providing a normally closed valve yieldingly openable by application of lateral compression to the inner component through the wall of the outer component.

9. A spill-resistant beverage-dispensing container comprising an upwardly open container, a lid member sealingly engaged with and covering the opening of said container, and a lip-controllable valve device for selectively dispensing a liquid from the container, the valve device comprising two tubular components nested one within the other and each formed of resilient sheet material, the outer one of said components being normally open at both ends and having its inlet end presented toward and communicating through an aperture in the lid member with the interior of the container, the inlet end being sealingly engaged about its perimeter with the perimeter of the lid member aperture, and its outlet end presented in a direction away from the container, and the inner one of said components having an outlet end normally open and sealingly engaged with the outer component in the region of the outer component outlet end, and the inner component having an inlet end presented toward the inlet end of the outer component, and ?he resilient sheet material of the inlet portion of the inner component having planar terminal portions at opposite sides of the inner component providing a normally closed valve apex yieldingly openable by application lateral compression to the inner component through the wall of the outer component by a user's lips in a direction edgewise to said planar terminal portions providing said valve apex.

10. The container according to claim 9 wherein the perimeter dimension of the outlet end of said outer component is less than the perimeter dimension of the lid member and said inlet end perimeter being sealingly engaged about the perimeter of said lid member aperture and positioned adjacent an edge of the lid member.

11. The container according to claim 9 wherein the valve apex provided by terminal portions at opposite sides of the inner component is positioned downstream from the outer component inlet end.

12. A closure device for a container of a drinkable liquid, the closure device comprising a lid member, said lid member having an aperture and means for sealingly engaging the lid member with the perimeter of a container opening, a valve device controllable by the lips of the user, the valve device extending upwardly from the lid member and providing for selectively dispensing the liquid from the container, said valve evice comprising a tubular component having openings at both ends and having an inlet end presented toward the container with the perimeter of said inlet end sealingly engaged with the lid member about the lid member aperture, the outlet end of said tubular component being presented in a direction away from the container, a valve member in said tubular component between the inlet and outlet ends of said tubular component, said valve being openable and closeable by engagement and disengagement of the lips of the user, and a sealing tab adapted to overly and seal the outlet end of said tubular component, said sealing tab being manually displaceable to open the outlet end of the tubular component.

13. A controllable valve device for use in dispensing a liquid from a container, said device comprising two tubular components nested one within the other and each formed of resilient sheet material, the outer one of said components being normally open at both ends and having its inlet end presented toward the container and its outlet end presented in a direction away from the container, and the inner one of said components having an outlet end normally open and presented in the same direction as the outlet end of the outer component, and the inner component having an inlet end presented in the same direction as the inlet end of the outer component, and the resilient sheet material of the inlet end portion of the inner component having planar terminal portions at opposite sides of the inner component providing a normally closed valve apex yieldingly openable by application of lateral compression to the inner component through the wall of the outer component in a direction edgewise to said planar terminal portions providing said valve apex.

14. A valve device according to claim 13 wherein the outer component is oval in cross-section and the valve apex provided by said planar terminal portions of the inner component lies in a plane transverse to the oval diameter of longest dimension.

15. A valve device according to claim 13 wherein said inner component is sealingly engaged about the perimeter of its outlet end with the outer component in the outlet end region of the outer component.

16. A valve device according to claim 13 wherein the valve apex provided by terminal portions at opposite sides of the inner component is positioned downstream from the component inlet end.

17. A container closure comprising a lid member, said lid member having an aperture and means for sealingly engaging the lid member with the perimeter of a container opening, a valve device extending upwardly from the lid member for selectively dispensing a liquid from a container, said valve device comprising two tubular components nested one within the ther and each formed of resilient sheet material, the outer one of said components being normally open at both ends and having its inlet end presented toward the container and the perimeter of said inlet end sealingly engaged with the lid member about the lid member aperture, and the outlet end of said outer component being presented in a direction away from the container, and the inner one of said components having an outlet end normally open and presented in the same direction as the outlet end of the outer component, and the inner component having an inlet end presented in the same direction as the inlet end of the outer component, and the resilient sheet material of the inlet end portion of the inner component having planar terminal portions at opposite sides of the inner component providing a normally closed valve apex yieldingly openable by application of lateral compression to the inner component through the wall of the outer component in a direction edgewise to said planar terminal portions providing said valve apex.

18. A container closure according to claim 17 wherein the perimeter dimension of the inlet end of said outer component is less than the perimeter dimension of the lid member and said inlet end perimeter being sealingly engaged about the perimeter of said lid member aperture and positioned adjacent one edge of the lid member.

19. A valved spout for controlled dispensing of a liquid from a container, said spout comprised of:

an outer resilient member having inlet and outlet ends and a body segment which defines the exterior of said spout and an inner member having downwardly depending opposed portions that close the outlet end of said outer member and terminate in an apex valve.

20. The valved spout of claim 19 wherein said apex valve is opened by the application of force in a direction edgewise to said opposed portions.

21. A stackable container lid having a valved spout for controlled dispensing of a liquid from a container, said spout comprising:
an outer resilient member having a fixed end, a body segment and a free end, said body segment tapered from the fixed end toward the free end and defining the exterior of said spout, and;
an inner resilient member having downwardly depending opposed portions which close said free end and terminate in an apex valve.

22. An individual beverage package comprising:
a beverage container;
a quantity of a consumable beverage within said container; and a container closure including a mouth-operable valved drinking spout, said spout further including:

a tubular body having a first end communicating with the interior of said container and a second end for engagement by the user's mouth; and an apex valve means disposed within said tubular body proximate said second end, said apex valve means comprising portions depending downwardly from said second end and terminating inwardly of said first end, said apex valve means being selectively operable between opened and closed positions by the application to and release of pressure from said tubular body.

23. A stackable container lid comprising:
a body having means for sealingly engaging a container rim;
a mouth-operable valved drinking spout having a first end attached to said body for communication with the interior of the container and a second end extending from said body for engagement by a user's mouth;
an apex valve disposed within said spout proximate said second end and defining a cavity within said second end;
said valve being selectively operable such that the application of pressure to said tubular body by the user's mouth opens said valve and such that release of said mouth pressure causes said valve to close;
said spout tapered from the first end toward the second end such that the second end of a like spout is inserted within the first end of the spout and is nested therewith.