Container closure system having a cap removable with less than a 45 degree twist

Abstract

A simple structure for a container closure system that allows for ease in closure and removal of a cap from the container is disclosed. The container closure comprises a cap having a skirt of substantially rectangular cross-section. Disposed in a central location on each of the internal surfaces of the skirt are rim-engaging members that are substantially coplanar. The container has a neck portion terminating in an outer peripheral rim surrounding an oval-shaped opening in one end of the container through which the container contents may be dispensed. Cap-engaging portions on the outer portion of the peripheral rim engage with the rim-engaging members disposed on the skirt internal surface when the cap is in a closed position over the container opening. The rim-engaging members of the present invention can be in the form of small ridges or grooves and can engage with cap-engaging portions formed by small ribs. Alternatively, when in the form of small ridges, rim-engaging members can engage with cap-engaging portions in the form of a small edge extending around the outer portion of the peripheral rim. The cap may be placed into a closed position on the container by aligning the edge of the skirt with a similarly configured edge of the container body and “snapping” the rim-engaging members on the skirt into an engaged relationship with the cap-engaging portions on the peripheral rim. When the cap is in a closed position, the container, its contents, and the cap can be lifted solely by gripping the cap. By twisting the cap slightly with respect to a vertical axis of the container, the rim-engaging members and the cap-engaging portions are disengaged, thereby releasing the cap to an open position so that it may be removed from the container.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a container closure system having a simple structure that facilitates closure and removal of a cap on a container. More specifically, the present invention is directed to a closure mechanism for containers having a neck portion onto which a cap is “pressed” or “snapped” to a closed position over an opening in the top of the container. These types of containers and caps are used to store a multitude of products, and are especially prevalent in the packaging of a wide variety of over-the-counter pharmaceuticals.

2. Description of the Prior Art

Several types of “press-on” or “snap-on” container closures are presently used for the packaging of products. A common feature of these types of container closures is that the cap and the container neck have engaging cams, ribs or threads which allow the cap to be “snapped” or “pressed” onto the container to a closed position over an opening in the top of the container.

The removal of the cap in these types of container closures occurs in a variety of ways. A common way to remove a cap of this construction is to push or pull a grooved cap back off of the engaging rim of a container. This cap structure and means of removal are commonly employed in the construction of container closures for aspirin bottles. Another means for removing the cap involves pushing on the sides of the cap to deform the shape of the cap slightly so that ribs or cams on the cap disengage from those on the container, thus releasing the cap from the container. Another commonly employed means for removing the cap involves twisting the cap about a vertical axis with respect to the container to release engaged ribs or threads. Generally, these twist-off systems require the user to push the cap downward while twisting to disengage the threads or ribs on the cap from those on the container. In systems that do not require the cap to be pushed downward during the twisting motion, the shape of the container neck relative to the cap often requires that a relatively large twisting force be applied before the engaged cams, ribs, or threads will disengage to release the cap from the container.

Each of these means for removing the cap from the container requires the user to apply a relatively large force to overcome the engaged relationship of the cams, ribs, or threads on the cap and container or to apply a dual set of forces, such as in the combined push-and-twist removal system. Consequently, such container closures often pose difficulties for persons with little hand strength, such as those suffering from arthritis.

It is an object of the present invention, therefore, to provide a “snap-on” container closure that is easier to open than previous container closures. The proposed container closure of the invention is simple in use and construction and alleviates some of the adverse characteristics of present container closure systems that are complex or difficult to open, especially for those suffering from arthritis and the like, as discussed above.

It is a further object of the invention to provide a container closure that accomplishes the goals set forth above while additionally being of simple construction that allows for ease in manufacture.

Additional objects and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the appended claims.

SUMMARY OF THE INVENTION

The advantages and purpose of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The advantages and purpose of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the appended claims.

To attain the advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, the invention is a container closure system. Such a container has a generally oval-shaped opening in one end with the opening having a major axis, a minor axis, and an outer peripheral rim. A cap has a top wall and a skirt depending from the top wall. The skirt has an inner surface of substantially rectangular cross-section, and defines an interior surface of the cap. The interior surface includes a plurality of rim-engaging members. The peripheral outer rim includes cap-engaging portions at the major and minor axes of the rim. The rim-engaging members have their longitudinal axis parallel to the rim. The rim and the plurality of rim-engaging members are in an engaged relationship when the cap is in a closed position over the opening in the container, and the rim and the rim-engaging members are in a disengaged relationship when the cap is twisted less than 45° with respect to the vertical axis of the container to release the cap from the container.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate one embodiment of the invention and together with the description, serve to explain the principles of the invention. In the drawings,

FIG. 1 is a perspective view of the container body and cap of one preferred embodiment of the invention;

FIG. 2 is a perspective view of the container body of a second preferred embodiment of the invention;

FIG. 3 is a bottom view of one embodiment of the cap;

FIG. 4 is a sectional view of the cap of FIG. 3 taken through line 4—4;

FIG. 5 is a bottom view of a second embodiment of the cap; and

FIG. 6 is a sectional view of the cap of FIG. 5 taken through line 6—6.

DESCRIPTION OF THE PREFERRED EMBODIMENT

Reference will now be made in detail to the present preferred embodiments of the invention, examples of which are illustrated in FIGS. 1-6. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.

In accordance with the present invention, a container closure system of the present invention is illustrated in FIGS. 1-6. In the embodiments shown, container closure system 1 comprises two principal components, a cap 2 and a container 3.

In accordance with the invention, the cap of the container closure system has a top wall and a skirt depending from the top wall that engages with the container of the closure system. In the illustrated embodiments, cap 2 comprises a top wall 15 and a skirt 4 depending from top wall 15. Skirt 4 of cap 2 terminates at its lower end in a substantially rectangular edge 11. Skirt 4 also has an inner surface 5, as clearly shown in FIGS. 3 and 5. Inner surface 5 defines the interior surface of cap 2. In a horizontal plane, inner surface 5 of skirt 4 is substantially rectangular in cross-section. Inner surface 5 may comprise four inner surface portions 5a-5d, each forming, substantially, the legs of a rectangle when viewed in cross-section. In a preferred embodiment of the invention, the inner surface portions that form the longer legs of the rectangle, for example inner surface portions 5a and 5c, slightly curve or bow inward toward their respective centers. FIGS. 5 and 6 show a cap 20 having a construction substantially similar to cap 2 except for alterations to the inner surface portions to be described shortly.

In accordance with the invention, a first plurality of rim-engaging members are provided on the interior surface of the cap for securing the cap into place on the container. According to one embodiment of the present invention, as illustrated in FIGS. 3 and 4, disposed on the interior surface of cap 2 is a plurality of relatively small ridges 6a-d. As most clearly illustrated in FIG. 4, ridges 6a-d protrude slightly from the respective inner surface portions 5a-5d on which they are disposed toward a center region enclosed by skirt 4. In a preferred form of the invention, there are four ridges, with each of the four ridges disposed substantially near the center of each inner surface portion 5a-5d of skirt 4. Ridges 6a-d are generally coplanar and are disposed along inner surface 5 in a substantially horizontal plane. Ridges 6a-d preferably have respective lengths of approximately one-sixth to one-tenth the length of the inner surface portion on which they are disposed. Preferably, ridges 6a and 6c disposed on longer inner surface portions 5e and 5c have longer lengths than those disposed on shorter inner surface portions 5b and 5d. In the embodiment of the invention shown in FIGS. 3 and 4, ridges 6a-d that are disposed on opposing inner surface portions, for example, ridges 6a and 6c on inner surface portions 5a and 5c, are equal in length, thereby facilitating manufacture of cap 2.

FIGS. 5 and 6 show a second embodiment of a cap 20 according to the present invention. As already mentioned, cap 20 has the same general features with respect to skirt 4, top wall 15, and terminating edge 11 as discussed with reference to cap 2. Inner surface 27 forming the interior surface of cap 20 also is substantially similar to inner surface 5 of cap 2, with the exception of the form of the rim-engaging members disposed thereon. That is, cap 20 includes rim-engaging members in the form of relatively small grooves 26a-d. Grooves 26a-d, as most clearly illustrated in FIG. 6. create slight indentations at their respective locations on inner surface portions 27a-27d. As with ridges 6a-d, preferably four grooves 26a-d are disposed substantially near the center of each of the inner surface portions 27a-27d and in generally the same substantially horizontal plane. Grooves 26a-dpreferably have the same respective lengths, relative to each other and to the inner surface portions on which they are disposed, as described above with reference to ridges 6a-d.

In accordance with the present invention, the container closure system further includes a container having a generally oval-shaped opening in one end of the container. The opening has a major axis, a minor axis, and an outer peripheral rim adapted to engage the cap of the container closure system. The outer peripheral rim includes cap-engaging portions at the major and minor axes. As illustrated in the embodiments shown in FIGS. 1 and 2, container closure system 1 includes container 3 comprising an oval-shaped opening 7 through which products held by container 3 are dispensed. Oval-shaped opening 7 is surrounded by peripheral rim 8.

In a first embodiment of the present invention as shown in FIG. 1, cap-engaging portions are formed on peripheral rim 8 by a small lip or edge 16 that extends around outer peripheral rim 8. These portions of edge 16 are configured to engage with ridges 6a-d on cap 2 when cap 2 is in a closed position.

In a second illustrated embodiment shown in FIG. 2, cap-engaging portions include a plurality of small ribs 9a-d disposed on outer peripheral rim 8 in positions that correspond to and engage with either ridges 6a-d on cap 2 or grooves 26a-don cap 2O when either of these caps is in a closed position over opening 7. Specifically, it is contemplated to dispose ribs 9a-d at opposite axes of opening 7 and peripheral rim 8. Preferably, ribs 9a-d are uniform in length and approximately equal to the longer of the lengths of ridges 6a-d, or grooves 26a-d, and have their longitudinal axes parallel to peripheral rim 8.

According to both of the respective embodiments shown in FIGS. 1 and 2, container 3 further includes main container body 10 and neck 12. Neck 12 extends from a top end of container 3 and terminates in outer peripheral rim 8 surrounding oval-shaped opening 7. A sloped surface 13 connects main container body 10 to the bottom end of neck 12. In the form of the invention shown in FIGS. 1 and 2, main container body 10 has a substantially rectangular cross-section in a horizontal plane of intersection and its top peripheral edge 14, from which sloped surface 13 extends, preferably has dimensions equal to edge 11 of skirt 4. Additionally, neck 12 preferably has an oval cross-section in a horizontal plane of intersection.

According to the invention, the rim of the container and the plurality of rim-engaging members are in an engaged relationship when the cap is in a closed position over the opening in the container. As the cap is twisted less than approximately 45° with respect to the vertical axis of the container, the rim and the rim-engaging members disengage to release the cap from the container.

In use, the embodiments of the container closure system 1 illustrated in FIGS. 1-4 operate in the following manner. Cap 2 is secured to a closed position over opening 7 of container 3 by substantially aligning terminating edge 11 of skirt 4 with top peripheral edge 14 of main container body 10 and pressing downward, thereby “snapping” or “pressing” ridges 6a-d past either ribs 9a-d or edge 16. In this closed position, ridges 6a-d are in an engaged position with either edge 16, as shown in FIG. 1, or ribs 9a-d, as shown in FIG. 2. While in the engaged position, ridges 6a-d are disposed below either edge 16 or ribs 9a-d, respectively. Thus, in the closed position, ridges 6a-d and edge 16, or ridges 6a-d and ribs 9a-d, will remain in an engaged relationship to maintain cap 2 in its closed position while cap 2, container 3 and its contents are lifted solely by virtue of gripping cap 2. While in this engaged relationship, ridges 6a-d and edge 16, or ridges 6a-d and ribs 9a-d, are capable of withstanding a force equal to at least the weight of container 3 plus products contained therein. Preferably, when ridges 6a-d and edge 16, or ridges 6a-d and ribs 9a-d, are in an engaged relationship, they should be capable of withstanding a force greater than the weight of container 3 plus its contents, such that cap 2 is not easily pulled off of container 3.

From its closed position, cap 2 can be manipulated to an open position by simply twisting cap 2 about a vertical axis relative to container 3. In the preferred embodiments, cap 2 need only be twisted less than 45°, preferably between approximately 5 to 20°, relative to container 3 to release cap 2 from container 3. As shown in FIG. 1, ridges 6a-d slide with respect to edge 16 and, due to the relative geometric configuration between the interior surface of cap 2 and peripheral rim 8, disengage from edge 16. In particular, the geometric relationship between the ridges disposed on shorter inner surface portions 5b and 5d and edge 16 assist in facilitating disengagement. Thus, cap 2 is released from container 3. Alternatively, as shown in FIG. 2, by twisting cap 2, ridges 6a-d slide with respect to ribs 9a-d, thereby disengaging from ribs 9a-d to release cap 2 from its closed position on container 3 so that it may be removed.

The engaging and disengaging of cap 20 occurs in generally the same manner as cap 2. Cap 20, however, is especially suitable for use in conjunction with the form of container 3 shown in FIG. 2. Thus, as with cap 2, to securely close container 3 requires substantially aligning terminating edge 11 of skirt 4 with top peripheral edge 14 of main container body 10 and pressing downward, thereby “snapping” or “pressing” ribs 9a-d into grooves 26a-d. In this closed position, grooves 26a-dare in an engaged position with ribs 9a-d. While in the engaged position, grooves 26a-d essentially receive ribs 9a-d such that the peripheral surface of inner portions 27a-27d, respectively, that define grooves 26a-dsubstantially contact the outer surface defining ribs 9a-d. Thus, in the closed position, grooves 26a-d and ribs 9a-d will remain in an engaged relationship to maintain cap 20 in its closed position while cap 20, container 3 and its contents are lifted solely by virtue of gripping cap 20. While in this engaged relationship, the contact between grooves 26a-dand ribs 9a-d can withstand a force equal to at least the weight of container 3 plus products contained therein. Preferably, when grooves 26a-d and ribs 9a-d are in an engaged relationship, they should be capable of withstanding a force greater than the weight of container 3 plus its contents, such that cap 2 is not easily pulled off of container 3.

From its closed position, as with cap 2, cap 20 can be manipulated to an open position by simply twisting cap 20 about a vertical axis relative to container 3. In the preferred embodiments, cap 20 need only be twisted less than 45°, preferably between approximately 5 to 20°, relative to container 3 to release cap 20 from container 3. As shown in FIG. 2, by twisting cap 20, ribs 9 and grooves 26 slide with respect to one another, thereby disengaging from each other to release cap 20 from its closed position on container so that it may be removed.

Generally facilitating the removal of either of caps 2 or 20 from container 3 is the relative geometry between oval-shaped opening 7 and outer peripheral rim 8 and the substantially rectangular cross-sectional configuration of skirt 4. The major axis diameter of peripheral rim 8 should have a length such that after cap 2 (or cap 20) is twisted slightly about the vertical axis, the outer portion of oval-shaped peripheral rim contacts longer inner surface portions 5a and 5c (or 27a and 27c) of skirt 4 to substantially prevent any further twisting of cap 2 (or cap 20). Any further twisting of cap 2 (or cap 20) that occurs after the outer portion of peripheral rim 8 comes into contact with the inner surface portions causes skirt 4 to ride up along neck 12, thereby lifting cap 2 (or cap 20) away from container 3. The relative geometrical configurations between peripheral rim 8 and skirt 4 should be such that cap 2 (or cap 20) need only be twisted less than 45°, and preferably between approximately 5 to 20°, to disengage ridges 6a-d (or grooves 26) from cap-engaging portions on rim 8 and cause the outer portion of peripheral rim 8 to contact inner surface portions 5a and 5c (or 27a and 27c).

A further aspect according to an embodiment of the present invention that facilitates removal of cap 2 (or cap 20) is sloped surface 13. Upon twisting cap 2 (or cap 20), edge 11 of skirt 4 travels along sloped surface 13 tending to cause edge 11 to smoothly lift in a direction away from top peripheral edge 14 of container main body 10 as cap 2 (or cap 20) is manipulated to its open position.

According to the embodiments of the present invention, the various parts of container closure system 1 preferably are made of materials having relatively low coefficients of friction in order to permit smooth and non-damaging motions between the structural parts, for example, the engaging and disengaging of rim-engaging members and cap-engaging portions, the riding of inner surface 5 or 27 along peripheral rim 8 and neck 12, and the sliding between edge 11 and sloped surface 13, that are necessary for the operation of container closure system 1. A thermoplastic polymer represents one example of a material that would permit these types of motions without resulting in damage to the various parts, but the use of other materials is envisioned as well and considered to be within the scope of this invention.

It will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein that various modifications and variations can be made in the container closure system of the present invention. An example of such a modification would be a change in the relative geometrical configurations of the cross-sections of skirt 4 and peripheral rim 8 and opening 7 in such a manner so as to continue to effect the advantages of the container closure set forth herein. Furthermore, although the embodiments of the invention shown in the Figures include four rim-engaging members disposed on the cap, a different number of rim-engaging members may be utilized and is considered within the scope of the invention. Similarly, the number of ribs disposed on the outer peripheral rim may vary accordingly.

Therefore, the invention in its broader aspects is not limited to the specific details and illustrative examples shown and described in the specification. It is intended that departures may be made from such details without departing from the true spirit or scope of the general inventive concept as defined by the following claims and their equivalents.

Claims

1. A container closure system comprising: a container having a vertical axis and a substantially oval-shaped opening in one end thereof, said opening having a major axis, a minor axis, and an outer peripheral rim, a cap having a top wall and a skirt depending from said top wall, said skirt having an inner surface of substantially rectangular cross-section, said skirt defining an interior surface of said cap, said interior surface including a plurality of rim-engaging members; said outer peripheral rim including cap-engaging portions at the major and minor axes of said outer peripheral rim, each of said plurality of rim-engaging members having a longitudinal axis parallel to said rim; said rim and said plurality of rim-engaging members being in an engaged relationship when said cap is in a closed position over the opening in the container, and wherein said rim and said plurality of rim-engaging members will be in a disengaged relationship when said cap only is twisted less than 45° with respect to the vertical axis of said container, thereby releasing said cap from said container.

2. The container closure system of claim 1 wherein said rim-engaging members comprise a plurality of ridges on said interior surface of said cap, said ridges being located opposite the major and minor axes of said opening in said cap when said container is closed.

3. The container closure system of claim 1 wherein said cap-engaging portions comprise four ribs located on the major and minor axes of said outer peripheral rim of said opening.

4. A container closure system comprising: a container having a substantially oval-shaped opening in one end thereof, said opening having a vertical axis, a major axis, a minor axis, and an outer peripheral rim, a cap having a top wall and a skirt depending from said top wall, said skirt having an inner surface of substantially rectangular cross-section, said skirt defining an interior surface of said cap, said interior surface having a plurality of separate ridges; said peripheral outer rim including cap-engaging portions at the major and minor axes of said outer peripheral rim, each of said ridges having a longitudinal axis parallel to said rim; said rim and said ridges being in an engaged relationship when said cap is in a closed position over the opening in the container, and wherein said rim and said ridges will be in a disengaged relationship when said cap only is twisted less than 45° with respect to the vertical axis of said container, thereby releasing said cap from said container.

5. The container closure system of claim 4 wherein said rim includes ribs disposed on said rim at opposite axes of said peripheral rim, said ribs having their longitudinal axis parallel to said rim.

6. The container closure system of claim 4, wherein, when said cap is in the closed position, said ridges are positioned below said cap-engaging portions.

7. The container closure system of claim 6, wherein said ridges are coplanar and said cap-engaging portions are coplanar.

8. The container closure system of claim 6 wherein said cap-engaging portions comprise a plurality of ribs disposed on said rim.

9. The container closure system of claim 4, wherein said ridges have respective lengths of approximately one-sixth to one-tenth of a length of the inner surface portion on which said plurality of ridges are respectively disposed, and said cap-engaging portions have respective lengths approximately equal to the longer of the respective lengths of said ridges.

10. The container closure system of claim 4, wherein said ridges are disposed approximately at the center of respective portions of said inner surface, said respective inner surface portions combining to form said interior surface of said cap.

11. The container closure system of claim 4, wherein said container and said cap consist essentially of a thermoplastic polymer.

12. The container closure system of claim 4, wherein said container comprises a main body portion and a neck portion attached to an upper end of the main body portion, the neck portion terminating to form the peripheral rim.

13. The container closure system of claim 12, further comprising a sloped surface connecting the neck portion to the main body portion.

14. The container closure system of claim 13, wherein upon twisting the cap to the open position, an edge of the skirt contacts the sloped surface causing the cap to move in a direction away from the container main body.

15. The container closure system of claim 14, wherein the main body has a substantially rectangular cross-section in a horizontal plane and the neck portion has a substantially oval cross-section in a horizontal plane.

16. The container closure system of claim 4, wherein said cap is twisted with respect to said container approximately 5-20 degrees to release said cap from said container.

17. A container closure system comprising: a container having a vertical axis and an opening in one end thereof, said opening having a major axis, a minor axis, and an outer peripheral rim; a cap having a top wall and a skirt depending from said top wall, said skirt having an inner surface defining an interior surface of said cap, said interior surface having a plurality of separate ridges; said peripheral outer rim including cap-engaging portions at the major and minor axes of said outer peripheral rim, said ridges having their longitudinal axis substantially parallel to said rim; said rim and said ridges being in the engaged relationship when said cap is in a closed position over the opening, and wherein said rim and said ridges are disengaged when said cap only is twisted between approximately 20-45 degrees with respect to the vertical axis, thereby releasing said cap from said container.

18. The container closure system of claim 17, wherein, when said cap is in the closed position, said ridges are positioned below said cap-engaging portions.

19. The container closure system of claim 17, wherein said cap-engaging portion comprises a plurality of ribs.

20. The container closure system of claim 17, wherein said ridges are coplanar, and said cap-engaging portions are co-planar.

21. The container closure system of claim 17, wherein said ridges have respective lengths of approximately one-sixth to one-tenth of a length of the inner surface portion in which said ridges are disposed, and said cap-engaging portions have substantially uniform lengths approximately equal to a longer one of the respective lengths of the ridges.

22. The container closure system of claim 17, wherein said ridges are disposed approximately at the canter of respective portions of said inner surface, said respective inner surface portions combining to form said interior surface of said cap.

23. A container closure system comprising: a container having a vertical axis and a substantially oval-shaped opening in one end thereof, said opening having a major axis, a minor axis, an outer peripheral rim, a cap having a top wall and a skirt depending from said top wall, said skirt having an inner surface of substantially rectangular cross-section, said skirt defining an interior surface of said cap, said interior surface including a plurality of rim-engaging members; said outer peripheral rim including cap-engaging portions at the major and minor axes of said outer peripheral rim, each of said plurality of rim-engaging members having a longitudinal axis parallel to said rim; said rim and said plurality of rim-engaging members being in an engaged relationship when said cap is in a closed position over the opening in the container, and wherein twisting of the cap about the vertical axis causes an outer portion of the outer peripheral rim to contact the inner surface of said skirt, and further twisting causes said skirt to ride up along said neck, thereby lifting said cap away from said container upon a twist of less than 45 degrees.

24. A container closure system according to claim 23, wherein said cap lifts away from said container upon a twist of between approximately 5 to 20 degrees.

25. A container closure system according to claim 23 wherein said rim-engaging members comprise a thermoplastic polymer having a selected coefficient of friction.