The present invention relates in general to the sealing of an interface between two or more members, such as between a container body and a container spout. More specifically, but not exclusively, the present invention concerns sealing mechanisms, structures, and techniques to be used in combination with liquid-storage containers which may be used to store (and dispense) various liquid substances such as paint, household cleaners, laundry products, and beverages, to name a few.
Liquid storage containers have been used to store and dispense a wide variety of liquids. While the use of a pouring spout as part of a liquid-storage container is now commonly used for liquid laundry detergents and fabric softeners, only recently have these types of containers been adapted to other liquid-product containers, in particular paint containers. Typical metal paint cans include a generally cylindrical can body with a circular upper opening surrounded by a generally U-shaped peripheral channel which captures the outer peripheral lip or protrusion of a circular lid. A wire-like metal handle is provided and hinged at opposite ends to the paint can body. Anyone who has done any painting using such a paint can is no doubt familiar with the many problems in the sense of wasted and splattered paint. The awkwardness of pouring paint from the can into a tray for a roller is also seen as a drawback with this particular design. Dipping a paintbrush into the can and then using the can edge as a wiping edge also creates a mess and causes paint to be deposited in the annular U-shaped channel. As paint collects in this peripheral channel, resealing the lid becomes particularly messy as the captured paint is pushed out and may either splatter or run down the side of the paint can. Aside from the mess, the current metal paint can design results in wasted paint, not only from what drips, splatters, or runs down the side of the can, but also from not being able to tightly reseal the lid onto the can body. If the lid is not tightly resealed on the can body, the paint can dry out or skim over, causing obvious problems of continued use and often resulting in the leftover portion of paint being discarded.
By designing a paint container with a screw-on lid and a pouring spout with an excess paint drain-back feature, a number of the disadvantages with metal paint cans and the use of such cans can be eliminated. While plastic containers with spouts are now in use for laundry products, there are a number of reasons why such containers are not suitable for paint and why significant design changes must be invented to be able to create a suitable paint container with these structural features. For example, the size of the opening in the container body needs to be expanded for a paint container as compared to a liquid laundry detergent and, as such, the spout design must change. As this occurs, the sealing mechanisms or structures have to be considered. There is a desire to have a wiping edge for the paintbrush as part of a suitable paint container, a factor which is not a consideration with a liquid laundry detergent. The attempt to incorporate this type of wiping edge as part of the pouring spout presents additional design challenges. The drain-back feature is also an important part of any new and improved paint container. Any paint which is wiped off the brush or drips from the brush and any paint which might run down the lip of the pouring spout needs to have a path to reenter the body of the paint container.
A further consideration for a suitable paint container is the overall shape and balance, not only for handling and transporting convenience, including the possibility of stacking, but also for the practical consideration of being able to tint to a particular color by adding pigment to a base color, such as white. This tinting requires access to the interior of the paint container body and also requires some type of vibratory shaking of the paint container. This in turn focuses some attention on the design in terms of the size and shape of the container as well as the design of the sealing mechanisms which are employed as part of the paint container at those interfaces where leakage could conceivably occur.
In developing such containers, the costs and difficulties associated with manufacturing the containers is always a concern. One manufacturing issue relates to the ability to maintain the position of the seal between the container and the spout during assembly. As mentioned before, the seal between the pouring spout and the container must survive a number of drastic conditions, including vibratory shaking. In one type of design, an o-ring seal or gasket is used to seal between the spout and the container. During assembly, the seal is rolled up around a frustum-shaped sidewall of the spout that extends within the container so that the seal is positioned at the lip of the container. As the seal rolls up the frustum-shaped wall, the seal stretches and twists, which in turn pre-loads the seal. As a result, the seal is biased to roll back down towards the narrower part of the wall, away from the lip of the container. With the seal out of position, leakage between the spout and the container can occur, which can be extremely undesirable with liquids like paint.
Thus, there is a need for improvement in this field.
One aspect of the present invention concerns a spout for a container that includes a retention ridge and an angled retention surface that biases a seal to the proper position for forming a seal between the spout and the container. Another aspect concerns a container that includes means for biasing a seal to the proper position between the spout and the container. Still yet another aspect concerns a technique for assembling a container in which the retention surface is used to position the seal into the proper position.
Related objects and advantages of the present invention will be apparent from the following description.
For the purpose of promoting an understanding of the principles of the invention, reference will now be made to the embodiments illustrated in the drawings and specific language will be used to describe the same. It is understood that the specific language and figures are not intended to limit the scope of the invention only to the illustrated embodiment. It is also understood that alterations or modifications to the invention or further application of the principles of the invention are contemplated as would occur to persons of ordinary skill in the art to which the invention relates. One embodiment of the invention is shown in great detail, although it will be apparent to those skilled in the relevant art that some features that are not relevant to the present invention may not be shown for the sake of clarity as well as brevity.
One or more embodiments of the present invention will be described below with reference to molded plastic paint containers with a pouring spout, but it should be recognized that features of this invention can be adapted for use with other types of containers and/or liquids. For some background information about the container systems in which the systems and techniques described below can be used, please refer to U.S. patent application Ser. No. 10/924,419, which was filed Aug. 24, 2004; U.S. Application Publication No. 2004/0011813 A1 (application Ser. No. 10/365,910, filed Feb. 13, 2003); and U.S. Application Publication No. 2004/0011812 A1 (application Ser. No. 10/199,618, filed Ser. No. 10/199,618), which are hereby incorporated by reference in their entirety.
A spout 30 according to one embodiment, among others, of the present invention is illustrated in
Referring now to
During assembly, the spout seal 54 is rolled, or moved in some other manner, up along the sidewall 38 and over the rib 45, which in turn stretches the seal 54 and builds up potential energy. Due to the overall frustum shaped of the sidewall 38, the spout seal 54 would tend to roll out of position were it not for the retention surface 43 and the rib 45. The retention surface 43 and the rib 45 on the spout 30 form an undercut portion of the sidewall 38 that is used to secure the spout 30 to the container 50 as well as ensure that the spout seal 54 remains in the proper location for sealing between the container 50 and the spout 30. The retention surface 43 is angled or tapers to the retention flange in order to encourage the spout seal 54 to bias against the retention flange 39. In the illustrated embodiment, the neck 56 of the container 50 has an angled rim member 59 that extends radially inwards, around opening 60 the container 50. After the seal 54 is installed, the sidewall 38 of the spout 30 is inserted into the opening 60 of the container 50, and the rim member 59 of the container 50 snaps over the rib 46 on the spout 30, thereby locking the spout 30 to the container 50. The interference fit between the spout 30 and the container 50 along with the angled retention surface 43 presses the spout seal 54 into the proper sealing position between the spout 30 and the container 50. In the
Sometimes it is necessary that the spout 30 be removed from the container 50 after the container 50 has been filled. For example, in order to tint or mix paint in the container 50, the spout 30 is removed in order to provide unrestricted access to the container 50. With the retention surface 43 and the retention flange 45, the seal 54 remains secured to the spout 30 upon the removal of the spout 30 from the container 50. This reduces the chances that the seal 54 becomes misplaced or even lost. Further, the risk of the seal 54 being damaged by falling on the floor or into paint is reduced. Once the spout 42 is reinstalled on the container 50, the seal 54 is again position in the proper location between the container 50 and the spout 30.
During shipping or storage, the container 50 can be sometimes jarred such that the spout 30 separates from the container 50, thereby creating a potential leakage source. A cap 63 for enclosing the container 50, which is illustrated and
Looking at
As should be appreciated, the unique structure of the spout 30 as well as the unique technique for assembling the spout 30 with the container 50 helps to ensure that the spout seal is properly located so that leakage from the container 50 is minimized. It should be recognized that the spout 30, the container 50 and/or the cap 63 can be shaped differently in other embodiments. As a non-limiting example, it is envisioned that the shape of the sidewall 38 at surface 47 can be straight or even in part outwardly flared. Even when shaped in such a manner, the seal 54 can still tend to be biased away from the correct seal location, and consequently, the above-discussed seal biasing mechanism, or some equivalent, still needs to be implemented. Additionally, it is contemplated that features from the present invention can be used in different types of containers than those discussed above.
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only the preferred embodiment has been shown and described and that all changes and modifications that come within the spirit of the invention are desired to be protected.
The present application claims the benefit of U.S. Provisional Patent Application No. 60/628,046, filed Nov. 15, 2004, which is hereby incorporated by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
60628046 | Nov 2004 | US |