The present invention relates to containers and lids.
Conventionally, liquids are commonly packed into plastic containers with snap-on or screw-on lids or containers sealed with a film.
In a related art snap-on container, a rubber tube is used to prevent liquid from leaking through a container-lid interface. This rubber tube serves as a gasket that fills voids that exist in the container-lid interface.
While this method is effective, it adds cost both in the extra material required for manufacturing the rubber tube and in the operation required to apply the gasket to the lid.
In addition, care must be employed to ensure gasket-liquid compatibility.
Also, recycling is difficult because the gasket material is often a different composition from the lid material and because removal of the gasket can be difficult.
The present invention is directed to improved containers and lids.
An advantage of the present invention is to provide a container and lid that minimizes or prevents liquid from leaking.
Another advantage of the present invention is to provide a container and lid that reduces the cost of manufacturing.
Another advantage of the present invention is to provide a container and lid that are easily recycled.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, a lid for a container includes: a central portion for covering an opening of the container; a channel at a periphery of the central portion configured to form a substantially liquid-tight gasketless seal with the container, the channel including an inner skirt for contacting an inner surface of the container and an outer skirt for extending around an outside surface of the container; and a protrusion protruding from the inner skirt and being configured to form an interference fit with the inner surface of the container.
In another aspect, a lid for a container includes: a central portion; an outer skirt at a periphery of the central portion; and a protruding ridge on an inner surface of the outer skirt, wherein the protruding ridge includes a plurality of ribs.
In yet another aspect, a container comprises: a base; a sidewall extending upwardly from the base to an upper rim, wherein the sidewall surrounds an inner cavity, and wherein the sidewall tapers away from the inner cavity while extending upwardly from the base; a satellite ring extending outwardly from the container sidewall; and a bead protruding outwardly from the container sidewall. A lid comprises: a central body portion; a channel around a periphery of the central body portion configured to form a substantially liquid-tight gasketless seal with the upper rim of the container, the channel including an outer skirt and an inner skirt, wherein the inner skirt is configured to contact an inner surface of the container sidewall, the inner skirt including an inner skirt protrusion protruding outwardly from the inner skirt and extending around the central body portion, wherein the inner skirt protrusion is configured to form an interference fit with the inner surface of the sidewall; a tearline for separating an upper portion the outer skirt and a lower tearstrip portion, wherein a lower edge of the lower tearstrip portion is configured to lie adjacent the satellite ring of the container; and a first protruding ridge on the upper portion of the outer skirt and a second protruding ridge on the lower tearstrip portion, wherein the first and second protruding ridges are configured to lie below the container bead.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.
In the drawings:
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings.
As illustrated, the container 100 includes base 102, sidewall 104, upper rim 106, bead 108, one or more flanges 110, indent 112 and bail ear 114. Although not illustrated, base 102 encloses the bottom of the container 100 and sidewall 104 extends upwardly from the base 102 to form an inner cavity of the container 100. The top of the sidewall 104 forms an upper rim 106 defining an opening to the inner cavity of the container.
Sidewall 104 is illustrated as a having a circular cross-section. One of ordinary skill in the art will appreciate that the sidewall 104 may have various cross-sections or contours. For example, the sidewall 104 may include one or more corners, or the sidewall 104 may have a circular cross-section near the top of the sidewall and a different cross-section near the bottom of the sidewall.
Bead 108 is illustrated protruding outwardly from the top of the sidewall 104. One of ordinary skill in the art will appreciate the bead 108 may have various positions or profiles. For example, the bead 108 may be spaced from the top of the sidewall 104.
In another possible configuration, the bead 108 may be a portion of the sidewall 104 above a recess in an outer surface of the sidewall. As illustrated, bead 108 protrudes from the sidewall. When a lid is placed on the container 100, a portion of the lid may be positioned in the recess under the bead 108 such that the lid is held to the container 100.
Flange 110 protrudes outwardly from the sidewall 104 of the container 100. As illustrated, the flange 110 extends generally horizontally outward from the container. One of ordinary skill in the art will appreciate the flange 110 may have various configurations. For example, the flange 110 may extend upwardly or downwardly while extending outwardly. The flange 110 may extend entirely or partially around the container 100.
The presence of flange 110 may improve a tamper-evidencing function by being in close proximity to a lower edge of a lid skirt. In this case, the flange 110 makes it more difficult for persons to remove the lid from the container without leaving some “tamper-indication” such as a tear along the lid skirt or other damage or deformation to the container or lid. Positioning of the flange 110 relative to the lid skirt may preclude finger(s) or other objects access under the lid skirt, where they may lift, pry, or dislodge the lid from the container.
At a junction of the sidewall 104 and flange 110, indent 112 may be formed in sidewall 104 opposite of the flange 110. Thus, a reduced amount of plastic may be used to form the junction during an injection molding process. This reduces the time needed for cooling of the plastic throughout the junction, thereby promoting consistent strength throughout the container. In one aspect, the indent 112 may allow the junction to have a substantially constant thickness through the junction. Although not illustrated, an indent 112 may be formed corresponding to each flange 110.
As illustrated, bail ear 114 may be formed between flanges 110. Although not illustrated, another bail ear 114 may be formed on an opposite side of the container 100, allowing for attachment of a handle to both bail ears 114. Furthermore, the bail ear 114 may be formed at other locations on the container.
The entire container may be integrally formed together as a unitary single unit, by a process such as injection molding. Also, the container 100 may be formed of plastic. In other embodiments, the container may be formed of other materials, such as metal or glass.
As illustrated in
Gate well 204 is illustrated surrounding the gate 202 and raised portion 206 is illustrated surrounding the gate well 204. In one aspect, the raised portion 206 extends above the highest portion of the gate 202. As such, the gate 202 may be protected from receiving a load from objects, such as a container 100, being placed on the lid 200.
As illustrated, stacking guide 208 may be positioned at a periphery of the raised portion 206. However, the positioning of stacking guide 208 may be determined based on the size of the base 102 of the corresponding container 100. When a base 102 of a container 100 may be placed on a lid 200, a stacking guide aids in guiding the base 102 to the center of the lid 200 and aids in maintaining the base 102 on the lid 200. In the illustrated embodiment, the stacking guide protrudes upwardly from the periphery of the raised portion 206 and includes a downwardly slanted surface facing the center of the lid 200 that further aids in guiding the base 102 of the container 100 to the appropriate position on the lid 200. As illustrated, the stacking guide 208 forms a substantially continuous circle around the center of the lid 200. In embodiments, the stacking guide 208 may include a plurality of stacking features separated from each or otherwise discontinuous.
As illustrated, a first channel 210 may be positioned at a periphery of the stacking guide 208. In another embodiment, first channel 210 may be positioned further towards to the center of lid 200, or the lid may include more first channels 210. One or more of the first channels 210 may be disposed at a periphery of the stacking guide 208 or towards the center of the lid 200.
As illustrated, first channel 210 surrounds a center portion of lid 200. In other aspects, first channel 210 may extend partially around the center portion of the lid 200. In one aspect, first channel 210 may function as a spring by absorbing loads placed on the lid 200 in a generally horizontal direction and allowing the lid 200 to flex inwardly or outwardly when being placed on a container.
As illustrated, first channel 210 includes first and second generally vertical walls and a third wall connecting lower portions of the first and second walls. The third wall may form the bottom at the first channel 210.
As illustrated, stacking guide 208 may be formed as an extension of a first wall of the first channel 210. In another embodiment, the stacking guide 208 may be separate from the first channel 210.
A second channel 212 may be shaped to form a substantially liquid-tight gasketless seal with the container. As illustrated, the second channel 212 may include an inner skirt 214, an outer skirt 216 and a wall 250 connecting upper portions of the inner skirt 214 and outer skirt 216. As illustrated, the second channel 212 surrounds a center portion of lid 200. When the lid 200 is placed on a container 100, the inner skirt 214 lies adjacent and may contact an inner surface of the sidewall 104 and the outer skirt 216 may extend around an outer surface of the sidewall 104.
As illustrated, the inner skirt 214 of the second channel 212 may be also one of the generally vertical walls of the first channel 210. In another embodiment, the first channel 210 and second channel 212 may share no common walls.
The inner skirt 214 may include an inner skirt protrusion 218. When the lid 200 is placed on the container 100, the inner skirt protrusion 218 forms an interference fit with the inner surface of the sidewall 104 of the container 100. Because the inner skirt protrusion 218 interferes with the inner surface of the sidewall 104, a contact force may be applied between the inner skirt protrusion 218 and the inner surface of the sidewall 104. This contact force minimizes or prevents liquid from leaking when the container 100 is on its side or upside down.
The inner skirt protrusion 218 may extend around the entire lid or a portion thereof. Also, the inner skirt protrusion 218 may extend around the entire lid to form a complete loop such that a starting and ending point of the loop are the same or to form an incomplete loop such that a starting and ending point of the loop are different. In one embodiment of the incomplete loop, the inner skirt protrusion 218 may have a generally helical shape.
In the illustrated example, the inner skirt protrusion 218 may be an angled protrusion. As illustrated in
In one aspect, the angle ? of the first surface 218a with respect to the inner surface of the inner skirt 214 may be less than the angle ? of the second surface 218b with respect to the inner surface of the inner skirt 214. As such, the slope of the second surface 218b may be greater than the slope of the first surface 218a, which is believed to provide a better seal.
The outer skirt 216 may include at least one protruding ridge 220. As illustrated in
As illustrated in
The protruding ridge 220 may be positioned substantially opposite of the inner skirt protrusion 218. As illustrated, the upper surface 220a of the protruding ridge 220 may be elevated slightly above an upper portion of the second surface 218b of the inner skirt protrusion 218. In another embodiment, the protruding ridge 220 may be positioned a little higher or a little lower. In one example, the upper surface 220a of the protruding ridge 220 may be positioned below an upper portion of the second surface 218b of the inner skirt protrusion 218, or below a lower portion of the second surface 218b of the inner skirt protrusion 218. In another example, the upper surface 220a of the protruding ridge 220 may be elevated above a midpoint of the first surface 218a of the inner skirt protrusion 218.
As illustrated in
As illustrated in
The lid 200 may include step 228. Step 228 may protrude upwardly from an upper surface of the second channel 212 as illustrated in
In another example of the first embodiment of the present invention, the protruding ridge 220 may include a plurality of protruding ribs. A cross-sectional view of one embodiment of a protruding rib is shown in a floating drawings to the right of the outer skirt 222.
By forming the protruding ridge 220 from a plurality of protruding ribs 219, the amount of material needed to form the protruding ridge 220 can be reduced. In one aspect, substantially parallel protruding ribs 219 are separated by spaces 221. The distance between adjacent protruding ribs 219 may be greater than a thickness of the ribs, such that the amount of material used to form the protruding ridge 220 may be reduced by 50% or more relative to a bulk protruding ridge of the same size.
Also, the protruding ridge 220 formed of a plurality of protruding ribs 219 may be more accommodating than a bulk protruding ridge. A such, the lid may be easier to remove from the mold during manufacturing and avoids deformation that occurs when removing the lid from the mold. Also, the lid may be easier to remove from a container. For a lid having a bulk protruding ridge, lid removal may be stiff. For a lid having a protruding ridge 220 formed of a plurality of protruding ribs 219, lid removal may be smoother.
Furthermore, a bulk protruding ridge cools slowly, causing degradation of the strength of the ridge. A protruding ridge 220 formed of a plurality of protruding ribs 219 cools faster, thereby avoiding such degradation.
In another embodiment of the present invention, a lid 200 includes a diagonally oriented protrusion 218 on an inner skirt of a lid.
A problem with applying a lid to a container is that air may get trapped in the container causing the container to bulge at a sidewall or base of the container. Excess air in the container may also interact with the product in the pail and cause undesired by-products.
To address this issue, the diagonally oriented protrusion 218 may be formed on the inner skirt of the lid. A benefit of the diagonal protrusion 218 may be to allow trapped air to escape during the lidding process. The diagonally oriented protrusion 218 may extend around the entire lid to form a complete loop such that a starting and ending point of the loop are the same or to form an incomplete loop such that a starting and ending point of the loop are different. In one example, the diagonally oriented protrusion 218 may have a generally helical shape.
The upper portion of the diagonally oriented protrusion 218 is preferably closed to prevent leakage of liquid. Additionally, there may be multiple protrusions 218 in parallel. For example, the lid may include a second inner skirt protrusion. The second inner skirt protrusion may be substantially parallel to the first inner skirt protrusion. In the case of multiple protrusions 218, an upper portion of the lower protrusion may be open.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
This application is a continuation of U.S. patent application Ser. No. 12/762,742, filed Apr. 19, 2010, entitled “CONTAINER AND LID.”
Number | Date | Country | |
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Parent | 12762742 | Apr 2010 | US |
Child | 13796357 | US |