The present invention is directed to an improved container. In particular, an improved container for the storage and transport of food (such as solid food items or snacks) therein and the serving of food therefrom, that is portable, durable and easily operable.
Existing containers for food items are unsatisfactory in that they do not completely seal the food items from ingress of contaminants, do not allow the user to dispense food items directly into the mouth, are not of a size and shape as to be easily portable in a purse, bag or cup holder. Existing food containers often do not offer more than one separate compartments for storing and dispensing two or more distinct food items. Existing snack containers do not allow for portioning when dispensing and eating from the containers. Most prior art containers require the use of two hands or multiple digits to operate (i.e. to open and close the container). The present invention addresses each of these shortcomings and presents an improved solution.
The container of the present invention includes a container element, a lid element, and a bowl element. The container and lid elements are removably joined together to form a sealed storage cavity. The bowl element removably covers the lid element to protect it from coming into contact with external contaminants and serves as a serving vessel.
The container element has a generally cylindrical body with a closed bottom end and an open top end defining a storage cavity. The storage cavity may be divided into multiple storage chambers with one or more interior vertical walls.
The lid element has a substantially concave upper surface, with at least one cut-out opening for the egress of food stored in the storage cavity. Each opening is sealably closed by means of an operable flap made of a resilient/elastomeric material having a generally vesical piscis shape. One curved edge of the flap is attached to the periphery edge of the opening, with the other, distal, curved edge of the flap selectively engages the opposite edge of the opening to seal the opening. The outer surface of the flap changes from a convex curve with the opening accessible and the flap forming a spout to a concave curve with the opening sealed by the flap. The distal curved edge of the flap may overhang the opposite edge of the opening to facilitate the lifting of the flap with a finger.
The bowl element is removably attachable to the top of the container element to cover and protect the lid element during transport. When the container is in use, the bowl element may alternatively be removably attachable to the bottom of the container element or be used as a serving vessel.
Preferred embodiments of the present invention have been chosen for purposes of illustration and description and are shown in the accompany drawings forming a part of the specification herein.
With reference to the drawings, wherein the same reference number indicates the same element throughout, there is shown in
As shown in
The bottom end 104 of the container element 100 has a stepped-in cylindrical body 102 having a smaller outer diameter than the rest of the container element 100 to receive the bowl element 300. The bottom end 104 of the container element 100 and the bowl element 300 have corresponding means to releasably engage each other, such as groove 121 and tab 301, respectively. Other means for engaging the container element 100 to the bowl element 300 known to one skilled in the art, such as a helical thread, ¼ turn ramp, annular snap, friction, or via magnetic retaining element, etc. can be used.
The inner wall 114 of the container element 100 at the top end 106 has means for receiving the lid element 200, such as one or more lock turn ramps 120. Other means for engaging the lid element 200 to the container element 100 known to one skilled in the art, such as a helical thread, annular snap, friction, latch/tab and groove, or via magnetic retaining element friction, etc. can be used.
The dimensional range for the generally cylindrical body 102 can be 2.5″-2.7″ for its outer diameter, so as to fit into a majority of cup holders found in vehicles, etc. However, different sizes can be used. Further, although the container element 100 is described as having a generally cylindrical body 102, other prism shapes (such as oval, any polygon, or random curve) can be used.
The container element 100 can be single- or double-walled. A double walled container element 100 with vacuum insulation provides insulative properties to maintain the temperature of the food stored therein, whether it is hot or cold. The container element 100 can be made of stainless steel or plastic, and be opaque, translucent or transparent, as illustrated in
The lid element 200 sealably attaches to the top end 106 of the container element 100 by means of a latch 204 at the lower end of the lid element 200 that interacts and mates with the lock turn ramp 120. The lid element 200 removably seals the storage cavity 108 of the container element 100. When the lid element 200 is removed from the container element 100, the open top end 106 of the container element 100 provides access to easily fill the storage cavity 108 or chambers 112a & 112b (see
The lid element 200 has a generally concave upper surface 206, with two cut-out openings 208a & 208b. On the lower surface 207 is a depending wall 209. The depending wall 209 aligns with and abuts the wall 110 of the container element 100 when the lid element 200 is properly affixed to the container element 100. Similarly, the openings 208a & 208b correspondingly align with the separate chambers 112a & 112b of the container element 100 when the lid element 200 is properly affixed to the container element 100. As such, a user can selectively dispense from the chambers 112a & 112b through the corresponding opening 208a & 208b. Due to the restricted aperture size of the openings 208a & 208b, the lid element 200 dispenses food item from the container element 100 in a controlled manner. Food items from the container element 100 exits the openings 208a & 208b at a manageable rate (as opposed to uncontrolled amount of food flowing out). To the extent wall 110 is not planar and has a different shape or design, the depending wall 209 has a corresponding shape or design as wall 110 to be able to isolate the chambers 112a, 112b, etc.
The openings 208a & 208b are sealably closed by means of operable flaps 210a & 210b made of a resilient/elastomeric material such as silicone. Each flap 210a or 210b has a generally vesical piscis shape, with opposing curved edges 212a or 212b & 214a or 214b. The lower curved edge 212a or 212b of each flap 210a or 210b is permanently attached to the lid element 200 around the peripheral edge 216a or 216b of the opening 208a or 208b. The distal, upper, curved edge 214a or 214b of each flap 210a or 210b selectively engages the inner edge 218a or 218b of the opening 208a or 208b. The flap 210a or 210b is formed from a section of a cylinder, and the outer surface 220a or 220b of the flap 210a or 210b changes from a convex curve with the opening 208a or 208b accessible (see
To close the opening 208a or 208b, the outer surface 220a or 220b or distal upper edge 214a or 214b of the flap 210a or 210b is pushed inwards and towards the inner edge 218a or 218b or the opening 208a or 208b with the tip of a finger. In a closed position, the flap 210a or 210b rests and presses against the inner edge 218a or 218b of the opening 208a or 208b creating a substantial seal against the ingress of contaminants or the egress of food stored in the chamber 112a or 112b. The flap 210a or 210b securely rests against the opening 208a or 208b due to the interaction between the resiliency of the flap 210a or 210b against the stiff/rigid structure of opening 208a or 208b of the lid element 200. The flap 210a or 210b requires no additional retention features such as snap teeth to keep the flap in a closed position, nor the open position. The flap 210a or 210b naturally stays at rest in each of the two positions, open or closed. The flap 210a or 210b is easily operated with one finger, to both close and open. This feature is particularly helpful for a driver of a vehicle.
Due to the positioning of the distal curved edge 214a or 214b of the flap 210a or 210b being near the central axis and adjacent the concave curved surface 206 of the lid element 200 below the top edge 222 of the lid element 200, accidental lifting (i.e. opening) of the flap 210a or 210b is avoided.
Bowl element 300 has a substantially flat base 302 with a generally cylindrical wall 304 extending from the base 302 defining a hollow area 306. The bowl element 300 removably attaches to the lid element 200 or the container element 100. To protect the lid element 200 during transport and to prevent contaminants from contacting the lid element 200 as an additional barrier to ingress of contaminants into the container element 100, the bowl element 300 is attachable to the lid element 200 with the rim 308 of the cylindrical wall 304 engaging a flange 224 of the lid element 200. The lid element 200 is substantially entirely fit within the hollow area 306 of the bowl element 300. Positioning the bowl element 300 over the lid element 200 also prevents the accidental egress of food items from the container element 100. In the hollow area 306 not taken up by the lid element 200, e.g. above the closed flaps 210a & 210b (see
The bowl element 300, after removal from the lid element 200 can be used as a serving vessel to hold a portion of the food items dispensed from the container element 100 so that the food items are easily accessible by the user's fingers to grasp and eat the food items (see
One or two bowl elements 300 can be used with a container element 100 and a lid element 200. If one bowl element 300 is used, it can be conveniently stored/carried either at the bottom end 104 of the container element 100 or on top of and over the lid element 200. For example, the bowl element 300 can be stowed on the bottom end 104 when in a car, so that the user can easily access the flaps 210a & 210b to access the food contained in the container element 100; and when in a bag, the bowl element 300 can be stowed on top of and over the lid element 200 to prevent contaminants from reaching the lid element 200 or entering the container element 100. As shown in
When the bowl element 300 is stowed on the bottom end 104 of the container element 100, it can fit over the stepped-in cylindrical body 102 such that the profile of the container element 100 is streamlined (see
The features of the invention illustrated and described herein are the preferred embodiments. Therefore, it is understood that the specification is intended to cover unforeseeable embodiments with insubstantial differences that are within the spirit of the specification.
This application claims benefit of provisional patent application Ser. No. 62/394,877 filed on Sep. 15, 2016, and is a continuation-in-part of design patent application Ser. No. 29/580,052 filed on Oct. 5, 2016, which are hereby incorporated by reference.
Number | Date | Country | |
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62394877 | Sep 2016 | US |
Number | Date | Country | |
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Parent | 29580052 | Oct 2016 | US |
Child | 15703088 | US |