Patent Application
20230012382
Sippy or training cups are drinking cups designed for toddlers as an intermediary between transitions from a bottle or nursing to an open cup. To prevent or reduce spills, sippy cups often have a lid with either a spout or straw that the child drinks through. Generally the reduction in spills is accomplished by way of surface tension or a valve that prevents liquid from spilling when the cup is upended.
The discussion above is merely provided for general background information and is not intended to be used as an aid in determining the scope of the claimed subject matter. The claimed subject matter is not limited to implementations that solve any or all disadvantages noted in the background.
A sippy cup has a spoutless training lid assembly. The spoutless training lid assembly includes a collar and a valve. The collar is configured to couple to a vessel and has an outer wall, an inner wall, an upper portion configured to be located outside of the vessel and including an upper peripheral rim and a lower portion configured to be located inside of the vessel and including a lower peripheral edge. The collar includes a peripheral shelf located about the inner wall. The valve is inserted into the collar and includes a flexible gasket over-molded to a rigid baffle to form a single, separable component. The gasket extends from a plate of the baffle and terminates at an outer peripheral edge that sealably engages with the upper peripheral rim of the collar. The baffle is secured to the peripheral shelf of the collar and portions of a perimeter edge of the plate of the baffle abut the inner wall of the collar.
A sippy cup has a spoutless training lid assembly. The spoutless training lid assembly includes a collar, a valve and an external housing. The collar is configured to be coupled to a vessel and has an outer wall, an inner wall, an upper portion configured to be located outside of the vessel and including an upper peripheral rim and a lower portion configured to be located inside of and including a lower peripheral edge. The valve is inserted into and secured to the collar. The external housing is located on the outer wall of the upper portion of the collar and includes a through hole. The through hole is configured to receive a clip or tether.
A sippy cup includes a vessel and a spoutless training lid assembly coupled to the vessel. The spoutless training lid assembly includes a valve inserted into and secured in a collar. The valve includes a gasket over-molded to a baffle and an outer peripheral edge of the gasket being sealed to a rim of the collar. The sippy cup is configured to be tilted so that liquid flows from the vessel through a plurality spaced apart cut-outs in a perimeter edge of a plate of the baffle into a cavity located between a wall of the gasket, the plate of the baffle and an inner wall of the collar. A drinking force is configured to be applied to the rim of the collar of the spoutless training lid assembly such that the outer peripheral edge of the gasket lifts away from the rim of the collar to allow the liquid to flow from the cavity and out of the sippy cup.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
A sippy cup having a spoutless training lid assembly is provided that is spill proof and interchangeable with other types of spill proof lids on a vessel. The spoutless training lid assembly includes a valve that covers the top opening of the vessel and seals to the entire perimeter of the upper rim of the lid assembly. With a spoutless training lid assembly attached to a vessel, a child may tilt the sippy cup and mimic the way a person would drink from an open top cup. Such drinking ergonomics helps support the normal muscle development of a child's mouth rather than the muscles used from sucking a bottle or from nursing. The spoutless training lid assembly is removable from the vessel and includes two separable components for washing. The two components include a collar and a valve.
Valve 101 includes a gasket 108 over-molded to a baffle 110 to form a single, seperable component. In one embodiment, gasket 108 is made of a flexible material, such as liquid silicone, and is over-molded to baffle 110 with, for example, liquid silicone. Baffle 110 is made of a rigid material, such as polyphenylsulfone (PPSU). Therefore, valve 101 is a single, separable component made by way of an over-mold of two parts. In one embodiment, collar 104 is made of a rigid material, such as polypropylene (PP). In one embodiment, o-ring 106 is made of a flexible material, such as rubber.
Collar 104 includes an outer wall 118, an inner wall 120 and a peripheral shelf 122 located at a transition between lower portion 114 and upper portion 112. Outer wall 118 extends substantially vertically from lower peripheral edge 117 along lower portion 114 and provides externally threaded portion 102 about a periphery of lower portion 114 of outer wall 118. Outer wall 118 then steps outwardly at shelf 122 and follows a smooth concave extending peripheral curve along upper portion 112 and rounds to upper peripheral rim 116. Inner wall 120 extends substantially vertically from lower peripheral edge 117 along lower portion 114, steps outwardly at shelf 122, follows a smooth convex extending peripheral curve along upper portion 112 and intersects with outer wall 118 at upper peripheral rim 116. Peripheral shelf 122 includes an upper lip 123 and a lower lip 125. Inner wall 120 further includes a plurality of spaced apart peripheral protrusions 124 that extend internally from internal wall 120. Protrusions 124 are located between upper lip 123 of shelf 122 and rim 116 but closer to rim 116 than upper lip 123 of shelf 122.
Collar 104 further includes a vertically oriented guide flange 126 and an external housing 128. Guide flange 126 protrudes from inner wall 120 and extends from lower lip 125 of shelf 122, through upper lip 123, along upper portion 112 and terminates at a tapered end 127 that is located below upper peripheral rim 116 and the plurality of peripheral protrusions 124. Opposite to guide flange 126 is external housing 128. External housing 128 is located on outerwall 118 of upper portion 112 of collar 104 and includes a through hole 130. Through hole 130 is configured to receive a clip, a tether or the like. To provide external housing 128, housing 128 protrudes internally in collar 104 from inner wall 120 to house through hole 130, and is flush with outer wall 118.
As previously described, baffle 110 includes substantially disc-shaped plate 139 having a perimeter edge 140 and a cylindrical shaft 142 extending from and below the disc-shaped plate 139. Cylindrical shaft 142 includes a plurality of downward depending flange members 144 evenly spaced apart around the perimeter of cylindrical shaft 142. Each downward depending flange member 144 includes a rib 145.
Perimeter edge 140 of plate 139 includes a plurality of features. On a front side of plate 139, perimeter edge 140 includes a straight edge 146 that extends from a first point on perimeter edge 140 to a second point 143 on perimeter edge 140. Straight edge 146 accommodates the internally protruding housing 128 that houses through hole 130. Straight edge 146 is positioned adjacent housing 128 on inner wall 120 of collar 104. On an opposing back side of plate 139, perimeter edge 140 includes a notch 148. Notch 148 is configured to mate with guide flange 126 that protrudes from inner wall 120 of collar 104 so as to ensure that valve 101 is properly assembled into upper portion 112 of collar 104. Still further, perimeter edge 140 includes a plurality of spaced apart cut-outs 150 that are evenly arranged about the remaining portions of perimeter edge 140. In particular, cut-outs 150 are located between first point 141 and notch 148 and notch 148 and second point 143. Cut-outs 150 have curved surfaces and when valve 101 is inserted into collar 104 and collar 104 is secured to vessel 16, perimeter edge 140 of plate 139 abuts inner wall 120 of collar 104, cut-outs 150 provide openings extending through plate 139 to allow liquid in vessel 16 to be directed into a cavity inside upper portion 112 of collar 104 between baffle 110, inner wall 120 of collar 104 and interior facing wall 138 of gasket 108.
Although elements have been shown or described as separate embodiments above, portions of each embodiment may be combined with all or part of other embodiments described above.
Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms for implementing the claims.
