This application is related to the field of containers, particularly bottles.
Bottles, such as prescription or pill bottles, may have contents that are dangerous to children if ingested. Accordingly, bottles have been developed with child resistant features to prevent unintended access by a child to the dangerous contents. Known child-resistant cap or lid features include push-down-and-rotate lids, hard press-off lids, and squeezable tabs on a lid that must be squeezed to release the lid from the bottle. However, such child-resistant features may cause problems in some cases for adults accessing the contents of the bottle, particularly for elderly persons. For example, push-down-and-rotate features may be difficult for an elderly person to operate if they have arthritis or the lack of digital strength or dexterity. Hard press-off features may hurt or cause discomfort for someone's fingertips, or may cause the lid to fly off and fall to the floor. Squeezable tabs may be difficult to operate if the person does not have the digital strength or dexterity. For an example of a known child resistant cap assembly for a bottle, reference is made to U.S. Pat. No. 8,316,622 B2 to Jajoo et al., entitled “Child-Resistant Cap,” which is incorporated herein by reference.
Accordingly, it would be desirable to provide a bottle that offers child-resistant safety features and yet also facilitates easy access to the bottle by adults to mitigate the problems noted above.
According to the system described herein, a bottle assembly is provided having a container component and a lid assembly that engages with the container component and is rotatable with respect to the container component. The lid assembly includes an outer lid and an inner lid, and the inner lid is independently moveable with respect to the outer lid. The lid assembly provides child-resistant removal features such that the lid assembly is removable from the container component only when the inner lid is positioned at a first specified alignment with respect to the outer lid, and when the outer lid is positioned at a second specified alignment with respect to the container component. The inner lid may be positioned within a circumference of the outer lid, and the inner lid may be independently rotatable with respect to the outer lid. The inner lid may include a handle piece that is aligned with at least one other handle piece of the outer lid in the first specified alignment of the inner lid and the outer lid, and in which the inner lid and the outer lid are both aligned in the second specified alignment with respect to the container component. The container component may include a rim section having at least one opening, and the second specified alignment of the outer lid may be an alignment of the outer lid with respect to the at least one opening of the rim section of the container component. The rim section of the container component may include at least one lug that provides an indication of a location of the at least one opening of the rim section. The outer lid and the inner lid may each include at least one tab that engages with the rim section, and the at least one tab of each of the outer lid and the inner lid may be aligned in the first specified alignment of the inner lid with respect to the outer lid. Each of the at least one tabs engages with a rib of the rim section to provide child-resistant removal features of the lid assembly when the lid assembly is not in the first specified alignment of the inner lid with respect to the outer lid or in the second specified alignment of the outer lid with respect to the container component. The outer lid may include at least one visual or tactile aid to facilitate alignment of the outer lid in the second specified alignment of the outer lid with respect to the container component.
According further to the system described herein, a method for providing child-resistant access to a bottle assembly includes providing the bottle assembly with a container component and a lid assembly that engages with the container component and is rotatable with respect to the container component. The lid assembly includes an outer lid and an inner lid. The inner lid is independently moveable with respect to the outer lid. The method includes providing child-resistant removal features of the bottle assembly that the lid assembly is removable from the container component only when the inner lid is positioned at a first specified alignment with respect to the outer lid, and when the outer lid is positioned at a second specified alignment with respect to the container component. The inner lid may be positioned within a circumference of the outer lid, and the inner lid may be independently rotatable with respect to the outer lid. The inner lid may include a handle piece that is aligned with at least one other handle piece of the outer lid in the first specified alignment of the inner lid and the outer lid, and in which the inner lid and the outer lid are both aligned in the second specified alignment with respect to the container component. The container component may include a rim section having at least one opening, and the second specified alignment of the outer lid may be an alignment of the outer lid with respect to the at least one opening of the rim section of the container component. The rim section of the container component may include at least one lug that provides an indication of a location of the at least one opening of the rim section. The outer lid and the inner lid may each include at least one tab that engages with the rim section, and the at least one tab of each of the outer lid and the inner lid may be aligned in the first specified alignment of the inner lid with respect to the outer lid. Each of the at least one tabs engages with a rib of the rim section to provide child-resistant removal features of the lid assembly when the lid assembly is not in the first specified alignment of the inner lid with respect to the outer lid or in the second specified alignment of the outer lid with respect to the container component. The outer lid may include at least one visual or tactile aid to facilitate alignment of the outer lid in the second specified alignment of the outer lid with respect to the container component.
Embodiments of the system described herein are explained with reference to the several figures of the drawings, which are briefly described as follows.
According to the system described herein, a bottle assembly is provided that advantageously requires no complex threading, ratcheting mechanisms or push tabs to provide locking functionality while still providing beneficial safety features, such as child-resistant features.
In the illustrated embodiment, the outer lid 130 is shown aligned with the inner lid 140, such that the handle pieces 141, 131 and 132 are in alignment. The handle pieces 141, 131, 132 are further shown in alignment with the lugs 115, 116 on the rib 112. It is also noted that the lugs 115, 116 may be sized (e.g., oversized) to make it easy for an elderly person to feel where the lugs are on the bottle assembly 100 and in relation to the lid assembly 120. In an embodiment, an embossed mark 135 (e.g., an arrow) may be included that is shown by way of example on the outer lid 130 as a visual and/or tactile aide. The mark 135 on the bottom of the outer lid 130 may provide a feature that the person feels with their fingers to give them “feedback” where the lugs 115, 116 on the lid assembly 120 are in relation to the mark 135. This may be advantageous for someone who is legally blind, for example, in removing the lid assembly 120 from the container component 110.
A rim section of the container component may be tapered, on the inside and outside, that allows tabs of the lid assembly 120 to flare out as the user puts the lid back on the bottle 100 (refer, e.g., to
After the step 204, the user then proceeds to a step 206 to lift off the lid assembly 120. There is some resistance to the lift procedure in the form of the engagement of tabs 121, 122, 123, 124 of the inner and outer lids 130, 140 with the rounded edges of the rim section 119, even when the outer and inner lids 130, 140 are in alignment with the opening(s) 117 of the rim section 119. The resistance prevents the lid assembly 120 from simply falling off, for example, if the bottle 100 is dropped when the lid assembly 120 is in alignment for removal from the container component 110; however, the resistance is relatively easily overcome by application of a small force by the user to pry off the lid assembly 120 that causes a small deflection of the tabs 121, 122, 123, 124 to disengage them from the rim section 119 in the area of the opening(s) 117. After the step 206, the removal procedure of the lid assembly 120 is complete.
Various embodiments discussed herein may be combined with each other in appropriate combinations in connection with the system described herein. Further, it is noted that although the system is described herein principally in connection with a bottle having a round opening, the system described herein may be used appropriately in connection with containers of any suitable shape or size, including a container having a square or rectangular opening, and specifically in which the lids of the lid assembly of the container may be aligned by suitable movements other than rotation, such as linear sliding movements and/or other appropriate relational movements of the inner lid with respect to the outer lid and of the outer and inner lids with respect to the container component. Additionally, in some instances, the order of steps in flowcharts, flow diagrams and/or described flow processing may be modified, where appropriate.
Other embodiments of the invention will be apparent to those skilled in the art from a consideration of the specification or practice of the invention disclosed herein. It is intended that the specification and examples be considered as exemplary only, with the true scope and spirit of the invention being indicated by the following claims.
This application claims priority to U.S. Provisional App. 61/789,806 filed Mar. 15, 2013, and to U.S. Provisional App. 61/737,397 filed Dec. 14, 2012, both of which are incorporated herein by reference. This application is also a continuation-in-part of U.S. Design App. 29/464,665 filed Aug. 20, 2013, which is incorporated herein by reference.
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2 099 801 | Dec 1982 | GB |
Number | Date | Country | |
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61789806 | Mar 2013 | US | |
61737397 | Dec 2012 | US |
Number | Date | Country | |
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Parent | 29464665 | Aug 2013 | US |
Child | 14060990 | US |