1. Field
The present disclosure relates to anchoring devices adapted for directional release from and attachment to a surface, including devices for holding liquid or solid contents, or for holding a separate article that is mounted on the device.
2. Description of the Prior Art
By way of background, there are various known devices designed for directional release from and attachment to a surface. These devices operate by opening and closing a communication port to selectively vent or isolate a controlled pressure zone under a seal member that sits on a flat non-porous reference surface. Typically, there is a fixed member that carries the seal member, and a movable member that is operably connected to the communication port. The movable member is arranged to open the communication port when lifted, either immediately or after it moves a predetermined distance.
A device of this type has the ability to remain affixed to a reference surface except when the movable member is manipulated using a defined lifting movement that causes the communication port to open and vent the controlled pressure zone. In that case, the device can be removed from the reference surface without discernible resistance, and may thereafter be returned to its original rest position with no unusual manipulation being required for re-seating. External forces that do not cause the communication port to open, such as side loads, tend to increase the gripping force by reducing the pressure within the controlled pressure zone, such that detachment from the reference surface is resisted.
The present disclosure is directed to an improvement in anchoring devices having directional release and attachment capability. In particular, applications are envisioned for such devices wherein it may be possible to release the device inadvertently without performing the defined lifting movement. An infant's food bowl would be one example. In that case, it may be possible for a baby to grab the food bowl with an uncoordinated grip that accidentally actuates the movable member, thereby opening communication port and inadvertently releasing the bowl. The improvements described herein limit the susceptibility of such devices to inadvertent release.
An anchoring device is proposed having directional release and attachment capability, and which further includes a feature that prevents inadvertent release. In example embodiments, the anchoring device may include a lower base member and an upper movable member. The movable member is wholly or partially nested within the base member by virtue of the base member having a sidewall portion that surrounds at least part of a sidewall portion of the movable member, but leaves at least a top surface portion of the movable member exposed, the movable member being movable relative to the base member. The movable member includes a gripping region that is not covered by the base member and which is provided for intentional manipulation and lifting of the movable member. A seal member on the base member may be configured to engage an external reference surface and form a substantially airtight seal therewith that defines a periphery of a controlled pressure zone between the seal member and the reference surface. A communication port may be provided that can be opened and closed via actuation of the movable member to selectively vent or isolate the controlled pressure zone. A protective member may be provided to cover one or more areas of the exposed top surface portion of the movable member that are not covered by the base member and not part of the intended gripping region, but which are prone to being manipulated either intentionally or unintentionally to actuate the movable member in an unwanted manner. The protective member prevents unwanted venting of the communication port due to a user interacting with the one or more areas of the exposed top surface portion of the movable member instead of the intended gripping region.
The foregoing and other features and advantages will be apparent from the following more particular description of example embodiments, as illustrated in the accompanying Drawings, in which:
Turning now to the drawing figures, in which like reference numbers illustrate like structure in all of the several views,
As best shown in
With continued reference to
It will be seen that the lower end 4B and medial sidewall portion 4C of the base member 4 define a concave space that receives the movable member 6. The movable member 6 is nested within the base member 4 by virtue of the base member's medial sidewall portion 4C surrounding the outside of at least a portion of the movable member's medial sidewall portion 6C. The base member may thereby serve as a movable member holding structure. In the illustrated embodiment of
As best shown in
A flexible seal member 12 may be provided at the lower end 6B of the base member 4. The seal member 12 is configured to engage an external reference surface R (see
As best shown in
The vent opening 16A may be provided on the base member 4 and the vent blocker 16B may be provided on the movable member 6. In the illustrated embodiment of
If an attempt is made to lift or rock the anchoring device 2 by applying an external vertical or lateral force while the communication port 16 is closed, the volume of the air space within the controlled pressure zone 14 will start to increase. This will in turn decrease the air pressure within the controlled pressure zone 14 relative to the ambient air pressure outside the controlled pressure zone. As a result, the anchoring device 6 will adhere to the reference surface R. The adhering force will increase in correspondence with the decreasing air pressure within the controlled pressure zone, which in turn is inversely proportional to the increased volume therein caused by deformation of the seal member 12 in response to the applied external force. This is the same design principle implemented by various self-anchoring beverage container embodiments disclosed in commonly-owned U.S. Pat. Nos. 8,025,169 and 8,028,850. The contents of these patents are each hereby incorporated by reference as if fully set forth herein.
It will be appreciated that the location where the peripheral region of interfacial contact is formed between the seal member 12 and the reference surface R, and thus the footprint of the controlled pressure zone 14, is variable. This is indicated by the dashed lines used in
A different result is obtained if the anchoring device 2 is manipulated in a manner that results in the movable member 6 being lifted relative to the base member 4. As noted above, this manipulation may be performed by a user engaging the gripping region 8 of the movable member. In that case, the communication port 16 will open, the controlled pressure zone 14 will vent to atmosphere, and the anchoring device 2 will lift without discernible resistance (apart from the weight of the device) off the reference surface R. As soon as the anchoring device 2 is returned to the reference surface R and the movable member 6 is released, the communication port 16 will close and the anchoring device will be “re-armed” to resist unwanted detachment from the reference surface R.
In order to minimize the likelihood of inadvertent actuation of the movable member 6, a protective member 24 may be provided that covers one or more areas of the exposed top surface portion 6E of the movable member 6 that are not covered by the base member 4 and not part of the gripping region 8, but which are prone to being manipulated either intentionally or unintentionally to actuate the movable member in an unwanted manner. In the illustrated embodiment of
To prevent unwanted manipulation of the susceptible areas mentioned above, the protective member 24 may be configured as a protector ring that includes a top portion 24A, an outer ring portion 24B, and an inner ring portion 24C. The top portion 24A extends transversely over the respective upper ends 4A and 6A of the base member 4 and the movable member 6. The outer ring portion 24B extends downwardly from the outside edge of the top portion 24A. It can be fixedly mounted to the outside wall of the base member's upper end 4A, as by threading. Alternatively, the protective member 24 could be slidably mounted to the base member 4, or as described in more detail below in connection with
It should be noted that the protective member 24 could also cover the portion of the inner surface 6D that is formed by the bottom portion 6B of the movable member 6. This is shown in the embodiment of
As previously mentioned, the purpose of the protective member 24 is to prevent unwanted venting of the communication port 16 due to a user interacting with the one or more areas of the exposed top surface portion 6E of the movable member 6 that are not covered by the base member 6, instead of interacting with the movable member's gripping region 8, which is the intended mode of use of the anchoring device. As also noted above, the one or more areas of the exposed top surface portion 6E of the movable member 6 that are not covered and protected by the protective member 24 may include the rim at the upper end portion 6A of the movable member 6, and at least the upper portion of the inner surface 6D, neither of which is covered by the base member 4, and neither of which constitutes part of the gripping region 8. These exposed surface areas are respectively covered and protected by the protective member's top and inner ring portions 24A and 24C.
Turning now to
The liner sidewall 26A rests on, and blocks, the inner surface 6D of the movable member 6. To minimize the area of contact between these two structures, a circumferential bead 26D may be provided on the outside of the liner sidewall 26A. The circumferential bead 26D may be designed so that it is the only portion of the insert 26 to engage the movable member 6. As shown in
In the illustrated embodiment of
In both the illustrated embodiment of
Because the protective member 24 also covers the top portion 6A of the movable member 6, it will retain the movable member so that it cannot be separated from the anchoring device 2, provided that the protective member 24 is mounted (fixedly or slidably) to the base member 4. However, as mentioned above, the protective member 24 could be slidably mounted to the movable member 6, such as by way of a slotted interconnection.
This alternative configuration is illustrated in
According to the configuration of
Turning now to
Unlike the anchoring device 102, the movable member 106 is not configured as a vessel, but instead has a non-concave upper surface portion 106E that is flat (but which could also be convex if desired). The movable member 106 also has a mounting structure 106F adapted for attachment to a separate article (not shown) to be removably held by the anchoring device 102 on a reference surface. The mounting structure 106F serves as a gripping region 108 of the movable member 106 insofar as the intended manner of lifting the movable member is by grasping the separate article that is attached to the mounting structure. In the illustrated embodiment of
The movable member 106 nests within the base member 104. A protective member 112 may be provided to prevent inadvertent opening of communication port 110 by virtue of a lifting force being applied to one or more areas of the exposed top surface portion 106E of the movable member 106 that are not covered by the base member 104. In this case, the entire top surface portion 106E of the movable member 106, apart from the mounting structure 106F, is an area that a user is likely to interact with in an unwanted matter to manipulate and lift the movable member, absent the protective member 112. This area does not represent part of the intended gripping region of the movable member 106. In the illustrated embodiment, the protective member 112 has an upper portion 112A that covers the movable member 106 except for the mounting structure 106F. The protective member's upper portion 112A may be formed with an aperture 112B through which the mounting structure 106F protrudes. The protective member 112 may also include a medial sidewall portion 112C that may extend around and envelope the outside of the base member 104.
Alternatively, as shown in
Although the protective member 112 may be mounted to the base member 104 as a separate structure that is distinct from the base member, the protective member 112 could also be integrally formed as an extension of the base member 104. In that case, the base member 104 and the protective member 112 would represent an integrated base/protective member 104/112, with the demarcation point between the two structures possibly being the top portion 104A of the base member.
In the embodiments of
Accordingly, an anchoring device having directional release and attachment capability and which further includes a feature that prevents inadvertent release has been disclosed. Although example embodiments have been shown and described, it should be apparent that many variations and alternative embodiments could be implemented in accordance with the present disclosure. It is understood, therefore, that the invention is not to be in any way limited except in accordance with the spirit of the appended claims and their equivalents.
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