This disclosure relates generally to child care products, and, more particularly, to playards, changing table assemblies, and methods of operating the same.
In recent years, portable playards or cribs have become very popular. Portable playards typically include a frame, a flexible enclosure supported by the frame, and a removable floor board or mat. The frame is largely or completely contained within the flexible enclosure so that there are few if any loose parts when the frame is collapsed or when the frame is erected. When collapsed, the portable playard typically has a compact form factor to enable easy transport and storage of the playard. Sometimes, the floorboard is wrapped around the collapsed frame to prevent the frame from inadvertently leaving the collapsed state.
In the illustrated examples, an optional child care accessory such as, for example, a mobile, storage compartment, changing table, etc. is removably mountable to both the higher side and the lower side of the playard (at different times). The changing table of the illustrated example provides a convenient platform for holding and/or changing an infant, for storing items, for providing additional storage capacity, etc.
Traditionally, changing tables have been configured to be attached to a specific location along a portion of the top rails of the playard. In such configurations, the height of the playard's top rails dictates at least an initial height of the changing table's changing surface. Safety standards, however, currently limit the height or distance between the changing table and the playard in order to avoid potential entrapment of a child or infant between the changing table and the playard. Advantageously, the example changing tables disclosed herein are adjustable in height during use, but avoid potential entrapment issues between the changing table and the playard. In particular, in the illustrated example playards and changing table assemblies, the changing table may be mounted to the first end of the playard to present the changing table surface at a first height, and/or may be mounted to the second end of the playard to present the changing table surface at a second height which is different from the first height. Thus, the structure of the playard (e.g., having the first set of posts with a first height and the second set of the posts with the second height) provides height adjustability of the changing table. Moreover, this height adjustability is achieved without changing a distance between the bottom of the changing table and the closest top surface of the playard when the changing table is mounted on the playard and thusly ensuring no entrapment issues are created by changing the height of the changing table relative to the playard's top rails.
Turning more specifically to
The playard 12 of the illustrated example has a frame 20 including a collapsible upper frame 22, a collapsible lower frame 24, and four upright corner posts 26 that are coupled between the upper frame 22 and the lower frame 24. As will be described in detail below, two of the four upright corner posts 27A extend a first height above the lower frame 24 while the other two upright corners post 27B extend a second height above the lower frame 24. The second height is different than the first height. Additionally, the example changing table 14 is mounted to the upper frame 12 via any suitable fastener, including, for example, by insertion of the changing table 14 into at least one of a plurality of upper corner housings 30 or end caps, disposed at, or near, the junction of the upper frame 22 and each upright corner post 26. Therefore, the changing table 14, if present, may be installed at either of two different heights above the lower frame 24, and thus at either of two different heights above the support surface upon which the playard 12 rests. Furthermore, in this example at least a portion of the changing table 14 extends over the playard 12, while still permitting access to the child receiving space and while avoiding an entrapment hazard. The example changing table 14 may be disposed at either end of the upper frame 22 of the playard 12. The example changing table 14 may also be used with any other type of playard and/or crib, such as, for example, a conventional crib, which is or is not foldable, provided the ends of the playard and/or crib have different heights.
The example playard 12 may also include a removable padded floor 46 provided to cover the floor panel 42 and to provide a support surface when the playard is extended for use in the erected position (see, for example,
As shown in
As illustrated in
The example upper side rail members 52 each include a generally downwardly curved rail (52a) and a generally upwardly curved rail (52b). Specifically, the example rail 52a includes an arcuate portion 53a and a substantially linear portion 53b. Similarly, the example rail 52b includes an arcuate portion 53c and a substantially linear portion 53d. In the illustrated examples, the arcuate portions 53a and 53c are separated from the linear portions 53b and 53b by a bending portion 53e and 53f, respectively. The bending portions 53e, 53f of the illustrated example are bent substantially the same, but opposite, to bring the linear portions 53b and 53d into co-alignment when the playard is in the erected condition. In particular, some of the bending portions form a concave downward curve and other of the bending portions form a concave upward curve. In the illustrated example, the linear portions are co-linearly aligned. In this example arrangement, the rails 52a and 52b are aligned so that they can each be pivotally attached to the rail joints 51b, as illustrated in
As noted above, the upper frame 22 is pivotally coupled to the upper corner housings 30. The housings 30 may be formed, for example, by molded plastic, formed metal, or the like. In the illustrated example, each upper corner housing 30 pivotally couples an end of one of the upper end rail members 50 to an end of one of the upper side rail members 52. Additionally, each upper corner housing 30 couples the rail members 50, 52 to an upper end of one of the upright corner posts 26. In this example, the upright corner posts 26 are fixedly coupled to the upper corner housings 30, while the ends of the rail members 50, 52 are pivotably coupled to the upper corner housings 30 via fasteners, such as bolts of the like, to facilitate folding of the playard 12.
The lower frame 24 of the example playard 12 includes four lower rail members 70 each having a first end 70a pivotally mounted to a respective one of the upright corner post 26, and a second end 70b pivotally mounted to a central hub 72. The example central hub 72 includes a releasable locking mechanism (not shown) to releasably maintain the playard 12 in the erected position shown, while allowing the playard 12 to be unlocked and folded in any desired manner. The example central hub 72 additionally includes two support members 74 pivotally mounted to the hub 72 to provide additional support for the playard 12 when in the erected position shown. The lower rail members 70 of the lower frame 24 may be constructed in a similar manner to the components of the upper frame 22 (e.g., as metal or plastic tubes). The lower frame 24 also includes lower corner housings 76 to join the lower rail members 70 and the lower ends of the corner posts 26. Furthermore, as illustrated in
While the lower frame 24 of the example playard 12 is shown with a lower rails and a central hub assembly, any suitable lower frame assembly may be utilized. In particular, the lower frame 24 may include any combination of rail(s), hub(s), support mechanism(s), locking mechanism(s), etc. to provide support for the playard 12. Additionally, while the lower frame 24 of the example playard 12 is illustrated as being collapsible or foldable, the lower frame 24 may be constructed so as to be rigid (e.g., when the playard is implemented as a crib intended for non mobile usage).
In the illustrated example, each lower corner housing 76 couples an end of each of the lower rail members 70 to a lower end of the one of the upright corner posts 26. In the illustrated example, two of the lower corner housings 72 are provided with a ground engaging wheel assembly 78. Each wheel assembly 78 may be provided with a caster mechanism or may have a fixed axis of rotation. In the illustrated example, each wheel assembly 78 includes a single wheel with a fixed axis of rotation. Any other desired rotatable element may alternatively be used to produce movement over a ground surface. Additionally, any number of wheel assemblies (e.g., 0, 1, 2, 3, 4, etc.) may be used. Alternatively, fixed (non-rotatable) feet may be used.
Turning to
As shown in
To prevent rotation of the post 26 within the socket 34, the example wall 40 includes a keyed portion 42 (e.g., a flattened area), while the post 26 includes a similarly dimensioned feature (not shown) to matingly engage the keyed portion 42 when the post 26 is properly inserted into the socket 34. In this example, the wall 40 of the socket 34 also includes a tab 43 and/or any other suitable feature, extending from a portion of the wall 40, while the post 26 includes a similarly dimensioned slot (not shown) to matingly engage the tab 43. Additionally, the example socket 34 may include a pin 44 (not shown) insertable through at least a portion of the wall 40 of the socket 34 and at least a portion of the post 26 to fixedly secure an end of the upright corner post 26 to the socket 34, and to substantially prevent any relative longitudinal movement between the post 26 and the upper corner housing 30. However, any other suitable shape and/or device, such as, for example, a spring-biased push button (e.g., a VALCO® push button) may be employed to prevent the post 26 from moving within the socket 38. Furthermore, while the keyed portion 42 and the tab 43 are described as being formed with the wall 40, either of the keyed portion 42, the tab 43, and/or any other suitable device may be formed in either the post 26 or the socket 34. Still further, the socket 38 may include a plurality of detents, apertures, and/or other structure to support the child care accessory (e.g., the mobile 15 or the changing table 14) in a plurality of positions. In any configuration, the distance between the child care accessory and the upper frame may be designed to comply with all industry standards of safety (e.g., to avoid entrapment issues).
As shown in
As mentioned above, the socket 51 is sized to releasably receive a projection (e.g., a mounting post 52) of the changing table 14. In particular, the mounting post 52 may be releasably inserted into the socket 51 to mount the changing table 14 to the playard 12. In this example, the mounting post 52 includes a spring-biased push button 54 such as a VALCO® push button. The socket 51 also includes at least one aperture or detent 56 correspondingly located in the socket 51 to releasably retain the mounting post 52 in the socket 51. Additionally, to permit only certain orientations of the mounting post 52 within the socket 51, the example socket 51 includes a keyed portion 58 (e.g., a slot), while the mounting post 52 includes a similarly dimensioned feature (e.g., a tab) (not shown). The keyed portion 58 may also assist in further preventing rotation of the mounting post 52 within the socket 51. However, any other suitable shape(s) and/or device(s), such as, for example, multiple slots and tabs may be employed to enforce alignment of the mounting post 52 within the socket 51. Furthermore, while the keyed portion 58 and the corresponding tab are described as being formed within the socket 51 and mounting post 52, respectively, either of the keyed portion 58, the tab, and/or any other suitable device(s) may be formed on either the socket 51 or the mounting post 52 in any combination.
Referring again to
In the illustrated example, the side rails 84 are mounted to the couplers 82 such that the changing table 12 extends over at least a portion of the playard 12. The proximal end rail 86 is mounted to the couplers 82 such that the end rail 86 is located in substantial vertical alignment with the rail 50 of the playard 12, and so that the gap between the end rail 86 and the playard rail 50 (as measured by a vertical line) is less than one inch. Similarly, each of the example side rails 84 of the changing table 14 are formed such that the side rails 82 are in substantial alignment with the upper rails 52 of the playard 12. Accordingly, the gaps between the frame 80 of the changing table 14 and the upper rails 52 of the playard 12 (as measured by a vertical line) is less than one inch. The minimized gaps between the frame 80 and the upper rails 50, 52 of the playard 12 can be any size sufficiently small to eliminate entrapment hazards between the changing table 14 and the playard 12 when assembled.
Additionally, as shown, the example end rail 86 is sized to place the mounting posts 52 of the couplers 82 into alignment with the sockets 51 of the upper corner housings 30 of either end of the playard. Accordingly, the changing table 14 is selectively mountable to either end of the playard 12, and thus, the height of the changing table 14 above the lower frame 24 of the playard 12 may be selectively changed by moving the changing table 14 to the opposite playard end. Specifically, in the example of
In the example of
In the illustrated example, the frame 80 of the changing table 14 is rigidly formed and cannot collapse and/or fold. Furthermore, the frame 80 is rigidly coupled to each of the couplers 82. However, the frame 80 and/or the attachment between the frame 80 and any of the couplers 82 may be formed such that the changing table 12 is collapsible and/or foldable for storage or other purposes. Furthermore, the frame 80 may be formed such that at least a portion of the changing table 14 extends outside the footprint of the upper frame 22 of the playard 12. Still further, the changing table 14 may be formed with any number of compartment(s) and/or accessories, including, for example, storage compartments, child care product holders, fasteners, mobiles, etc.
Foldable and portable playard assemblies with a changing table and methods of using the same have been disclosed. The example playard includes vertical posts of at least two different heights and the example changing table may be mounted to either end of the playard to vary the height of the changing table relative to the lower frame of the playard.
Although certain example methods and apparatus have been described herein, the scope of coverage of this patent is not limited thereto. On the contrary, this patent covers all methods, apparatus and articles of manufacture fairly falling within the scope of the appended claims either literally or under the doctrine of equivalents.
This patent arises from a non-provisional application claiming priority to U.S. Provisional Application Ser. No. 61/141,575, filed Dec. 30, 2008, entitled “Playards, Changing Table Assemblies, and Methods of Operating the Same,” and incorporated herein by reference in its entirety.
Number | Date | Country | |
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61141575 | Dec 2008 | US |