1. Field of the Invention
The present invention relates to child holding accessories that may be suitable for use with play yards.
2. Description of the Related Art
Play yards are used to contain and provide a safe environment for a child to sleep or play. Currently, most play yards are constructed to include a frame around which a fabric element is wrapped and stretched to form the boundaries of the play yard. Due to the wide spread use of play yards, efforts have been made to increase their versatility to caregivers. For example, some child holding accessories may be added to play yards, such as changing tables (also commonly called “changers”, bassinets, and child sleeping beds (also sometimes called “nappers”). While these different types of accessories may provide more versatility, it may be expensive to purchase a different accessory for each use. Moreover, it may also be cumbersome to store multiple child holding accessories, or to change the accessory for each different use.
Therefore, there is a need for an improved child holding accessory that may be more convenient in use, provide comfortable resting support and address at least the foregoing issues.
The present application describes a child holding accessory that can be used in combination with a rigid support frame. The child holding accessory can be desirably installed on the rigid support frame, and integrate multiple regions adapted to receive the child in different configurations of use. Examples of construction for these holding regions can include, without limitation, a changing table and a child sleeping bed.
In one embodiment, the child holding accessory includes a reversible resting support and at least one fixture for attaching the resting support with a rigid support frame.
The reversible resting support has a first and a second bearing surface facing opposite directions, the first and second bearing surfaces respectively having different profiles, and each of the first and second regions being positionable to be upwardly facing to receive a child thereon.
Moreover, the present application also describes an infant support apparatus that includes a rigid support frame, a reversible resting support, and at least one fixture rotatably connected with the resting support. The reversible resting support has a first and a second bearing surface facing opposite directions, the first and second bearing surfaces respectively having different profiles, and each of the first and second regions being positionable to be upwardly facing to receive a child thereon. The fixture is configured to attach the resting support with the rigid support frame at an elevated position above a floor, and the resting support being rotatable relative to the fixture attached to the rigid support frame to position either of the first and second bearing surfaces upwardly facing.
At least one advantage of the structures described herein is the ability to provide a child holding accessory that can integrate two opposite regions adapted to receive the child in different configurations of use. The bearing surfaces associated with the two regions can deform differently when the child is placed thereon. Accordingly, the bearing surfaces of the two regions can be designed to provide differential firmness and bending curvature that suits the different functional uses of the two regions.
The present application describes a child holding accessory that can be used in combination with a play yard. The child holding accessory can integrate multiple regions adapted to receive the child in different configurations of use. Examples of construction for these holding regions can include, without limitation, a changing table and a child sleeping bed. Each of the holding regions can be designed to deform differently when the child is placed thereon so as to provide adequate resting support.
The child holding accessory 102 can be constructed as an adjustable module that includes a resting support 114 having multiple regions adapted to receive the child. Examples of these regions can include, without limitation, a first region R1 constructed as a changing table, and a second region R2 constructed as a child sleeping bed on a side opposite to the side of the first region R1. The child holding accessory 102 can be adjustable to turn the second region R2 downward and the first region R1 upward to be used as a changing table (as shown in
In one embodiment, the resting support 114 can include a surrounding frame 132 formed from multiple tubular segments connected together, and a bearing platform 134 affixed with the surrounding frame 132. The adjustable fixtures 130A and 130B may be mounted with two opposite sides of the surrounding frame 132, and are adapted to fasten the resting support 114 with two opposite handrails of the play yard 104. In one embodiment, at least one of the two adjustable fixtures, for example adjustable fixture 130A, can include a rotary mechanism that is operable to permit relative rotation of the resting support 114. While the adjustable fixture 130A is attached with the support frame 106, the resting support 114 thus can be rotated relative to the play yard 104 to turn either of the first region R1 and the second region R2 upward. The other fixture 130B can have an adjustable catch 136 that can bear on the associated handrail of the play yard 104.
The left and right sides of the surrounding frame 132 can also include side frame segments 132A that have a curved shape. When the first region R1 is turned upward, the side frame segments 132A can respectively have curved shapes that project/arch upward to gather and tighten a fabric material between the surrounding frame 132 and the first bearing surface BS1. Moreover, the side frame segments 132A can increase the height of the left and right side edges of the changing table, which can prevent the child from accidentally falling down and provide safer use. When the second region R2 is turned upward, the curved shapes of the side frame segments 132A are projecting/arching downward to facilitate downward bending of the second bearing surface BS2 and provide comfortable sleeping support.
In conjunction with
According to one embodiment, the surrounding frame 132 can be entirely located at a same side of the rotation axis α, and the distance H1 between the head-side frame segment 132B and the rotation axis α can be smaller than the distance H2 between the foot-side frame segment 132C and the rotation axis α. When the first bearing surface BS1 is turned upward, the surrounding frame 132 can be located above the rotation axis α and the foot-side frame segment 132C can be at a position higher than the head-side frame segment 132B to facilitate diaper changing. In contrast, when the second bearing surface BS2 is turned upward to be used as a sleeping bed, the surrounding frame 132 can be located below the rotation axis α and the foot-side frame segment 132C can be at a position lower than the head-side frame segment 132B to provide comfortable sleeping support.
The support board 142 can be placed between the first and second layers 144 and 146, and have a first side 142A and an opposite second side 142B. Two opposite ends of the support board 142 can be connected with the surrounding frame 132 via connecting elements 148, such as straps, cords, and the like. The support board 142 can provide a support sufficiently rigid for sustaining the weight of the child received in either of the first and second region R1 and R2. In the meantime, the support board 142 can also be designed to deform differently depending on whether the child is supported on the bearing surface BS1 or BS2. For example, the support board 142 can bend freely when the child is placed on the bearing surface BS2 to conform to the child's body and provide comfortable sleeping. On the other hand, when the child is placed on the bearing surface BS1, bending of the support board 142 is reduced or prevented to provide a flat and stable surface for better accessibility while changing the child's diaper. Exemplary embodiments of the support board 142 are described hereafter with reference to
The slits 216 can partly disconnect the cells 210 from one another so as to allow relative deflecting movements between the cells 210. When the support board 202 is assembled with the cushion element 140, the first side 202A can lie adjacent to the first layer 144 (i.e., corresponding to the first region R1), and the second side 202B adjacent to the second layer 146 (i.e., corresponding to the second region R2).
Referring to
On the other hand, when the child is supported on the first region R1, the weight is applied from the first side 202A of the support board 202. This pressure can cause the sidewalls 210C of adjacent cells 210 to contact against each other, which can substantially prevent bending of the support board 202 in a second direction D2 opposite to the first direction D1. As a result, the first bearing surface BS1 can provide a flat and stable support for better accessibility while changing the child's diaper.
The support board 202 can therefore deform differently depending on whether the load of the child's weight is exerted from the first side 202A or the second side 202B of the support board 202, which can result in different firmness of the first and second bearing surfaces BS1 and BS2. The firmness of the first and second bearing surfaces BS1 and BS2 can be assessed by determining how each of the first and second bearing surfaces BS1 and BS2 bends and the depth to which it sinks upon application of a load pressure, i.e., the bend curvature and sinking depth of the support board 202 can be different depending on whether the child's weight is applied from the first side 202A or second side 202B For example, the second bearing surface BS2 can bend and sink to a greater depth when the child is placed thereon, whereas the first bearing surface BS1 can hardly sink when the child is placed thereon. Accordingly, the bearing platform 134 can provide adequate support curvatures respectively in accordance with the required use conditions, e.g., the changing table requires a flat surface for easy accessibility, and the sleeping bed requires a bent curvature for increased comfort.
When the support board 302 is assembled with the cushion element 140, the first side 302A can lie adjacent to the first layer 144 (i.e., corresponding to the first region R1), and the second side 302B adjacent to the second layer 146 (i.e., corresponding to the second region R2). Like previously described, when the child is supported on the second region R2, the weight of the child is applied from the second side 302B of the support board 302. This pressure can cause the cells 310 to pivot about their respective joining portions. Because the joining portions of the cells 310 extend along two directions X and Y, the support board 302 can bend in different planes of curvature. As a result, the capacity of the support board 302 to deform is increased to better fit the shape of the child's body. When the child is supported on the first region R1, the weight is applied from the first side 302A of the support board 302. This pressure can cause the sidewalls 310C and 310D of adjacent cells 310 to contact against each other, which can substantially prevent bending of the support board 302 in the second direction D2.
It is worth noting that the support board structures described herein may be advantageously used for any child holding devices in general. For example, seat modules in stroller, car seat, high chair and swing apparatuses may also use any of the support board structures illustrated above to provide increased comfort.
At least one advantage of the structures described herein is the ability to provide a child holding accessory that can integrate two opposite regions adapted to receive a child in different configurations of use. In particular, the child holding accessory can include a support board that can deform differently depending on the region where the child is placed. As a result, the bearing surfaces associated with the two regions can present different firmness to provide adequate resting of the child.
Realizations in accordance with the present invention therefore have been described only in the context of particular embodiments. These embodiments are meant to be illustrative and not limiting. Many variations, modifications, additions, and improvements are possible. Accordingly, plural instances may be provided for components described herein as a single instance. Structures and functionality presented as discrete components in the exemplary configurations may be implemented as a combined structure or component. These and other variations, modifications, additions, and improvements may fall within the scope of the invention as defined in the claims that follow.
Number | Date | Country | Kind |
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2011 1 0215584 | Jul 2011 | CN | national |
This application is a continuation of U.S. patent application Ser. No. 13/207,489 filed on Aug. 11, 2011, which respectively claims priority to U.S. Provisional Patent Application No. 61/401,310 filed on Aug. 11, 2010; U.S. Provisional Patent Application No. 61/463,390 filed on Feb. 16, 2011; and China Patent Application No. 201110215584.0 filed on Jul. 29, 2011, which are incorporated herein by reference.
Number | Name | Date | Kind |
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20070209116 | Simon | Sep 2007 | A1 |
Number | Date | Country | |
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20150082538 A1 | Mar 2015 | US |
Number | Date | Country | |
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61401310 | Aug 2010 | US | |
61463390 | Feb 2011 | US |
Number | Date | Country | |
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Parent | 13207489 | Aug 2011 | US |
Child | 14560022 | US |