The present subject matter relates generally to a portable rebounding apparatus. More specifically, the present invention relates to a rebounding device to be used against a stationary surface for generating a rebounding motion.
Rocking is a familiar part of everyday human life. Numerous proven benefits of rocking have been established for centuries, while new motivations and added reasons for rocking are being discovered regularly. One of the most well-known uses for rocking is to calm a baby. The gentle bouncing motion mimics the movement the baby felt inside the mother's womb and can soothe infants, aid in lulling children to sleep or while nursing, and reduce crying in colic episodes.
Rocking for personal benefit is a safe activity and option for those that live an otherwise sedentary lifestyle or for people with limited physical motion, including many aging adults, individuals suffering with injuries or chronic ailments, or those seated for long periods of time in a chair or at a desk. The act of rocking has proven benefits such as the easing of arthritis and back pain, improved muscle tone, improved balance, and increased circulation.
Studies have revealed that rocking causes an increase in psychological well-being for those suffering from dementia, anxiety, and depression due to released endorphins that elevate the mood. Additional studies suggest benefits of rocking can provide comfort and add to the positive treatment of anxiety, attention deficit disorder, attention deficit hyperactivity disorder, and autism. NASA has reported that rocking was the most effective procedure to combat Autonomic Nervous System Disorders for astronauts returning to earth from low-earth orbit. Rocking may also be a low-energy movement to increase blood flow for those experiencing physical restrictions, such as elderly and handicapped people. Health experts recommend some form of motion to increase circulation and muscle movement when sitting for long periods in office chairs.
However, prolonged rocking in a seated position cannot be performed comfortably without an external device such as a rocking chair to assist in repeating the motion for even a short period of time, let alone hours on end. A continuous rocking motion for long durations without assistance also creates significant strain on muscles and joints. Existing solutions are extremely limited in their embodiments, versatility, and flexibility of use. The operating conditions and other utility requirements often prohibit users from being able to use existing apparatuses when and where rocking assistance is needed most. The use of conventional rocking furniture is limiting in that it cannot easily be moved from room to room or accompany the user during travel.
Further, conventional rocking solutions require a large amount of floor space and are therefore not suitable for use in small rooms and can be difficult to store when not in use. While some hospitals and nurseries equip parents, staff, and caregivers with rockers or gliders, providing a rocker or glider in each room is expensive, which becomes problematic for facilities operating with a limited budget. Smaller options for rocking infants include bassinets, bouncers, or cradles, but in these options the infant is separated from the caregiver, limiting the ability to simultaneously hold, nurse, or easily feed the infant while rocking.
Further, conventional rocking solutions cannot be combined with other existing furniture such as a sofa or bed, thus preventing users from utilizing such furniture when needing to hold and nurse or calm an infant with rocking. Many mothers prefer to nurse while sitting in an upright position in bed, especially at night, but must choose between the comfort of a bed and the functionality of a rocking device because nothing exists to allow both simultaneously.
Accordingly, there is a need for a portable, compressible rebounding device that may be used against a stationary surface for generating a rocking motion while in a seated position, as described herein.
To meet the needs described above and others, the present disclosure provides a rebounding device that includes a spring mechanism between a front member and a rear member. During use, the user positions the rear member of the rebounding device against a stationary object such as a chair or a wall. The user rests his back against the front member and applies pressure to generate a gentle rocking motion. The rebounding device exerts a biasing force when compressed that gently propels the user's upper body forward while maintaining a seated position.
In one embodiment, the rebounding device includes a front member, a rear member, and a spring mechanism positioned between the front and rear members. The spring mechanism includes first and second elongate spring elements, each spring element including front and rear planar surfaces integral with a rounded portion. Each spring element operates as a leaf spring with the front and rear planar surfaces moving toward and away from one another about the rounded portion.
Each of the front planar surfaces of each spring element is twisted inwardly toward the rear planar surfaces so as create a curvature for receiving the user's back. The front member is secured to the front planar surfaces of the spring elements and includes a curvature that complements the curvature of the front planar surfaces. The rear member is secured to the rear planar surfaces of the spring element. During use, the user's back rests comfortably against the curved front member and the angled front planar surfaces while the rear member and the rear planar portions rest against the stationary surface.
In one embodiment, the front and rear members include a front and rear flexible material extending between the pairs of front and rear planar surfaces, respectively, of the first and second spring elements. The front and rear flexible materials are tightly stretched between the front and rear pairs of the front planar portions and the rear planar portions, respectively, of the first and second members so that pressure applied to the material causes the front planar portions to move toward the respective rear planar portions. A foam padding or other thick material may be secured to each of the front and rear members and/or flexible material.
In a further embodiment, a rebounding device includes a housing having front and rear members containing a spring mechanism. The housing is comprised of a foam material that allows for compression. During use, the user positions the rebounding device between his back, preferably the middle to lower portions of the back, and a supporting surface such as a headboard, an airplane seat, or a wall. The rebounding device exerts a biasing force when compressed that propels the user's upper body forward while maintaining a seated position.
Specifically, each of the front and rear members of the housing includes a planar surface surrounded by a wall that has a greater thickness at a base and narrows near the planar surface, creating an outer side surface. The bases of the front and rear members are adjoined together by fastening means. A spring mechanism positioned between the front and rear members includes spring elements that bias against the planar surfaces of the front and rear members. The spring mechanism may be any elastic object(s) storing mechanical energy that creates an opposing force when compressed, such as a plurality of helical springs. The internal distributed structuring of the springs provides an even spring sensation for the user without the need for a central spring. Other suitable spring mechanisms may be used.
The housing may be comprised of a compressible material such as a ventilated foam, which also allows for breathability and minimizes the weight of the device. The rebounding device may also include a cover or casing that surrounds the housing. Heating or cooling elements may be incorporated into the housing and/or the cover.
An object of the invention is to provide a solution to provide a smooth, repeatable bouncing motion, while also significantly reducing the strain on the body and diminishing the physical activity and force required to make the body rock.
Another object of the invention is to provide a solution to a convenient rebounding device that is positioned between the user's back and against any supporting surface.
A further advantage of the invention is that it is specifically contoured to the upper body to provide a comfortable and supporting rebounding motion against the user's lean.
An advantage of the invention is that it provides a portable rebounding device that is easily carried from one location to another, takes up little space, and can be easily stored away when not in use.
Another advantage of the invention is that it can be utilized with almost any existing furniture or supporting surface; thereby allowing the user to rock continuously while holding the infant while sitting wherever they have a supporting surface deemed comfortable.
A further advantage of the invention is that it provides a solution to a need for a rocking motion that is significantly less expensive than conventional rocking solutions.
Additional objects, advantages and novel features of the examples will be set forth in part in the description which follows, and in part will become apparent to those skilled in the art upon examination of the following description and the accompanying drawings or may be learned by production or operation of the examples. The objects and advantages of the concepts may be realized and attained by means of the methodologies, instrumentalities and combinations particularly pointed out in the appended claims.
The drawing figures depict one or more implementations in accord with the present concepts, by way of example only, not by way of limitations. In the figures, like reference numerals refer to the same or similar elements.
In the illustrated embodiment, the spring mechanism 106 includes first and second spring elements 108a, 108b, each having an elongate shape including a length L and a width W, the length L being greater than the width W, and extending between a front end 110a, 110b and a rear end 112a, 112b. Each elongate spring element 108 curves around an axis CL as shown in
Best seen in
The first and second spring elements 108 may be comprised of any material that provides sufficient elasticity to enable repeated rebounding motions while being sufficiently strong to structurally support a person's weight. Example metallic materials include aluminum, an aluminum alloy preferably but not necessarily having a T6 temper, such as 6061T6, steel, and a steel alloy such as AISI 5160. The device may also be made of plastic such as polyvinyl chloride, a carbon fiber composite material, or a wood material.
As shown in
Referring to
In one embodiment, each elongate spring element 108 may have a width W that ranges between about 1.5 in. and about 2.5 in., although the width may vary as desired and may vary throughout the length L. Each spring element 108 may also have a thickness T that ranges between about 0.125 in. and about 0.25 in., created by a single layer or multiple, stacked layers. In the illustrated embodiment, the width W and thickness T of the spring elements 108 vary along the length L, having smaller values at the rounded portions 118 than at the front and rear ends 110, 112. In other embodiments, the width W and thicknesses T of the spring elements 108 vary based on manufacturing processes and/or as desired.
In the embodiment illustrated in
During use, the user positions the rear surface 104 of the device 100 against a stationary object such as a chair or a wall as shown in
Referring to
In a further embodiment illustrated in
Further, the spring elements 108 may be modified to include one or more reinforcing spring elements that provide additional elasticity and/or strength to account for heavier users. The number, position, and location of reinforcing elements may vary as desired or, in some embodiments, based on the user's preference. In the embodiment illustrated in
In still further embodiments, the rebounding device 100 may include first and second rubber guards that extend along the rounded portions 120 of the spring members 108. The rubber guards may include treaded portions that prevent the rebounding device 100 from slipping on the floor, the seat of a chair, or other surface during use.
The rebounding device 100 may also include first and second structural members that, when in use, support the rebounding device to be used on its own without being positioned against a structural support such as the back of a chair or a wall. In one embodiment, the first and second structural members are hingedly attached to the rear planar portions 116a, 116b of the first and second spring members 108a, 108b, respectively, so that they rotate between an open position and a closed position. In the closed position, the structural members are secured to the rear planar portions 116, allowing the rebounding device 100 to be used against a structural surface such as a chair, a wall, or the like, as described above. When the structural members are in the open position, they extend away from the rear planar portions 116 so that the rear planar portions 116 form an acute angle with the surface on which the rebounding device 100 is positioned. The user can then lean against the rebounding device 100, creating the rocking motion without the need for a piece of furniture or other structural support.
The dimensions of the rebounding device 100 may be modified in order to tailor the device to a specific use. For example, the width of the first and second spring elements 108 of the rebounding device 100 may be wider than illustrated herein in order to accommodate for usage with a wheelchair or a hospital bed.
Referring to
Seen best in
In some embodiments, the housing 202 may be comprised of a compressible material such as a foam or a rubber such as natural latex, which also allows for breathability and minimizes the weight of the device. Other materials that may be used include soft plastics or a polyester material. The rebounding device 200 may also include a cover or casing (not shown) that surrounds the housing 202. The cover may be a washable, upholstery material with or without a textured surface. Heating or cooling elements may be incorporated into the housing 202 and/or the cover.
The spring mechanism 208 is positioned between the front and rear members 204, 206. In the embodiment illustrated in
Any suitable spring mechanism 208 having any type, form, or shape of a spring may be used, such as a leaf spring mechanism 300 as shown in
An alternative spring may include a Z-shape spring 400 as shown in
As described above, the rebounding device 100, 200 can be used in a variety of applications, from rocking an infant to sleep to the comfort and benefit for those with conditions such as dementia, anxiety, and autism. It should be noted that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications may be made without departing from the spirit and scope of the present invention and without diminishing its attendant advantages.
This application comprises a continuation of U.S. patent application Ser. No. 17/402,145 filed Aug. 13, 2021, which comprises a continuation of U.S. patent application Ser. No. 16/595,393 filed Oct. 7, 2019 (now U.S. Pat. No. 11,089,875), which comprises a continuation of U.S. patent application Ser. No. 15/978,000 (now U.S. Pat. No. 10,433,643) filed May 11, 2018, which claims the benefit of priority to U.S. Provisional Application 62/505,834 filed May 12, 2017 and U.S. Provisional Application 62/645,901 filed Mar. 21, 2018, the entireties of which are incorporated herein by reference.
Number | Date | Country | |
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62645901 | Mar 2018 | US | |
62505834 | May 2017 | US |
Number | Date | Country | |
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Parent | 17402145 | Aug 2021 | US |
Child | 17942847 | US | |
Parent | 16595393 | Oct 2019 | US |
Child | 17402145 | US | |
Parent | 15978000 | May 2018 | US |
Child | 16595393 | US |