The present invention generally relates to folding chairs, and more particularly relates to improvements in rocking chairs that are foldable and unfoldable between a set-up condition for use and a substantially collapsed condition for transportation and storage.
Popularity of the mini van, the sport utility vehicle and the recreational vehicle has resulted in increased demand for improved collapsible furniture and particularly collapsible portable furniture of the outdoor type which may be readily stowed in a vehicle and conveniently manually transported to a picnic area or the site of a spectator event, such as, for example, an outdoor concert, a sporting event, a golf tournament, or an air show, where the general rule is to bring your own seating accommodations.
Considerable attention has been directed to the provision of improved collapsible furniture for the picnicker, sportsman, hunter, fisherman, hiker, biker and the like. However, the resulting furniture designs and particularly the designs for chairs and seats have usually incorporated some reduction in size, as compared to the full-sized article, with a corresponding reduction in the level of seating comfort. The wooden beach chairs and lawn furniture of an earlier era have generally been replaced by light-weight tubular metal furniture of a more modern design. However, little has been done to optimize the collapsibility and portability of the full-sized article without compromising comfort, which is a goal of the present invention.
Beach and lawn chairs adapted to be folded for transportation and/or storage typically have a frame fabricated from elongated structural members, preferably metal. The frames of such chairs have transversely spaced-apart left-hand and right-hand frame side assemblies that are substantially parallel to each other. In a set-up condition, each frame side assembly has a front leg member extending in a generally vertically upward direction and a rear leg member pivotally connected at its upper end directly or indirectly to an upper end of the front leg member and which is rearwardly and downwardly inclined from the upper end of the front leg member. Such frame side assemblies also include an upwardly extending chair back support member which is pivotally connected at its lower end to the rear leg member intermediate the ends of the rear leg member by an over-the-center linkage that positions the back support member so that it is supported at its lower end on the rear leg member and inclined upwardly and rearwardly therefrom when the chair is unfolded from its closed or flatly folded storage condition to its open or set-up condition for use. Such frame side assemblies also include a seat support member generally supported by the front and rear leg members in a generally horizontal condition when the chair is in its set-up condition.
Conventional beach and lawn chairs of the prior art having the left-hand and right-hand frame side assemblies such as hereinbefore generally described also commonly have transversely extending rigid connecting members providing fixed connection between the front leg members, the rear leg members, and often the back support members as well. Additional rigidly fixed transverse connecting members may also extend between the structural members that support the seat of such a chair. The aforesaid rigid or non-collapsible transversely extending connecting members are generally horizontally disposed when such a conventional prior art chair is in its set-up condition.
Such prior art chairs provide the convenience of easy fold-up, and are lightweight so as to permit easy transportability. Common uses for such chairs are at the beach or at a picnic where easy set-up and break-down, as well as the ability to carry the chair along with other things, is desirable. Due to the intricate interconnection of all the frame members, both front-to-back and side-to-side, such chairs often require all the legs to remain in contact with the ground to ensure safety and structural integrity of the chair during use. However, there is a desire for a rocking chair that is likewise foldable and portable, so that a user at a picnic or an outdoor event can rock in their chair or recline as desired. Prior art foldable and portable chairs, such as those described above, have not been capable of rocking due to the design and construction of such chairs. Adding components to help the user rock in the chair while seated has often compromised the ability to fold the chair for storage or keep it sufficiently lightweight for easy transportation. Moreover, existing foldable rocking chair design, such as illustrated in
An additional limitation of prior art rocking chairs, such as shown in
Other chair designs have been developed that can be folded to a collapsed or bundled state occupying less storage space. For example, some chair designs can be folded in multiple directions, reducing at least the front/back and left/right dimensions between an unfolded set-up condition and a folded, storage condition. However, these chair designs are typically not suitable for certain outdoor uses, such as at the beach or at a picnic. Heretofore, multi-directional foldable chairs have not been capable of rocking due to the complexity of the means of connecting the various frame members constituting the chair frame, as well as the need to keep all the legs of such chairs grounded to ensure safety and integrity of the chair during use.
In view of the foregoing, there is a need for a chair that can be rocked by a seated user when in a set-up condition that can also be collapsed in order to reduce the space occupied by the chair in a folded condition. Further, there is a need for such a chair that can be folded with minimal effort, without limiting or compromising the structural features permitting rocking of the chair. Further, there is a need for a chair that can be rocked by a seated user, as desired, without compromising the folding and transport or the chair, and without affecting the safety and structural integrity of the chair, especially on all types of surfaces, including soft ground and sand. Accordingly, it is a general object of the present invention to provide a foldable and portable rocking chair design that overcomes the problems and drawbacks associated with folding chairs and rocking chairs, and therefore significantly improves the utility of such a chair in the set-up condition while permitting easy transportation and/or storage in a collapsed condition.
In general, there is a need for a collapsible chair that can be easily folded by a user with minimal effort, and which, when set-up, can be used both as a standard, stabilized chair, or alternately, as a rocker, without the need for the user to change the structure of the chair, in any way.
The present invention addresses these issues, and provides a means to circumvent the associated drawbacks of such prior art foldable chair designs.
The present invention is directed to a collapsible and portable rocking chair design especially suitable for use as a beach chair, a lawn chair, and the like, where the chair, in a set-up condition, can be rocked by a seated user, and where the chair can be folded from the set-up condition to a collapsed condition for transportation and/or storage.
In accordance with the present invention, a collapsible and portable rocking chair includes left and right frame side assemblies collectively defining forward and rear leg portions, armrests, and back support members. The chair also includes cross-members connecting the left and right frame said assemblies and collectively defining a seat support in the set-up condition of the chair. The cross members are pivotally connected to one another as well as to the left and right frame side assemblies to facilitate folding of the chair frame to a collapsed condition. In a preferred design, the cross-members each comprise front and rear portions that are pivotally connected about respective central pivot points to generally assume the shape of an X when the chair is in the set-up condition and that are disposed in generally parallel relationship when the chair is folded or collapsed for transportation and/or storage. The chair further includes a seat panel supported by the seat support and a backrest panel supported by the backrest support for collectively accommodating a user seated in the chair.
In preferred embodiments of the rocking chair, each frame side assembly is supported on a fulcrum point for rocking movement of the chair frame. Each side frame assembly preferably utilizes a static runner design wherein each side frame assembly generally maintains two or more contact points with the ground or support surface during use of the chair, either as a normal, fully stabilized chair, or during rocking of the chair back-and-forth. In alternate designs, the runner may be completely replaced by multiple contact points, including at least one fulcrum point on each side frame assembly, again with the chair operating as a normal, fully stabilized chair or as a rocker with two or more contact points with the ground or support surface during use of the chair.
In preferred embodiments of the rocking chair, a rocker mechanism is attached to the chair frame to support the chair during rocking movement and to facilitate rocking of the chair in connection with the user's shifting weight. In one embodiment, the rocker mechanism comprising a tubular extension member projecting outwardly and downwardly from the rear of the frame side assemblies and received within a sleeve housing a compression spring to which the tubular extension member is attached. The lower end of the sleeve is associated with a foot that contacts the ground or support surface for bracing the chair as it is rocking, with the compression spring damping the chair as it rocks backwards and biasing the chair forwards.
In an alternate embodiment of the rocking chair, a rocker mechanism may be provided in connection with a front leg member or forward portion of the frame side assemblies, either in combination with or in lieu of the rear rocker mechanism. In another alternate embodiment, a rocker mechanism may be provided in connection with both the front leg member and a rear leg member on each side of the chair frame, each positioned about a fulcrum point. In still another alternate embodiment, the rocker mechanism comprises a torsion spring operatively associated with the fulcrum point of each frame side assembly.
Accordingly, in a first aspect of the present invention, a collapsible and portable rocking chair comprises a chair frame comprising a pair of frame side assemblies having substantially mirrored construction and being relatively movable with respect to one another between a set-up condition of said chair where said frame side assemblies are transversely spaced apart form one another and a collapsed condition of said chair where said frame side assemblies are generally adjacent to one another. Each frame side assembly includes a front leg portion and a rear leg portion. The chair also includes a pair of generally U-shaped cross members pivotally connected to one another for pivotal movement between an open condition wherein said cross members are disposed to generally resemble an X-shaped configuration and a closed condition wherein said cross members are disposed in generally parallel relationship with one another. The open and closed conditions of the cross members generally correspond to the set-up and collapsed conditions of the chair. Each cross member has its terminal ends pivotally secured to the front and rear leg portions of one of the frame side assemblies, and the cross members collectively define a seat support that receives a flexible seat panel mounted therebetween defining a generally taut seat when the cross members are in the open condition. The chair further comprises a fulcrum point supporting the chair frame and about which said chair frame can move between forward and rearward positions, and at least one rocker mechanism attached to the chair frame for supporting the chair during movement of the chair frame between said forward and rearward positions.
In another aspect of the present invention, a collapsible and portable rocking chair comprises a chair frame comprising a pair of frame side assemblies having substantially mirrored construction and being relatively movable with respect to one another between a set-up condition of said chair where said frame side assemblies are transversely spaced apart form one another and a collapsed condition of said chair where said frame side assemblies are generally adjacent to one another. Each frame side assembly includes a front leg portion and a rear leg portion, and a fulcrum point supporting each frame side assembly and about which the chair frame can move between forward and rearward positions whereby the front and rear leg portions move relative to the support surface on which the chair is set up with movement of the chair frame about the fulcrum points. The chair also includes a pair of generally U-shaped cross members pivotally connected to one another for pivotal movement between an open condition wherein said cross members are disposed to generally resemble an X-shaped configuration and a closed condition wherein said cross members are disposed in generally parallel relationship with one another. Each cross member has its terminal ends pivotally secured to the front and rear leg portions of one of the frame side assemblies, and the cross members collectively define a seat support that receives a flexible seat panel mounted therebetween defining a generally taut seat when the cross members are in the open condition. The chair further includes a first foot associated with the front leg portions of each frame side assembly, a second foot associated with the rear leg portion of each frame side assembly, and a third foot associated with the fulcrum point of each frame side assembly. Further, each frame side assembly contacts the support surface on which it is set up with at least two of the first, second, and third feet at all positions between the forward and rearward positions of the chair frame.
In another aspect of the present invention, the chair can be used as a normal, stabilized chair in its forward position and will only rock when the user chooses to rock. In this regard, the chair of the present invention is distinct from prior rocking chair designs in which the chair is capable of rocking at all times, often by the slightest shift of the user's weight.
These and other features of the present invention are described with reference to the drawings of preferred embodiments of a collapsible and portable rocking chair. The illustrated embodiments of features of the present invention are intended to illustrate, but not limit the invention.
In the drawings and in the description that follows the present invention is illustrated and described with reference to collapsible and portable rocking chair designs embodying the present invention. A first embodiment of a rocking chair in accordance with the present invention is shown, for example, in
In general, the frame 12 is comprised of several frame members rigidly and/or pivotally connected together to define the chair frame 12 and permit folding and collapsing of the frame 12 to a condition suitable for easy transportation and storage. Preferably, the frame members are fabricated from a durable lightweight material such as a tubular metal or high-strength plastic. Various elongated structural parts or members that comprise the chair frame 12 are preferably constructed from tubular material of non-circular cross-section, such as, for example, extruded aluminum tubing having square, oval, or elliptical cross-section, or, alternately, of circular cross-section.
Referring to
Considering now one embodiment of a frame side member assembly 20, as shown in
Further, each portion of the illustrated frame loop can be a separate member, with the various frame members being interconnected by rigid or flexible joints to collectively define the frame side assembly 20. Still further, the frame side assembly 20 may be constructed from an open design instead of a closed frame loop, including the set-up of a front and rear leg generally associated with standard folding chair designs, such as shown in
Referring to
Referring to
As noted, the third foot 36c generally maintains contact with the support surface regardless of the position of the chair 10. However, in alternate designs, the third foot 36c can be designed to lift off the ground when the chair 10 is in a forward position without departing from the spirit and principles of the present invention.
Referring to
Again referring to
In alternate designs of the chair of the present invention, such as designs that do not use a closed frame loop as shown, the fulcrum 54 can be connected to a rear leg member or at least a horizontal extension thereof, and still assist the rocking movement of the chair in combination with a rocker mechanism 32, as described above.
The frame members for the frame side assemblies 20L and 20R are preferably disposed within generally parallelly extending vertical planes. Referring to FIGS. 2 and 4-5, the frame side assemblies 20 are connected together by generally U-shaped cross-members 56, each pivotally attached to the front and rear leg portions 24 and 28 of an associated frame side assembly 20, as well as to each other for pivotal movement between set-up and collapsed conditions of the chair 10. More particularly, each cross member 56 comprises a front portion 58, a central front-back portion 60, and a rear portion 62. The front portion 58 is pivotally connected to the front leg portion 24 of a respective frame side assembly 20. Likewise, the rear portion 62 is pivotally connected to the rear leg portion 28 of the same frame side assembly 20. The central front-back extending portion 60 of each cross-member 56 extends between the front and rear portions 58 and 62, and defines a seat support member for the chair 10. Indeed, as illustrated in
As can be seen, the rear portions 62 of the cross-members 56 are connected between respective rear leg portions 28 of the chair frame 12, and generally form a pivotable rear X-frame connected at a central pivot point 64, which opens into the shape of an “X” when the chair 10 is opened to the set-up condition, as shown in
The cross members 56 also provide support for the chair frame 12 in the open, set-up condition by balancing and redistributing the forces exerted on the chair frame 12 by a person seated on the seat panel 14 and leaning back on the backrest panel 16. As shown in FIGS. 2 and 4-5, the cross-members 56 can be further secured to the frame 12 by using support braces 68 pivotally connected between a cross-member 56 and the frame loop. For example, referring to
The chair frame 12 is generally adapted to rest on a generally horizontally oriented supporting surface, such as a floor or the ground, in a set-up condition. The chair 12 is generally stabilized on the supporting surface by the first, second and third feet 36a, 36b and 36c, respectively. In a forward position of the chair 10, the chair 10 acts as a normal, fully stabilized chair, and is supported by at least the first foot 36a and the second foot 36b, even if the user is leaning on the backrest panel 16. If the user desires to rock in the chair 10, the user can shift her weight backwards, for example, by leaning and pushing backwards on the backrest panel 16, which will cause pivoting of the frame loops of the frame side assemblies 20 relative to the fulcrums 54 on each support runner 34. As the chair 10 pivots backwards, the first foot 36a lifts off the ground, but the chair 10 remains stabilized by the second and third feet 36b and 36c maintaining contact with the support surface. As the chair 10 pivots forwards, the first foot 36a moves into contact with the support surface.
In the set-up condition, the flexible seat panel 14 defines a generally taut chair seat support and the flexible backrest panel 16 defines a generally taut chair back support, for collectively accommodating an upright, seated chair occupant. The seat panel 14 and the backrest panel 16 are secured to portions of the chair frame 12 that help define and provide the seat support and the back support for the occupant. As shown, the backrest support members 30 are preferably mounted relative to the rear leg portions 28 to extend upward therefrom. In alternate embodiments of the chair, the backrest support members 30 can be removed from the frame loops during collapsing and storage of the chair, or in further alternate embodiments, foldable to a position adjacent to either the armrest portions 22 or the rear leg portions 28 during collapsed of the chair. Additionally, the backrest panel 16 can be removed from the chair frame 12—either from the backrest support members 30 or with said members 30—to provide some slack to the backrest panel 16. This helps improve the facility and safety with which the chair is set-up and collapsed, as it is generally known in the art for chairs with cross-members of the type shown and described herein that there is a great stress on the frame side assemblies 20 when moving the cross members 56 to the set-up condition of the chair 10.
More particularly, as the cross members 56 are moved from a relaxed state—where they are disposed adjacent to one another (FIG. 7)—to a set-up state—where they generally form an X-shape with one another (FIG. 2)—the arc in the side-to-side direction of the cross members 56 forces the upper ends of each frame side assembly to bow outward—essentially creating a trapezoidal arrangement in the chair frame 12. This action causes the upper end of the frame side assemblies 20, and more particularly, the backrest support members 30 to push outwardly. Where the backrest panel 16 is connected to the backrest support members 30, the panel material is stressed and provides resistance to the bowing motion of the chair frame 12. As this resistance increases, opening and closing of the chair 10 may be difficult for certain users. The increased tension on the cross members 56 also increases the risk of the user pinching herself during set-up and breakdown of the chair 10. Further, the increased tension on the cross-members could damage the backrest panel 16, warp the chair frame 12, or place unwanted stress on the joints and pivot pins of the chair frame 12.
An additional solution to the increased tension created in a chair having a design in accordance with the present invention is to provide a slot, and more particularly an L-shaped slot 70, on at least one of the support braces 68 connecting the cross members 56 to the frame side assemblies 20. As shown more particularly in FIG. 8, a support brace 68 includes a first pivot hole 71 on one end pivotally connected to a cross member 56 and the L-shaped slot 70 on the opposite end pivotally connected to a frame side assembly 20. Both connections are effected by a rivet or pivot pin. By using the support brace illustrated in
Alternate designs for the side frame assemblies and the leg portions thereof can be used without departing from the focus of the present invention. For example, as illustrated in the embodiment of
Additionally, the rocker mechanism 32 can take a variety of forms without departing from the spirit and principles of the present invention. As shown in
An alternate embodiment of a collapsible and portable rocking chair in accordance with the present invention is illustrated in
Referring again to
In alternate designs of the chair shown in
Referring again to the design illustrated in
In an alternate approach for collapsing the chair 10 shown in
For the chair 110 design illustrated in
Additionally or alternatively, a transportation handle 82 can be provide on the rear portion 62 of one of the cross members 56. When the chair 10 is collapsed, such a handle 82 can be used to carry the folded chair 10 from place to place.
The portable and collapsible rocker chair in accordance with the present invention can also be fitted with additional features to improve upon their intended use as a portable chair. For example, a cup holder 90, as illustrated in
In accordance with preferred embodiments of the present invention, the seat and backrest panels 14 and 16 may be made from fabric or other suitable flexible, durable and weather resistant sheet material. In accordance with preferable designs of the chair, the panels 14 and 16 are flexible to accommodate the seated user, thereby improving the comfort level of the chair. In the set-up condition of the chair, the seat panel 14 and the backrest panel 16 extend between the side assemblies 20 and are generally taut for supporting a seated user. When the chair is collapsed to a folded condition, such as shown in
In alternate designs, the seat and backrest panels 14 and 16 can be rigid and collapsible with the chair frame 12. For example, the panels 14 and 16 can be formed from plastic panels that hinge in half when the chair 10 is folded, but which snap into a solid panel when the chair 10 is set-up.
The foregoing description of embodiments of the invention has been presented for the purpose of illustration and description. It is not intended to be exhaustive or to limit the invention to the form disclosed. Obvious modifications and variations are possible in light of the above disclosure. The embodiments described were chosen to best illustrate the principles of the invention and practical applications thereof to enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as suited to the particular use contemplated.
This application claims the benefit of U.S. Provisional Application No. 61/710,238, filed Oct. 5, 2012, which is incorporated herein by reference.
Number | Date | Country | |
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61710238 | Oct 2012 | US |