Patent Application
20170055711
The present invention relates to a folding chair and, more particularly, a folding beach chair with a bulbous chair adjustment mechanism which avoids or significantly reduces finger pinch accidents.
Folding chairs typically include forward facing legs (“forward” being relative to the ground plane or relative to the feet of the user) and rearward facing legs (the rearward legs being on the ground behind the forward legs which are near the user's feet). Generally the forward legs and the rearward legs form a folding X-frame structure with an upper region of the forward facing legs forming aback support frame. A seat frame is typically pivotally attached to the rearward facing legs and is pivotally attached at an intermediate position to the forward facing legs in a manner such that if the user lifts up the forward most portions of the seat frame while maintaining the back support frame relatively stable, the chair collapses and the forward leg frames are moved such that they are adjacent the rearward leg frames.
Additionally, users oftentimes want to adjust the reclining position of the back support frame with respect to the seat support frame. Simple mechanisms enable the user to “sit up” and to move the back support rearward to obtain a fully or partly reclined position wherein the user “lays back.” However a problem has arisen regarding finger pinch accidents in the chair adjustment mechanism typically disposed between the armrest frame and either the forward facing legs or the rearward facing legs.
It is an object of the present invention to provide a folding chair with a bulbous chair adjustment mechanism.
It is another object of the present invention to provide a folding beach chair which eliminates or substantially reduces the occurrence of finger pinch accidents with a bulbous chair adjustment mechanism.
It is an additional object of the present invention to provide a bulbous chair mechanism with a yoke as a single integral unit made of plastic wherein the bulbous portion of the adjustment mechanism is attached atop the terminal end of the forward leg frame (or the terminal end of the rearward leg frame) and the adjustment mechanism has a yoke structure pivotally attached to the bulbous member.
It is a further object of the present invention to provide a chair adjustment mechanism with a yoke having yoke tines spaced apart such that the bulbous cap on the forward leg frame (or rearward leg frame) substantially encloses the spaced apart region between the parallel, opposing yoke tines.
The folding chair, preferably a beach chair, has a bulbous chair adjustment mechanism. The adjustment mechanism can either be in combination with an X-frame folding chair or the chair can encompass, as a single unit, the bulbous chair adjustment mechanism. The chair has a back support frame upon which is mounted a flexible back support to support the back of a seated person or user. The flexible back support (and seat support) may be cloth or nylon or any type of useful webbing. The chair has a seat support frame which upon which is mounted a flexible seat for the seated person. The seat support frame is hinged to the back support frame. The chair has a forward leg frame with at least one substantially vertical first member pivotally attached at an intermediate location between a ground plane and a terminal vertical fore-leg end to the seat support frame. Stated otherwise, the pivot is intermediate the terminal fore-leg end and the ground. Typically, the leg frames are U-shaped and have two vertical fore-leg ends. The chair has a rearward leg frame having at least one substantially vertical second member pivotally attached at an intermediate location between a ground plane and a terminal vertical rear-leg end to one or the other or both the seat support frame and the back support frame. Typically two vertical rear-legs are employed. The pivot mechanism is between the seat support frame and the back support frame and usually has an intermediate swing bar member. The chair has at least one arm rest frame (typically two arm rests) having a free terminal end and an opposing rear end pivotally coupled to the back support frame.
The chair adjustment mechanism has a bulbous cap and a yoke. The bulbous end cap is attached to the terminal fore-leg end. The yoke has a stem and opposing yoke tines. The yoke stem is pivotally coupled to the armrest frame at an intermediate location (between the two armrest ends). The yoke tines are pivotally coupled to the bulbous end cap and the terminal fore-leg end such that the bulbous cap encloses the spaced apart yoke tines. In this manner, the rotation of the armrest frame relative to the forward leg frame causes the yoke to swing forward and rearward. The arm rest moves the back support frame relative to the seat support frame.
Further details of the preferred embodiments include the following features. The yoke tines form a substantially U-shaped space (the tines are spaced apart parallel each other) and the bulbous cap is cross-sectionally sized to substantially fill the U-shaped tine space. The bulbous cap has a rounded pillow shape extending vertically above the yoke tines. The yoke is a single, integral component made of plastic. The stem has a yoke terminal end which is pivotally attached to the arm rest frame. The tines and the stem are disposed in a single plane which rotates about the conjoined yoke and arm rest frame pivot. The terminal vertical rear-leg end abuts the arm rest frame and forms a stop for the yoke at either end of rotation about the yoke and arm rest frame pivot.
The basic chair adjustment mechanism structure, and some of these additional features, avoid or substantially eliminate finger pinch.
Further objects and advantages of the present invention can be found in the detailed description of the preferred embodiments when taken in conjunction with the accompanying drawings in which:
The present invention relates to a folding chair, and more particularly, a folding beach chair with a bulbous chair adjustment mechanism.
The chair has a seat support frame 24 with a flexible seat 26 mounted on seat support frame 24. Similar to back support frame 20, seat support frame 24 is U-shaped and the flexible seat 26 is wrapped around the forward facing U-shaped bar of seat support frame 24. To provide additional support, a further flexible strap (unnumbered) extends between the U-shaped legs of the seat support frame 24. The transverse, flexible seat strap (unnumbered) provides additional support for a seated person disposed on flexible seat 26 of chair 10.
Seat support frame 24 is hinged at pivot 32 to back support frame 20. A backside crossbar (unnumbered) may span the rearward terminal ends of seat support frame 24 such that a transition seat element transitions from flexible seat 26 to flexible back support 22.
Forward leg frame 32 has at least one substantially vertical first member 34. The term “forward” refers to an element near the foot of the user (as compared to other chair components) such as forward leg frame 32 which is disposed at the fore-end of chair 10 with respect to ground plane 40. Forward leg frame 32 has a vertical first member 34 which is substantially vertical notwithstanding the fact that it is at an angle with respect to a 90° vertical plane rising above ground plane 40. Vertical first member 34 of leg frame 32 is “substantially vertical” in that it rises above ground plane 40. Forward leg frame 32 is pivotally attached to the seat frame at pivot point 36 at an intermediate leg frame location 38 (intermediate ground plane 40 and terminal fore leg end 42). The pivot at pivot point 36 is at an intermediate location 38 and rotatably joins vertical first member 34 of forward leg frame 32 with seat support frame 24.
Rearward leg frame 50 has at least one substantially vertical second member 52. Vertical second member 52 is pivotally attached at pivot point 54 to other frame members at an intermediate location 56 between ground plane 40 and terminal rear leg end 58. Pivot point 54 attaches rearward leg frame 50 and either seat support frame 24 or back support frame 20. This rotational coupling between the rearward leg frame, the seat support frame and the back support frame is known in the art and may include a small pivoting bar (unnumbered). In any event, these three elements, the rearward leg frame, the seat support frame and the back support frame are all pivotally coupled together either directly or through an intermediary bar.
Chair 10 also includes at least one arm rest frame 60 having a free terminal fore end 62 and an opposing rear end 64. Opposing rear end 64 of the arm rest frame 60 is pivotally coupled at pivot point 66 to back support frame 20.
In the illustrated embodiment, the folding beach chair 10 includes two armrest frames 60 and the forward leg frame is U-shaped. Therefore, the forward leg frame 62 has two vertical first members 34 forms a U-shaped structure with a U-cross bar on ground plane 40. In a similar manner, rearward leg frame 50 is U-shaped and has two vertical second members 52 which are pivotally attached at intermediate locations to the seat frame and the back support frame. The terminal rear leg ends 58 are pivotally attached to the top region of the fore leg ends 42. The rear leg frame is also U-shaped. 100311 Chair adjustment mechanism 12 includes a bulbous end cap 70 and a yoke 72.
One of the several important features of the present invention is that bulbous end cap 70 substantially encloses the spaced apart region 86 between yoke tines 81, 82. This enclosure feature and the rounded bulbous end cap 70 reduces or eliminates finger pinch when the arm 60 rotates above legs 32, 50.
As shown in
The yoke terminal end 90 in
The terminal rear leg end 58 abuts at edge 92 in
Since the bulbous end is highly rounded and the cross-section of the bulbous end substantially fills the yoke tine U-shaped space 86 (
In an alternate embodiment, bulbous end cap 70 could be attached to the terminal rear leg end and the upper end portion of the forward leg end could act as the stop for rotation against the arm 60. This embodiment is within the scope and spirit of the print of the present claims.
The term “bulbous” as used herein refers to a substantially hemispherical structure and a structure which is square or rectangular with all vertically exposed edges being greatly rounded.
The claims appended hereto are meant to cover modifications and changes within the scope and spirit of the present invention.
