Patent Application
20050272582
A common problem with a sedentary lifestyle is inadequate exercise. Sitting in an office for eight hours or more a day interferes with an opportunity to obtain exercise. Moreover, most seating is not designed for good posture. The combination of inadequate exercise and poorly designed seating can result in backaches, headaches and other physical ailments, including obesity, diabetes and cardiovascular problems.
Thus, there is a need for seating that encourages good posture and provides an opportunity to exercise, even while working at a desk.
Efforts have been made to improve the posture enabled by seating, and efforts have been made to provide exercise while in a seated position. See, for example, U.S. patents D340269; D380,242; U.S. Pat. Nos. 2,885,617; 4,350,243; 4,441,060; 4,489,982; 4,595,234; 4,838,547; 4,921,247; 4,981,325; 5,470,298; 5,569,138; 5,577,811; 5,690,594; 5,735,574; 5,746,684; 5,865,297; 5,971,893; 6,183,403; 6,261,213; 6,368,260; and 6,379,285; and PCT documents WO 84/04690, and WO 84/04689.
In spite of these efforts, there remains a need for practical improved seating that encourages good posture and provides an opportunity for exercise.
Seating according to the present invention satisfies this need. Exemplary seating comprises a seat, a seat support, optionally a back support assembly, and an exercise foot assembly. The seat can have left and right portions for supporting a user's left and right thighs, respectively. The seat support includes a pivot axis about which the left and right portions can pivot downwardly and upwardly relative to the seat support, such as by a hinge assembly. The exercise assembly comprises left and right foot supporting members positioned forwardly and below the seat to allow user to exercise while seated. There is a connection structure tying the exercise assembly to the seat and/or seat support, and linking the right foot member to the right portion of the seat and a left foot member to the left portion of the seat, so that when a user causes the right foot member to move upwardly or downwardly the right portion of the seat pivots correspondingly, and when a user causes the left foot member to move upwardly or downwardly, the left portion of the seat pivots correspondingly. Preferably the foot members are pivotably mounted to move through a predetermined angle.
The seat optionally can have a rear section that does not pivot. The distance between the foot exercise assembly and the seat can be made adjustable to accommodate users of different leg length.
The back support assembly can comprise a mount extending upwardly and having a generally longitudinal axis, a lower back support, and an upper back support. The lower back support can comprise two back pads, where the lower back pads can be supported by a cross-beam pivotally attached to the mount, with each pad independently pivotal on the cross-beam, with the result that each lower back support is limitedly rotatable about the mount axis and about a second axis perpendicular to the mount axis.
The back mount can be pivotally attached to the understructure so it can tilt rearwardly.
Thus, the seating, with a tilting back support assembly, movable lower pads and the foot stop assembly is very comfortable, encouraging good posture while seated, and provides an opportunity for seated exercise.
These and other features, aspects, and advantages of the present invention will become better understood from the following description, appended claims and accompanying drawings where:
Seating according to the present invention can be a chair or other structure such as a couch, settee, bench, or the like. The seating can comprise a seat assembly supported atop an understructure, also referred to as a base assembly, which is optionally connected structurally to an adjustably distanced exercise foot assembly via an extensible connecting assembly. A back assembly adjoins the base assembly below the seat assembly. Left and right arm assemblies adjoin the back assembly. The exercise foot assembly can comprise foot pedals that can have resistive reciprocating movement or circular bike-pedal movement for seated exercise.
Seating embodying elements of the present invention can have one or more of the features specified below. It is not necessary that the seating have all the features described below with regard to the specific embodiments of the invention shown in the figures.
With reference to the figures, a chair 12 comprises a seat assembly 14 supported on an understructure 16, which is connected to an adjustably spaced apart foot stop assembly 18, also referred to as a foot plate assembly and an exercise foot assembly. This is effected through a connecting assembly 20 whose length is adjustable. A back assembly 22 is connected to the understructure 16 below the seat assembly 14. Optional left and right arm supports 24L and 24R can adjoin the back assembly 22. No arm rest need be used, or different styles of arm rests can be used.
The understructure 16 comprises four legs 26 bilaterally symmetrically spaced apart and joined together at their uppermost portions to a central, generally vertically oriented, tubular supporting central column 30. The legs 26 can be provided with wheels, which can be retractable. The present invention is not limited to the understructure 16 shown in the drawings. It can be any understructure used in conventional seating that support the seat portion and back portion. For example, the understructure need be no more than a single support bar such as in a LA-Z-BOY™ type chair, where the seat is supported by a lateral bar supported by two side panel arm structures.
As best seen in
The upper back stem 34 is laterally centrally positioned to provide optimum back support. The upper back stem 34 has a generally longitudinal axis, and extends generally vertically, with built-in curvature corresponding to a user's spine to provide good back support, rounding forwardly in the region of the central back of the user.
As shown in
The upper back stem support 34 terminates in a cushioned upper back rest 50, which can comprise a structural framework such as wood or plastic encased by a cushioning means, such as polyurethane foam, which can be covered with any material conventionally used in seating, such as vinyl, fabric or leather. Preferably the padded central upper back support 50 is shaped so as not to constrain rearwardly the user's shoulders, thereby leaving the user's arms free to hang straight down from the shoulders.
The back assembly 22 can also comprise a cross-beam 52 pivotally attached to the upper back stem 34 at a connection point 54 so that the cross-beam 52 can pivot relative to the vertical upper back stem 34. With reference to
Left and right pivoting cushioned lower back rest support pads 66L and 66R are attached to the cross-beam 52 at attachment locations 68L and 68R, respectively (See
Each lower back support 66L and 66R can comprise a structural frame shell structure 69 of wood or plastic, for example, enclosed in a material covered cushioning means such as foam padding, for example. The cover can be vinyl, leather or fabric. The frame structure 69 of each pad is free to pivot in any direction about the pivotable counter sunk fastener 72. Preferably, the cushioning or frame shell structure 69 of each lower back support pad 66L and 66R is counter-weighted to maintain the pads in a normal non-tilted orientation such as shown in
The pivotal attachment of the cross-beam 52, and the pivoted attachment of the cushioned lower back rest supports 66L and 66R, allow the pair of back rest supports 66L and 66R to move reciprocally in and out, up and down, and parallel to the position of a user's back as the user pedals or reciprocates a pair of foot plate members, as described below. The pivoting motion of the lower back supports 66L, 66R keeps each lower back support parallel to and flat against the user's lower back, and accommodates twisting motion of the user's lower back, while providing good back support.
The cross-member 52 supports at its ends longitudinally past the pivot points 68L and 68R the arm rests 24L and 24R, respectively.
The seat assembly 14 comprises a seat support stem 100 that extends upwardly from the lower back stem 32, supporting a seat support plate 101. Mounted on the seat support plate 101 is a rear seat segment 102. A hinge assembly 104 attached to the rear seat assembly 102 supports independently movable left and right front seat segments 106L and 106R so they can pivot about a horizontal pivot axis corresponding to the functional axis of the pin of hinge means 104. The hinge assembly 104 can comprise a back plate attached to the rear segment 102 with two forward plates, one attached to each front segment 106, or can be two separate hinge means, each having a rear plate attached to the rear segment 102 and another plate attached to a respective one of the front segments 106. Each of the rear segment 102, left front segment 106L and right front segment 106R is made of an adequately rigid structure such as of wood or plastic composite enclosed by foam or other cushioning means that is encased by a material such as fabric, vinyl, leather or other covering means. Left front 106L and right front 106R seat segments can pivot upwardly or downwardly, rising and falling. The rear seat assembly 108 in combination with the front seat segments 106L and 106R forms a seat 107 for the user.
The foot pedal portions of the exercise foot assembly 18 are in front of and below the seat assembly 14. The user, by pushing against the exercise foot assembly 18, can apply a rearwardly, axial force along the user's legs, maintaining the user's pelvis back in the seat. This action, in conjunction with a proper back rest, keeps the user's pelvis in a forward-tipped position, which effectively maintains a desirable spinal S-curve, which provides good posture and comfort in seating and minimizes the amount that the elbow and arms must be used in supporting the shoulders and upper body of a user. Having both legs extended nearly straight against the exercise foot assembly 18 creates a stable, sustainable mechanical “toggle” position which can be comfortably maintained for long periods of time without leg muscle fatigue.
The foot exercise assembly 18 comprises a support member 120 having a foot portion 122 for placement on a support surface such as a floor 123 and a long leg portion 124 that extends upwardly and forwardly from the foot portion 122. At the uppermost end 126 of the leg portion 124 is an axle 127 that supports right and left foot bars 128R and 128L, which are hinged rotatably so that they travel in a reciprocating fashion independently relative to one another through a predetermined angle. In another embodiment, right and left foot bars 128R and 128L rotate around the axle 127 as in a bicycle motion. A forward end of each foot bar 128R and 128L comprises a pair of cylindrical housings 133R and 133L that slide over the axle 127 supported at the forwardmost end of the main support member 120. Each foot bar 128L and 128R supports a corresponding foot member 134L and 134R, for receiving a user's feet. The foot members can be plates, as shown in the figures, or can be such elements as bicycle pedals.
The connecting assembly 20 comprises a connecting bar 138 attached at a first end 139 to the support structure 10. At the opposed second end 140 is an adjustment bar 142 sized to telescopically slide into at least one of (i) the connecting bar 138, and (ii) a hollow horizontal extension 145 of the foot segment 122 of the support member 120. Thus, the distance of the exercise foot assembly 18 from the seat assembly 14 is adjustable by varying the amount the adjustment bar 142 is slid into the connecting bar 138 and/or the leg 124. Thus, the distance between the exercise foot assembly 18 and the seat assembly 14 is telescopically adjustable with a first telescoping mechanism to accommodate users with different leg lengths. The distance can be fixed by a mechanical, hydraulic, pneumatic or other means. For example, a selected distance can be fixed by means of a pin 143 inserted through holes (not shown) in mating positions in the adjustment bar 142 and the connecting bar 138.
Optionally, the support 120 can be made into multiple segments, where the length can be made adjustable using the same type of telescoping mechanism. This can be used in addition to the first telescoping adjustment so that not only the distance between the exercise foot assembly 18 and the seat assembly 14 can be adjusted, but the relative elevation between the foot plates 134L, 134R and the seat assembly 14 can be adjusted.
Adjustment of the distance between the foot exercise assembly 18 and the rear portion of the seat assembly 14 not only accommodates variations of leg length of individual users pushing against the exercise foot assembly 18 so as to impose a rearwardly axial force along the user's femurs, but it also serves to position the user's pelvis toward the back of the seat assembly so it is tipped forwardly from its top to properly align the spine into an S-shaped curve. This is most readily done by locating the foot plates 134L and 134R forwardly and downwardly of the seat assembly 14 so that the thighs of the user extend downwardly, thereby imposing a healthy rotation on the pelvis.
Resistance to rotation of the foot bars 128R and 128L and thus movement of the foot plates 134L, 134R can be provided by a mechanical, hydraulic, or pneumatically adjustable mechanism. For instance, a torsional spring 144, as shown in
An optional, but desirable feature of the present invention, is to coordinate the reciprocating motion of the front seat segments 106L, 106R with that of the foot plates 134L, 134R, respectively. This can be effected with a connection assembly 146 as shown in
When a user pushes forwardly and downwardly on the foot plates 134L, 134R, connecting bars 128L and 128R rotate cylindrical housings 133L and 133R, alternately tensioning cable 156 ends and causing the corresponding seat segments 106L, 106R to tilt downwardly. For example, as shown in
The movement of the paired foot plates 134L and 134R is designed to provide reciprocal resistance, and thus large muscle exercise, to a user sitting in the chair pushing the user's feet against the foot plates 134L, 134R. Resistance can be constant, or can be varied by any variety of a hydraulic, or pneumatic adjustment device. For example, as shown in
The corresponding reciprocating tilting of the front of the seat segments minimizes under-thigh pressure on a user's legs. Such pressure can compromise blood circulation. Also, the alternating incline of the front seat segments 106L, 106R helps keep the user's pelvis tucked back into the rear seat portion.
Rather than using cable 156 for coordinating the motion of the foot plates and the seat segments, hydraulic or pneumatic cylinders can be used.
The chair 12 can include a locking assembly to prevent movement of the seat segments, such as a removable pin locking aligned holes in the seat segments (not shown).
It is desirable that the length of the cable 156 be adjustable, to allow (i) adjustment of the height and orientation of the seat; (ii) the distance between the foot stop assembly 18 and the seat assembly 14; and (iii) the parallel alignment of foot plates at the tops or bottoms of their strokes. These adjustments requiring changes to the length of cable 156 can be accommodated with a pair of take-up pulleys 180 and the structure shown in
In a non-exercise mode of the chair 12, the user can push both foot plates 134L, 134R into their lowest “toggle” position, as shown in
A user can tilt the upper back support 50 rearwardly while having one or both of the seat fronts raised, to provide a comfortable reclined position as is customary in tilt office furniture. Optionally, for a non-exercise mode, the same postural advantages can be achieved by a single unified foot support that is either fixed or variably distanced from lowered seat fronts.
The opposing take-up spools 204 are provided with an extra length of cable 156. Each take-up spool has a geared portion 207 and is arranged so that a user can cause them to move together to a contact position causing gear teeth 209 to interlock so that they rotate in opposite directions. In this position, extending one end of cable 156 causes the opposite end to retract, so pedals and seat fronts reciprocate together. Alternatively, the take-up spool can be moved apart, so that the gear teeth 209 are apart and the spools 204 can rotate in the same direction with cable 156 on both spools being wound in the same direction. Both spools can have an internal biasing spring (not shown) which forces them to return to the contact position.
When a user wants to lengthen the distance of the foot plates 134, raise the seat 107 or swivel the seat 107 to the side, or have both foot plates 134 at the bottom of stroke, the two take-up spools 204 are separated so they can rotate independently. Thus, the cable 156 can wind under tension, causing the cable 156 to lengthen. After this is effected, the take-up spools 204 are re-engaged so that as one cable lengthens, the other again shortens because the take-up spools 204 are forced to rotate in opposite directions.
The movable key spool 208 is arranged to move toward or away from the take-up spools 204 in a direction perpendicular to a line between the centers of the take-up spools 204. As the movable key spool 208 moves away from the take-up spools 204, with the teeth 209 separated and thus disengaged, the cable 156 shortens so that both pedals 134 move to the top of their travel and both front seat segments 106 are tilted upwardly.
To prevent any movement of the cable, and thus to lock the foot plates 134 in a fixed position, the locking gear 206 can be moved toward both take-up spools 204 along the same line of travel as the movable key spool 208. The locking gear 206 engages the teeth 209 of both take-up spools 204, preventing any movement of the take-up spools 204, thereby effectively locking all motion of the cable.
Optionally, any or all of the take-up spools 204, movable key 208 and locking gear 206 can be variably torsioned to vary the amount of force required to reciprocate the pedals 134.
Accordingly, the present invention provides very comfortable seating with good back support that encourages healthy posture, even when being used for exercise purposes, and also provides an opportunity to perform exercise while in a seated position.
Although the features of the invention are described with regard to seating for office applications, the invention can also be useful for manual assembly-line chairs, for easy chairs, such as for television watching, a computer chair for home use, and a wheel chair for mobility use by semi-ambulatory elderly, where the reciprocating motion of the foot plates can propel a wheel chair device forwardly and backwardly.
The present invention is directed to various combinations of the aforementioned features. Seating encompassing many of these features has among its advantages the following:
Although the present invention has been described in considerable detail with reference to certain preferred versions thereof, other versions are possible. For example, a lower back cushion can be used with closed arms, so the seating appears less like office seating, but rather more like a home over-stuffed easy chair. Moreover, the exercise foot assembly need not be physically connected to the understructure. Also, any of the cushioning 50, 66L, 66R, 102, 106L and 106R described herein can be any conventional cushioning means covered in any conventional skin, or can be flexible, transparent wire framed cushions or the like. While the preferred back rest of the invention moves and articulates as described, features of the present invention, such as the exercise features are obtainable with minimal back support, such as having elevated rearmost seat portions to limit the rear portion of a user's pelvis. Therefore, the spirit and scope of the appended claims should not be limited to the description of the preferred versions contained herein.
All features disclosed in the specification, including the claims, abstracts, and drawings, and all the steps in any method or process disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive. Each feature disclosed in the specification, including the claims, abstract, and drawings, can be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.
Any element in a claim that does not explicitly state “means” for performing a specified function or “step” for performing a specified function, should not be interpreted as a “means” for “step” clause as specified in 35 U.S.C. § 112.
