Chairs and seats – Back movement resiliently opposed in operating position – Back and seat adjust simultaneously
Reexamination Certificate
2000-05-12
2002-08-27
Cuomo, Peter M. (Department: 3636)
Chairs and seats
Back movement resiliently opposed in operating position
Back and seat adjust simultaneously
C297S300400, C297S316000
Reexamination Certificate
active
06439661
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a chair mechanism, in particular for a rotatable office chair with a pneumatic spring which is arranged vertically in the under-frame and is intended for adjusting the height of the seat. The chair mechanism causes the seat panel to be lowered synchronously with the rearward inclination of the backrest, which the user initiates by shifting his/her weight.
BACKGROUND OF THE INVENTION
Office workers spend most of their working day in a sitting position. Staying in a writing position, in which the body is bent forward to a pronounced extent, over a number of hours at a computer workstation results in considerable straining of the skeleton, the muscles and the tissue of the back and the neck region. As a result, many attempts have been made to improve the geometry of chairs, and the mechanisms thereof, in order, in accordance with the respective sitting posture, to relieve the strain on the user more effectively. A decisive step in development was made by synchronizing mechanisms, where, with the adjustment of the backrest, via lever and articulation connections, the seat follows synchronously and, with each inclined position of the backrest, an ergonomically adapted position of the seat surface is established. Such a synchronizing mechanism is disclosed in CH-A-629 945. This mechanism allows the user to move out of the upright working position, by shifting his/her body weight in the rearward direction and applying pressure against the backrest, which is spring-mounted in a damped manner, into a rearwardly inclined, relaxing position, e.g. during a lengthy telephone call. The seat follows the inclining backrest, with the result that a rearwardly inclined, strain-relieved, resting position is achieved for the user. These chairs allow easy and frequent changeover into a relaxed user position.
It is usually the case, however, that office work can only be done in a forwardly bent position, rather than in a relaxed, rearwardly inclined position, in order to be in contact with the documents on the desk. In order to reduce the pressure of the seat against the lower leg and to force the user to straighten his/her spine, mechanisms in which, in the forwardly inclined position, the front seat surface is lowered as a result of the shift in weight are proposed. Moreover, attempts have been made, by specific shaping of the backrest with a lumbar support and at least simultaneous raising of the rear seat surface, to prevent the harmful rearward-rolling movement of the pelvis and a curved back. However, the backrest only provides support if one is seated properly in the chair and has definite contact with the backrest. In reality, the back region is not given support since one is usually seated in the vicinity of the front edge of the chair. EP-B-0 592 369 has thus proposed a synchronizing mechanism where, in the case of forwardly bent and upright sitting positions, the seat is lowered in the forward direction and, in the case of a shift in weight, the user slides into a rearwardly inclined, relaxing position.
The springs used are of critical importance for the functioning of a chair mechanism. In order to execute the synchronized movement between the backrest and seat panel, use is frequently made of pneumatic compression springs which, in order to improve the kinematics, are often coupled to helical compression springs (e.g. CH-A-629 945). However, pneumatic compression springs involve a number of disadvantages: they increase the cost for the overall chair to a considerable extent and, in order to achieve a favorable movement sequence, have to be coupled to mechanical springs, which further increases the cost and complexity of the design. Furthermore, the wear on the seals means that pneumatic compression springs only have a limited service life. WO-A-92/03072 has thus proposed using a mechanical spring in the form of a torsion bar for the spring mounting during the synchronized movement.
WO-A-93/25121 proposes using a rubber spring with an embedded steel core and an outer steel casing, the inner steel core being subjected to torsion. In the normal position of the seat, the use of such a rubber spring provides too low a level of stiffness, as a result of which this sitting position does not have the full amount of stability desired. This is not improved in any way by the envisaged positioning of the axes of rotation, i.e. an approximately central, rocker-like suspension of the seat panel and the articulation of the seat panel in the rear region.
OBJECT OF THE INVENTION
With the number of computer workstations constantly increasing, one is increasingly forced into an upright sitting position, with the neck region permanently tensed, in order to view the screen. This means a change in the typical working position for many people and, consequently, different requirements have to be met by the mechanisms of a chair in order to optimize the kinetic behavior of the latter. The prior-art synchronizing mechanisms are advantageous for users whose work allows them to change position frequently, namely between forwardly bent, upright and rearwardly inclined sitting positions. However, the known designs are still not ideal for individuals who have to sit permanently at a computer workstation.
The object of the invention is thus to provide a mechanism which provides, as a permanent working position, a rearwardly inclined sitting position in which the body is largely free of strain and which has a wide opening angle between the seat surface and rear surface. In the front sitting position, it is necessary to realize effective support for the lumbar region, while, in the rearwardly inclined sitting position, partial sinking into the chair is intended to provide a relaxed sitting position without the eye-contact angle having to be changed to any significant extent. In the relaxed, rearwardly inclined sifting position, the mechanism and the overall chair construction are intended simultaneously to allow a certain capacity for movement, and to provide noticeable support for the shoulders, for the user in the chair. The seat and the backrest are intended to be height-adjustable. Also desired is the capacity for regulating the seat depth and the intensity of the lumbar support as well as an adjustable neck support. The intention is for the chair to be mass-producible efficiently and cost-effectively.
Finally, the design must correspond to current tastes.
SUMMARY OF THE INVENTION
The chair mechanism of the seat rests on an underframe with a base—usually a standard five-armed star-shaped base—which is positioned on the floor, and a vertically arranged pneumatic spring with a telescopically extendible piston rod for adjusting the height of the chair. The seat is positioned on the piston rod, by way of the seat support arranged at the bottom, as a structural unit. Extending through the seat support is the horizontal main axis of rotation with the torsion spring, preferably a rubber spring, positioned along the same. Acting on the torsion spring is the rear support which can be pivoted about the main axis of rotation, counter to the resistance of the torsion spring. The chair also has a seat panel for receiving a seat cushion, possibly with the interposition of a cushion support. The seat panel, on the one hand, is articulated on the rear support along a horizontal rear axis of rotation and, on the other hand, is connected to an articulation along a horizontal front axis of rotation. The articulation is connected to the seat support along a horizontal fixed axis of rotation. The rear support and seat panel execute synchronous changes in position as they are pivoted between a vertical position and an inclined position.
The essence of the invention is that provided parallel to the torsion spring, and with accumulative effect in relation to the resistance of the torsion spring, is a further mechanical spring. The parallel spring is preferably a helical spring which can be separated into two symmetrically arranged parts. Another factor which is critical for the properties of
Cuomo Peter M.
Selitto Behr & Kim
Vitra Patente AG
Vu Stephen
LandOfFree
Chair mechanism does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Chair mechanism, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Chair mechanism will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2901017