Patent Document

BACKGROUND OF THE INVENTION 
     1) Field of the Invention 
     The present invention relates to seats, both those intended to be static, such as chairs, armchairs or stools, and those to be fitted to vehicles. It concerns, more particularly, both an ergonomic seating module and a chair fitted with said module. 
     2) Description of Related Art 
     It should be understood that, for the purpose of simplification, the expression “seating module” will be sometimes replaced, in this document, by the word “seat”, designating the part of the chair forming the actual seat on which the buttocks are placed. 
     In static chairs, the seat is generally formed of a plate made of rigid material, which may be covered with a cushion. This seat may be completed by a back and by armrests. Certain chairs, more particularly intended for persons working in offices, for example, with a computer, include joints and elastic members for inclining more or less the seat and the back. Despite all the improvements made, health problems, especially relating to the vertebral column, continue to exist, causing great injury to those who suffer therefrom and resulting in significant absenteeism, which is detrimental to businesses. 
     Bicycle or moped saddles, for example, generally include a rigid frame, including a pommel element and a cantle element, and a part, generally of triangular shape connecting the pommel element to the cantle element and forming the support surface. This part has a certain flexibility allowing adaptation to the position of the user, defined by adjusting various parts of the vehicle. Saddles of this type have been arranged on fixed supports, in order to make static chairs. If, in general, the comfort of a bicycle saddle is not disputed, the application of the same principle to a fixed chair is unconvincing. This is probably due to the fact that, in a static situation, the user&#39;s limbs, in contact with the seat, remain fixed, whereas on a bicycle, they are in almost permanent movement. 
     In order to properly understand the problem of chairs, it is helpful to recall the use that is made thereof. Today, the seated position has become one of the most representative of professional activity. Within this scope, two sorts of quite distinct attitude generally occur, depending upon whether the occupation is “active” or “passive”. An “active” occupation means one in which the hands are used a great deal, for example for typing on a keyboard, drawing, any seated manual work (watchmaking, electronics, laboratory, clothing industry, . . . ) or driving a vehicle. The body thus has to be placed such that the hands can carry out their function. It is generally positioned with the trunk oriented substantially vertically. Conversely, in “passive” occupations, such as discussions, moments of reflection or relaxation, the hands are much less used and the body can be placed such that the back is resting against a backrest, the trunk inclined backwards. 
     Designers of chairs for seated work make them so as to prevent any stress on the musculature. If this approach is proper during phases of “passive” occupation, which allow the body to rest, it is detrimental to the organism in phases of “active” occupation. Indeed, it appears that what, at the start, is perceived as additional comfort, leads to a weakening of the supporting muscles, which can cause numerous annoyances, lumbar pains being the most frequent. 
     Experience seems to show that the health problems, encountered by people working in a seated position, could arise from a weakening of the supporting musculature. This musculature does not directly participate in the person&#39;s mobility, but allows him to ensure a position of balance, both when the person is standing, stopped or moving, and when the person is sitting or squatting. It can only develop or be maintained harmoniously if it is regularly used, while preventing crispation of one muscle or another. 
     It is an object of the present invention to provide a chair fitted with an ergonomic seat which practically forces the user to adopt a posture in which his supporting musculature is used naturally and automatically, thus preventing health problems. 
     More specifically, the invention concerns a seating module, which includes:
         a structural framework provided with a pommel element,   a frame provided with a cantle element, said structural framework and said frame having planar symmetry,   means for connecting the structural framework to the frame, including a joint which allows the frame to tilt, in relation to the structural framework, about an axis perpendicular to the plane of symmetry, and   a seat connecting the frame to the pommel element and formed of an elastic membrane whose function is to define a rest position of the frame in relation to the structural framework and to return it to this position when a user tilts it in one direction or another.       

     The seating module according to the invention further includes the following main features:
         in the rest position, the frame is inclined forwards by an angle of approximately 10° in relation to the ground;   the structural framework has, in plane, a T-shape, the vertical bar of which, arranged in the plane of symmetry, extends forwards and is bent upwards to end in the pommel element;   the ends of the horizontal bars of the T are raised to form the joint with the structural framework;   the frame is a fork which, in plane, has a U-shape with an axis disposed in the plane of symmetry, the cross bar of which is raised and forms the cantle element and the two vertical bars of which extend forwards, substantially as far as the pommel element, which is underneath it;   the membrane forms a support surface that is convex along a line perpendicular to the plane of symmetry and concave along a line inscribed in this plane;   the membrane is fixed between the pommel element and the cantle element, between the two teeth of the fork, and between the ends of the teeth and the pommel element;   the membrane is covered by a padding member forming a cushion and includes a longitudinal groove intended to form a space for receiving the user&#39;s coccyx.       

     The present invention also concerns a chair provided with a support in contact with the ground and a seating module as defined hereinbefore, characterized in that the support includes an arm extending forwards and upwards and carrying a cross bar forming a support for the user&#39;s knees and padded to form a cushion. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       Other features of the invention will appear from the following description, made with reference to the annexed drawing, in which: 
         FIGS. 1 and 2  show the structural framework and the fork of a seating module according to the invention, respectively seen from the top and in cross-section along the line II-II of  FIG. 1 ; 
         FIG. 3  shows mainly the fork, seen from the top, provided with its elastic membrane; 
         FIG. 4  is a cross-section of the seating module, again along II-II; and 
         FIG. 5  shows a chair according to the invention. 
     
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The seating module—or seat—according to the invention essentially includes a structural framework  10 , a fork-shaped frame  12 , a hinge  14  connecting, in a jointed manner, structural framework  10  and fork  12 , and an elastic membrane  16 , visible only in  FIGS. 3 and 4 . The seat has a symmetrical structure with reference to a vertical plane passing through lines II-II of  FIGS. 1 and 3 . 
     More specifically, structural framework  10 , in plane, has a T-shape the vertical bar  18  of which, placed in axis II-II, extends forwards and is bent upwards to end in a pommel element  20 . The ends  22   a  of arms  22  of the T, perpendicular to the axis, are raised and pierced with a hole that is not visible in the drawing. Structural framework  10  has a central portion  24  provided with holes  24   a  allowing the seat to be fixed onto a support, as will be explained hereinafter. 
     In plane, fork  12  has a U-shape of axis II-II. Its cross bar  26 , which is slightly raised and bent, acts as cantle element and its two teeth  28  extend forwards substantially as far as pommel element  20 , a few centimeters underneath it. 
     It will be noted that, in the seat rest position, shown in the drawing, the tip of cantle element  26  is located at substantially the same height as pommel element  20 , and that fork  12  is inclined forwards by an angle of approximately 10° in relation to the ground. 
     Teeth  28  of the fork are provided, substantially in their middle, with a lug  30   a  extending downward, each adjacent to one end  22   a  of the structural framework and provided with a coaxial hole. Bearings engaged in these holes and rods, engaged in the bearings, form hinge  14 , which thus enables fork  12  to be pivoted in relation to structural framework  10  about an axis A-A. 
     Advantageously, structural framework  10  and fork  12  are respectively made of aluminum and steel. 
       FIG. 3  shows that elastic membrane  16  is fixed:
         firstly, between pommel element  20  and cantle element  26 ;   secondly, between the two teeth  28  of fork  12 ; and   thirdly, between the ends of teeth  28  and pommel element  20 .       
     Membrane  16  can be made of any elastic material, for example PVC, in the form of a fabric, as shown in  FIGS. 3 and 4 , or film, in one piece or in strips. In the latter case, a first set of strips  16   a  connects pommel element  20  to cantle element  26 , a second set  16   b  connects the two teeth  28  to each other, this second set covering the first, and a third set  16   c  connects the ends of teeth  28  to pommel element  20 . 
     Because of the shape of fork  12  and the position of pommel element  20 , membrane  16  has a horse-saddle shape, with a concavity between cantle element  26  and pommel element  20  and a convexity between the two teeth  28 . Owing to these features, the function of membrane  16  is to:
         define the rest position of fork  12  in relation to structural framework  10 , the position taken when no-one is sitting on the seat, and   return fork  12  to this rest position when the person who has tilted the seat forwards or backwards leaves it.       

     As can be seen in  FIG. 4 , the seat according to the invention can advantageously be completed by a padding member  32 , forming a cushion, totally covering membrane  16  and permanently or removably fixed to the latter. This padding member can be formed by a fabric envelope containing an elastic filling or formed of a gel. Advantageously, it is provided with a longitudinal groove  34  extending over the entire length of the cushion. Consequently, the coccyx of the person occupying the seat is not compressed, which improves comfort and prevents certain damage, particularly as regards the vertebral column. 
       FIG. 5  shows that the seating module previously described is for fitting to a chair formed of a support  36 , which includes, in a known manner, a telescopic central column  38  and feet  40  disposed radially, each provided with a roller  42 . Column  38  has, at its top end, a seating module  44  according to the invention, which is fixed by its structural framework  10 . 
     Such a chair, thus forming a stool, can advantageously be used by people essentially working in an “active” position, for example a dentist or a watchmaker. It can be completed, as shown in this Figure, by a backrest  46  fixed to cantle element  26  and allowing a “passive” position to be taken. 
     When the user frequently works in the “active” position, it is advantageous to provide the chair with a transverse support bar  48  for the knees, advantageously padded and covered with a fabric or leather, so that contact is comfortable. This bar is fixed to support  36 , permanently or removably, by means of an arm  50 . The latter has a roller  42  and is advantageously connected to support  36  so as to pivot or slide, so that it can be removed when the user often has to leave his chair. 
     It should be stressed that the pressure of the knees against bar  46  is slight. The latter thus barely participates in the seating of the user. However, it prevents him crossing his legs, and thus, certain annoyances associated with this habit. 
     As can be seen in  FIG. 5 , arm  50  is fixed to support  36  in proximity to feet  40 , i.e. very close to the ground. Consequently, it does not interfere, or barely interferes, with movement when the user occupies his chair or leaves it. 
     Finally, in a very advantageous manner, seating module  44  can be jointed on column  38  owing to a conventional adjustable chair tilting mechanism  52  provided with an armrest  54 . 
     Owing to the construction described, when the user sits down to get into the “active” position, he finds seat  44  automatically placed in the rest position corresponding to maximum comfort, i.e. with the femoral articulation at right angles to joint  14 . 
     If the user leans forwards, fork  12  accompanies his movement, allowing him to adjust his posture in a self-supporting process, which contributes to reinforcing the supporting musculature and thus tends to reduce the risk of health problems, as mentioned hereinbefore. 
     When, in order to think or make a telephone call, the user gets into a “passive” position against backrest  46 , fork  12  tilt backwards, such that he finds himself in a posture in which his entire musculature is resting. This automatic adjustment provides optimum comfort due to the fact that the user&#39;s weight is distributed very uniformly over the buttocks and the back of the thighs. 
     In other words, in the “active” position, the chair according to the invention allows adjustments in posture facilitating the work of the self-supporting muscles, whereas in the “passive” position, these muscles can relax. 
     Both the seating module and the chairs described hereinbefore can be subject to numerous variants. It is, for example, possible to provide adjusting members, and more particularly, stops (not shown) limiting, on both sides, the tilting movement of fork  12  on structural framework  10 . Pommel element  20  can also be provided with means for altering its position with reference to structural framework  10 . An asymmetrical structure can also be envisaged, for a handicapped user, either at padding member  32 , or in the form of cantle element  26 . 
     The hinged connection, via hinge  14 , between structural framework  10  and fork  12 , can be achieved by means of a ball joint. In this case, the self-supporting mechanism would operate both from front to back and from the side. 
     The position of hinge  14  can also advantageously be adjustable in the forward-backward direction, such that it is perfectly aligned on the ischium when the user is seated. 
     Other adjusting means are possible for varying the distance between pommel element  20  and cantle element  26 , in order to adjust the tension of elastic membrane  16 . 
     Seat  44  is advantageously fixed to support  36  by its structural framework  10 . It is also possible to envisage fixing via cantle element  26  itself. 
     The spring function performed by elastic membrane  16  can also be reinforced by springs especially arranged for this purpose, for example, torsion, traction or compression springs. 
     It will be noted, finally, that it may be advantageous to provide backrest  46  with an independent permanent contact lumbar support zone that can be disconnected.

Technology Category: 1