The present invention relates to a chair for accommodating a person and to a pressing device for applying a local or punctual pressure at one or more pressure locations on the human body.
Chairs are conventionally designed to accommodate a human body in a seated position with a back resting against a backrest and the backs of the thighs resting on a seat surface, with the upper body and thighs forming an angle of slightly more or less than 90°. Frequent sitting causes shortening of the front and back thigh and front hip muscles and the calf, with resulting damage to the spine, hip, and knee joint, as well as pressure sores can develop on the back of the thigh and buttocks, and other undesirable phenomena.
In order to at least reduce the strain on the spine, it is known to use chairs whose backrests are connected to the seat by a narrower connecting part in such a way that a person sits astride the chair and leans against the backrest with the stomach or chest. Since this is also not comfortable in the long run, chairs have been developed which specifically allow such an astride seat, either as the sole sitting posture or as an alternative sitting posture. For example, U.S. Pat. No. 454,100 describes a chair with a seat, two sloping thigh recesses, a central column rising obliquely upwards between the thigh recesses, and an elbow support in the form of a crossbar at the upper end of the central column. A sun deck chair is known from U.S. Pat. No. 3,220,771 with a tubular frame to which a seat approximately in the shape of a bicycle saddle is attached, wherein a section consisting of two parallel tubes connected at the outer end in a U-shape and pointing away from the seat obliquely upwards at an angle of approximately 45° carries an arm support which can be displaced on the parallel tubes.
From U.S. Pat. No. 4,832,407 and EP 0 163 437 A1, respectively, an office chair is known whose backrest has a narrow upper part and a wider lower part extending laterally in the form of wings. Both shapes allow both an ordinary sitting posture and an astride sitting posture, in which the sternum rests against the top of the backrest. In both seating positions, the forearms or elbows can rest on the wings of the backrest. In U.S. Pat. No. 4,832,407, a shin rest is provided to allow the knees to rest in the astride seat. In EP 0 163 437 A1, the seat surface is cross-saddle shaped, i.e., the edge centers are slightly raised and the corners are sloped.
From U.S. Pat. Nos. 5,295,728 and 3,754,787, work chairs or standing chairs are known in which the user sits on a saddle in an almost standing, slightly bent-forward posture and supports himself forwards on a chest support. Both the saddle and the chest support are height-adjustable. The forearms are completely free.
From U.S. Pat. Nos. 4,662,361 and 5,971,485 massage chairs are known which have a seat surface, a chest support and a forehead or face support and a forearm support, in the latter also a shin support. In a similar form, so-called knee chairs with a seat surface and a knee/shin support are also known, whereby the seat surface is comparatively strongly angled and the body weight is completely absorbed and balanced by the seat surface and the knee/shin support.
U.S. Pat. No. 6,287,243 B1 is an example of a variety of different training benches in which a seat section and a backrest section are arranged so that they can pivot relative to one another and a person can lie on them on their back or stomach, for example to perform various strength exercises. The backrest part is typically wide enough to provide a stable support for the back or chest, but narrow enough to allow the arms to move freely next to the backrest part. In the above-mentioned printed material, the seat part and the backrest part can be pivoted to each other in a coupled movement, but forms are also known in which the seat part and the backrest part can be pivoted independently of each other relative to a base frame.
From DE 20 2009 005 763 U1 a prone reclining chair or short sleep reclining chair is known in which both the reclining surface and the seat surface are ergonomically adapted to the prone sleeping position, the reclining surface being at least slightly curved upwards and sloping down towards the long sides and becoming at least slightly narrower below the shoulder support and at the lowest part, and the seat surface meeting the reclining surface at the same width and being able to become wider again towards its end, so that the arms and legs can hang down, the head is supported and only the instep or the shin rests on the floor in order to enable a person to take a position which is completely unusual in everyday life for a short time.
All of the above-mentioned furniture, which can generally be described as a chair, has in common that in every possible posture, especially those perceived as particularly “ergonomic”, the hip joint is more or less flexed. Especially for people who sit a lot on conventional chairs, the problem is that the front thigh and hip muscles often shorten and the spine is loaded unfavorably. Similar adverse effects can also be observed in the other trunk and leg muscles, such as the abdominal muscles, the back muscles, the leg flexors and the calf muscles.
It is known from the scientific literature that the lengthening of a muscle returns to its original state before stretching 15 minutes after the end of stretching exercises (for example Esposito F. et al., Time course of stretching-induced changes in mechanomyogram and force characteristics. J. Electromyography and Kinesology 2011, Vol. 21, pp. 795-802). There is evidence from clinical experience that when pressure is applied to the muscle attachment to the bone, extensibility is improved and sustained. This is explained by receptor-mediated feedback via the basal ganglia, resulting in a decrease in centrally mediated muscular counter-tension. This is due to the biomechanical principle that muscle attachments to bone cause tensile stress on bone even at rest and there is never neutral or positive compressive stress. It is also known that tissue becomes hyperelastic when pressure is applied to these cells. In a further publication, it is described that cells become extensible by prolonged pressure (Latorre et. al, Active superelasticity in three-dimensional epithelia of controlled shape. Nature 2018, Vol 563, pp. 203-208. https://doi.org/10.1038/s41586-018-0671-4).
When applying a pressure in the above sense, the after-effect time of the stretching can thus be significantly prolonged. This effect is used, for example, in osteopressure. So far, the application is mainly done manually by a therapist and, if necessary, with the help of aids such as pushers, rods, ball bars, balls, acupressure pens, etc. A disadvantage of such a therapy method is the high personnel effort and the requirement to go to a therapist or to have a therapist come, since a self-therapy is difficult or not possible at all. The same applies to other manual applications such as acupressure and massage.
One object of the invention is to provide a chair for receiving a person, for example, in a prone position or in a seated position, which is improved with respect to the prior art with respect to a more favorable body posture.
One object of the invention is to provide a chair for accommodating a person, for example, in the prone position or in a seated posture, which counteracts shortening of the hip and/or leg muscles and/or the abdominal muscles, in particular the hip flexor muscles, with associated tendons, ligaments and fasciae.
A further object of the invention is to create a chair for accommodating a person, for example in a prone or seated position, which allows specific stretching postures of the hip and/or leg muscles and/or abdominal muscles, in particular without having to interrupt other activities performed on the chair.
A further object of the invention is to provide a chair for accommodating a person, for example in the prone position or in the seated position, which is improved with respect to the prior art regarding the variability of the seat positions.
A further object of the invention is to provide a chair for accommodating a person, for example, in a prone position or in a seated position, which is improved with respect to the prior art regarding the adaptability to different body dimensions and shapes.
A further object of the invention is to provide a chair which has convertibility between a normal sitting posture to a normal chair, in particular an office chair, and a stretching posture which counteracts shortening of the hip and/or leg muscles, in particular the hip flexor muscles, with associated tendons, ligaments and fasciae.
A further object of the invention is to extend and facilitate the usability of a manual application in the sense of an osteopressure, acupressure or massage.
A further object of the invention is to enable a manual application in the sense of osteopressure, acupressure or massage in self-therapy, in particular without having to interrupt other activities.
The object is solved at least in partial aspects by the features disclosed herein. Advantageous further developments and preferred embodiments are also disclosed herein and form the subject of the sub-claims.
A chair according to the invention for accommodating a person comprises
As explained at the beginning, people who sit a lot on conventional chairs have the problem that the front thigh and hip muscles often shorten and their pull puts unfavorable stress on the spine. In the chair according to the invention, it is provided that the upper-body support surface and the lower-body support surface cause a hyperextension angle of the hip joint. For this purpose, for example, the upper body support surface and the lower body support surface may limit an angle of less than 180° in the direction of hyperextension. In other words, it can be described as the lower body support surface being inclined relative to a straight line extension of the upper body support surface by an overextension angle toward a person resting on the chair. The overextension angle is adjustable in steps or steplessly. It is preferably at least a few degrees. The overextension angle can be at least 3°, in particular at least 5° and preferably at least 7° or at least 10°. The angle can also be adjustable up to 90° or more, so that extension can still be achieved even as the mobility of the hip joint increases. Particularly in the case of women, it is also not unlikely that this angle will be reached over time. On the other hand, it is advantageous if the chair can be adjusted to allow flexion in the hip joint, since it may be that a person does not yet reach hyperextension at all, at least initially. The hyperextension angle actually assumed or set can therefore be adapted to individual circumstances, such as natural joint flexibility, training condition and/or training goal.
A person sitting on this chair has the thighs angled slightly backwards at the hip joint, so that shortening of the front thigh and hip muscles is counteracted. Regular use of the chair according to the invention thus counteracts the impairments caused by sitting with a conventional chair. The posture of the person improves. Regular use of the chair thus contributes to the person's well-being.
Preferably, the chair is designed in such a way that the hyperextension posture is effected on a person in the prone position or in the astride position on the chair.
Alternatively, the chair is designed in such a way that the hyperextension posture is produced on a person sitting on the chair, preferably with the back leaning against the chair.
Alternatively, the chair is designed in such a way that the hyperextension posture is effected on a person standing, in particular leaning forward, on the chair.
Alternatively, the chair is designed such that the hyperextension posture is effected on a person in a kneeling posture on the chair.
The chair can be designed in such a way that several or all of the above-mentioned postures are possible, and can in particular be convertible for changing the posture.
Preferably, the chair is designed in such a way that the upper body support surface, which is in particular adapted to an upper body front side, is inclined relative to the horizontal at an angle of at least 30°, in particular at least 40° and preferably at least 45°. This allows a person to sit or lie on the chair, in particular in the prone or forward position, and still perform certain activities, such as office work. The steeper the upper body support surface is arranged and the more the posture transitions into a standing/leaning posture, the easier it is to perform usual activities in the usual manner. Therefore, inclinations of the upper body support surface of at least 60° and in particular at least 70° with respect to the horizontal can also be appropriate. A certain backward inclination of the upper body is also conceivable. In any case, and especially in postures with the upper body leaning forward against the upper body support section, the arms are free for any usual operation. The upper body support section can be suitably shaped for this purpose, such as having corresponding cutouts through which the arms can extend forward. In a practical embodiment, the upper body section may include a chest support and an abdominal support, and the chest support may approach or even exceed 90°, for example, the abdominal support may be between 60-70° or more.
The steeper the upper body support surface is arranged, the greater the need for a support element to hold the person on the chair on the support surfaces without slipping off. Such support elements can be provided at different positions. For example, this may be a footplate to support the feet from below, a knee support to support an angled knee from below, a hip support to support the hip or buttocks from obliquely below/behind, and/or a saddle to support the person in the crotch. A footplate can also be adjustable in terms of flexion and/or extension of the ankle, so that stretching of the calf can also be achieved.
The hip support also ensures that a person sitting on the chair has his or her hips fixed to the chair so that the targeted hyperextension of the hip joint is safely maintained. In particular, the hip support can be designed to press the hip in the direction of the upper body support surface.
A chair in the terms of the invention is any device for accommodating or supporting a human body in a sitting, lying, kneeling, squatting or semi-standing, slightly leaning forward or other position, regardless of whether such a device would or could be referred to as a chair in common or specialized usage or could or would be referred to otherwise (such as a seat, stool, kneeling bench, armchair, couch, support, frame, etc.). For purposes of the invention, a prone position is a position in which a front side of the upper body faces a support surface of the chair. For the purposes of the invention, an upper body section is a section with a support surface that is designed to fully or partially accommodate or rest an upper body front or rear of the body, and a lower body section is in the context of the invention a section with a support surface that is designed for full or partial reception or contact of a lower body front side of the body, in particular the upper thigh front sides. In this context, the respective contact surfaces may be flat or curved, may be shaped to follow a standard body contour, or may be designed to be adaptable to different body contours. For the purposes of the invention, an overextended position of the hip joint is understood to be a position in which the hip joint is deflected backwards beyond a position corresponding to an upright stance.
A further aspect of the invention relates to a pressing device for application to the human body, which is designed for attachment to a chair or to or in connection with such a chair and has one or more pressure units, each with at least one pressure head, which is designed to apply local or punctiform pressure at a predetermined pressure location on the body of a person accommodated on the chair. With such a pressing device, the applicability of a manual application in the sense of osteopressure, acupressure or massage can be extended or facilitated and an application in self-therapy can be made possible. By connecting such a pressing device with a chair described above, which causes a stretching of certain muscles or muscle groups, a particularly advantageous effect can be achieved with regard to the efficiency of a stretching caused by such a chair. Since, by being attached to or connected to the chair, the positional relationship of the pressure elements is also predetermined with respect to a body of a person located on the chair, the application is simple and safe. A person located on the chair can continue to perform other activities. Particularly advantageously, the position of the pressure elements can be adjustable. A control system can further facilitate and simplify the application and make it safer and more reliable.
A further aspect of the invention relates to a chair, in particular as described above, having such a pressing device attached thereto or fixedly or detachably connected thereto.
Selected embodiments of the present invention are described in detail below with reference to the accompanying drawings. It shows:
All graphic representations are to be understood schematically. Directional and positional designations are used in accordance with the usual anatomical names and, unless otherwise indicated, refer to a body placed on the chair in the prone position. A longitudinal direction is basically understood as a direction running along the stretched spine or between the atlas and sacrum of the body placed in prone position on the chair according to the invention. However, a longitudinal direction can also be understood as a local directional indication of a direction that runs approximately through line II-II in
A chair according to an embodiment of the invention has an upper body section 1 and a lower body section 2 as well as a standing base 4 (
The upper body section 1 has a chest support 6 and an abdominal support 7, which are connected to each other via an intermediate joint 8, which is referred to below as the upper intermediate joint 8 for purposes of differentiation. The chest support 6 has a sternum strut or sternum bearing 31 and two side wings 32. The sternum brace 6 may be a single piece, a two piece, or may comprise or include a plurality of connected compression pads. The sternum support/strut 31 is configured to abut or bridge a sternum of the person supported in the prone position on the chair, and is comparatively narrow and or recessed in axis to avoid uncomfortable pressure on the inner regions of the large pectoral muscles or breasts of female persons and pressure points from clothing such as buttons or bra straps. The side wings 32 extend upwardly from an upper part of the sternum support 31 at a slight angle to provide the widest possible lateral support to the upper chest of the person from below the collarbone. Also, the side wings 32 are configured to skirt the breasts of a female person, i.e., to be disposed above them, and terminate in width approximately in front of a corner shoulder joint of the person so that the mobility of the shoulders remains unimpeded. The abdominal support 7 has a rib cup 33 and an abdominal region 34.
The rib shell 33 is designed and constructed for cradling a lower rib cage of the person in a shell-like manner. The rib shell is thin so that a leg can be placed thereunder, but may also be reinforced for attachment of an arm rest. The abdominal region 34 extends downwardly from a lower end of the rib shell 33, and is configured and formed to rest against an abdomen of the person. The abdominal region 34 is narrower than the rib shell 33 so that the legs can also be moved in front of the body (see
A rocker 9 connects the upper intermediate joint 8 to the central joint 3 (
Optionally, the rocker 9 can be designed to be telescopic for adaptation to different upper body lengths, and the abdominal support can further be slidable and fixable relative to the rocker. Via the upper intermediate joint 8, the chest support 6 and the abdominal support 7 are at least pivotable with respect to each other in the medial plane (i.e., about a transverse axis) to allow adaptation to an individual contour of the chest and abdomen, but may also be tiltable and rotatable to also achieve stretching of the lateral muscles, ligaments and fasciae and/or to assume favorable positions with respect to an activity performed on the chair. With respect to this direction of movement, the upper intermediate joint 8 is designed to be lockable, so that once a pivoted position between the chest support 6 and the abdominal support 7 has been set, it can be effectively fixed. The upper intermediate joint 8 can also be omitted.
Optionally, the upper intermediate joint 8 can be designed so that the chest support 6 and the abdominal support 7 can be pivoted as a unit with respect to the rocker 9 in one or two or three axes in order to improve the mobility of the upper body during activities performed by a person. With regard to this type of movement, the upper intermediate joint 8 can also be designed to be lockable, but it can also be free to move. To avoid extreme positions and to prevent accidents, a limitation in the range of motion can be provided. Optionally, elastic and/or damping components may also be provided. For example, the upper intermediate joint 8 may have a rubber/plastic or spring element that allows limited elastic movement of the chest support 6 and/or the abdominal support 7 and/or both together, with a return to a center position when unstressed. Alternatively, a spring-loaded lever mechanism may be provided for this purpose.
The chest support 6 may also be designed so that the side wings 32 follow the movement.
Due to the special design of the chest support 6 and the abdominal support 7 as well as the mobility of the same in relation to each other, the upper body section 1 can be variably adapted to a contour of an upper body front side of the person lying on the chair in prone position, so that the person can take up a comfortable position. Muscles and breasts are not squeezed, and shoulders and arms can move freely.
Optionally, an arm rest may be provided which allows one or both arms to be comfortably placed in front of the upper body but does not further restrict mobility (not shown in more detail).
Such an arm rest may be attached to the side wings 32 or laterally on either side or one side of the rib shell 33 (not shown in more detail).
Optionally, the arm rest can be folded down via a mechanism to form the foot roller (22, described in more detail below). For this purpose, the arm rest can be attached to or near the central joint 3 or to the thigh support.
Via the central joint 3, the upper body section 1 and the lower body section 2 can be pivoted relative to each other at least in a sagittal plane (i.e. around a transverse axis). In principle, it may be sufficient for the lower body section 2 to be pivotable as a whole relative to the upper body section 1. In the present embodiment example, the lower body section 2 has two separate leg parts 10 and, accordingly, the central joint 3 has two separate single joints 30, which are attached laterally to the rocker 9 and are each associated with a leg part 10 and via which the respectively associated leg part 10 can be pivoted individually relative to the upper body section 1. In this embodiment example, the rocker 9 extends beyond the central joint 3 further into the region of the lower body section 2 and carries at its lower end the base pivot joint 5 for connection to the standing base 3. The standing base 4 is cut away in
As an alternative to the connection of the central joint 3 to the rocker 9 described above, a central frame (not shown in more detail), which may be reinforced, can also be provided to support the central joint 3 and/or the base pivot joint 5.
The position of the central joint 3 as well as the articulation of the base pivot joint 5 can be designed in any conceivable form. As an alternative to the form described above, it would also be conceivable to offset the central joint 3 upwards compared to the illustration in
Each single joint 30 is configured to allow pivoting and/or rotation of the entire leg part with respect to the upper body section 1. The single joint 30 allows at least one pivot in a sagittal plane (i.e., about a transverse axis) to provide a flexion or extension angle of a hip joint of the person. Optionally, the single joint 30 may additionally enable pivoting in a frontal plane (i.e., about a sagittal axis) to predefine an angle of spread of the leg parts 10. Further, a torsion (i.e. a rotation in a longitudinal axis of the respective leg part 10) may additionally be provided to predefine an outward or inward rotation of the leg parts 10. The respective degrees of freedom can be integrated by individual partial joints (such as hinges, axles, ball-like) or realized in series or as a combination joint (such as a ball joint). Thus, the central joint 3 can optionally allow up to three directions of movement (directions of rotation) via the single joints 30 (cf. also
The central joint 3 or each of its single joints 30, possibly in possible partial joints, is designed to be lockable, i.e. fixable in a respectively set position.
Optionally, in addition to the single joints 30, the central joint 3 can have an additional overall swivel joint (not shown) that allows the lower body section 2 to be pivoted as a unit with the leg parts 10 fixed in their respective pivoting positions relative to the upper body section 1. In this case, it is advantageous if the overall pivot joint is arranged near or in a line connecting the single joints. Also, such an overall pivot joint may optionally be designed for rotations about further axes in addition to the pivoting about the horizontal axis, for example to allow a torsion and/or a lateral tilting movement in the lower spine. The overall pivot joint and the single joints can have a common transverse pivot axis or different transverse pivot axes at least with respect to a pivot direction of the overall pivot joint.
Each of the leg parts 10 of the lower body section 2 has a thigh support 11 and a lower leg support 12. The thigh support 11 and the lower leg support 12 are connected to each other via an intermediate joint 13, which is referred to below as the lower intermediate joint 13. In variations described further below, the leg parts 10 may be connected to each other and the thigh support 11 and the lower leg support 12 may be connected to each other, or all parts may be fixedly connected to each other. Further, each of the leg parts 10 includes a foot support 14 connected to the lower leg support 12 by an end joint 15. The foot support 14 may push upward with a spring or other device on the side of the toe. The foot support 14 may be designed to tilt, rotate and pivot.
More specifically, the thigh support 11 has a thigh bar 16 and a thigh pad 17. The thigh pad 17 may comprise a support plate with padding attached thereto (not shown in more detail) and is fixedly attached to the thigh bar 16, and in variations may be slidable and fixable. The thigh bar 16 is hinged to the rocker 9 of the upper body section 2 via the associated one of the single joints 30. With the measures described above, the lower body section is adapted to abut against a front side of the thigh. It should be noted that individual ones of these measures may also be omitted.
Also, the lower leg support 12 has a lower leg bar 18 and a lower leg pad 19. The lower leg pad 19 may have a support plate with padding attached thereto (not shown in more detail) and is fixedly attached to the lower leg bar 18, and in variations may be slidable and fixable. The lower leg bar 18 is hinged to the thigh bar 16 of the associated thigh support 11 via the lower intermediate joint 13.
In this embodiment, the lower intermediate joints 13 and the end joints 15 are pure pivot joints that only allow pivoting about a transverse axis. The lower intermediate joints 13 and the end joints 15 are designed to be lockable. Optionally, the thigh bar 16 and/or the lower leg bar 18 are designed to be telescopic. Optionally, the intermediate joints 13 and/or the end joints 15 can also permit further degrees of freedom.
A hip counter-bearing element 20 is arranged at a distance from the central joint 3 via a bow or other strut part (not shown in more detail). The hip counter-bearing element 20 serves to provide support for the hip of a person lying in a prone position on the chair at a predetermined distance from the central joint 3, so that the hip is prevented from deviating away from the central joint 3. The hip counter-bearing element 20 may be modeled on a contour of a person's bottom in the form of a shell or saddle, or it may be formed as a plain roller or plain beam, or in even simpler form as a belt or strap. The hip counter-bearing element 20 may provide a tailbone recess and include compression elements (see below). The distance of the hip counter-bearing element 20 from the central joint 3 is adjustable and fixable. Optionally, a longitudinal position of the hip counter-bearing element 20 is also adjustable and fixable. In further optional variations, the hip counter-bearing element 20 can also be designed to be removable. Furthermore, in further optional variations, the hip counter-bearing element 20 can be used inverted as a headrest for an ordinary sitting position (cf.
A foot roller 22 is arranged via a bow or other strut part (not shown in more detail) at a distance from the central joint 3, located behind the hip counter bearing element 20. The foot roller 22 serves to allow a person supported in a prone position on the chair to bend one leg or both legs and hook the foot behind the bottom, and is optionally adjustable to accommodate increasing stretching (cf.
A back support 23 is arranged via a bow or other strut part (not shown in more detail) at a distance from the upper body section 1, located above the hip counter-bearing element 20 (
A knee rest 24 is attached to the lower leg bar 18 above the lower leg pad 19, and a foot rest 25 is attached to the thigh bar 16 below the central joint 3 or below the leg rest 26 (
The knee support 24 and the foot rest 25 can each be designed to be height-adjustable and fixable. They are, moreover, optional and can also be omitted and/or designed to be removable.
A further variation in the possible applications of the chair is achieved by a leg rest 26, which is still connected above the upper foot rest in the area of the central joint 3 via a bow or other strut part (not shown in more detail) (
A rest extension 27 is provided in extension of the leg rest 26 and connected thereto (
The standing base 4 of the chair has a base frame 36, a sleeve 37 and a gas cylinder 38. The base frame 36 is designed to be placed on a floor and is in the form of a pentagon, a plate, a frame or other suitable shape. The base frame 36 supports the sleeve 37, in which the gas cylinder 38 is fixedly mounted. The gas cylinder 38 points vertically upward and carries a piston 39 on a gas cushion. The piston 39 ends in the base pivot joint 5. The piston 39 is rotatably mounted in the cylinder 38. The piston 39 and the cylinder 38 can also be used to adjust the height of the chair. The basic pivot joint 5 and the central joint 3 can be attached to a common support (not shown in more detail). The support may be a sheet, tube or other frame or node.
The standing base 4 can also assume any other conceivable shape. Further examples of this are shown in
In this case, a height adjustment of the standing base can be coupled to a pivoting of the thigh bar 16 via the parallel link arrangement. Also conceivable is the chair according to the invention in the form of a fixed frame. A height adjustment need not be mandatory in every case. Further optionally, the standing base 4 can be secured against slipping or can be locked (manually or automatically when the chair is unfolded in the prone position).
As suggested above, the upper body section 1 and the lower body section 2 form respective support surfaces that support an upper body and a lower body of a person in a prone position such that a hip joint of the person is imparted a hyperextension. In this regard, the hip counter bearing element 20 may provide for holding the hip joint of the person in this hyperextended position. In this embodiment the upper chest (i.e., the sternum and above) rests against the chest support 6, the lower chest and abdomen rest against the abdominal support 7, a thigh rests against the thigh pad 17, and the bottom rests against the hip counter bearing element 20, which is held at a distance such that the hip assumes just that desired hyperextension position (cf.
The chair according to this embodiment allows a variety of variants of this position. In the basic position, which is not specifically shown in the drawing, both thighs rest on the thigh pads 17, both lower legs rest on the lower leg pads 19 and both feet rest on the foot supports 14. It is not absolutely necessary to rest the lower legs in a relatively upright position. However, the lower-leg support prevents the lower legs from slipping when they are already at a slight angle to the horizontal.
In another practical application, a leg can be released from the hyperextended position and placed bent in front of the body on the leg rest 26 (
The stretch can be further increased if the hyperextension angle of the chair is increased even more (
In another practical application, a leg can be released from the hyperextended position and placed in front of the body on the foot rest 25 (
In another practical application, a leg can be released from the hyperextended position and placed stretched out in front of the body on the leg rest 26 and the rest extension 27 (
In another practical application, a foot can be taken from the foot rest 14 and hooked into the foot roller 22 behind the body (
In another practical application, both legs can be released from the hyperextended position and placed in front of the body on the lower foot rest 24 or (preferably) the upper foot rest 25 (
In another practical application, both feet can be taken from the foot rest 14 and hooked into the foot roller 22 behind the body (
Due to the central joint 3 and the lower intermediate joint 13, the chair can also offer a seated position in another practical application (
In another embodiment of the present invention as shown in
An optional addition, which is also an independent aspect of the invention, is realized by a pressing device, which is illustrated in
As described at the beginning, the extensibility of a muscle can be improved by applying strong pressure to its insertion or origin for a long time. The pressure units 141 are provided for this purpose. The pressure units 141 can be variably adjustable in localization, the pressure direction can be adjustable, the pressure intensity can be adjustable, and the pressure head can be designed to be replaceable.
For example, the printing units 141 may be designed as follows:
The localization and pressure direction of the pressure units 141 may be selected according to the pressure or pain points known from osteopressure and named below, which may include in particular:
The location of the above listed pressure points a-z, aa-nn is schematically shown in
In addition to being designed for use in the sense of osteopressure, the pressure units 141 may also be designed and localized for use in the sense of acupressure or massage. When designed for acupressure, the pressure units can, for example, be localized and designed according to the energy points handed down from traditional Chinese medicine (TCM) or acupressure points recognized in Western medicine. When designed for massage, the pressure units can be located and designed according to suitable treatment areas corresponding to a desired massage method.
For example, neck antennas 142 (
A sleeve 145 may be placed around a pad, for example 17 or 19, at any of the limb support surfaces, and may also be placed on the leg rest 26 and bear pressure unit 141. The sleeve 145 may include a clamping element 151, which may be clamped to the thigh pad 17 or the frame 131, for example, and may include a holder 152 for a pressure unit 141 to apply a pressure on the inner side of the thigh and a counter-pressure flap 153 to bear against a side of a thigh of the person opposite the pressure unit 141 (
A thoracic spine/shoulder module 460 can be provided for the rear shoulder area, which can be attached to or integrated into the back support 23 (
The pressure elements are located above the insertion of the psoas muscle at the minor trochanter (141(a)). The stool can be rigid or pivotable in the stool ridge, and in the case of a divided seat it can also be pivoted against each other.
The pressure units 141 can act completely passively and are only to be arranged to apply pressure on a defined point of the person's body, whereby it is preferable that each pressure unit 141 acts in a direction in which the person's body finds a counter bearing in the form of a part of the chair according to the invention or a further pressure unit 141. Optionally, pressure units 141 may also be designed to be active, for example by applying a feed motion, vibration, pulsation, rotation, rolling or flexing, or by imparting electrical charges, magnetic or electromagnetic fields, heat or cold. An infeed motion can be useful for accommodating individual body dimensions and/or for sizing the pressure applied. In particular, when designed with acupressure treatment in mind, targeted heating or cooling of the pressure points can be used.
Optionally, the pressure units 141 can be adjustable in pressure strength, e.g. via an adjustable spring mechanism or motorized. For this purpose, a force sensor can be provided at the respective pressure units 141, the output signal of which is fed to a control and/or control display. In a control system, the individual pressure units 141 can be controlled in accordance with a manually specified pressure value or a pressure value determined by an algorithm, if necessary in compliance with predetermined threshold values. Furthermore, it is also optionally possible to control the time at which the pressure is applied.
Furthermore, it is possible to fold away or retract the pressure units individually or combined in modules so that they do not apply any further pressure. In the case of a control system, an emergency stop function can also be provided.
Another optional addition to the chair of the invention relates to a head module 160 (
This head module 160 represents a separate inventive concept that can be used independently of the chair explained above, with or without the front end of the bow 161 that supports the forehead pad. In particular, it helps to counteract excessive stress on the neck.
The attachment 164 may further be formed with a part of the chair via a pivoting-sliding mechanism 166 that includes a curved rail, slides along the bow 160, and simultaneously rotates to provide an axis of rotation of the head approximately at the dens axis and cervical spine. The rail may be arranged with a separate support, wherein the bow 160 is formed integrally with the attachment 164 and is guided along the rail.
The pivoting-sliding mechanism may comprise a single plane or, for improved stability, multiple planes.
As a further addition, massage devices may be implemented in all or selected padding elements of the chair according to the invention. Further, all or selected padding of the chair of the invention may include texturing that provides a passive massaging effect.
Another optional addition relates to the foot support 14. In previous embodiments, the foot support 14 is designed as a simple plate, which is adjustable to stretch the calf muscles. This adjustment can be further enhanced by a spring mechanism 185. The foot support can accommodate pressure mats, which are available from various manufacturers on the market (e.g. Kybun® mat or Aeris® muvmat etc.) According to the supplement, the foot support can have a heel stop or heel pad 181, an upwardly adjustable toe stop 182 and a hold-down device 183 (
In
Variant 2 comprises a chair that has a seat surface 201 with a seat surface extension 202 that projects backward beyond a backrest 203. Via the central joint 3, seat surface halves 204, 205 of the seat surface 201, which is divided laterally into two parts, can each be individually folded downwards in a variably adjustable manner and fixed, optionally also spread apart. A further bearing element 207 for the lower leg can be folded out of the seat surface 201 and can also be fixed and spread apart. An additional extension or a clip-on or fold-out extension 210 can be provided (
The chair element 430 has a screw clamp 431 arranged laterally on the thigh support, with which the chair element can be fastened to a conventional chair, in particular to the chair leg thereof, in order to be able to effect a hyperextension of the hip. The attachment can also be realized in other ways.
The chair element 430 forms an independent invention.
The thigh support or seating surface may also be transversely divided, meaning in a direction parallel to axes of the central joint 3 or the base pivot joint 5 or the intermediate joint 13. Such a transverse division may be advantageous for stowing the hip counter bearing element 20 when not in use.
A further embodiment example is explained below, in which identical parts are marked with the same reference signs and the explanations explained above apply equally, unless otherwise stated below (
In this further embodiment, the base pivot joint 5 is realized by a parallel link arrangement. Such a parallel link arrangement has already been explained above.
In the embodiment, the thigh support 11 (thigh bar 16) can be pivoted as a whole and the lower leg support 12 can be pivoted laterally. It can also be designed to extend in the axial direction or to pivot axially in the lower intermediate joint 13. The lower intermediate joint is located under the front seat surface.
The hip counter bearing 20 and the foot roller 22 can be realized in an attachment part 490
The elements 491-494 form the hip counter-bearing element 20. The telescopic bar 492 is displaceably mounted in the pivot bar 491 and is biased away from the unit by a spring element. By means of the rotating wheel 512, the telescopic bar 492 can be moved towards the unit against the spring force. In the process, the release lever 513 can engage stepwise in the manner of a ratchet on the locking rim 532 of the pivot bar shaft 530, thereby fixing the position of the telescopic bar 492. By operating the release lever 513, the engagement can be released and the telescopic bar 492 can then move away from the device under spring action. As a result, a pressing action of the hip counter-bearing element 20 in the sense of a hip overextension can be released and a person can be released freely.
The elements 491, 495-497 form the foot roller 22. For safety reasons, the foot roller 22 can only be provided on one side: hooking the feet on both sides could cause accidents, and this is avoided by design in the case of a half-sided design. Further alternative designs for the foot roller have already been explained above and can be applied here in the same way.
The pivot lever 495 is mounted on the pivot bar 491 so that it can be pivoted and moved. Two slide rails 436 and a locking section 540 can be provided on the pivot bar 491 for this purpose. A slide bearing 437, which supports the pivot lever 495, can slide along the slide rails 436 on the pivot bar 491. A locking bolt 538 can thereby selectively engage a locking of the locking section 540 and fix the displacement position of the pivot lever 495. The locking bolt 538 also forms an axis of rotation for the pivot lever 495 in the sliding bearing 437. A sliding bolt 561 may be guided in a mimic 560 to limit the pivoting movement of the pivot lever 495. A free lever end 562 may be tapered and received in a correspondingly shaped lever end receptacle 514, which may also be attached to the pivot bar 491 or the end of the slide rails 536. This also allows the pivot position of the pivot lever 495 to be fixed, which may be particularly advantageous in the seating configuration of the chair.
Optionally, only a strap or loop or the like may be provided instead of the foot roller 22.
The base 500 for the thigh pad 17 is attached to the thigh bar 16, and the thigh pad support 501 and rest 502 are attached to it. The thigh pad 17 is shown in
The hip counter support element 20 may be folded over as a whole so that the cross bar 493 rests on the rest 502, with the pad 494 facing upward. To adjust the hip counter support pad 494, it may be mounted on a hip pad support 522 that is coupled to the cross bar 493 via a pivot bearing 523. The rotational position in the pivot bearing 523 may be fixable by means of a locking device 524. The thigh pad 17 (not shown here) extends only along the length of the thigh pad support 501. The hip counter support pad 494 and the thigh pad 17 can thus together form a seating surface. The rest 499 may be offset in height from the thigh pad support 498 so that 17 and 493 form a plane. This corresponds to the transverse division described above. This also allows for easy conversion of the chair to the sitting configuration (see, for example,
The upper intermediate joint 8 between the chest support 6 and the abdominal support 7 can be pivoted in at least two degrees of freedom: about the transverse axis and about the longitudinal axis of the rocker 9. The abdominal support 7 can be displaceable on the rocker 9. The leg rest 26 may be displaceable on the rocker 9, which for this purpose may be extended downward beyond the central joint 3 connecting the upper body section 1 and lower body section 2.
In this embodiment, the lower leg pad 19 is divided into an upper part and a lower part for each leg. The upper part can be pivoted relative to the lower leg bar 18, and the lower part can be displaced. The lower leg bar 18 may be telescopic in overall length or displaceable relative to the thigh bar 16 in the lower intermediate joint 13. The end joint 15 may include a bow slidable on the lower leg spar 18 and a pivot joint arranged distally on the bow.
In principle, all the joints described above can be locked. The locking can be frictionally engaged, for example, by pressing corresponding friction surfaces against each other. Locking can also be achieved by positive locking, for example by pressing correspondingly structured surfaces against each other. Such surfaces can, for example, have elevations and recesses, such as corresponding serrations or dents, which engage with one another. Alternatively, a locking element can engage recesses formed on both sides of the joint for positive locking. A simple example of this is a socket with a through hole and a perforated ring or disc segment running past the socket, in which, depending on the pivoted position of the joint, the through hole is aligned with one of the holes in the ring or disc segment so that a pin can be passed through them. A wide variety of forms of such locking joints are known to the skilled person, for example from the field of office chairs, training equipment or treatment chairs/couch beds.
The invention is limited only by the attached claims, but not by other details described in the embodiments. Details described in one embodiment may be used in other embodiments even if they are not described in detail therein. Similarly, details may be omitted unless they are absolutely necessary to achieve the features defined in the independent patent claims. For example, a central joint 3 may be omitted if only the upper body section 1 and the lower body section 2 are arranged in a position relative to each other in which their bearing surfaces impart the desired hyperextension of the hip joint to a person lying in a prone position thereon. Similarly, other joints such as the intermediate joints 8, 13, the end joint 15 and the base pivot joint 5 can be replaced by a rigid connection. All of the adjustment options described are optional.
When using the chair according to the invention, it is advantageous to ensure that stretching postures, in particular overextension of the hip joint, are within the non-pathological range, i.e. within the normal range of motion of the respective joint. This non-pathological range of over-extension of the hip joint is, of course, dependent on the training status of the individual. While the neutral-zero method used in the expert field usually specifies a maximum overextension of 15° for a normal range of motion, much higher values can be achieved in an appropriately trained individual, as can be observed in gymnasts and performers.
The chair according to the invention is a completely new concept and is capable of accommodating a person's body in a prone position, counteracting a shortening of the hip flexor muscles with associated tendons, ligaments and fasciae, and allowing further positions to be taken for further stretching and/or relieving positions. The chair can be used both in the living area and in the working area for different working environments such as office, workshop, monitoring areas, vehicles, assembly, laboratory or medical, physiotherapeutic or surgical activities for both laymen and the treating doctor or therapist as well as for the patient. It can be adjusted for standing, usually sitting, bending forward, squatting, kneeling and lying postures.
By incorporating the pressure units 141 according to the invention with the corresponding modules, holders, etc., a significant increase in the stretching effect and effective relaxation can be achieved, and additional therapeutic effects can be obtained.
The features included in the above-described embodiments are, for the most part, optional and interchangeable. The invention is defined by the respective applicable independent claims. Advantageous further developments and embodiments defined in the subclaims may constitute further independent inventions. Each feature described above, alone or in combination with other features, may constitute an independent invention, both in specifically described and in combinations and sub-combinations not specifically described.
For example, all or selected ones of the pressure units 141 may or may not be provided on all of the embodiments, variants, and variations of a chair according to the invention shown in the figures and described above.
Wherever a joint is described in one embodiment, variant, or variation, that joint may be omitted if necessary and may take any form described in another embodiment, variant, or variation.
In all embodiments, variants or variations, all features of embodiments, variants or variations from which they are based must also be applied, even if it is not specifically described, unless such application would be specifically excluded, modified or obviously not possible.
Also, any additions or extensions, options or alternatives, described in an embodiment, variant or variation, may be applied individually or in any combination or sub-combination in the same or another embodiment, variant or variation, as long as it does not leave the realm of the technically reasonable or possible, and the objects thus obtained may in turn form independent inventions.
Number | Date | Country | Kind |
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10 2019 102 375.0 | Jan 2019 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/052349 | 1/30/2020 | WO | 00 |