DE102017111558B3 - joint prosthesis - Google Patents

Abstract

The present invention relates to a joint prosthesis for an orthopedic aid. In order to be able to reliably realize different motion sequences on a joint prosthesis in a simple manner, it is proposed according to the invention that the joint prosthesis have a monocentric axle structure and a polycentric axle structure, wherein the monocentric axle structure is coupled or couplable to the polycentric axle structure, and a control unit is provided either the monocentric axle structure or the polycentric axle structure releases and simultaneously or with a time delay blocks or limits the other axle structure, the monocentric axle structure and the polycentric axle structure each having at least one non-positive and / or positive coupling device for releasing and blocking or limiting the monocentric axle structure and / or has the polycentric axle structure.

Description

The present invention relates to a joint prosthesis for an orthopedic aid.

Monocentric as well as polycentric knee joint prostheses, some of which operate under microprocessor control, are known from the prior art.

Polycentric knee joints have a very secure stance phase, but if the polycentric knee joint is in full extension and the heel contact comes, the movement of the respective user towards the end of the stance phase becomes uncertain and unpredictable.

Most market relevant joint prostheses are therefore monocentric. Their disadvantage is that they lead to an extension of the prosthetic leg during a swing phase due to design and thus increase the risk of falling of the joint prosthesis user. To prevent this, a user of a monocentric knee joint prosthesis must lift the hip to avoid bumping the toe on the floor while walking. To circumvent this, attempts are being made in recent monocentric joint prostheses to initiate an asymmetrical swinging behavior by means of the electronics used to control the monocentric joint prosthesis. But since the monocentric has the very important advantage of being able to walk with it alternately stairs and inclined planes, this disadvantage is accepted. There are no adaptively controlled polycentric joints, rather the damping of the individual phases is set for a fixed speed.

Prosthetic knee joints must be initiated by muscle power. The existing musculature provides the necessary momentum to stretch the joint, as well as supportive stability in the stance phase. The applied energy increases the already increased strength of an amputee. It is therefore attempted to form active prosthetic knee joints in such a way that the remaining musculature is relieved or the energy required for joint operation is minimized. In order to meet the requirement of low energy consumption, a low total mass and a favorable mass distribution within the prosthetic knee joint are necessary, which requires lightweight materials, such as high-strength aluminum alloys and steels, GRP or CFRP.

Previous microprocessor-controlled prosthetic joints (MP) adapt the swing and stance phases adaptively by means of hydraulic damping. Various sensors measure data on the prosthesis. The currently performed knee joint action is based on data from the past. This is advantageous as long as the environment does not change. However, if the environment changes, such prosthetic joints are not adjusted to it, and it can lead to falls or the like.

The pamphlets DE 10 2009 053 128 A1 . DE 203 18 393 U1 and DE 10 2012 100 931 A1 include knee joint prostheses with polycentric axle geometry, which each allow a limited compression over a very small angle about a single axis.

In the publication DE 10 2009 053 128 A1 The flexion and extension movement of the artificial knee joint takes place via an upper and a lower connecting shaft, a positioning bolt and the axles on an upper connecting lever. The joint can deflect around the lower connecting shaft against a spring element by a few degrees and limited by the positioning pin.

In the artificial knee joint, in the document DE 203 18 393 U1 is described, its flexion and extension movement via a rotatably mounted within a support body axis of rotation and via the front and rear connections provided axes. A support plate of the knee joint can rotate around bolts by a few degrees and presses against a freely movable plate part under load and locks or brakes the polycentric at the axis of rotation.

When from the publication DE 10 2012 100 931 A1 Known knee prosthesis is the flexion and extension movement via axes in a front, a rear, an upper and a lower bore. The upper part of the knee prosthesis can deflect under load by a few degrees about the axis of the lower bore, thereby compressing a gap, whereby the polycentric in the axis of the upper bore is locked or braked.

It is therefore the object of the present invention to propose a joint prosthesis for an orthopedic aid, such as a knee joint prosthesis, with which different movement sequences can be realized safely and energy-efficiently in a simple manner.

The object is achieved by a joint prosthesis for an orthopedic aid, which has a monocentric axle structure and a polycentric axle structure, wherein the monocentric axle structure is coupled or couplable to the polycentric axle structure, and a control unit is provided, which either the Monocentric axle structure or the polycentric axle structure releases and simultaneously or with a time delay blocks or limits the other axle structure, wherein the monocentric axle structure and the polycentric axle structure each have at least one non-positive and / or positive coupling device for releasing and blocking or limiting the monocentric axle structure and / or having the polycentric axle structure.

The joint prosthesis according to the invention has a variable axis geometry, which allows the use of specific advantages of both the monocentric and the polycentric axle geometry of joint prostheses in a single joint prosthesis. In this case, if required, between a uniaxial axle geometry - by the mono-centered - and a multi-axis axle geometry by the polycentric - can be varied.

If the polycentric axle structure is released in the case of the joint prosthesis according to the invention, then a secure stance phase can be achieved if, for example, the joint prosthesis is a knee joint prosthesis. Due to the possibility of releasing the multi-axis, polycentric axle structure in the joint prosthesis according to the invention, a shortening of the distance between a shaft end of the joint prosthesis and a floor in the swing phase is possible. The user of the joint prosthesis can thus achieve a more natural and efficient gait pattern, since a lifting of the hip can be avoided.

By releasing the monocentric axle structure, the user can easily walk on stairs and inclined planes.

By integrating a monocentric and a polycentric axle structure within a joint prosthesis, it can be used in all everyday situations without adversely affecting the respective user of the joint prosthesis. Even a prosthesis change depending on the situational circumstances is no longer necessary. In particular, in comparison to known from the prior art knee joint prostheses, which are either monocentric or polycentric and are therefore suitable either for climbing stairs and walking on inclined planes or for running on even planes, this is a decisive advantage. The joint prosthesis according to the invention makes it possible for a denture user to use a single prosthesis in a wide variety of situations without changing the prosthesis or having massive limitations.

With the joint prosthesis according to the invention, for example, an amputee can be optimally integrated again into a complex everyday occurrence after a thigh amputation. The joint prosthesis of the invention makes it possible to provide the functional extent of the limb lost according to the abilities and requirements of the amputee.

The joint prosthesis according to the invention is worn directly on the body, thereby substituting lost functionalities and supporting the prosthesis user during walking and standing.

The joint prosthesis according to the invention serves primarily for the rehabilitation and reintegration of patients, but can also be used for aftercare and / or therapy.

Since the joint prosthesis according to the invention allows a very realistic replication of actual movement progressions, the use of the joint prosthesis according to the invention can better treat problems of limb loss than heretofore. So also secondary diseases, which are caused for example by incorrect workloads, inactivity, falls or also changed or deteriorated psychosocial interaction, can be reduced or avoided altogether.

In an advantageous embodiment of the joint prosthesis according to the invention, the coupling device of the monocentric axle structure and / or the coupling device of the polycentric axle structure is designed as a switchable, positive and / or non-positive coupling.

In a preferred embodiment of the joint prosthesis according to the invention, the switchable, positive and / or non-positive coupling has a Lammellenkupplung. The multi-plate clutch advantageously has inner and outer disks and is controlled by a control unit.

Preferably, in the joint prosthesis according to the invention, the coupling device of the monocentric axle structure is connected to the coupling device of the polycentric axle structure by means of at least one lever and / or at least one axle. It has proven to be particularly advantageous when the lever is connected to a shaft of the monocentric axle structure and a shaft of the polycentric axle structure. Optimally, a lever is provided in each case at the opposite ends of the shaft of the monocentric axle structure and the polycentric axle structure. In another variant of the invention, the function of the coupling device of the monocentric axle structure and the function of the coupling device of the polycentric axle structure are integrated in a common coupling device.

It has proved to be particularly favorable when the joint prosthesis has four or more joints, wherein at least one of these joints is switchable.

For example, in an advantageous embodiment of the present invention, the joint prosthesis on a four-bar linkage for the polycentric axle structure and an additional joint for the monocentric axle structure.

In a further advantageous embodiment of the joint prosthesis according to the invention, the monocentric axle structure and / or the polycentric axle structure is / are connected to a housing which has a clamping connection and / or a receptacle for a rod-shaped element. Through the clamping connection and / or the receptacle for a rod-shaped element, the joint prosthesis can be easily connected to a prosthetic foot. Furthermore, by the coupling of monocentric and / or polycentric axle, housing and clamping connection or recording for a rod-shaped element initiated by the prosthesis user in joint prosthesis force can be optimally forwarded to the hand or foot prosthesis. Also, other components such as sensors, accumulators, signal processing equipment, data storage, gyroscopes or the like can easily be attached to and in the frame.

Particularly close-to-reality motion sequences can be achieved on the joint prosthesis according to the invention if the monocentric axle structure and / or the polycentric axle structure is coupled or coupleable to at least one hydraulic, pneumatic, electromagnetic or rheological damping element with which a movement of the joint prosthesis during a swing motion is achieved. and / or standing or resting phase of the orthopedic aid can be delayed. In a particularly preferred variant of the joint prosthesis according to the invention, the damping element is designed as a hydraulic cylinder. Furthermore, the damping element can also have a plurality of hydraulic cylinders. The amount of joint damping and / or braking can be varied as needed in the joint prosthesis according to the invention.

It is particularly advantageous in this case if the damping element is provided in or on the housing. In particular, the attachment of the damping element in the housing has proven to be space-saving and the prosthesis user not influencing. Further, the individual components of the joint prosthesis, insofar as they are arranged in the interior of the housing, are protected by the housing from environmental influences. Thus, it has proved to be particularly advantageous if the joint prosthesis is designed such that it is splash-proof and dust-proof and showers and knee-deep wading with the joint prosthesis is possible.

Preferably, the joint prosthesis is pivotable in at least two positions, on which damped stops are provided, whereby a smooth and natural movement of the joint prosthesis is made possible.

If the joint prosthesis according to the invention has at least one mechanical, electrical, hydraulic or pneumatic energy store for storing and releasing energy from braking and damping processes of the joint prosthesis and / or orthopedic aids, the energy to be applied by a joint prosthesis user can be used to move and / or or slowing the joint prosthesis can be reduced. The storage and / or release of energy by the energy store is preferably short-term, ie in the millisecond, second and / or minute range.

By means of the joint prosthesis according to the invention, this makes it possible, for example, to improve the energy efficiency when walking with a thigh prosthesis. Thus, the movement of a prosthetic knee joint is basically the free oscillation about the rotation axis (s). Since this would initially cause a very unnatural gait, in the joint prosthesis, the rotation, so the diffraction and extension, braked or damped. While in the prior art, the released energy was usually converted into heat and released into the environment, resulting in about 45 to 70% higher energy consumption when walking with a thigh prosthesis than non-amputees, is in the present embodiment of the Invention, the resulting energy stored in the energy storage and reintegrated into the movement. Such an embodiment of the joint prosthesis according to the invention is preferably controlled electronically.

It is particularly practical if the energy store has at least one accumulator provided in or on the housing or on the orthopedic aid.

In an advantageous embodiment of the invention, the energy storage, for example, have at least one spiral or torsion spring, wherein the spiral or torsion spring is conveniently integrated in the multi-plate clutch of the monocentric or polycentric axle structure.

A further advantageous embodiment of the invention includes the use of the already mentioned hydraulic, electromagnetic or hydraulic damping element as an actuator which is coupled to the energy storage.

A particularly suitable coupling of the joint prosthesis according to the invention to a body part of the joint prosthesis user can take place if at least one connecting element for a connection of the joint prosthesis with a body part is provided on the joint prosthesis coupled to the coupling device of the monocentric axle structure and / or the coupling device of the polycentric axle structure or can be coupled.

The connecting element may for example have a releasable screw and / or clamp connection. In this way, the joint prosthesis can be attached to a stump of the prosthesis user, which has a holding element which is complementary to the connecting element, in a particularly simple, quick and reliable manner.

Further advantages result if the joint prosthesis has at least one or more sensors for acquiring biometric data of a joint prosthesis user.

Moreover, it is advantageous if the joint prosthesis has at least one or more sensors for acquiring physiological data of a prosthesis user. By recording physiological data of the prosthesis user, such as data that reflect the circulation of the shaft, the shaft load, the temperature of the prosthesis user and / or the fitness state of the prosthesis user, an overload of the leg stump and a resulting subsequent amputation can be avoided. Through the contextual provision of information u. a. Fitness, fatigue, activity, etc. can improve the handling of the joint prosthesis and the joint prosthesis can be used very efficiently.

The degree of perfusion of the stump tissue can be determined, for example, in the present invention by means of plethysmographic methods. Information about fatigue of the leg stump can be obtained in the joint prosthesis according to the invention by evaluating a spectral analysis of electromyographic signals of the leg stump muscles and / or a detection of a pressure load on the leg stump.

The movements of a user wearing the joint prosthesis according to the invention are particularly well controlled, if the joint prosthesis has at least one sensor for detecting at least one angle and / or at least one position and / or at least one acceleration on the joint prosthesis.

In addition, the motion sequences of a user carrying the joint prosthesis according to the invention can be adapted particularly well to the environment when the joint prosthesis has a distance measuring system with which a distance between a ground contact element of the joint prosthesis and a bottom can be detected. By automatically adjusting the kinematic chain of the situational and required movement shape in the joint prosthesis according to the invention to the environment, the joint prosthesis is able to interact largely independently with the user of the joint prosthesis

For a forward-looking movement of the joint prosthesis according to the invention, it is also advantageous if the joint prosthesis has an obstacle detection device. By the obstacle detection device obstacles that are in the direction of movement, detected in time and a collision with these and a resulting tripping can be prevented. It can act proactively, increasing confidence in the prosthetic joint. Thus, the joint prosthesis is controlled not only by the intervention of the prosthesis user, but also auto-adaptive. By using real-time information about the nature of the path in the direction of travel through the sensors on the joint prosthesis, a similar coupling is achieved between the movable components of the joint prosthesis and the corresponding sensors, as intuitively existing between the leg and the eye during natural walking, thereby speeding up the joint prosthesis , can be controlled more safely and efficiently in all environments. The advantage of this natural arrangement is above all the ability to direct, unconscious, predictive adaptation of movements.

It is also favorable if the joint prosthesis according to the invention has a location determination device for the joint prosthesis. Such location information can be obtained, for example, by interacting with location services of smartphones or by means of WLAN or Bluetooth. By locating the joint prosthesis and linking different locations with special requirements, either the monocentric or the polycentric axle structure can be released in the joint prosthesis according to the invention in a forward-looking manner. While walking in the open requires a natural and unobtrusive gait pattern, the requirements for the joint prosthesis are completely different when used in an office, workshop, kitchen, or garden. Become individual Places assigned special requirements and in view of the information assigned whether the polycentric or the monocentric axle structure is to be released, can be released by locating the joint prosthesis automatically the corresponding axle structure. In alternative embodiment variants of the joint prosthesis according to the invention, an activation can also take place by means of an app, that is to say via an application program on a smartphone, and not automatically by determining the position of the joint prosthesis.

In addition, at least one strain gauge sensor for detecting strains and / or stresses on the joint prosthesis may be provided on the joint prosthesis. Quantitative and / or qualitative conclusions about forces acting on the joint prosthesis can be drawn from the values measured by such a sensor. As a result, for example, a stance or a swing phase or a touchdown or a repulsion of a limb can be detected.

In order to process data taken by sensors on the joint prosthesis quickly and efficiently and to be able to use them for motion sequences on the joint prosthesis, it has proved favorable if the joint prosthesis has at least one or more processors for data acquisition and processing.

It is also of great advantage if the joint prosthesis can be coupled or coupled to a data management system. In a very particularly preferred case, the joint prosthesis can be controlled by means of a mobile phone, for example by means of a special app.

• 1 schematisch einen Grundaufbau einer möglichen Ausführungsvariante einer erfindungsgemäßen Gelenkprothese in einer perspektivischen Ansicht zeigt,
• 2 schematisch den Energie- und Kraftfluss an der Gelenkprothese von 1 zeigt;
• 3 schematisch eine mögliche Ausbildung einer Kupplungsvorrichtung einer Monozentrik mit Anbindung an einen Hydraulikzylinder bei einer Ausführungsform der erfindungsgemäßen Gelenkprothese in einer perspektivischen Ansicht zeigt; und
• 4 schematisch eine Kupplungs- und Speichereinheit an einer Polyzentrik bei einer Ausführungsform der erfindungsgemäßen Gelenkprothese in einer perspektivischen Ansicht zeigt.

A preferred embodiment of the joint prosthesis according to the invention, its structure, function and advantages are explained in more detail below with reference to figures, wherein

• 1 schematically shows a basic structure of a possible embodiment of a joint prosthesis according to the invention in a perspective view,
• 2 schematically the energy and power flow at the joint prosthesis of 1 shows;
• 3 schematically shows a possible embodiment of a coupling device of a monocentric with connection to a hydraulic cylinder in an embodiment of the joint prosthesis according to the invention in a perspective view; and
• 4 schematically shows a coupling and storage unit on a polycentric in one embodiment of the joint prosthesis according to the invention in a perspective view.

In 1 schematically shows a basic structure of a possible embodiment of a joint prosthesis according to the invention 1 in a perspective view, wherein the joint prosthesis 1 in the 1 shown embodiment, a knee joint prosthesis, in particular an expoprosthetic knee joint, which serves the care after a thigh amputation is. In other, not shown variants of the present invention, the joint prosthesis according to the invention 1 also a wrist prosthesis, a shoulder joint prosthesis, an elbow prosthesis, an ankle prosthesis or a hip joint prosthesis.

The joint prosthesis 1 has a monocentric axle structure 2 and one with the monocentric axle structure 2 coupled polycentric axle structure 3 on which the benefits of polycentric and monocentric denture designs in a single joint prosthesis 1 be united. A user of the joint prosthesis 1 is thus able to handle stairs, inclined planes, but also straight stretches, squat, standing and sitting movements and emergency situations, such as tripping, without problems, without the joint prosthesis 1 to have to change or to have a worse motion picture with the risk of unintentional movement or even an injury to accept. For this purpose, either the monocentric axle structure may be specific to the application 2 or the polycentric axle structure 3 released and the respective other axis structure 2 . 3 can be locked. The locking of the first axle structure and the unlocking of the second axle structure preferably take place at the same time, but the locking and unlocking operation of the two axle structures can also take place with a time delay relative to one another.

For locking and unlocking the monocentric axle structure 2 and the polycentric axle structure 3 is at the monocentric or polycentric axle structure 2 . 3 in each case a non-positive coupling device 21 . 31 intended. In alternative embodiments of the joint prosthesis according to the invention 1 may instead of a non-positive coupling device 21 . 31 also a positive coupling device can be used. A possible structure and the respective function of the coupling devices 21 . 31 will be described below on the basis of 3 and 4 explained in more detail.

The monocentric axle structure 2 and the polycentric axle structure 3 are by means of levers 33 . 33 ' coupled together, with the levers 33 . 33 ' on waves 22 . 32 the monocentric or polycentric axle structure 2 . 3 are provided.

The polycentric axle structure 3 points in the in 1 embodiment shown four joints 11 . 12 . 13 . 14 on, with an in functional alignment of the joint prosthesis 1 front joint 12 the monocentric axle structure 2 is arranged. In principle, the monocentric axle structure 2 however, at every joint 11 . 12 , 13, 14 of the polycentric axle structure 3 be provided.

To delay the movement of the joint prosthesis 1 during a swing and stance phase, is at the monocentric axle structure 2 a hydraulic damping element 6 intended. In the in 1 shown embodiment of the joint prosthesis 1 is the hydraulic damping element 6 designed as a hydraulic cylinder and by means of a coupling element 28 with the monocentric axle structure 2 connected. In alternative embodiments of the joint prosthesis according to the invention 1 can the damping element 6 also as a pneumatic, electromagnetic and / or rheological component, which additionally or alternatively to the hydraulic damping element 6 is provided, be formed. Furthermore, in further embodiments of the joint prosthesis according to the invention 1 also more than one hydraulic cylinder in or on the housing 4 to be appropriate. In other embodiments of the invention, the damping element 6 , such as the hydraulic cylinder, to the polycentric axle structure 3 be connected. In further variants of the invention, a plurality of damping elements can also be used 6 be used.

The joint prosthesis 1 can be brought in at least two positions, namely in a first position in which the knee joint prosthesis is stretched, and in a second position in which the knee joint prosthesis is angled. Here, not shown, damped stops are provided at the two positions in the figures, so that the most natural movement of the joint prosthesis 1 is produced.

The hydraulic cylinder 6 is in a housing 4 integrated, on and / or in which the monocentric and the polycentric axle structure 2 . 3 are provided. For the discharge of the joint prosthesis 1 acting force is on a side of the housing facing the ground 4 a detachable clamp connection 41 attached, which is a connection between the joint prosthesis 1 and produces a prosthetic foot, not shown.

For connection of the joint prosthesis 1 to an amputee leg of a user has the joint prosthesis 1 a connecting element 5 which, for example, designed as a screw connection and on the housing 23 the coupling device 21 the monocentric axle structure 2 is arranged. Furthermore, the connecting element 5 also be designed as a clamping connection.

In the 1 shown joint prosthesis 1 is designed so that it is so splash-proof and dust-proof that, for example, a knee-deep crossing of water and showers with the joint prosthesis 1 is possible for the user.

Furthermore, the joint prosthesis 1 a variety of different, not illustrated in the figures sensors, which provide, for example, information about the circulation, the fitness state and / or the pulse of each user, the shaft load and / or the distance. For a clear and simple presentation of this information is the joint prosthesis 1 coupled with an output device, such as a cell phone, which outputs, for example, via a special app, the edited data. In addition, this app can also be a fine adjustment of the system behavior of the joint prosthesis 1 be made.

For example, a distance of the prosthetic foot to the ground is preferably detected continuously by means of an ultrasonic distance measuring system. By means of a further ultrasonic sensor, for example, obstacles in the foot area, which are located in the direction of walking, can be detected. The acquired data is passed on to a control device in the form of a kinematic control, which uses the data, inter alia, between the monocentric and the polycentric axle structure 2 . 3 switch.

By means of an ultrasound sensor arranged in the knee joint can also be a bending position of the joint prosthesis 1 be detected, based on which the joint prosthesis 1 can be controlled quickly, safely and efficiently in different environments. The ultrasonic sensor used for this purpose can be, for example, an ultrasonic clamp-on sensor with which the bending position is independent of the respectively released axle geometry of the joint prosthesis 1 can be detected.

With the additional, multimodal data to be processed captured by the above-mentioned sensors, the joint prosthesis 1 be controlled quickly, safely and efficiently in different environments. So it is possible through these sensors, predictive for example, to respond to a slope, stairs or curb, a change in the nature of the ground or to respond to impending collisions.

2 schematically shows an energy and force flow at the joint prosthesis 1 from 1 , wherein the same reference numerals as in 1 denote the same components, which is why reference is made to the above statements on these components.

The by the user of the joint prosthesis 1 in the connecting element 5 introduced force flows in a force flow direction A via the monocentric axle structure 2 or in a force flow direction B via the polycentric axle structure 3 in the direction of the housing 4 , About the detachable clamp connection 41 Force is forwarded in a force flow direction C in the direction of the prosthetic foot.

3 schematically shows a possible embodiment of a coupling device 21 a monocentric axle structure 2 an embodiment of the joint prosthesis according to the invention 1 with connection to a hydraulic cylinder in a perspective view. Again, the same reference numerals as in the 1 and 2 same components, which is why reference is made to the preceding description of these.

The coupling device 21 the monocentric axle structure 2 is formed in the embodiment shown as a multi-plate clutch, wherein a movement of the monocentric axle structure 2 positively locked. The multi-plate clutch has an outer plate 24 , an inner lamella 25 and a control unit 26 on. To release the monocentric axle structure 2 The outer and inner plates 24, 25 are controlled by the control unit 26 subjected to a force, causing a movement over a shaft 22 can be transferred. The control can be done electromagnetically, pneumatically or hydraulically. Optionally, a mechanical, pneumatic, hydraulic or electromagnetic energy conversion may take place at the same time, wherein energy is stored in a memory. As memory, for example, a spiral or a torsion spring can be used.

The wave 22 will be in the in 3 shown embodiment by means of a fixed-lot bearing 26 held in other embodiments, however, by means of a support bearing or a floating bearing, which is realized for example by means of a rolling or sliding bearing, held.

The levers 33 '33' are on both sides of the shaft 22 through rolling or plain bearings 27 to the wave 22 tethered. Furthermore, the levers 33 . 33 ' but also rigid on the shaft 22 to be appropriate.

4 shows schematically a coupling and storage unit on a polycentric axle structure 3 in one embodiment of the joint prosthesis according to the invention 1 in a perspective view, here again like reference numerals designate like components, which is why reference is made to the previous description of these components.

Also, the coupling device shown in FIG 31 for the polycentric axle structure 3 is designed as a multi-plate clutch. This multi-plate clutch also has inner disks 34 and outer disks 35 on, which by a control unit 36 be operated. The multi-plate clutch locks and releases the polycentric axle structure 3 in every position of the joint prosthesis 1 ,

The coupling device 31 also has a spiral spring 37 on which a tension between the shaft 32 and a housing 38 the coupling device 31 allows energy to be received in a first direction of rotation and released in a second, opposite direction of rotation. The released energy supports the movement of the joint, which makes walking easier for the prosthesis user.

The coupling device 31 is via a rolling or sliding bearing 39 on the shaft 32 stored. In alternative embodiments of the joint prosthesis according to the invention 1 However, a fixed-lot bearing, a support bearing or a floating bearing can be used. The wave 32 however, it is rigid or by means of a rotatable connection with the levers 33 . 33 ' connected.

Claims (24)

Joint prosthesis (1) for an orthopedic aid, wherein the joint prosthesis (1) has a single center axis structure (2) and a polycentric axis structure (3), and the monocentric axis structure (2) with the polycentric axis structure (3) coupled or can be coupled, characterized in that a control unit is provided which releases either the monocentric axle structure (2) or the polycentric axle structure (3) and blocks or limits the other axle structure (2, 3) simultaneously or with a time lag, the monocentric axle structure (2) as well the polycentric axle structure (3) has at least one non-positive and / or positive coupling device (21, 31) for releasing and blocking or limiting the monocentric axle structure (2) and / or the polycentric axle structure (3). Joint prosthesis after Claim 1 , characterized in that the coupling device (21) of the monocentric axle structure (2) and / or the coupling device (31) of the polycentric axle structure (3) is designed as a switchable, positive and / or non-positive coupling. Joint prosthesis after Claim 2 , characterized in that the switchable, form and / or non-positive coupling has a Lammellenkupplung. Joint prosthesis according to one of the preceding claims, characterized in that the coupling device (21) of the monocentric axle structure (2) by means of at least one lever (33, 33 ') and / or at least one axis with the coupling device (31) of the polycentric axle structure (3). is connected or the function of the coupling device (21) of the monocentric axle structure (2) and the function of the coupling device (31) of the polycentric axle structure (3) are integrated in a common coupling device. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has four or more joints (11, 12, 13, 14, 15), wherein at least one of these joints (11, 12, 13, 14, 15) switchable is. Joint prosthesis after Claim 5 , characterized in that the joint prosthesis (1) has a four-bar linkage for the polycentric axle structure (3) and an additional joint (15) for the monocentric axle structure (2). Joint prosthesis according to one of the preceding claims, characterized in that the monocentric axle structure (2) and / or the polycentric axle structure (3) is / are connected to a housing (4) having a clamping connection (41) and / or a receptacle for a having rod-shaped element. Joint prosthesis according to one of the preceding claims, characterized in that the monocentric axle structure (2) and / or the polycentric axle structure (3) is coupled to or coupleable to at least one hydraulic, pneumatic, electromagnetic or rheological damping element (6) Movement of the joint prosthesis (1) during a swing and / or standing or resting phase of the orthopedic aid is delayed. Joint prosthesis after Claim 8 , characterized in that the damping element (6) is provided in or on the housing (4). Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) is pivotable in at least two positions at which damped stops are provided. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) at least one mechanical, electrical, hydraulic or pneumatic energy storage for storing and releasing energy from braking and damping processes of the joint prosthesis (1) and / or Aufsetz- and repulsive processes of Having orthopedic aid. Joint prosthesis after Claim 11 , characterized in that the energy store has at least one accumulator provided in or on the housing (4) or on the orthopedic aid. Joint prosthesis after Claim 11 , characterized in that the energy store has at least one spiral or torsion spring. Joint prosthesis according to one of Claims 8 or 9 and one of the Claims 11 to 13 , characterized in that the damping element (6) is coupled to the energy store. Joint prosthesis according to one of the preceding claims, characterized in that on the joint prosthesis (1) at least one connecting element (5) is provided for a connection of the joint prosthesis (1) with a body part which is connected to the coupling device (21) of the monocentric axle structure (2). and / or the coupling device (31) of the polycentric axle structure (3) is coupled or coupled. Joint prosthesis after Claim 15 , characterized in that the connecting element (5) has a releasable screw and / or clamp connection. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has at least one or more sensors for detecting biometric data of a joint prosthesis user. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has at least one or more sensors for acquiring physiological data of a prosthesis user. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has at least one sensor for detecting at least one angle and / or at least one position and / or at least one acceleration on the joint prosthesis (1). Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has a distance measuring system with which a distance between a ground contact element of the joint prosthesis (1) and a bottom can be detected. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has an obstacle detection device. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has a location determination device for the joint prosthesis (1). Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) has at least one or more processors for data acquisition and processing. Joint prosthesis according to one of the preceding claims, characterized in that the joint prosthesis (1) is coupled or can be coupled to a data management system.

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