DE3923057A1 - Knee-joint prosthesis with free wheel - allows lower leg to be swung to straight position - Google Patents

Abstract

The knee-joint prosthesis has the lower leg (2) attached to the upper leg (5) by a free-wheel (1). This has a housing (3) which can be held stationary relative to the upper leg by a brake (6). When the brake is applied the lower leg can be swunng from the bent position to the straight position but it cannot be swung in the reverse direction. An actuator is provided to release the brake (6) by applying a forrce to the lever (4) which is attached to the housing (3). Releasing the brake (6) enables the lower leg to be swung in either direction. USE - Knee-joint prosthesis.

Description

The invention relates to a knee joint for a prosthetic leg for people who have one or both lower legs eventually lost knee joint.

Artificial knee joints are only known have a pure storage function. With conventional construction one or more pivot points are used for for example in the form of a four-link chain. To a ge to ensure that there is no buckling in the end positions, Resilient elements are often used, the joint either push to the bent or extended position. The disadvantage of these designs, however, is that they do not fully extended knee joint always the risk of There is a buckling under load. From this results there is a considerable security risk for the user because a buckling can lead to a fall.

To remedy this, knee joints with brakes developed that offer the possibility of being blocked from the outside to become. However, this requires that the user Braking device operated manually. In addition, is after blocking the knee joint is no longer possible Lich, so that, for example, the brake first for walking must be solved. After that, however, is the brake device tion ineffective and can cause the knee to buckle with the do not prevent the resulting negative consequences. Also known are artificial knee joints that are used for ver avoidance of the effects described load-dependent lock have stanchions. Since many of these joint designs have high exercise, designs have also been used in the past created the locking mechanism depending on the direction of rotation men (e.g. freewheels). This enables that the prosthesis wearer the artificial lower leg Can easily hurl forward. Furthermore it is also possible to climb the stairs, in which the joint in loaded condition must be stretched. Walking downstairs is however with the previously known joints hardly in  acceptable possible. In addition, the Prothe only after releasing the locking device by on sit down from the outside.

The effects described have a particularly negative effect people amputated on both sides.

Remedy is to create the knee joint according to the invention; two exemplary embodiments are shown in FIG. 1 and in FIG. 2.

The principle of the artificial knee joint shown in Fig. 1 is based on the series connection of a rotationally dependent clutch and a brake. If the brake is released, the lower leg can move freely in both directions, so that the prosthesis works in the manner of a conventional leg prosthesis. When loading the case of nes, on the other hand, the braking direction is blocked, so that the lower leg can only be moved in the freewheeling direction of the rotationally switching clutch, while the movement is blocked in the other direction (locking direction of the clutch). Contrary to the load-dependent actuation of the braking device, the prosthesis wearer can release the brake by applying an actuating force with the aid of a cable, for example. By dosing this force as a function of the load on the leg, the prosthesis wearer can control the braking effect in such a way that the knee joint can buckle with a defined braking effect.

The knee joint offers special advantages according to the Erfin exercise when going downstairs. This will be one with a prosthesis left leg on the upper step and will other leg in front, so it is necessary to behin buckling slowly and controllably. With the knee joint according to the invention offers the possibility of through targeted, slow changes in operating force to bend the knee slowly. When using a For example, the user can use a friction brake  the biasing force of the Change the brake. The ver Change the braking torque, so that the user depending on the loading can control how fast or how slowly the knee is bent. The locking mechanism dependent on the direction of rotation nism is in the process described in Sper direction and acts like a rigid connection. The be Written use of the knee joint according to the invention follows both when going down stairs and when walking of slopes, the movement conditions are there comparable.

The main advantage of the knee joint according to the invention lies in the harmonic movement and the low loading strain on the spine when walking down stairs. At conven artificial knee joints, on the other hand, is walking down stairs only possible with pressed knee joints. The altitude Difference of the individual steps must be Ver rotation of the hip can be overcome. Besides the extremely un This process creates a harmonious movement heavy strain on the spine.

Fig. 1 shows an embodiment of an artificial knee joint according to the invention. In this example, a pinch roller overrunning clutch is used, the inner part ( 1 ) of which is firmly connected to the lower leg ( 2 ) of the prosthesis. The outer part ( 3 ) of the overrunning clutch is mounted in the lever ( 4 ), which can be rotated in the upper part ( 5 ) of the prosthesis. The outer part ( 3 ) of the overrunning clutch can be braked by means of a braking device ( 6 ) which is fastened in the thigh part ( 5 ). This braking device is actuated by the force with which the lower leg is loaded. If necessary, a lever can be used more powerfully. With the help of a cable ( 7 ) which engages the lever ( 4 ), the user can apply an actuating force which counteracts the loading force. As a result, the braking torque can be controlled.

If the lower leg ( 2 ) is moved in the direction of extension of the knee joint, the pinch rollers ( 8 ) of the free-running clutch move against the springs ( 9 ) and get out of hand so that they ensure free movement of the lower leg ( 2 ), regardless of whether the braking device ( 6 ) abuts the outer part ( 3 ) of the one-way clutch or not.

If, however, the lower leg is loaded, the brake device is actuated so that the outer part ( 3 ) of the free-running clutch can no longer be moved. If you are now looking to move the lower leg in the flexion direction, the pinch rollers ( 8 ) are clamped between the inner part ( 1 ) and outer part ( 3 ) of the overrunning clutch, so that a torque can be transmitted between the two parts. However, since the outer part ( 3 ) is braked via the braking device ( 6 ), the knee joint can only be bent again if the braking torque brought up by the braking device ( 6 ) is dependent on the difference between the riot force and the actuating force. is exceeded. The prosthesis wearer can sensitively control the braking resistance by metering the actuation force.

Another embodiment is shown in FIG. 2. In this example, the function of the knee joint according to the inven tion is realized by a hydraulic arrangement. The pivot point ( 1 ) only ensures the bearing function. In addition, a cylinder ( 2 ) is used in this arrangement, the piston chamber ( 3 ) with the piston rod genraum ( 4 ) via a 2/2-way valve ( 5 ) which is actuated by the load on the leg. Parallel to the 2/2-way valve ( 5 ), a check valve ( 6 ) and a flow control valve ( 7 ) controllable by the prosthesis wearer are arranged. In addition, there is a memory ( 8 ) in one of the connecting lines, which only serves to compensate for the volume difference between the piston space and piston rod space, but is of secondary importance for the inventive function of the knee joint.

If the lower leg is moved in the direction of extension, the piston must extend out of the cylinder ( 2 ). To make this possible, the hydraulic fluid in the system can flow from the piston rod chamber ( 4 ) via the check valve ( 6 ) into the piston chamber ( 3 ), regardless of the position of the 2/2-way valve ( 5 ) located. As a result, the lower leg is always freely movable in the direction of extension.

If, however, the knee joint is to be bent, the piston of the cylinder ( 2 ) must retract. For this purpose, it is required that the hydraulic fluid flows from the piston chamber ( 3 ) into the piston rod chamber ( 4 ). However, since the check valve ( 6 ) blocks in this direction, the hydraulic fluid can only flow through the 2/2-way valve ( 5 ), which is blocked when the lower leg is loaded, or via the flow control valve that can be adjusted by the prosthesis wearer ( 7 ), with the help of which the braking resistance of the arrangement can in turn be metered out sensitively.

The use of a spring ( 9 ) in Fig. 2 or ( 10 ) in Fig. 1, which counteracts the loading force ent is particularly advantageous. This can make it possible for the load-dependent braking to take effect only when a ge minimum load force is exceeded. This is particularly in the first phase of lifting and advancing the leg when walking is advantageous, since the knee must be bent ge, although there is still a small residual load.

Except for the realization of the knee described as an example joints according to the invention with mechanical or hydraulic principle, the use of electrical, electronic or pneumatic auxiliaries ment possible.

Claims (7)

1. Knee joint for a prosthesis as a replacement for the natural knee joint, with free mobility in the direction of extension of the leg and load-dependent locking in the Beu direction, characterized in that the diffraction can be controlled by issuing a switching signal to a braking device such that the bending process counteracts a braking resistor controllable in size by the prosthesis wearer. 2. Knee joint according to claim 1, characterized in that the movement-dependent blocking by a self-locking mechanism (e.g. a freewheel clutch) takes place by means of a load of the leg triggered or generated switching signal switches or is switched off. 3. Knee joint according to claim 1 and 2, characterized net that part of the locking mechanism via a braking device controllable in magnitude of its effect is connected to part of the prosthesis. 4. Knee joint according to claim 1, characterized in that the movement-dependent blocking by a friction conclusive locking device takes place. 5. Knee joint according to claim 1 and 4, characterized net that the load-dependent block in Beugerich tion is carried out by a friction brake device, which is operated by the load of the leg and possibly by additional intervention of the prosthesis wearer from stepless and controllable on the outside. 6. Knee joint according to claim 1, 4 and 5, characterized records that with the help of a spring that the load of the leg counteracts, can be adjusted, wel  che minimum load to operate the braking device is required. 7. Knee joint according to claim 1, characterized in that the free mobility in the stretching direction, the bela depending on the position in the flexion direction and the controllable braking resistor via electrical, electronic real, hydraulic or pneumatic auxiliary elements is settled.