KR101669130B1 - Multi-DOF shoulder rehabilitation robot adapting to anatomical structure of shoulder joint - Google Patents

Abstract

The present invention relates to a multi-degree-of-freedom rehabilitation robot adaptable to an anatomical structure of a shoulder, and more particularly, to an anatomical structure of a shoulder joint that rotates a shoulder joint and stretches a related musculoskeletal structure in a desired range of motion Adaptive multi-degree-of-freedom rehabilitation robot. According to the present invention, since the range of motion of the upper extremity is greater than that of the existing shoulder rehabilitation apparatus, it is possible to perform more effective rehabilitation and to realize the natural and comfortable movement of the shoulder joint considering the anatomical structure of the shoulder, Effective rehabilitation is possible.

Description

A multi-DOF shoulder rehabilitation robot adapting to an anatomical structure of shoulder joint,

The present invention relates to a multi-degree-of-freedom rehabilitation robot adaptable to an anatomical structure of a shoulder, and more particularly, to an anatomical structure of a shoulder joint that rotates a shoulder joint and stretches a related musculoskeletal structure in a desired range of motion Adaptive multi-degree-of-freedom rehabilitation robot.

Conventionally, a CPM (Continuous Passive Motion) device has been generally used as an articulation therapy device to help a patient recover after a joint operation.

However, the devices used in the rehabilitation process of these patients are difficult to move joints because most of the patients who have undergone joint surgery have a lot of pain during joint movement, the joints around the joints are stiff, There is a problem in that a considerable rehabilitation period is required until recovery.

KR 10-0841177 B1

The present invention has been developed to solve such a problem, and compared to conventional CPM (Continuous Passive Motion) apparatus, gravity compensation and follow-up of the shoulder joint according to the arm movement can be followed to cause pain in the shoulder joint The purpose of this study is to provide a multi-degree-of-freedom rehabilitation robot that adapts to anatomical structure of the shoulder joint so as not to limit the rotational range of the shoulder joint.

In addition, a multi-degree-of-freedom rehabilitation treatment robot that adapts to the anatomical structure of the shoulder, which can rehabilitate not only the flexion / extension and abduction / And the like.

In addition, a multi-degree-of-freedom rehabilitation robot that adjusts the axial direction of the motor freely within a horizontal plane, adapts to the anatomical structure of the shoulder joint so that the orientation of the motor can be set around the patient, And the like.

According to an aspect of the present invention, there is provided a multi-degree of freedom rehabilitation robot adapted to an anatomical structure of a shoulder joint according to the present invention, comprising: a horizontal rail fixing part capable of moving up and down along a vertical axis fixed to a frame; A horizontal rail restrained to be slidable in a horizontal plane with respect to the horizontal rail fixing portion; An axial adjustment unit connected to one end of the horizontal rail so as to be able to rotate in one direction; A driving unit connected to the sideways adjuster so as to be able to rotate in one direction; A splint connected to the driving unit to fix the upper limbs of the patient; And a gravity compensation device attached to the horizontal rail fixing part and following a rising and falling of the shoulder joint according to the rotation of the splint on which the patient's upper limb is fixed.

According to the present invention, since the range of motion of the upper extremity is larger than that of the existing shoulder rehabilitation apparatus, it is possible to perform more effective rehabilitation and to realize a natural and comfortable movement of the shoulder joint considering the anatomical structure of the shoulder, Effective rehabilitation is possible.

In addition, the range of motion that can be rehabilitated at a lower cost than existing devices using two or more motors using one motor can be further diversified, and a specific operation Is more effective for therapists to set the range of motion to stretch, and thus the usability in clinical treatment field can be improved.

In addition, it is possible to replace the existing expensive shoulder rehabilitation devices such as the conventional passive motion (CPM) devices. If the product is miniaturized and used for exercise for strengthening the shoulder in the home, As well as for the treatment of shoulder joint disease in the general public.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a multi-DOF rehabilitation robot adapted to an anatomical structure of the shoulder according to one embodiment of the present invention.
Fig. 2 is a view showing a sliding structure of a horizontal rail and a structure in which an axial direction of a driving unit motor is connected to a horizontal rail in Fig. 1; Fig.
3 is a view showing an example of a case where rehabilitation treatment is performed through movement of the arm using the multi-degree of freedom rehabilitation robot of FIG. 1;
Fig. 4 is a view showing an example of a splint structure connected to the motor driving unit in Fig. 1 to rotate the arm. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a view showing a multi-degree of freedom rehabilitation robot adapted to an anatomical structure of a shoulder according to an embodiment of the present invention. FIG. 2 is a perspective view of a sliding structure of a horizontal rail, FIG. 3 is a view showing an example of rehabilitation treatment through movement of an arm using the multi-degree of freedom rehabilitation robot of FIG. 1, and FIG. FIG. 5 is a view showing an example of a splint structure for rotating the arm.

As shown, a multi-DOF rehabilitation robot adapted to the anatomical structure of the shoulder of the present invention includes a frame 10, a vertical axis 20, a gravity compensation device 30, a horizontal rail 40 A spline 60, a horizontal rail fixing part 70, an axial direction adjusting part 80 and a motor position adjusting device 90. The driving part 50,

The gravity compensating device 30 is attached to the horizontal rail fixing portion 70 to follow up and down the shoulder joint according to the rotation of the splint 60 to which the patient's upper limb is fixed.

The horizontal rail 40 is restrained so as to be slidable in the horizontal plane with respect to the horizontal rail fixing portion 70. [

The driving unit 50 is connected by the axial adjustment unit 80 so as to be rotatable in one direction.

The splint 60 is connected to the driving unit 50 to fix the upper limbs of the patient (between the shoulder and the wrist).

The horizontal rail fixing portion 70 has a structure capable of moving up and down along a vertical axis 20 fixed to the frame 10.

The axial adjustment unit 80 is connected to one end of the horizontal rail 40 so as to be rotatable in one direction.

The motor position adjusting device 90 is attached to the axial adjusting part 80 to move the motor of the driving part 50 in the vertical and horizontal directions, and positions the motor shaft at a certain distance from the rotational center of the shoulder joint.

The multi-DOF rehabilitation robot of the present invention having such a structure is a device that combines an arthroscopic therapeutic apparatus for moving the arm within a desired range of motion and rehabilitating the shoulder joint, and a gravity compensation apparatus for following the shoulder joint.

Further, the multi-degree of freedom rehabilitation robot according to the present invention enables more and more various revolving movements in the rotation direction than the existing CPM (Continuous Passive Motion) device according to the alignment state of the device.

In particular, in the conventional apparatus, the number of the driving motors, which had to be used more than two times, is reduced to one in the present invention, so that the cost is low and the usage is simple. The movement of the shoulder joint according to the arm movement is followed by using the gravity compensation device and the shoulder follow- The shoulder joint is not crowded and does not cause pain, so biomechanical natural movement can be realized.

The shoulder rehabilitation apparatus of the present invention rehabilizes the shoulder joint in such a manner that the apparatus is set in the rotational direction of the specific direction to be rehabilitated during various rotation operations of the shoulder joint, and then the shoulder joint is stretched only in that direction.

The operation that can be trained by the apparatus of the present invention includes three kinds of operations for lifting and lowering the arm as shown in Fig. 3, and one type of rotation operation for rotating the arm about the longitudinal direction of the upper arm (part from the shoulder to the elbow) There are four types of motion training.

The arm is lifted up to the front, and the arms are lifted up. The flexion / extension, the arm to the side, the abduction / adduction, as well as the arms, The movement of the arm is an external / internal rotation operation with the upper limbs bent at 90 degrees toward the front side.

Adjust the axial direction of the drive motor within the horizontal plane to train the above four motions with one motor. The drive 50 including the motor is attached to the end of a curved (or straight) horizontal rail 40 with any curvature.

The horizontal rail 40 is restrained so as to be slidable in the horizontal plane with respect to the horizontal rail fixing portion 70 and determines the relative position of the motor to the shoulder joint through sliding of the horizontal rail 40. [

The horizontal rail fixing part 70 can be moved up and down along a vertical axis 20 fixed to the frame 10 and a horizontal rail fixing part 70 is provided with a manual rail which can follow up / Or an active gravity compensation device 30 is attached.

The CPM, which moves the arm within the desired range of motion by the gravity compensation device 30 to rehabilitate the shoulder, follows the rise / fall of the shoulder joint according to the exercise of the upper limb and does not limit the rotational range of the shoulder joint Rehabilitation training can be done within a larger range of motion.

The driving unit 50 at the end of the horizontal rail 40 is connected to the axial adjustment unit 80 so as to be rotatable in one direction so that the motor shaft can be aligned with the center of the shoulder joint at any position. The axial direction of the driving unit 50 can be freely adjusted within a horizontal plane.

As shown in FIG. 2, the axial direction adjusting unit 80 is provided with a motor position adjusting device 90 capable of moving the motor vertically and horizontally, so that the motor shaft can be positioned at a certain distance from the rotational center of the shoulder joint.

In order to re-arm the arm, it is necessary to adjust the axial direction of the motor of the driving unit 50 in a horizontal plane as shown in Fig. 3 and then to attach and detach the splint 60 to the arm of the patient, And connects the driving unit 50 motor to the point. Driving part (50) The motor is lifted up and down in a plane perpendicular to the axis, and trains the combination of flexion / extension and abduction / adduction, or any combination of the two.

In order to reestablish the external / internal rotation motion, as shown in FIG. 4, when the spline 100 is attached to the motor 100 so that the axis of the motor is aligned with the rotation direction of the abduction / adiabatic motion and the shoulder- 100) can rotate about the longitudinal direction of the upper arm and train the external / internal rotation motion of the shoulder joint.

The splints used in the present invention for securing the patient's upper limb to the device can be removably attached, so that various types of splints for rehabilitation can be used.

As described above, the shoulder joint rehabilitation apparatus of the present invention rotates the shoulder joint in a desired range of motion and stretches the related musculoskeletal structure. It is a device for not only various neurological diseases such as stroke in the clinical field, but also shoulder joint arthritis, Can be used as a rehabilitation treatment device for patients in need. Depending on the degree of miniaturization of the product, a person with weakened shoulder joints due to aging or injury may be used for rehabilitation in the home.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

10: Frame 20: Vertical axis
30: Gravity compensation device 40: Horizontal rail
50: driving part 60,100: splint
70: Horizontal rail fixing portion 80: Axial adjustment portion
90: Motor position adjusting device

Claims (3)

As a multi-degree-of-freedom rehabilitation robot adapted to the anatomical structure of the shoulder,
A frame in which a vertical axis is fixed;
A horizontal rail fixing part movable up and down along an axis in the vertical direction of the frame;
A horizontal rail formed in a curved shape having an arbitrary curvature and connected so as to be slidable in a horizontal direction with respect to the horizontal rail fixing portion;
An axial adjustment unit connected to one end of the horizontal rail to be rotatable in one direction;
A driving unit connected to the driving unit so as to be rotatable in one direction by the driving unit;
A splint connected to the driving unit and fixing the upper limbs of the patient; And
A gravity compensating device connected to the horizontal rail fixing part and following up and down of the shoulder joint according to the rotation of the splint on which the patient's upper limb is fixed,
By this,
The shoulder joint follows the movement of the patient's shoulder joint does not cause pain does not cause biomechanical natural movement
A multi - degree rehabilitation robot adapted to the anatomical structure of the shoulder.
The method according to claim 1,
A motor position adjusting device capable of moving the motor of the driving part in the vertical and horizontal directions is attached to the axial direction adjusting part to position the motor shaft at a predetermined distance from the rotational center of the shoulder joint
A multi-degree-of-freedom rehabilitation robot adapted to anatomical structures of the shoulder.
The method according to claim 1,
The splint connected to the driving unit may have a straight shape or a vertically curved shape at the shoulder end,
A multi-degree-of-freedom rehabilitation robot adapted to anatomical structures of the shoulder.

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