阅读说明：本技术 被动式肩旋复健治疗仪 (Passive shoulder rotating rehabilitation therapeutic apparatus ) 是由 瓜罗丘亚·冈萨雷斯·鲁伊斯 于 2018-09-06 设计创作，主要内容包括：本发明为一项新颖治疗装置,它能围绕并牢固地包住臂的上部,并且允许治疗师将一对相向的切向力(13)施加到装置中的装置的突出或突起(6)和(7)。以执行被动式的肩部内旋转和外旋转的复健锻炼,并而无需将任何力量传递到肘部。这种直接将力量施加到手臂上部的方法避免了前臂被用作执行旋转的杠杆,避免了旋转可能会在治疗过程中对肘部造成的损坏或影响。另外,该装置允许将最大程度的力量施加到肩上,以最大程度地恢复患者的健康。该设备的替代设计通过耦合部件(14),(15)将其连接至变速电动机。(The invention is a novel treatment device which surrounds and securely encases the upper portion of the arm and allows the therapist to apply a pair of opposing tangential forces (13) to the protrusions or projections (6) and (7) of the device in the device. To perform passive intra-and-extra-shoulder rehabilitative exercises without any force being transmitted to the elbows. This method of applying force directly to the upper portion of the arm avoids the forearm being used as a lever to perform the rotation, which could cause damage or impact to the elbow during treatment. In addition, the device allows for maximum force to be applied to the shoulder to maximize the recovery of the patient's health. An alternative design of the device is to connect it to a variable speed motor by means of coupling members (14), (15).)

1. The passive shoulder rotating motion therapeutic apparatus is characterized by comprising:

-a main body (1),

-a guard (3) (4),

-a tab (6) (7),

-a cover (8) (9),

-a hole (12) in the protruding part, and

-a coupling member (14) of a variable speed motor.

2. Therapeutic device according to claim 1, characterized in that said body (1) wraps and compresses said upper arm, obtained by using a belt (10) and a buckle (2).

3. The treatment device according to claim 1, characterized in that the body (1) is adapted to support and transfer tensile and compressive stresses generated during the application of force (13).

4. The treatment device according to claim 1, wherein the body (1) when pressed creates friction between the device and the patient's skin.

5. The treatment device according to claim 1, characterized in that a protective element (3) (4) is used for protecting the skin of the patient, reducing and distributing the pressure and shear forces occurring at the site.

6. The treatment device according to claim 1, characterized in that the protection (3) (4) is adapted to support and transmit tensile and compressive stresses generated during the application of the tangential force (13).

7. The treatment device according to claim 1, wherein the protective sheet (3) (4) increases the friction between the device and the skin of the patient's arm, thereby preventing slippage when force is applied.

8. The treatment device according to claim 1, characterized in that the protrusions (6, 7) uniformly transfer (13) tangential forces applied as tensile and compressive stresses to the body (1) and the protector (3, 4).

9. The treatment device according to claim 1, wherein after sewing the cover (8) (9) to the base sheet (1) containing the tabs (6) (7), a non-slip grip is provided for the therapist when applying the tangential force (13).

10. The treatment device according to claim 1, characterized in that the holes (12) formed on the projecting portion (7) and its cover (9) allow the rest of the strap (10) to enter into the holes (12), preventing them from interfering with the therapist's grip on the projecting member (7).

11. A treatment device according to claim 1, characterized in that the coupling means (14) incorporated in the protruding member (6) (7) allow the device to be connected to a variable speed motor.

Technical Field

The invention relates to a passive shoulder rotating rehabilitation therapeutic apparatus, which is used for rehabilitation or physical therapy of shoulders, in particular to passively exercising the internal and external rotation of the shoulders, especially on scapulohumeral periarthritis commonly called frozen shoulders.

Background

The shoulder joint is the most flexible joint with the largest range of motion in the human body and consists of three bones: humerus, scapula, and clavicle. The humeral ball is attached to the scapular cavity and is completely wrapped in connective tissue to form a shoulder joint capsule.

If the "frozen shoulder" condition occurs in the joint, it will not only hinder the movement, but also cause severe pain. This condition, also known as "adhesive capsulitis", consists of a chronic inflammation of the connective tissue covering the entire shoulder joint, forming an adhesive bond and causing pain, stiffness and reduced mobility of the arm.

The causes of scapulohumeral periarthritis are: diabetes, hormonal changes (menopause), thyroid problems, heart condition, injury or inability to fix after surgery. The treatment of scapulohumeral periarthritis involves a large number of daily physical therapies, one of which is internal and external rotation of the shoulder.

The existing passive physical therapy method for rotating the shoulders inside and outside comprises the following contents: firstly, a patient lies on a stretcher; the arm is perpendicular to the axis of the spine and lies on the axis formed by the shoulders. The elbow is then bent ninety degrees with the forearm pointing toward the ceiling. The therapist then holds the elbow with one hand (as a fixation point for the hinge) and the other hand holds the forearm via the wrist and applies force in the form of a lever. The force applied to the forearm is transferred as a lever to the elbow and then from the elbow through the upper arm to the shoulder. This method can produce torsion in the elbow, which can damage the elbow. If a device capable of well grasping and transmitting force is used to apply force on the same axis of the upper arm, an elbow injury can be avoided.

Several patented techniques for passive shoulder rotation therapy include fittings that securely hold the forearm of the patient to the device. Using the device as a lever, a force on the device is applied to the forearm, similar to the manual method of passive exercise previously described. These forces applied to the forearm (as a lever) are transmitted through the elbow and then the force reaches the shoulder. The following are some related patents:

US 2017/0224516 a1, issued 8/10 in 2017, is entitled "shoulder joint orthosis comprising flexion/extension means". The inventor is Peter m. bonutti, his invention is a shoulder orthosis for treating shoulder joints. The device also holds the forearm, which is at a 90 degree angle to the arm, where mechanical force is applied to the forearm by clockwise rotation. In this case, the applied force is transferred first to the elbow and then to the shoulder. The main disadvantage of this technique is that only the forearm can be used as a lever to apply the force. Thus, the applied force must be transmitted through a healthy elbow. And the elbow may be injured and damaged due to the force applied during the physical therapy. Furthermore, in order to avoid injury to the elbow, the therapist may not apply sufficient strength to promote recovery of the shoulder.

KR 20140114081(a), entitled "shoulder-cooling exercise device", published 9/26/2014. The inventors are LEE DO YOUNG. The invention describes a large-sized mechanical device. The device can be forced to perform circular motion so as to perform passive rotation of the shoulders, raising the arms and inward and outward rotation of the arms. The main disadvantage of this technique is that only the forearm can be used as a lever to apply the force. Thus, the applied force must be transmitted through a healthy elbow. And the elbow may be injured and damaged due to the force applied during the physical therapy. Furthermore, in order to avoid injury to the elbow, the therapist may not apply sufficient strength to promote recovery of the shoulder.

In patent US 2010/0076354 a1 issued on 25.3.2010; entitled "" passive shoulder continuous exercise device ""; inventor is ROBERT a. kelly. The present invention proposes a device for sliding the forearm support mechanically forwards and backwards. The device provides therapy independent of shoulder rotation therapy.

WO 2006/058442 a1 issued on 8.6.2006; entitled "systems and methods for cooperative arm treatment and corresponding rotation modules". Original title is UND SYSTEM VERFAHREN FUR DIE KOOPERATIVELVEARTHRATHERAPIE SOWIE ROTATONSMODULD DAFUR. The inventors are Tobias Nef, Robert Riener, et. The present invention shows a mechanical device that can provide both internal and external rotation of the shoulder. The apparatus supports the arm and forearm of the patient and causes the necessary therapeutic movement of the apparatus by means of the motor. The main disadvantage of this technique is that only the forearm can be used as a lever to apply the force. Thus, a healthy elbow may be injured or injured while receiving the resulting effort. Furthermore, in order to avoid injury to the elbow, the therapist may not apply sufficient strength to promote recovery of the shoulder. .

Disclosure of Invention

"treatment apparatus for passive shoulder rotation movement" includes an apparatus that allows a therapist to passively move the inward and outward rotation of the shoulders and apply force directly to the upper arm of the patient. Force is not required to be applied to the forearm; the force is not transmitted through the elbow, and the elbow is prevented from being injured or injured during the treatment process. In an alternative design of the device (fig. 9, 10, 11), it can be connected to a variable speed motor responsible for providing the force to perform the shoulder rotation.

The prior art has been to apply forces to the forearm, which forces are transmitted through the entire limb. The elbow is subjected to unabsorbed and unnecessary force application. This condition may cause an elbow injury. On the other hand, to avoid injuring the elbow of the patient, it is also possible to reduce the amount of force applied, so that the strength is not strong enough to promote the rehabilitation of the shoulder.

The therapist can apply the necessary force on the upper arm to perform the rotation of the inner and outer shoulders with the device provided by the project. The therapist may provide greater strength to maximize shoulder recovery without exceeding acceptable shoulder tolerance. This eliminates the need to transmit force through the elbow, thereby eliminating the possibility of elbow injury that might otherwise result.

The present device is the first invention developed for passive exercise treatment of internal and external rotation of the shoulder, which allows the necessary force to be applied directly to the upper arm. The force generated during the treatment process cannot be transmitted through the elbow, thereby avoiding injuring or injuring the elbow. At the same time, the device maximizes the force applied to the shoulder while avoiding exceeding the limits that may cause elbow injury.

The present apparatus is capable of performing passive internal and external rotation of the shoulder, applying the necessary force directly on the upper arm. Avoid exerting force through the forearm to remove the injury or discomfort caused to the elbow of the arm. .

Drawings

FIG. 1 is an isometric view of a patient using the apparatus;

FIG. 2 is a southeast isometric view of the equipped apparatus;

FIG. 3 is a southwest isometric view of the equipped apparatus;

FIG. 4A is a front view of an assembled device;

FIG. 4B is a front view of the apparatus applying the opposing force;

FIG. 5 is a southeast isometric view of the device when deployed;

FIG. 6 is a perspective view of the discharge apparatus;

FIG. 7 is a top view of the device sizing;

FIG. 8 is a cross-sectional view taken along line A-A' of the apparatus;

FIG. 9 is a top plan view of the apparatus as dimensioned, including the portion connected to the motor;

FIG. 10 is a cross-sectional view taken along line B-B' of the apparatus, including portions of the motor coupling;

FIG. 11 is a front view of the assembled device, including a portion of the motor coupling and applied torque;

fig. 12. snap: an isometric top view of the exploded part, section C-C';

FIG. 13 Engine coupling Components: an isometric exploded view, a side view and a front view;

Detailed Description

The "passive shoulder rotation rehabilitation therapy apparatus" allows the force to be applied directly to the upper arm without transmitting the force through the elbow. It can avoid affecting or injuring elbows and also help to maximize the force borne by the shoulders. The device can be wrapped around the upper arm and adjusted to the arm of the patient by four straps (10) and their buckles (5) and tightened. The closure prevents the device from sliding around the arm when a tangential force (13) is applied to the handles or protrusions of the devices (6) and (7). On the protrusion, the therapist can apply the necessary force to produce internal or external rotation of the shoulder.

In an alternative design of the device (fig. 9, 10, 11), the tangential force (13) is applied by a variable speed motor, which can be fixed to the device by means of connecting parts (14) and (15).

The main material of the device must be inert and malleable to conform to the shape of the arm, to wrap the patient's arm (1) (3) (4) (10). It must be able to resist traction forces to withstand compression forces and must create sufficient friction with the patient's arm to transfer the forces generated during treatment. The material may be made of leather 2 mm thick or some synthetic material that mimics its properties. The same material is also used for the coating of the protruding parts which exert tangential stresses (8) and (9).

Another element used in the construction of the device consists of a hard part with rounded edges (6) and (7). The hard piece acts as a handle for the therapist to apply the opposing force (13). The force will be transferred to the shoulder to perform the rotation. The material may be wood or a rigid plastics material. The rounded shape serves to protect the covers (8) and (9) and prevents them from breaking during use. Furthermore, a metal buckle (2) is used in the construction of the device. The buckle is connected to the body (1) by winding a short strip (11) around one of the central axes of the buckle. They are fixed in position by means of rivets (5), which rivets (5) fix the above-mentioned buckles (2). Rivets fix the leather protector (3) in place, which separates the clasp from the arm.

The buckle (2) can be seen in detail in fig. 12 and is provided with a double central shaft. The first shaft contains a rotating pin (18) that fixes and secures the belt (10). The other central axis (17) is surrounded by a short strap (11) which connects the buckle (2) to the body (1). In addition, one of the outer shafts has a hollow cylinder (16), the hollow cylinder (16) being free to rotate and facilitating the tightening of the belt (10).

Fig. 13 shows a detail of the coupling (14). Fig. 11 shows the coupling (14) and the mating coupling (15), both of which connect the device to a variable speed motor. The coupling (14) passes through the handles of the devices (6) and (7) like a screw. One end of the coupling member is composed of a nut (20) and a washer (19), and the other end has a hexagonal hole for loading and unloading using an allen key. The coupling (14) has a cylindrical shape in its main head, the axis of which is reduced in diameter in its central portion for forming a cavity for coupling with the piece (15). The inner end of the head has an integral washer.

This device can be seen in the arm of the patient of fig. 1, shown in a southwest isometric view and a southeast isometric view in fig. 2 and 3. Fig. 4A and 4B show side views of the mounted device, with fig. 4B adding to the front view (13) of the device applying the opposing force. Fig. 5 shows a southeast isometric view of the device when deployed, and fig. 6 shows an isometric view with all components of the device removed. Figures 7 and 8 show the top view and lateral section a-a' of the stent showing its major dimensions. Fig. 9, 10 and 11 show an alternative design of the device, which includes coupling parts (14) and (15) so that the force is provided by a variable speed motor. Figures 12 and 13 show details of the buckle (2) and the coupling part (14) to the variable speed motor.

The device sizes shown in figures 7 to 10 are designed for those arms where the biceps muscle tightened by the device is between 24.9 and 33.3 cm.

The installation of the device during its construction is as follows:

a) the body of the device (1) is 2 mm thick leather (or other equivalent synthetic material) and is wound on the upper arm. It has four strips or long strips (10) at one end and a plurality of holes at short intervals. At the other end there are four short strips (11) to which the metal buckles (2) will be fixed by using rivets (5). The strip (10) is threaded into the buckle (2) as tightly as possible to secure the upper arm to the apparatus, so that no slippage occurs between the upper arm and the apparatus when tangential forces are applied.

b) Several pieces of leather (4) and (3) are incorporated to protect the skin of the patient. It helps to improve the contact area between the leather and the arm. It also increases the friction between the device and the arm under the four long strips (10) and the four short strips (11) to accommodate the buckle (2). The two pieces are sewn to the body (1) and joined by glue.

c) The rivet (5) used fixes the strip (11) on one of the two central axes (17) of the buckle (2) and also fixes the protective sheet (3) in place.

d) A wooden block with rounded edges (6) and (7) or made of other hard plastics is placed on top of the main leather block (1). The wood chips are fixed to the leather by means of leather wrappers (8) and (9) sewn to the main leather sheet (1). One wood (6) is solid, while the other wood (7) is penetrated by the holes of two rectangular inlets (12). When adjusted to a position appropriate to the arm of the patient, these holes will accommodate the excess strap or longer central strap (10) of the device to avoid the therapist interfering with his grip on the component.

The use mode of the device is as follows:

the first operation is to place the device around the upper arm and tighten it firmly using the belt (10) and buckle (2), as shown in fig. 1; the patient is then placed on a table and the upper arm is placed on the same plane formed by the stretcher and perpendicular to the patient's spine with the forearm bent and pointing towards the ceiling. The therapist grips one of the protrusions of the devices (6) and (7) with each hand. The therapist then applies a pair of opposing forces, as indicated by arrows (13) in figure 4B, and produces a medial or lateral rotation on the patient's shoulders.

The alternative design of the device modifies the projections (6) and (7) with the addition of a coupling member (14) which allows to connect the device to a variable speed motor. The motor applies a pair of tangential and opposing forces, which will produce rotation of the shoulder. In addition, the wood chips (7) are solid and do not contain pores (12).