RU2005445C1 - Device for correcting and treating vertebral column - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has a frame composed of cross - piece members 1 and side members 2 with longitudinal guides, flexible tapes 3 fixed between the cross-piece members, rigid transverse ribs 8, units for changing curvature of a surface defined by the ribs including slides oppositely located in the guides of the side members, elastic members interacting with the ribs and lumbus support member. Each rib has windows through which the flexible tapes pass, protrusions formed at the level of windows and directed from the lumbus support member, shelf 11 in the upper portion and oriented in the same direction and shelf 10 formed in the lower portion and directed to the lumbus support member. The ribs furthermore are provided with stops located in the lower portion towards the lumbus support member and having cylindrical surfaces for interacting with protrusion 12 of an adjacent rib. Elastic members 14 are located in the lower portion of ribs between flexible tape and shelf. Oppositely located slides interact with the lower portion of opposing ribs. To provide that carrying lower shelves of opposing ribs can be fixed between the slides. EFFECT: enhanced efficiency and reliability. 5 dwg

Description

 The invention relates to devices for physiotherapy, and more particularly to devices for stretching and lengthening the spine in order to unload and correct the position of the intervertebral discs.

 A known design of a device for stretching the spine of a patient with an external loading device for stretching.

 Preparing a device of this type for use is difficult. A person in a device of this type feels uncomfortable with prolonged stretching. The effectiveness of this device is low due to the reflex resistance of the patient’s muscles to stretching.

 A device for unloading the spine of a sitting or lying person, containing a pillow of elastic material with transverse protruding ribs to support the human body, inclined from the lower back of the person along the longitudinal axis of the pillow, respectively, to the head and legs. The tensile force is created by this device when it is loaded from above by the human body due to the bending of each of the ribs: towards the head (above the lower back) and towards the legs (below the lower back). The movement of the free ends of the ribs, which are in interaction with the human body, is transmitted to the skin, to the connective tissue, to the human muscles and to the vertebrae.

 The disadvantage of this device is that the convenience of placing a person on it is achieved by removing some of the transverse inclined elements from an elastic material. This leads to a decrease in tensile efficiency.

 Another disadvantage of the device is that its geometry can be designed for people of a certain anthropometry. For people of other anthropometric groups, the effectiveness of the device in this case is reduced. It is impossible to adjust the supporting surface of the device on the recommendation of a doctor and taking into account the design features of a particular person and the nature of his disease.

 A device for stretching the spine, consisting of three elastic layers. The upper layer is made with inclined ribs, creating a tensile force for the spine. This layer corresponds to another known device. The second layer is made more malleable, and the third (lower) one is more rigid - supporting. This design provides more favorable conditions for the spines of people of different anthropometric sizes due to the compression of the inner, more pliable layer of elastic material. However, in this design, crushing of a part of the ribs and their exclusion from effective work does not prevent spinal stretching. In addition, the most significant drawback of this device is the inability to set the necessary curvature of the spine of a lying person and in this position to produce traction. Since the center of gravity of a lying person is located in the lumbar region, the forcing of the elastic layers of the device can lead to excessive kyphoid bending of the spine, which is an unfavorable position for stretching the spine.

 A known design of a device for correction and treatment of the spine, consisting of a frame made of cross members and side walls with longitudinal guides, and flexible tapes fixed between the cross members, transverse links interconnected by hinged nodes, sliders with position locks and holders of the transverse links located in guiding sidewalls opposite, and rigid transverse ribs mounted pivotally on the transverse links. The device provides the ability to adjust the supporting surface in accordance with the contacting surface of the body of a particular person, and rigid transverse ribs provide the effectiveness of stretching the spine. This device is the closest to the proposed design and is taken as a prototype.

 However, the installation of rigid transverse ribs in groups on a flat surface of the transverse links leads to the fact that some areas of the supporting surface of the device cannot accurately reproduce parts of the body surface with a large curvature, for example, in the pelvic region. In addition, for people with small anthropometric dimensions, the relative size of the flat part of the transverse links (relative to the length of the body) can be very large, which will reduce the accuracy of the device reproducing the contacting surface of the human body. All this reduces the efficiency of the device.

 The proposed design allows to increase the effectiveness of dynamic correction of the spine and treatment of vertebral disorders by increasing the accuracy of matching the curvature of the supporting surface formed by the upper parts of the hard transverse ribs to the patient’s body.

 This is achieved due to the fact that in the device for correction and treatment of the spine, containing a frame of cross members and side walls with longitudinal guides, flexible tapes fixed between the cross members, rigid transverse ribs, nodes for changing the curvature of the surface formed by the ribs, including sliders placed in the guides of the side walls on the contrary, elastic elements interacting with the ribs, and a lumbar support element, each rib has windows for flexible ribbons, protrusions made at the level of windows and directed away from the waist support element, a shelf in its upper part directed in the same direction, a shelf in its lower part directed to the lumbar support element, stops in the lower part directed towards the lumbar support element, with a cylindrical surface for interaction with the protrusion of an adjacent rib, moreover, the elastic elements are placed between the flexible tape and the shelf in the lower part of the rib, the opposed sliders interact with the lower part of the opposing ribs, and the erasers are fixed between the opposite sliders nor, on which rest the lower shelf of the opposing edges.

 The fastening of the rigid transverse ribs directly on the flexible tapes using the windows made in them, allows you to ensure the curvature of the supporting surface of the device formed by the shelves in the upper part of the ribs, corresponding to the curvature of the flexible tapes and, accordingly, the curvature of the patient's body. This is especially important for the effective treatment of the patient's spine. In addition, the fastening of each rib on flexible tapes provides its independent elastic angular rotation. This new construction property allows to obtain a supporting surface from the elements of the rib-shelves in their upper parts with a step equal to the distances between the ribs. This step is several times smaller than in the device adopted for the prototype, where it is a multiple of the number of ribs installed on the transverse links. The placement of elastic elements between flexible tapes and shelves in the lower part of the ribs directed towards the lumbar element provides a spring-loaded installation of ribs, and the implementation of shelves in the upper part of the ribs directed from the lumbar support element provides the necessary direction of elastic rotation of the ribs under load from the human body and Thus, the functioning of the device as a spine stretcher. The implementation of the protrusions at the level of the windows of the ribs, their location with the direction away from the lumbar support element, the execution of the stops with a cylindrical surface in the lower part of the ribs directed to the lumbar support element and interacting with the protrusions of adjacent ribs, provides a kinematic possibility of spring-loaded rotation of the ribs without moving them along flexible tapes, which is also a prerequisite for the functioning of the device as a spine stretcher.

 The execution of the rods between the opposed sliders placed in the longitudinal guides provides a rigid connection between the guides and a stable support for opposing transverse ribs, thus forming nodes of the change in the surface curvature of the shelves in the upper parts of the ribs. All this ensures the functioning of the device with increased accuracy of correspondence of the curvature of the supporting surface formed by the shelves in the upper part of the rigid transverse ribs to the patient’s body and, therefore, increases the efficiency of the treatment of the spine.

 In FIG. 1 shows a device, a General view, a longitudinal section; in FIG. 2 is an enlarged view of a fragment of the device in longitudinal section along the axis of symmetry; in FIG. 3 - view of the installation of the slider in the guides of the sidewalls; in FIG. 4 - device, top view; in FIG. 5 is a view of the installation of stops and protrusions on the ribs.

 A device for correction and treatment of the spine has the following design. The base of the device is made in the form of a frame consisting of cross members 1 (see Fig. 1) and sidewalls 2, each of which is made in the form of a pair of tubes located one above the other. Inside the frame are pre-stretched flexible tapes 3, the ends of which are fixed on the cross members 1. The nodes 4 for fixing the flexible tapes 3 are made in the form of self-tightening loops (see Fig. 2).

 In the place of greatest deflection of the lower back 5 of patient 6 (see Fig. 1), the lumbar support element 7 is fixed on the sidewalls 2.

 Inside the frame on the tapes 3 there is a system of rigid transverse ribs 8, for which each rib 8 (see Fig. 2 and 3) has windows 9 for the corresponding tapes 3.

 The ribs 8 have a figured shape: in the lower part of the rib 8, a shelf 10 is made along its entire length, directed towards the lumbar support element 7 (see Fig. 1), and in the upper part of the rib 8 is a shelf 11 (see Fig. 2 and 3), directed away from the lumbar support element 7 (see Fig. 1). The shelves 11 form a supporting surface for the patient 6. Each rib also has protrusions 12 (see Fig. 2), made at the level of the windows 9 of the ribs 8 from two sides of the flexible tape 3 and directed away from the lumbar support element 7, as well as stops 13 in the lower part of the ribs 8. The stops 13 are directed towards the lumbar support element 7, are made on both sides of the flexible tape 3 and have cylindrical supporting surfaces for interaction with the protrusions 12 of the adjacent rib 8. The design of the protrusion 12 and the stop 13 is made in the form of a single flat details (see Fig. 5) with a groove s to install it in the window 9 of the rib 8. Between the shelves 10 in the lower part of the rib 8 and the flexible bands 3 installed elastic elements 14, made, for example, of porous rubber. To ensure a stable initial angular position of the ribs 8 in the grooves of the stops 13, mounted in pairs near the flexible tape 3, fixed strip 15, based on the flexible tape 3.

 On the sidewalls 2 (see Fig. 1) of the frame, formed by a pair of tubes located one above the other, along their longitudinal axis 16, there are nodes 17 for changing the curvature of the surface formed by the shelves 11 of the ribs 8. Each node for changing the curvature 17 is made of a pair of opposed sliders 19 (see Fig. 2) and the rod 19 located between them. The slider 18 consists of a sleeve 20 located between the tubes of the sidewall 2 and having a shoulder stop on one side and an opening for an eccentric handle 21 on the other, and support plates 22, covering on both sides of the tube laterally s 2 and proshpilennyh sleeve 20 so as to be trapped between the shoulder of the sleeve-stop 20 and a handle 21. The frame-cam inwardly-facing ends of the bushings 20 and disposed between the rods 19 cooperate with flanges 10 on the lower portions of the respective ribs 8.

 The device operates as follows. Under the body weight of the patient 6, the ribs 8 rotate relative to the flexible ribbons 3 at the place of their passage through the windows 9 of the ribs 8 in the direction from the lumbar support element 7 (see Figs. 1 and 2). The kinematics of the rotation of the ribs 8 is ensured by the sliding of the stops 13 in the lower part of the ribs 8 with their cylindrical surfaces on the protrusions 12. The protrusions 12 provide the necessary space for the rotation of the ribs 8, and their contact with the stops 13 eliminates the displacement of the ribs 8 along the flexible bands 3. The amount of rotation of the ribs 8 is determined by the stiffness properties of the elastic elements 14, flexible tapes 3 and the patient's tensile strength. The shelves 11 in the upper part of the ribs 8 during this rotation move to a distance S (see Fig. 2) along the longitudinal axis 16 and transmit the longitudinal displacement to the connective tissues, muscles and vertebrae of the patient in the directions from the place of greatest deflection of the lower back 5 (see Fig. . 1). As a result, the patient’s spine is pulled and unloaded. In the rotation pattern of the ribs 8 shown in FIG. 2, the deflection of flexible tapes 3 under the patient’s body weight is not conventionally shown. The greatest efficiency of the device is achieved when the surface formed by the shelves 11, as much as possible corresponds to the shape of the body of a particular person. To achieve this effect, it is necessary to adjust the position of the nodes of the change in curvature 17. The adjustment is carried out by simultaneously moving the pair of opposed sliders 18 and the rod 19 connecting them. To do this, you must first remove the fixation of the sliders 18 relative to the sidewalls 2 by turning the eccentric handle 21 to the horizontal position (see Fig. 3). This rotation eliminates the compression of the tubes of the sidewalls 2 by the support plates 22 and provides freedom of movement of the sliders 18 along the sidewalls 2. During the movement, the rod 19 slides under the shelves 10 in the lower part of the ribs 8. After the necessary movement, the eccentric handles 21 turn to their original position, resulting in the entire node changes in curvature 17 is fixed relative to the sidewalls 2. Then make the adjustment of the remaining nodes of the change in curvature 17. The required value (amplitude value) of the curvature of the reference rhnosti achieved by adjusting the tension of the flexible strips at the nodes 3 4 (see. Fig. 1) to the crossbars 1.

 After laying the patient on the device, adjusted according to the anthropometry of this particular patient, the supporting surface formed by the shelves 11 takes a shape corresponding to the shape of the body of a lying person, by changing the curvature of the flexible tapes 3 and the angular rotation of the ribs 8. The design of the device provides an independent angular rotation of each of ribs 8. This new design property provides the formation of a curved piecewise-smooth supporting surface with a step equal to the distances between the ribs. This step is several times smaller than in the device adopted for the prototype (where it is a multiple of the number of ribs installed on the transverse links), which improves the accuracy of correspondence of the curvature of the supporting surface formed by the shelves in the upper part of the rigid transverse ribs to the patient’s body and, therefore , increasing the effectiveness of dynamic correction of the spine and treatment of vertebral disorders.

 The proposed design is simple and technologically advanced due to the small number of parts.

Claims (1)

 DEVICE FOR CORRECTION AND TREATMENT OF THE SPINE, comprising a frame of cross members and sidewalls with longitudinal guides, flexible tapes fixed between the cross members, rigid transverse ribs, nodes for changing the curvature of the surface formed by the ribs, including sliders placed opposite to the guide sidewalls, and a lumbar support element, characterized in that each rib has windows for flexible tapes, protrusions made at the window level and directed away from the lumbar support element, a shelf in its upper part, the direction in the same direction, a shelf in its lower part directed towards the lumbar support element, stops in the lower part directed towards the lumbar support element, with a cylindrical surface for interaction with the protrusion of an adjacent rib, the elastic elements being placed between the flexible tape and the shelf in of the lower part of the rib, the opposed sliders interact with the lower part of the opposing ribs, and between the opposite sliders the rods are fixed on which the lower shelves of the opposing ribs rest.

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