RU2147426C1 - Device for correcting and treating the vertebral column - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has a frame having end cross beams and side members, flexible ribbons placed between the end cross beams, lumbar supporting member, rigid transverse ribs attached to the flexible ribbons with a slope running from the lumbar supporting member, units for changing curvature of the surface formed by the transverse rigid ribs. The device has board with cervical protrusion for head to be placed and a board for the crus mounted each on its base to enable springy movements to be carried out sidewise from the lumbar supporting member. The bases are mounted on the frame to enable their arrangement along the side members to be adjusted. The frame has central cross beam rigidly fixed on the side members. The lumbar supporting member is mounted on the central cross beam to enable its height to be adjustable. EFFECT: enhanced effectiveness of vertebral column correction in dynamic mode. 8 cl, 18 dwg

Description

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

 A device for correction and treatment of the spine (see RF patent N 1799266, class A 61 H 7/00, publ. 02.28.93, bull. N 8), made in the form of a frame of crossbars and sidewalls with longitudinal guides and flexible tapes fixed between the cross members with the possibility of changing the tension and held through the grooves of the transverse links. Cross links are interconnected by hinged nodes. The device also contains sliders with position locks and holders of the transverse links.

 A device for correction and treatment of the spine (see RF patent N 1790405, class A 61 H 7/00, publ. 23.01.93), in which the transverse ribs are made rigid with windows, and between the upper edge of the ribs and the elastic plate mounted stops . The stops are interchangeable and have blind grooves of different directions to the base plane and various depths.

 The closest in structural embodiment and the achieved effect is a device protected by RF patent N 2005445, cl. A 61 F 5/00, publ. 1/15/94. The device comprises 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, a lumbar support element. Each rib has windows through which flexible ribbons pass. At the window level, the ribs have protrusions directed away from the lumbar support element. In the upper part of the ribs have a shelf directed in the same direction, and in the lower part - a shelf directed to the lumbar support element. In addition, the ribs have stops located in the lower part towards the lumbar support element and having a cylindrical surface for interaction with the protrusion of the adjacent ribs. Opposed sliders interact with the bottom of the opposing ribs.

 This device allows the patient to unload and adjust the position of the intervertebral discs. However, its design does not allow to form the supporting surface of the device, which would provide maximum comfort for the patient’s position on the device, taking into account, among other parameters, the most appropriate position of the neck and head, as well as the position of the legs, in which their muscles, flexors and extensors would be in equilibrium, i.e., the least stressed state, and the supporting surface of the contact of the head, neck and legs of the legs would be maximum. The supporting surface in the known device along the entire length of the patient is formed by inclined transverse ribs, which excludes the possibility of its adjustment to the anthropometry of a particular user and does not provide a physiologically appropriate shape of the spine and a comfortable position of the patient.

 Practice has shown that for the formation of a uniform tensile force, it is necessary that the supporting surface is formed in compliance with the following condition: the patient's body must be supported by rigid transverse elements in characteristic places of change in its curvature, and in the interval between them, by stretched tapes with a stiffness corresponding to the distribution of body weight along its length.

 The technical problem solved by this proposal is to increase the efficiency of dynamic correction of the spine and treatment of vertebral disorders by ensuring maximum comfort for the patient and dosed stretching with the anatomically correct shape and degree of curvature of the spine, as well as providing additional traction of the spine.

 This problem is solved due to the fact that the device for correction and treatment of the spine, containing a frame of end cross-members and sidewalls, flexible tapes located between the end cross-members, lumbar support, rigid transverse ribs mounted on flexible tapes with an inclination from the lumbar support, knots for changing curvature the surface formed by transverse rigid ribs is provided with a panel for the head with a cervical protrusion and a panel for the legs of the legs, each mounted on its base with the possibility of spring-loaded movement side of the lumbar support, are mounted on the base frame, with adjustment of position along the sidewalls, the frame has a central crosspiece, fixed rigidly on the sidewalls, and lumbar support mounted on the central crossmember with the possibility of height regulation.

 Each flexible tape is made in the form of a ring formed by connecting the ends of the tape with fasteners, the upper and lower parts of the rings of the flexible tapes being passed over the central cross member, and the ends of the flexible tapes having a number of holes for connecting the tape with different tension.

 Each of the bases is made in the form of a transverse bar mounted on the sidewalls of the frame, and two guides located along the sidewalls, attached to the transverse bar and resting on top of the corresponding end cross-section of the frame, the panels being connected to the guide rails of the bases by two pairs of U-shaped brackets forming a parallelogram mechanism, the lower shelves of which are pivotally mounted on the guide bases, and the upper shelves are pivotally to the corresponding panel, elastic panels are installed between each panel and the base sy, providing inclination parallelogram mechanism having guides and stretching, the transverse base bracket disposed at the upper and lower portions of the strips of flexible rings.

 Panels for the head and lower legs can be installed with an inclination, for which the hinged attachment points of the lower shelves of a pair of U-shaped brackets located on the guides from the lumbar support are located above the hinged attachment points of another pair of U-shaped brackets.

 In another embodiment of the device, each of the bases is made in the form of a transverse bar, two guides resting on the end cross-member of the frame, and a stop interconnected, between each panel and the base from the side of the lumbar stop there is a pair of U-shaped brackets, the lower shelves of which are pivotally fixed on the transverse strips of the bases, and the upper shelves articulated to the corresponding panel, while the panel is supported by a stop, elastic struts are installed between the panel and the base, and the transverse bar is located under rhnimi and bottom of the rings of flexible tapes.

 The lumbar support is mounted on two bolts, with their lower part fixedly mounted on the central cross member of the frame, while the lumbar support is supported from below and fixed on top by two pairs of nuts, the threaded part of which is screwed onto the ends of the bolts.

 In one embodiment, each transverse rib is made in the form of a tube and two curved studs, the upper part of which is pressed into the tube, and the lower threaded part of the studs is passed through the upper part of the flexible tape ring and secured to it by a pair of washers and a pair of nuts on top and bottom of the flexible tape .

 In another embodiment, each transverse rib is made in the form of a flat bar and two pairs of curved studs with bent upper shelves pivotally connected to the bar to form a parallelogram mechanism, and the lower threaded part of the studs is attached to the tape in the same way as in the first embodiment.

 Ring tapes are mounted on the frame with an increase in the gap between the upper and lower parts of the ring in the direction from the lumbar support in the areas between the transverse planks of the bases and the end cross members of the frame.

 On the sidewalls of the frame there are anti-skid clutches located near the transverse strip of the base of the panel for the legs of the legs from the side of the lumbar support.

 In the claimed design, the impact on the body of a person lying on it is carried out by a profiled supporting surface, which provides dosed stretching with the anatomically correct shape and degree of curvature of the spine. This surface consists of transverse ribs mounted elastically on stretched ribbons and inclined towards the head and legs. In addition, the supporting surface is formed by a panel for the head with a cervical protrusion and a panel for the legs of the legs.

 The presence in the design of the proposed device of elastically mounted panels for the head and lower legs provides additional traction. Due to the interaction of the patient's legs with the panel for the legs, an additional traction force is formed. The elastic installation of the head panel provides stretching of the cervical and upper thoracic spine. When moving the base with the panel in the direction from the lumbar support, the degree of crushing on the upper part of the cervical protrusion and the degree of traction of the cervical and upper thoracic spine increases. When moving in the opposite direction, the degree of traction decreases.

 In the claimed design, the following principle of forming the supporting surface is possible: the patient’s body is supported by rigid transverse elements at characteristic places of curvature changes, and in the interval between them, by stretched ribbons with transverse ribs with rigidity corresponding to the distribution of body weight along its length.

 Moving along the sides of the frame of the head panel and the panel for the legs of the legs on appropriate bases and moving the lumbar support in the vertical direction allows you to set rigid transverse elements in accordance with the individual anthropometric parameters of the patient, which allows for uniform and low pressure on the body of the lying patient.

 The angular position of the panel for the legs of the legs provides a more comfortable position for the legs, the equilibrium position of the muscles of the flexors and extensors, as well as unloading the spine in the lumbar region (due to the raised knees) and additional pulling force in the lumbosacral region.

 The necessary curvature of the spine in the cervical spine and stretching of the cervical vertebrae is ensured by an elastically mounted panel for the head with a profiled cervical protrusion. Elasticity is achieved by the presence of elastic struts in the parallelogram mechanism.

 The execution of each flexible tape in the form of a ring provides the maximum correspondence between the reaction stiffness of the main supporting surface formed by transverse ribs and the distribution of the person’s weight along the body.

 The presence of a gap between the upper and lower parts of the rings of the flexible tape in the sections between the transverse planks of the bases and the end cross-members of the frame provides an automatic increase in the tension of the flexible tapes as the supporting surface is adjusted for a larger patient and, accordingly, weight.

 Moving the lumbar support with nuts in the vertical direction up and down allows you to reproduce the necessary form of curvature of the lumbar spine and pressure on the lower back until the patient receives a feeling of uniform pleasant pressure on the lower back.

 The implementation of anti-skid couplings on the sidewalls of the frame near the transverse bar from the side of the lumbar support allows you to eliminate the possible unwanted movement of the bases, which reduces the traction force of the spine.

A device for correction and treatment of the spine is shown in the drawings, which depict:
in FIG. 1 is a side view of the device,
in FIG. 2 is a top view of the device,
in FIG. 3 is a view from the side of the panel for the head,
in FIG. 4 is a side view of the lumbar support,
in FIG. 5 is a view of the panel for the head,
in FIG. 6 is a view of the panel for the legs of the legs,
in FIG. 7 - the same in the embodiment, with emphasis,
in FIG. 8 is a view along A in FIG. 7,
in FIG. 9 is a view of the transverse ribs in the form of tubes,
in FIG. 10 is a view of a panel for a head in an embodiment of inclined panel fixing,
in FIG. 11 is a view of the connection node of the flexible tape in the ring,
in FIG. 12 is an arrangement of an elastic tape in a device,
in FIG. 13 is a diagram of the arrangement of the elements of the device in accordance with the anthropometric data of the patient,
in FIG. 14 is a diagram of the arrangement of the rigid transverse elements of the device relative to the patient’s body,
in FIG. 15 is a diagram of the effect of transverse ribs on the spine,
in FIG. 16 is a diagram of tensile forces acting on a patient’s body,
in FIG. 17 is a diagram of the effect of the head panel on the cervical spine,
in FIG. 18 is a diagram of the effect of the panel for the legs of the legs on the patient.

 The device comprises a frame consisting of sidewalls 1, end cross members 2 and central cross member 3 mounted on legs 4 connected by lower cross members 5. The main supporting surface is formed by rigid transverse ribs 6, each of which is made in the form of a flat bar 7 and two pairs of curved hairpins 8 with bent upper shelves (Fig. 4) mounted on stretched tapes 9. The transverse rib 6 can be made in the form of a tube 10 and two curved studs 11 pressed into the tube (Fig. 9). At the bottom of the studs 8 and 11, a thread is made. To fix the curved studs 8, 11 on the tapes 9, they are passed by their ends through the tape 9, and the tape 9 is pulled together by a pair of washers and nuts 12 on each of the studs. The strips 7 of the transverse ribs 6 are mounted pivotally on the studs 8. Curved studs 8 and 11 are mounted on the tapes so that they are inclined along the longitudinal horizontal axis of the couch in the direction from the lumbar support 13 mounted on the central cross member 3, respectively, to the side of the legs and towards the patient’s head.

 The lumbar support 13 is mounted with the possibility of vertical movement on two bolts 14 (Fig. 3, 4), the lower part of which is fixedly mounted on the central cross member of the frame 3, through the holes in it by bolts 15, for which threaded holes are made in the caps of the bolts 14. From the bottom, the lumbar support rests on nuts 16, screwed onto the bolts 14, and from above it is fixed by the flywheels 17. From above, the lumbar support 13 has a soft supporting surface. Each of the tapes 9 is made in the form of a ring (Fig. 12), for which the ends of the tapes have a number of holes and are tightened with bolts 18 through the washers (Fig. 11). The holes allow you to adjust the degree of tension of the tapes. Each of the rings formed by the tapes 9 is stretched between the end cross members 2 of the frame, and the upper and lower parts of the ring of tapes 9 pass over the central cross member 3 and the movable cross member 19, mounted on the side walls 1 of the frame in the region of the buttock fold of the patient and which is the node for changing the support curvature surface formed by rigid transverse ribs 6.

 The panel for the head 20 with the cervical protrusion 21, on which the back of the head of the patient’s head should rest, is installed on the base 22 (Fig. 1). The base 22 consists of longitudinal guides 23 and a transverse bar 24 connecting them, which are mounted on top of the sidewalls 1 of the frame using two pairs of U-shaped brackets 25 forming a parallelogram mechanism. The upper and lower parts of the ring of tapes 9 extend over the transverse bar 24 and rest on it. U-shaped brackets 25 are pivotally connected with their lower and upper shelves, respectively, with longitudinal guides 23 and a panel for the head 20.

 At the ends of the longitudinal guides 23 of the base 22, stops 26 are made, allowing the base to be moved along the sidewalls 1 and fixing it against falling out and moving under load. To ensure a stable inclined position of the U-shaped brackets 25 of the parallelogram mechanism between the guides 23 and the upper shelves of the pair of U-shaped brackets 25, tape struts 27 are installed (Figs. 1 and 3). The attachment point of the brace struts 27 to the guides 23 can be adjusted to change the angle of the brackets 25. The braces 27 have a resilient insert and a loop around it to limit the stretching of the insert (not shown).

 The panel for the legs of the legs 28 is installed similarly on its base 29, consisting of longitudinal guides 30 and the transverse bar 31, mounted on top of the other end of the sidewalls 1 of the frame, using two pairs of U-shaped brackets 32 of the parallelogram mechanism and the tape strut 33. The panels are arranged horizontally .

 For the inclined position of the panels 20 and 28, the hinged attachment points of the lower shelves of the U-shaped brackets 25 and 32 located on the side of the lumbar support are located above the hinged attachment points of the other pair of U-shaped brackets to a height H (Fig. 10).

 The inclined position of the panels 20 and 28 can be achieved by installing them on the U-shaped staples only from the side of the lumbar support 13 (Fig.7, 8, 12). 7, 8 shows such an installation of the panel for the legs of the legs 28. In this case, the base 34 contains longitudinal guides 35, supported by the end cross-member 2 of the frame, the transverse bar 36 and the stops 37. The lower shelves of the U-shaped brackets 38 are pivotally mounted on the transverse bar 36, the upper shelves - to the panel for the legs of the legs 28, and the end part of the panel for the legs of the legs 28 in an inclined position rests on the emphasis 37. Between the panel 28 and the emphasis 37 is installed elastic band brace 35, and the upper and lower parts of the flexible bands 9 are missing over the cross bar 36.

 In the area between the end cross members 2 of the frame and the transverse strips 24 and 36 of the bases, the annular tapes 9 are installed with an increase in the gap between the upper and lower parts of the ring (Fig. 11).

 About the transverse strip 36 of the base 34 of the panel for the legs of the legs 28 on the sidewalls 1 of the frame mounted anti-skid clutch 40 (Fig.7, 8).

 For the convenience of the patient’s location on the supporting surface of the device, the armrests 41 are installed on the sidewalls of the frame 1 (Figs. 1, 2).

 To ensure thermal effects on the patient’s body, a fan heater 42 with a vibrator mounted inside it is located under the supporting surface of the device (Fig. 1). The heat flux from the fan heater enters the patient's body in the gaps between the transverse ribs 6.

 A device for correction and treatment of the spine works as follows.

 By moving the three transverse support elements along the sides of the frame 1 (i.e., the transverse bar 24 of the base for the head, the movable cross member 19 and the transverse bar 31 (36) of the base for the legs of the legs), as well as moving the lumbar support 13 in the vertical direction and adjusting the longitudinal tension flexible tapes 9 carry out the adjustment of the supporting surface of the device formed by the transverse ribs 6 (Fig.13, 14) under the anthropometry of a particular user in order to achieve the most comfortable location and ensure the most ie physiologically viable form spine. The first transverse support element is installed at the level of the border of the cervical and thoracic spine, the second - at the border of the pelvis and hips, and the third - at the level of the knees (Fig. 14). After adjusting the transverse bar 36, an anti-skid clutch 40 is installed close to it. The place of maximum deflection of the spine in the lumbar should be exactly on the lumbar support 13, and the panel for the head 20 should be located so that its profiled neck protrusion is exactly opposite the place of maximum deflection spine in the cervical spine. In FIG. 13 shows a diagram of necessary measurements to comply with the above conditions. It should be noted that under head pressure, the panel 20 moves 15-20 mm away from the lower back.

 Changing the tension of the tapes 9, on which the transverse ribs 6 are installed, forming the supporting surface, is carried out by unlocking the bolts 18 connecting the ends of the flexible tape into a ring, moving one or two ends of the flexible tape under the next fixing hole and fixing with the same bolts.

 From the influence of the distributed weight of the patient’s body on each transverse rib 6, the latter begins to move along the trajectory determined by the rotation of the studs 8 at the points of their connection to the belts 9. When the studs 8 are rotated, there is an elastic interaction of the pack of washers at the lower ends of the studs 8 and the stretched bands 9, tightened by nuts 12. The magnitude of the elastic force that prevents the rotation of the studs 8 depends on the selected diameter of the washers and the degree of tension of the belts 9. Another factor affecting the counteraction to the movement of the transverse ribs 6 is the interaction tvie their upper surfaces with a patient's body. This interaction determines the magnitude of the tensile force distributed along the body, acting on a person in the area of the main supporting surface.

Figure 4 shows a group of ribs 6 located near the lumbar support 13 on different sides of it, and the inclination of the curved studs 8 and the movement of the flat strips 7, forming the supporting surface of the device by Δ L ₁ under the influence of the patient's body weight. This movement through the skin, connective tissue and muscles is transmitted to the spine, ensuring its longitudinal extension.

 In addition, an additional traction force is formed due to the interaction of the patient’s legs with the panel for the legs 28 and the panel for the head 20 with the cervical protrusion 21. The diagram of these interactions is shown in Figs. 17, 18. The elastic installation of the panel for the head 20 provides stretching of the cervical and upper chest sections the spine. The magnitude of the force of this stretching can be adjusted by small movements of the guides 23 along the sides 1. When moving the guides in the direction from the lumbar support, the degree of compression on the upper part of the cervical protrusion increases, and so on the degree of traction of the cervical and upper thoracic spine. When moving in the opposite direction, towards the lumbar support, the degree of traction decreases.

Figures 5 and 6 show how this extension is enhanced by moving the head panel 20 by Δ L ₂ under the weight P of the patient’s head in the direction from the lower back and by moving the panel for the legs of the legs 28 by Δ L ₃ under the weight P of the patient’s legs in the opposite direction from the lower back. Here, the dotted line shows the different positions on the frame of the panels 20 (by Δ A) and 28 (by Δ C) with their bases relative to the lumbar support 13 depending on the patient's height.

 The impact of the device on the body of a person lying on it is carried out by a profiled supporting surface, which provides dosed stretching with the anatomically correct shape and degree of curvature of the spine.

 The design of the device provides the ability to adjust its supporting surface in such a way that it matches the curvature of the body of any person with its individual anthropometric parameters. As a result, the pressure on the body of a lying person from the supporting surface is uniform and small. The combination of the anatomically appropriate individual supporting form of the spine, low specific pressure on the human body from below and uniform moderate stretching leads to the fact that the patient feels the comfort of his position and promotes reflex relaxation of the paravertebral spinal muscles. This ensures high efficiency of prophylaxis and treatment with very moderate dosed stretching and eliminates the possibility of spinal injury in the process. The supporting surface is breathable. This allows you to effectively transfer heat from the fan heater.

 All this as a whole allows you to create unique conditions for the restoration of intervertebral discs of all structures of the spine.

 The proposed device has been successfully tested in a number of medical institutions of the Ministry of Health, Academy of Sciences, Ministry of Defense.

Claims (8)

 1. Device for correction and treatment of the spine, containing a frame of end cross-members and sides, flexible tapes located between the end cross-members, lumbar support, rigid transverse ribs mounted on flexible tapes with an inclination from the lumbar support, nodes for changing the curvature of the surface formed by transverse rigid ribs, characterized in that it is equipped with a head panel with a cervical protrusion and a panel for the legs of the legs, each mounted on its base with the possibility of spring-loaded movement to the side of oyasnichnogo abutment mounted on the base frame, with adjustment of position along the sidewalls, the frame has a central crosspiece, fixed rigidly on the sidewalls, and lumbar support mounted on the central crossmember with the possibility of height regulation.  2. The device according to claim 1, characterized in that each flexible tape is made in the form of a ring formed by connecting the ends of the tape with fasteners, the upper and lower parts of the rings of flexible tapes missing over the central cross member, and the ends of the flexible tapes having a number of holes for connecting the tape with different tension.  3. The device according to paragraphs. 1 and 2, characterized in that each of the bases is made in the form of a transverse bar, two guides resting on the end cross-member of the frame, and a stop interconnected, between each panel and the base, a pair of U-shaped brackets are installed, lower the shelves of which are pivotally mounted on the transverse strips of the bases, and the upper shelves are pivotally attached to the corresponding panel, while the panel is supported by a stop, elastic struts are installed between the panel and the base, and the transverse bar is located under the upper and lower my parts of the rings of flexible tapes.  4. The device according to claims 1 to 3, characterized in that the lumbar support is mounted on two bolts, the lower part of which is fixedly mounted on the central cross member of the frame, while the lumbar support is supported from below and fixed on top by two pairs of nuts, the threaded part of which is screwed to the ends bolts.  5. The device according to claims 1 to 3, characterized in that each transverse rib is made in the form of a tube and two curved studs, the upper part of which is pressed into the tube, and the lower threaded part of the studs is passed through the upper part of the flexible tape ring and secured to it by pairs of washers and pairs of nuts on top and bottom of the flexible tape.  6. The device according to claims 1 to 3, characterized in that each transverse rib is made in the form of a flat bar and two pairs of curved studs with bent upper shelves pivotally connected to the bar with the formation of a parallelogram mechanism, while the lower threaded part of the studs is passed through the upper part of the flexible tape ring and is secured to it by a pair of washers and a pair of nuts on top and bottom of the flexible tape.  7. The device according to claims 1 to 3, characterized in that the annular tapes are mounted on the frame with an increase in the gap between the upper and lower parts of the ring in the direction from the lumbar support in the areas between the transverse strips of the bases and the end cross-members of the frame.  8. The device according to claims 1 to 3, characterized in that on the sidewalls of the frame there are anti-skid clutches located near the transverse strip of the base of the panel for the legs of the legs from the side of the lumbar support.

Images