RU2681577C1 - Device for extraction and extension of the spine (options) - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: group of inventions includes two variants of the device for stretching and lengthening the spine, it relates to medical equipment and is intended for the treatment of the spine. Device contains a rectangular frame, along the longitudinal axis of symmetry of which the panel for the head, the spring base and the panel for the legs of the legs are successively placed. Springy base includes two rigid sidewalls located above the corresponding each of them with a longitudinal frame member and attached to it, and also fixed with the possibility of removal on the sides of the same modules, the number of which is equal to the number of rigid supporting elements in the spring base. Modules are located perpendicular to the sides of the spring base, successively along the longitudinal axis of symmetry of the frame and on both sides relative to the lumbar support located perpendicular to the sidewalls and fixed to them. Each module contains a housing comprising a top wall, a front wall, bottom wall having the shape of a hollow circular cylinder with a horizontal axis, truncated from the side with two cutting planes located along the radius and at an angle relative to each other, which is larger than the range of variation during the procedures for the angle of inclination of the upper elements of the holders mentioned below, as well as two opposite identical vertical side walls. Each module contains two identical holders, each of which is made in the form of an angular lever, including upper and lower elements, as well as a limiting stop. Holders are placed in a rectangular cutout corresponding to each of them, made from the rear edge of the upper wall of the case, and mounted for free rotation on a side axis, each end of which is placed in a through hole made in the corresponding side wall of the case, wherein the through holes are located coaxially with the axis of the outer and inner cylindrical surfaces of the bottom wall of the housing. Ends of the upper elements of the holders are interconnected by means of a horizontal rigid support element, and on the lower elements of the holders placed in the housing cavity there is fixed a blade in the form of a flat plate located radially relative to the plane in which the axis of the outer and inner cylindrical surfaces of the lower wall of the housing lies. In the cavity of the housing with ensuring in the initial position of contact with the inner surfaces of the upper, front, lower walls of the housing and the blade, an elastic closed chamber of elongated shape filled with a gas under pressure is placed. Each module is made with two horizontal side shelves located on the side of the spring base corresponding to each of them and detachably connected to them. Modules are mounted on the sidewalls with the torsion of the corresponding rigid support element corresponding to each of them away from the lumbar support.EFFECT: invention allows to increase the maintainability of the device.6 cl, 14 dwg

Description

The invention relates to medical equipment, and more particularly to physiotherapeutic devices for relieving stress from skeletal muscles, unloading nerve endings, restoring intervertebral discs and correcting the relative position of the vertebrae.

A device for stretching and lengthening the spine is known from the prior art, comprising three support bases arranged in series along the longitudinal axis of the device and intended to be placed on them, respectively: a) the head and the upper part of the user's trunk, b) the lower body and upper part of the user's legs and c) the legs of the user. On the upper surface of the first support base, two rollers for the head, two rollers for the neck, as well as two rows of rollers for the upper part of the user's torso are sequentially placed along the longitudinal axis of the device, while rollers of one row are arranged in pairs opposite the rollers of the other row. The said rollers for the head, neck, and also each pair of rollers for the upper body are located symmetrically with respect to the longitudinal axis of the device. On the upper surface of the second supporting base there are: two rows of rollers for the lower body of the user and four rows of rollers for the upper part of his legs, while two rows of rollers for the lower body of the user are located similarly to the two rows of rollers for the upper part of his body, and four a number of rollers for the upper part of the user's legs are arranged in pairs symmetrically relative to the longitudinal axis of the device. On the upper surface of the third supporting base there are four rows of rollers for the legs of the legs of the user, which are arranged in pairs symmetrically with respect to the longitudinal axis of the device. The first and second supporting bases are placed with a longitudinal gap relative to each other and are equipped with means for changing the mutual angular position of their upper surfaces, and the edges of the second and third supporting bases facing each other are pivotally interconnected (US 3881469 Kanemitsu S., 1975).

The disadvantage of this device is that the means used therein for applying tensile force to the user do not provide high device efficiency due to the reflex resistance of the user's muscles created by the said stretching means. In addition, the implementation of the supporting elements in the form of rollers does not affect the longitudinal extension of the spine, since the rollers perform only the function of massage elements. Another disadvantage of the above analogue is that it has a complex structure and large weight and size parameters.

As a prototype, a device for stretching and lengthening the spine, containing a horizontally located rectangular frame made in the form of two identical and parallel to each other longitudinal elements of elongated shape, the ends of which are of the same name, are interconnected respectively by the first and second end cross members, and also located sequentially along the longitudinal the axis of the frame is a head panel with a cervical protrusion, a spring base and a panel for the legs of the legs. The spring base is fixed on the frame, and each said panel is fixed on its corresponding base, making it possible, under the action of an external load, to elasticly displace it in the direction from the spring base, with each base mounted on the longitudinal elements of the frame to allow movement along its longitudinal axis and fixing in a given position. Each panel is fixed to its corresponding base by means of two pairs of U-shaped staples, while the upper and lower shelves of the U-shaped staples are pivotally connected respectively to the panel and the base. The spring base is made in the form of parallel rigid support elements located with a gap relative to each other, sequentially along the longitudinal elements of the frame and on both sides relative to the lumbar support, also mounted on the longitudinal elements of the frame. Each rigid support element is equipped with two curved racks, each of which is fastened by two pairs of washers and nuts on its corresponding flexible tape (on the corresponding longitudinal bearing element), while the rigid support elements are fixed on flexible tapes to ensure their inclination away from the lumbar support and each tape is made in the form of a ring mounted on the end transverse elements of the frame. (RU 2147426 (C1), Kostanbaev B.C., 2000).

However, the prototype is characterized by low wear resistance of the spring base used in it. This disadvantage of the prototype is due to the fact that the fastening of the lower ends of the mentioned curved racks to flexible bands (longitudinal load-bearing elements) is carried out by means of two washers and two nuts, pairwise located on both sides of the tape. In this case, when the inclination of the curved racks is caused by the user's weight, large local stresses occur in the material of the tapes at the points of contact with the edges of the said washers, and the occurrence of large local stresses in the material of flexible tapes during the operation of the device inevitably leads to a violation of the integrity of the material of the tapes at the joints with the lower end of each curved post. Violation of the integrity of the material of the tapes at the places of their connection with the lower end of each curved rack leads not only to a decrease in the wear resistance of the spring base of the device, but also to a decrease in the duration of the overhaul intervals, since a violation of the integrity of the material of the flexible tape (for example, if cracks occur in it) in the area of connection of at least one curved rack with a flexible tape corresponding to it leads to the need to replace it due to discomfort during the procedure, since during In the procedures, the angular position of said curved pillar will be different from the angular position of the curved pillar connected to the same rigid support member. The replacement of the tape in the device known from the prototype is associated with the need not only to dismantle all the curved racks connected to it, but also to make a number of holes in the new tape to secure the curved racks corresponding to it. In other words, the repair of the spring base of the device, taken as a prototype, is associated with significant labor costs, time, and also the high cost of the non-restored product (flexible tape) being replaced during repair. From the foregoing, we can conclude about the low maintainability known from the prototype device for traction and lengthening of the spine. In addition, since flexible tapes are exposed to sufficiently large tensile loads during operation, due to the inevitable permanent deformation of the material of flexible tapes, this leads to a change in the magnitude of their tension. A change in the amount of tension of the flexible tapes leads to a change in the magnitude of the pulling force resulting from the forced (due to the weight of the user) tilt of the supporting elements of the spring base in the direction from the lumbar support. Therefore, during the operation of the device known from the prototype, it is necessary to carry out a fairly frequent control of the magnitude of the tension of the flexible tapes, and also (to prevent distortion of the rigid supporting elements during the procedures) to ensure that the tension of the flexible tapes is equal with sufficient accuracy. As a result, the cost of maintenance of the device known from the prototype also increases.

The present invention is directed to solving a technical problem, which consists in increasing the maintainability of the spring base of the device for stretching and lengthening the spine.

According to the first embodiment, the posed technical problem is solved in that in a device for stretching and lengthening the spine, containing a horizontally arranged rectangular frame, in the form of two longitudinal elements, the ends of which are of the same name are interconnected by a corresponding end cross member, and also a panel arranged in series along the longitudinal axis of symmetry of the frame for the head with a cervical protrusion, a spring base and a panel for the legs of the legs, while the spring base includes two identical longitudinal bearing their elements, which are located opposite each other and mounted on the frame, as well as parallel rigid support elements located with a gap relative to each other in series along the longitudinal elements of the frame and on both sides relative to the lumbar support, with each said panel fixed to its corresponding the base, and each base is mounted on the longitudinal elements of the frame with the possibility of movement along its longitudinal axis of symmetry and fixation in a given position, according to the image In accordance with the current law, the longitudinal bearing elements of the spring base are made in the form of rigid sidewalls, which are located above the respective longitudinal frame element and are fixed on it, while the spring base also includes identical modules fixed with the possibility of removal on its sidewalls, the number of which is equal to the number of the said rigid supporting elements in the spring base, while the modules are perpendicular to the sides of the spring base, sequentially along the longitudinal axis of symmetry of the frame and both torons relative to said lumbar support, which is perpendicular to the sidewalls and mounted on them, each module comprises a housing including a horizontally arranged upper wall, a vertically located front wall, a lower wall having the shape of a hollow circular cylinder with a horizontal axis, truncated laterally by two secant planes, located along the radius and at an angle a relative to each other, as well as two opposite vertical identical side walls made with an upper protrusion shifted toward the rear edge of the corresponding side wall, wherein a through hole is made in each side wall of the housing located coaxially with the axis of the outer and inner cylindrical surfaces of the lower wall of the housing and at least partially within the protrusion corresponding to each of them, and in each said through hole there is an end of the lateral axis corresponding to it, opposite which to ensure the smallest possible gap between the facing surfaces of the races the rear end of the upper wall is laid, each module also contains two identical holders, each of which is made in the form of an angular lever, including upper and lower elements, as well as a limit stop, while the holders are placed in the corresponding angular rectangular cutout made from the side the rear edge of the upper wall of the housing, and mounted on the lateral axis with the possibility of free rotation, while the end sections of the upper elements of the holders are interconnected by means of a horizontal of a rigidly located supporting element, and a blade made in the form of a flat plate is mounted on the lower holders of the holders located in the cavity of the housing, and the two sides of the plate having the largest surface area are symmetrically relative to the plane in which the axis of the outer and inner cylindrical surfaces of the lower the walls of the body, and the blade is made with dimensions that provide the smallest possible guaranteed clearance around its entire perimeter, and holding the limit stop of each The body is made with the possibility of its interaction with the outer surface of the upper wall of the housing and is located at an angle β relative to the upper element of its holder, which is an angle additional to 180 ° to a given initial angle γ of the inclination of the upper elements of the holders relative to the plane of the frame, the upper and lower elements of each the holders are located at an angle relative to each other, providing, when the upper elements of the holders are relative to the plane of the frame at the mentioned angle γ, p the position of the lower end of the blade opposite the lower wall of the casing, and the said angle α between the two secant planes located along the radius is larger than the range of changes during the procedures of the angle of inclination of the upper elements of the holders in the cavity of the casing, providing initial contact with the inner surfaces of the upper, front, lower the walls of the body and the blade are placed elastic closed chamber of elongated shape, filled with pressurized gas and providing in the initial position of the holders the pressure of their restrictive stops against the outer surface of the upper wall of the housing, each module is made with two horizontally located side shelves, which are located on each side of the spring base and are detachably connected to them, and the modules are mounted on the sides of the spring base to ensure the inclination of the corresponding each of them is a hard supporting element away from the lumbar support.

In addition, the technical problem posed is solved by the fact that in one preferred embodiment of the invention, the upper, front and lower walls of the housing are made in one piece, and in another, the upper wall of the housing is made with the front edge bent down.

According to the second variant, the posed technical problem is solved in that in a device for stretching and lengthening the spine, containing a horizontally located rectangular frame, in the form of two longitudinal elements parallel to each other, the ends of the same name are interconnected by a corresponding end cross member, and also located sequentially along the longitudinal axis the symmetry of the frame is a head panel with a cervical protrusion, a spring base and a panel for the legs of the legs, while the spring base includes two od longitudinal longitudinal bearing elements, which are located opposite each other and mounted on the frame, as well as parallel rigid support elements located with a gap relative to each other sequentially along the longitudinal elements of the frame and on both sides relative to the lumbar support, with each said panel fixed to the corresponding base, and each base is mounted on the longitudinal elements of the frame with the possibility of movement along its longitudinal axis of symmetry and fixation in a given In accordance with the invention, the longitudinal bearing elements of the spring base are made in the form of rigid sidewalls, which are located above the respective longitudinal frame element and are mounted on it, while the spring base also includes identical modules fixed with the possibility of removal on its sidewalls, the number of which is equal to the number said rigid support elements in the spring base, wherein the modules are perpendicular to the sides of the spring base, sequentially along the longitudinal axis symmetries of the frame and on both sides relative to the aforementioned lumbar support, which is perpendicular to the sidewalls and mounted on them, and each module contains a housing including a horizontally arranged upper wall with a front edge bent down, a vertically located front wall, and a lower wall having the shape of a hollow circular cylinder with a horizontally located axis, truncated laterally by two secant planes located along the radius and at an angle a relative to each other, and two opposite vertical side walls, in each of which a through hole is made, said through holes being aligned with the axis of the outer and inner cylindrical surfaces of the lower wall of the housing, and in each of said through holes there is a corresponding end of the lateral axis, the upper wall of the housing is located above the lateral axis with ensuring the smallest possible distance between its inner surface and the lateral axis, and each module also contains two identical holders, each of which is made in the form of an angular lever, including upper and lower elements, as well as a limit stop, while the holders are placed in a rectangular cutout corresponding to each of them, made from the rear edge of the upper wall of the housing, and mounted on the lateral axis with the possibility of free rotation, with end sections of the upper elements of the holders are interconnected by means of a horizontally located rigid support element, and a lobe is fixed on the lower elements of the holders located in the cavity of the housing the attack is made in the form of a flat plate, while the blade is made with dimensions that provide the smallest possible guaranteed clearance along its entire perimeter, and the two sides of the plate having the largest surface area are symmetrically relative to the plane in which the axis of the outer and inner cylindrical surfaces of the lower the walls of the housing, and the restrictive stop of each holder is made so that it can interact with the surface of the transverse wall of the corresponding and said straight angular cutout made in the upper wall of the housing, and is located at an angle β relative to the upper element of the holder corresponding to it, and being additional up to 180 ° to a given initial angle γ of inclination of the upper elements of the holders relative to the plane of the frame, the upper and lower elements of each holder are located at an angle relative to each other, providing, when the upper elements of the holders are located relative to the plane of the frame at an angle equal to the initial angle γ of inclination, the location of the lower end of the blades opposite the lower wall of the casing, and the said angle α between the two secant planes located radially is larger than the range of changes during the procedures of the angle of inclination of the upper elements of the holders in the cavity of the casing, providing initial contact with the inner surfaces of the upper, front, lower walls of the casing and the blade an elastic elongated closed chamber is placed, filled with pressurized gas, providing in the initial position of the holders a clamp of their limit stops to the surface of the transverse wall of the respective rectangular cutout corresponding to each of them, each module is made with two horizontally located side shelves, which are located on each side of the spring base and are detachably connected to them, and the modules are mounted on the side walls to ensure the inclination of the corresponding to each of them rigid support element away from the lumbar support.

In addition, the technical problem posed is solved by the fact that in one preferred embodiment of the invention, the upper, front and lower walls of the housing are made in one piece, and the side shelves are made in the form of two opposite sections, which are a continuation of a horizontally located section of the upper wall of the housing and extend it into direction parallel to the lateral axis.

In another preferred embodiment of the invention, each side wall is made with an upper protrusion located above a corresponding through hole made in the side wall.

The advantage of a patented device for stretching and lengthening the spine (compared with the prototype) is that, thanks to:

- patentable implementation of the spring base in the form of fixed modules fixed on the sides of the spring base with the ability to remove the same modules, the number of which is equal to the number of rigid support elements in the spring base and which are located perpendicular to the side walls, sequentially along the longitudinal axis of symmetry of the frame and on both sides relative to the lumbar support, achieving technical results, consisting in minimizing labor costs and time, not only for dismantling the faulty module, but also for the next s installation of the repaired module;

- the simple design of the two options of patentable modules described above also ensures the achievement of technical results consisting in minimizing labor costs and time not only for disassembling (without using any special tools or special equipment, since it is sufficient to remove the side axis when disassembling the module) of the faulty module, but and its assembly after replacing a non-renewable product (an elongated elastic closed chamber) therein;

- a significant reduction in the cost of non-renewable products (the cost of elastic closed chambers is significantly lower than the cost of flexible tapes),

ensures the achievement of the technical results mentioned, which, as a whole, is known (see Automation of production and industrial electronics, M. State Scientific Research Institute "Soviet Encyclopedia", vol. 2, 1963, p. 348), ensure the achievement of the technical result, which consists in increasing the maintainability of the patented devices in comparison with the prototype, indicating the solution of a technical problem.

The remaining technical results achieved in the implementation of the patented invention will become clear from the further detailed, reference to the drawings of the description of specific examples, which, however, is not the only possible, but clearly demonstrate the possibility of achieving the technical results of the patented combination of essential features.

In FIG. 1 schematically shows a device for stretching and lengthening the spine, three fragmented side view; in FIG. 2 - the same, top view, enlarged and rotated; in FIG. 3, 4 and 5 - module spring base according to the first embodiment, respectively, front view, top view and rear view; in FIG. 6 and 7 are respectively a view along AA and a side view of FIG. 5; in FIG. 8 is the same as in FIG. 6 with a different arrangement of the upper wall of the housing of the spring base module relative to the axis; in FIG. 9 is the same as in FIG. 8 in the case of the upper wall of the housing of the spring base module with the front edge bent downward; in FIG. 10, 11, 12 and 13 - module spring base according to the second embodiment, respectively, front view, top view, rear view and side view; in FIG. 14 is a view along BB of FIG. 12, in this case, for clarity, two adjacent spring base modules are depicted according to the second embodiment, and the dashed line shows the position of the holder and the blade during the procedures.

A device for stretching and lengthening the spine (both in the first and in the second versions) contains (Fig. 1 and 2) a horizontally located rectangular frame (for example, of a tubular metal profile) made in the form of two identical and parallel longitudinal elements 1 and 2 of elongated shape, the ends of the same name are connected (preferably by welding) to each other, respectively, the first 3 and second 4 end cross-members, and also located sequentially along the longitudinal axis of symmetry 5 of the frame pane s 6 to the head with a neck projection 61, a spring base plate 7 and lower legs 8 feet.

The head panel 6 is fixed to its corresponding base 62 by means of (forming together with them a parallelogram mechanism) two pairs of support rods, respectively 63 and 64, while the upper ends of the first pair of support rods 63 are connected to the head panel 6 by means of a coaxial one pair of hinges and the lower ends of the same pair of support rods 63 are also connected coaxially with another pair of hinges to the base 62. Similarly, the upper and lower ends of the second pair of support rods 64 by means of the hinges which are also arranged in pairs coaxially connected respectively to the head panel 6 and to the base 62. To provide, under the action of an external load, elastic displacement of the head panel 6 away from the spring base 7, the support rods 63 by means of an elastic coupler 65 are spring-loaded relative to the base 62. In addition, in a preferred embodiment of the invention, protrusions (not shown in the drawings) are made on the support rods 63 to fix the head panel 6 in its initial position (before the process fools), and protrusions (not shown in the drawings) are made on the support rods 64, restricting the movement of the head panel 6 during the procedure. The base 62 by means of the sliders 66 is mounted on the longitudinal elements 1 and 2 of the frame with the possibility of longitudinal movement and fixation in the desired position, for example with the help of locking screws placed on the sliders 66 (not shown in the drawings).

The spring base 7 (Fig. 1 and 2) includes two identical longitudinal bearing elements located opposite each other, made in the form of rigid sidewalls 9 and 10 (for example, of a tubular metal profile), which are located above each longitudinal element 1 and 2 frames and are fixed on it, for example, by means of support legs 11, as well as identical modules 12 fixed on the sidewalls 9 and 10 with the possibility of removal, the number of which is equal to the number of rigid support elements in the spring base 7, while structurally the barrels 12 in the first embodiment differ from the modules 12 in the second embodiment. Modules 12 in both embodiments of the invention are located perpendicular to the sidewalls 9 and 10, sequentially along the longitudinal axis of symmetry 5 of the frame and on both sides relative to the lumbar support 13, made in the form, for example, of a rigid roller. The lumbar support 13 is perpendicular to the sidewalls 9 and 10 and is fixed on them. In a preferred embodiment of the invention, to ensure high stiffness of the spring base 7, the ends of the same name on the sides 9 and 10 are connected (preferably by welding) to each other, respectively, the first 14 and second 15 end elements of an elongated shape.

According to the first embodiment of the patented invention, each module 12 (Fig. 3 ÷ 9) comprises a housing including a horizontally arranged upper wall 16, a vertically located front wall 17, a lower wall 18 having the shape of a hollow circular cylinder with a horizontally located axis 181 and inner radius - R a cylindrical surface, truncated laterally (in other words, along generatrixes) by two secant planes 182 and 183, located along the radius and at an angle a relative to each other (Fig. 8), and two opposed identical vertices tical side walls 19 and 20, while the upper edge and lower edge of the front wall 17 are associated with the front edge of the upper wall 16 and the front edge of the lower wall 18, respectively, and each side wall 19 and 20 is connected (for example, by welding) to the upper 16, front 17 and bottom 18 walls of the housing. In a preferred embodiment of the invention, the upper 16, front 17 and lower 18 of the housing wall are made in one piece. Each side wall 19 (20) is made (FIGS. 4, 5 and 7) with an upper protrusion 191 (201) (preferably radially rounded), offset toward the back edge of the corresponding side wall 19 (20), preferably or close to or flush with its back edge. A through hole is made in each side wall 19 and 20 of the housing, wherein said through holes are aligned with the axis 181 of the outer and inner cylindrical surfaces of the lower wall 18 of the housing and at least partially within the protrusion 191 (201) corresponding to each of them, and in each through hole there is a corresponding end of the side axis 21. The fixing of the side axis 21 relative to the side walls 19 and 20 can be carried out using restrictive means known from the prior art, namely, using a cotter pin in or pins (they are not shown in the drawings), and by means of a threaded connection of one of the ends of the side axis 21 with its corresponding side wall (for example, with the side wall 19, as shown in Fig. 12). On the side of the rear edge of the upper wall 16 of the housing, rectangular rectangular cutouts 161 and 162 are made (Fig. 4), while the rear end of the upper wall 16 is located opposite the lateral axis 21 (Figs 6 and 8 show two examples of the rear end of the upper wall 16 relative to the lateral axis 21) to ensure the smallest possible gap between the surfaces facing each other, and the rear edge of the lower wall 18 of the housing does not protrude beyond the rear edge of the side walls 19 and 20 of the housing. In addition, each module 12 contains two identical holders, each of which is made in the form of an angular lever, which includes upper 22 (23) and lower 24 (25) elements, as well as a limit stop 26 (27), while the holders are placed in the corresponding each of them has a rectangular cutout 161 (162), made in the upper wall 16 of the housing, and mounted on the lateral axis 21 with the possibility of free rotation. The end sections of the upper holder elements 22 and 23 are interconnected by means of a horizontally positioned rigid support element 28, and a blade 29 is fixed (for example, by welding) to the lower elements 24 and 25 (in the preferred embodiment of the invention made in the form of a plug) located in the cavity of the housing made in the form of a flat plate, while the two sides of the plate having the largest surface area are located symmetrically relative to the plane 184 (Fig 6), in which lies the axis 181 of the outer and inner cylinder energy surfaces of the bottom wall 18 of the housing. In other words, the blade 29 is located radially relative to the lower wall 18. The blade 29 is made with dimensions that provide the smallest possible guaranteed clearance around its entire perimeter, namely, above the side axis 21, on the sides relative to the side walls 19 and 20, and below the inside the surface of the lower wall 18 of the housing. In other words, the blade 29 almost completely closes the rear opening in the housing. In the case of the lower elements 24 and 25 of the holders in the form of a fork, the length of its rods (between which the blade 29 is placed) is selected based on ensuring the necessary mechanical strength (Figs. 8 and 9). The limit stop 26 (27) of each holder is made so that it can interact with the outer surface of the upper wall 16 of the housing (namely, in the initial position of the holders, the limit stops 26 (27) rest on the aforementioned wall) and is located at an angle (3 relative to the upper element 22 (23) of the corresponding holder (Fig. 7), and the angle β is additional up to 180 ° to a given initial angle γ of inclination of the upper elements 22 and 23 of the holders relative to the frame plane. Upper 22 (23) and lower 24 (25) elements to each holder is located at an angle relative to each other, providing, when the upper elements 22 and 23 of the holders are relative to the plane of the frame at an angle equal to the initial angle γ of inclination, the location of the lower end of the blade 29 opposite the lower wall 18 of the casing, preferably opposite to a portion of its inner surface, located relative to the rear edge of the bottom wall 18 at a distance that is not less than twice the thickness of the blade 29. As for the said angle α between the two secant planes located radially bones 182 and 183, it is more variation range during the tilting angle procedures upper members 22 and the holders 23, but not more than 20% but, as otherwise unnecessarily increasing dimensions housings of modules 12 in the direction of the axis of symmetry 5 of the frame. In a preferred embodiment of the invention, the modules 12 are located adjacent to each other, in this case (to exclude the influence of the adjacent modules 12 on the magnitude of the change range during the procedures of the angle of inclination of the upper elements 22 and 23 of the holders), the upper wall 16 of the housing is made with the front edge 163 bent down ( . 9).

In the cavity of the housing, in the initial position of contact with the inner surfaces of the walls 16, 17 and 18 of the housing and the blade 29, an elongated elastic closed chamber 30 is placed, filled with pressurized gas (for example, air or nitrogen), providing a clamp in the initial position of the holders their limit stops 26 and 27 to the outer surface of the upper wall 16 of the housing. Thanks to the implementation of the blades 29 with dimensions that provide the smallest possible guaranteed clearance around its entire perimeter, as well as the placement of the rear end of the upper wall 16 opposite the side axis 21 with the smallest possible clearance between the surfaces facing each other, guaranteed placement of the entire elastic closed chamber 30 in the cavity, limited, on the one hand, by the walls 16. 17, 18, 19 and 20 of the housing, and, on the other hand, by the lateral axis 21 and the blade 29.

Each module 12 is made with two horizontally positioned side shelves, which are located on each side 9 and 10 of the spring base 7, and the holes are made in the shelves (shown in the drawings as two lines intersecting at right angles) for fasteners, preferably threaded, by means of which the shelves are detachably connected to the said sidewalls, and the modules 12 are mounted on the sidewalls 9 and 10, with the slope of the respective rigid support element 28 being inclined towards o lumbar support 13. In the simplest example of embodiment of the claimed invention are intended for fixing the modules 12 to the sidewalls 10 of the spring 9 and the base 7, said side flanges may be in the form of two identical plates welded to each respective sidewall 19 and 20 of the housing. Higher operating parameters are achieved by using an elongated plate 31 parallel to the lateral axis 21 and fixed to the upper wall 16 of the housing with the formation of sections 311 and 312 having holes (in the drawings they are shown as two lines intersecting at right angles) threaded fasteners, and protruding beyond the boundaries of the walls 19 and 20, respectively (Figs. 4, 5 and 6), and, therefore, performing the function of laterally horizontal shelves, while the rear end of the plate 31 is located with a gap rum relatively restrictive stops 26 (27). Further, when describing the second embodiment, another example of the execution of the said side shelves will be presented, namely, integrally with the upper wall 16 of the housing. The following is a detailed description with reference to the drawings of the second embodiment of the patented invention, with the same elements in both variants indicated by the same number.

According to the second embodiment, each module 12 (Fig. 10-14) contains a housing including a horizontally located upper wall 16 with the front edge 163 bent down (as in the above-described embodiment of the housing according to the first embodiment shown in Fig. 9), vertically located the front wall 17, the lower wall 18, having the form of a hollow circular cylinder with a horizontal axis 181, truncated laterally (in other words, along the generatrix) by two cutting planes 182 and 183, located radially and at an angle a relative to each other ( u. 14), and two identical oppositely disposed vertical side walls 19 and 20 which are connected (e.g. by welding) to the upper 16, front 17 and bottom 18 walls of the housing. In a preferred embodiment of the invention, the upper 16, front 17 and lower 18 of the housing wall are made in one piece. A through hole is made in each side wall 19 and 20 of the housing, wherein said through holes are located coaxially to the axis 181 of the outer and inner cylindrical surfaces of the lower wall 18 of the housing, and in each through hole there is a corresponding end of the side axis 21. In the same way as described above the first embodiment, the fixing of the lateral axis 21 relative to the side walls 19 and 20 can be carried out using restrictive means known from the prior art, namely, using cotter pins or pins (in the drawings, not shown) and via the threaded connection of one end side of the axis 21 with its respective side wall (e.g., the side wall 19 as shown in FIG. 12).

Rectangular cutouts 164 and 165 (FIGS. 11 and 12) are made from the rear edge of the upper wall 16 of the housing (in contrast to the first variant described above), the upper wall 16 of the housing is located above the lateral axis 21 (FIG. 14) with a minimum the possible distance between its inner surface and the lateral axis 21, and the rear edge of the lower wall 18 of the housing does not protrude beyond the rear edge of the side walls 19 and 20 of the housing.

In addition, each module 12 contains two identical holders, each of which is made in the form of an angular lever, including respectively the upper 22 (23) and lower 24 (25) elements, as well as the limit stop 261 (271), while the holders are placed in the corresponding each of them and the aforementioned rectangular cutout 164 (165), made in the upper wall 16 of the housing, and mounted on the side axis 21 with the possibility of free rotation. The end sections of the upper holder elements 22 and 23 are interconnected by means of a horizontally positioned rigid support element 28, and a blade 29 is fixed (for example, by welding) to the lower elements 24 and 25 (in the preferred embodiment of the invention made in the form of a plug) located in the cavity of the housing made in the form of a flat plate, while the two sides of the plate having the largest surface area are located symmetrically relative to the plane 184 (Fig. 14), in which lies the axis 181 of the outer and inner cylinders ble surfaces of the bottom wall 18 of the housing. In other words, the blade 29, as in the first embodiment described above, is located radially relative to the lower wall 18. The blade 29 is made with dimensions that provide the smallest possible guaranteed clearance along its entire perimeter, namely, from above relative to the lateral axis 21, on the sides relative to the side walls 19 and 20, and from below relative to the inner surface of the lower wall 18 of the housing. The restrictive stop 261 (271) of each holder is made so that it can interact with the surface of the transverse wall (in other words, with the wall of the corresponding rectangular cutout parallel to the rear edge of the upper wall 16) of the corresponding rectangular cutout 164 (165) (namely, in the initial position of the holders their limit stops 261 (271) abut against said wall) and is located at an angle β relative to the upper element 22 (23) of its holder (Fig. 13), while the angle β is additional to 180 ° to a given initial angle γ of the inclination of the upper elements 22 and 23 of the holders relative to the plane of the frame. The upper 22 (23) and lower 24 (25) elements of each holder are located at an angle relative to each other, providing, when the upper elements 22 and 23 of the holders are relative to the plane of the frame at an angle equal to the initial angle γ of inclination, the lower end of the blade 29 opposite the lower the wall 18 of the body, preferably opposite the portion of its inner surface located relative to the rear edge of the lower wall 18 at a distance that is not less than twice the thickness of the blade 29 (Fig. 14). As for the mentioned angle α between the two secant planes 182 and 183 located radially, it is larger than the range of change during the procedures of the angle of inclination of the upper elements 22 and 23 of the holders, but no more than 20%, since otherwise the dimensions increase unreasonably module housings 12 in the direction of the axis of symmetry 5 of the frame. Bent down front edge 163 of the upper wall 16 of the housing is made with geometric parameters (in particular, the angle of inclination), which (even when the modules 12 are close to each other) provide the necessary (specified during design) range of changes during the procedures of the angle of inclination of the upper elements 22 and 23 of the holders (in Fig. 14, the position of the holder at the maximum angle of inclination is shown by dashed lines).

In a preferred embodiment of the second embodiment of the patented invention, each side wall 19 and 20 (Fig. 11) is respectively made with an upper protrusion 191 and 201 (preferably radially rounded) located above a corresponding through hole made in the side wall 19 (20). However, in contrast to the first option described above, the protrusions 191 and 201 in this case are designed to increase mechanical strength at the locations of the ends of the lateral axis 21 and are placed in a rectangular cutout 164 and 165 corresponding to each of them.

In the same way as in the first embodiment described above, in the initial cavity of the housing with initial contact with the inner surfaces of the walls 16, 17 and 18 of the housing and the blade 29 there is an elastic closed chamber 30 of an elongated shape, filled with pressurized gas (for example, air , or nitrogen), providing in the initial position of the holders a clamp of their restrictive stops 261 and 271 to the surface of the transverse wall of the respective rectangular cutout 164 and 165 for each of them. Due to the design of the blade 29 with size In order to ensure the smallest possible guaranteed clearance around its entire perimeter, as well as to place the upper wall 16 above the lateral axis 21 and to ensure the smallest possible distance between its inner surface and the lateral axis 21, the guaranteed placement of the entire elastic closed chamber 30 in cavity, limited, on the one hand, by the walls 16. 17, 18, 19 and 20 of the body, and, on the other hand, the lateral axis 21 and the blade 29.

Each module 12 is made with two horizontally positioned side shelves, which are located on each side 9 and 10 of the spring base 7, and the holes are made in the shelves (shown in the drawings as two lines intersecting at right angles) for fasteners, preferably threaded, by means of which the shelves are detachably connected to the said sidewalls, and the modules 12 are mounted on the sidewalls 9 and 10, with the slope of the respective rigid support element 28 being inclined towards o lumbar support 13.

In a preferred embodiment of the second embodiment of the patented invention, said shelves are made (FIG. 10 ÷ 12) in the form of two opposite sections 166 and 167, which are a continuation of a horizontally located section of the upper wall 16 of the housing and extending it in a direction parallel to the lateral axis 21.

Similarly to the first embodiment described above, the spring base 7 of the patented device for stretching and lengthening the spine can be made with a predetermined stiffness distribution in the longitudinal direction of the frame by varying the gas pressure in the elastic closed chambers 30. In other words, the patented invention ensures the achievement of higher operational parameters compared with the prototype. It should be noted that the use of liners of elastically deformable material instead of elastic closed chambers 30 of an elongated shape filled with pressurized gas will not ensure the achievement of the aforementioned technical result to the same extent due to the limited

The panel 8 for the legs of the legs (both in the first and in the second versions) is fixed on its corresponding base 81 (Fig. 1 and 2) by means of (forming together with them a parallelogram mechanism) two pairs of support rods, respectively 82 and 83, while the upper ends of the first pair of support rods 82 are connected coaxially with one pair of hinges connected to the panel for the legs of the legs 8, and the lower ends of the same pair of support rods 82 are also located coaxially with another pair of hinges connected to the base 81. Similarly, the upper and lower the ends of the second pair of support rods 83 by means of their corresponding hinges, also arranged in pairs coaxially, are connected respectively to the panel 8 for the legs of the legs and the base 81. To provide under the action of an external load elastic displacement of the panel 8 for the legs of the legs away from the spring base 7, the support rods 82 by means of an elastic coupler 84 are spring-loaded relative to the base 81. In addition, in a preferred embodiment of the invention, protrusions (not shown) are provided on the support rods 82 to provide a fix tion panel 8 feet to lower leg in its initial position (prior to treatments) and on the supporting rods 83 provided with protrusions (not shown) restricting the movement of panel 8 for calves of the legs in the course of the procedures. The base 81 by means of the sliders 85 is mounted on the longitudinal elements 1 and 2 of the frame with the possibility of longitudinal movement and fixation in the desired position, for example using placed on the sliders 85 locking screws (not shown).

In both of the above embodiments, a device for stretching and lengthening the spine is used as follows. Before carrying out the procedure (similarly to the prototype), the device is adjusted to individual anthropometric data of a specific user, since for effective spinal traction it is necessary to ensure that all supporting surfaces of the device for traction and lengthening of the spine are exposed with exposed parts of the body of the user lying on his back, namely : the place of maximum deflection of the user's spine in the lumbar (lumbar lordosis) should be above the lumbar the emphasis 13, which is fixed on the sides 9 10 of the spring base 7, the location of the cervical protrusion 61 should correspond to the maximum point of the cervical bend of the spine, and the position of the head on its corresponding panel 6, while the position of the legs on the corresponding panel 8 for the legs of the legs should be as convenient as possible for the user. In the process of adjustment due to the longitudinal movement of both the base 62, on which the head panel 6 is fixed under the action of an external load of elastic displacement in the direction from the spring base 7, and the base 81, on which the elastic displacement is possible under the action of the external load in the direction from the spring base 7, a panel 8 for the legs of the legs is fixed, they achieve the most comfortable position of the user on the supporting surfaces of the device, which, as in the prototype, can t be done with legs.

When the above conditions are met, after laying the user on the supporting parts of the device, the weight of the part of the user's body that is located on the spring base 7 is distributed over all of its rigid support elements 28, while the force acting on each rigid support element 28 leads to a corresponding torque moment acting relative to the horizontally located lateral axis 21 of rotation corresponding to each rigid support element 28 of the holders connected to the shovels oh 29, and directed either counterclockwise for rigid support elements 28 located on the same side relative to the lumbar support 13 as the head panel 6, or clockwise for rigid support elements 28 located on the same side relative to the lumbar support 13, as the panel 8 for the legs of the legs. Under the influence of the torque, there is a rotation of the holders corresponding to each rigid support element 28 and the blades 29 connected to their lower elements 24 and 25 relative to their corresponding lateral axis 21, and the movement of the hard support element 28 connected to them in the direction from the lumbar support 13 to corresponding panel. The rotation of each blade 29 leads to the application of force to the corresponding (in other words, located in the same housing) elongated elastic closed chamber 30, filled with pressurized gas. The application of force to the elastic closed chamber 30 leads to its elastic deformation, and, consequently, to the emergence of an elastic force that prevents further rotation of the blades 28. The longitudinal displacement of the associated rigid support element 28 caused by the rotation of the holders 28 from the lumbar support 13 provides (due to friction force between the upper surface of the rigid support element 28 and the skin of the user) application of a pulling force to the user's body, which is transmitted through the skin and muscles from the body surface the spine, thereby ensuring its longitudinal extension. Thus, the angle of rotation of the holders is determined, on the one hand, by the magnitude of said torque, and, on the other hand, by the stiffness of the gas-filled elastic closed chamber 30 of an elongated shape and the tensile strength of the user's body. The placement of both the panel 6 for the head and the panel 8 for the legs of the legs on the respective base 62 and 81 with the provision of the possibility under the action of an external load of elastic displacement of them in the direction from the spring base 7 provides (similar to the prototype) increase tensile force acting on the spine. At the end of the procedure, the user gets up from the device, while due to the force due to the elastic deformation of the elastic closed chambers 30 of an elongated shape and acting on the blades 29, the latter, together with the respective holders with a rigid supporting element 28, turning relative to each of them the lateral axis 21 are returned to their original position.

In case of violation of the integrity of any of the elastic closed chambers 30 using a screwdriver or wrench, the defective module 12 is dismantled by unscrewing the threaded fasteners (screws or bolts) located in the holes made in the support shelves 311 and 312 according to the first embodiment or support flanges 166 and 167 according to the second embodiment. Then either restrictive means are removed to secure the lateral axis 21 relative to the side walls 19 and 20 (cotter pins or pins), and then the lateral axis 21 is removed, or (Fig. 12) the side axis 21 is unscrewed with a screwdriver. As a result, the module 12 is disassembled on the following components, namely: on the body, on the assembly, including two holders with a rigid support element 28 and a blade 29 fixed to them, as well as on the side axis 21 and the faulty elastic closed chamber 30. After replacing the elastic closed chamber 30 with a new one os The assembly of module 12 is arranged. For this, an elastic closed chamber 30 is first placed in the cavity of the housing of module 12, and after installation of the said assembly relative to the housing, ensuring that the holes in each holder are aligned with the holes in the side wall of the housing 19 and 20 corresponding to each of them, the ends of the lateral axis are placed 21 in said openings. Then, the lateral axis 21 is fixed relative to the side walls 19 and 20. After assembly, the module 12 is fixed on the sidewalls 9 and 10. From the above it follows that the repair of the modules is not only not associated with significant labor and time costs, but can also be carried out in a number of cases by ourselves by user. In other words, the patented invention provides the achievement of such technical results, which together provide a higher maintainability of the device for stretching and lengthening the spine while improving the convenience of its maintenance.

The industrial applicability of the invention is also confirmed by the fact that it can be carried out using means and materials known from the prior art.

Claims (6)

1. A device for stretching and lengthening the spine, containing a horizontally located rectangular frame in the form of two longitudinal elements, the ends of the same name are interconnected by a corresponding end cross member, as well as a head panel with a neck protrusion, a spring base and a panel arranged in series along the longitudinal axis of symmetry of the frame for the shins of the legs, while the spring base includes two identical longitudinal bearing elements that are located opposite each other and mounted on the frame, and t also rigid support elements parallel to each other, which are positioned with a gap relative to each other sequentially along the longitudinal frame elements and on both sides relative to the lumbar support, with each said panel fixed to its corresponding base, and each base mounted on the longitudinal frame elements with the possibility of movement along its longitudinal axis of symmetry and fixation in a given position, characterized in that the longitudinal supporting elements of the spring base are made in the form of thick sidewalls, which are located above the respective longitudinal frame element and are fixed on it, while the spring base also includes identical modules fixed with the possibility of removal on its sidewalls, the number of which is equal to the number of the mentioned rigid support elements in the spring base, while the modules are located perpendicular to the sides of the spring base, sequentially along the longitudinal axis of symmetry of the frame and on both sides relative to the lumbar support, which is located perp dicular to the sidewalls and secured to them, each module contains a housing including a horizontally arranged upper wall, a vertically located front wall, and a lower wall having the shape of a hollow circular cylinder with a horizontally located axis, truncated laterally by two secant planes located radially and at an angle α relative to each other, as well as two opposite vertical identical side walls made with an upper protrusion shifted towards the back edge of the corresponding side with nomenclature, while in each side wall of the housing there is a through hole located coaxially with the axis of the outer and inner cylindrical surfaces of the lower wall of the housing and at least partially within the protrusion corresponding to each of them, and in each of said through holes there is a corresponding end of the side the axis opposite which, with the smallest possible gap between the facing surfaces, the rear end of the upper wall is located, each module also contains two identical output holders, each of which is made in the form of an angular lever, including upper and lower elements, as well as a limit stop, while the holders are placed in the respective angular rectangular cutout, made from the back edge of the upper wall of the housing, and mounted on the lateral axis with the possibility of free rotation, while the end sections of the upper elements of the holders are interconnected by means of a horizontally located rigid support element, and placed in the cavity to the blades, a blade made in the form of a flat plate is fixed to the lower part of the holders, while the two sides of the plate having the largest surface area are located symmetrically with respect to the plane in which the axis of the outer and inner cylindrical surfaces of the lower wall of the housing lies, and the blade is made with dimensions that provide minimum possible guaranteed clearance around its entire perimeter, and the restrictive emphasis of each holder is made with the possibility of its interaction with the external surface by the upper wall of the housing and is located at an angle β relative to the upper element of its holder, which is an angle additional to 180 ° to a given initial angle γ of the inclination of the upper elements of the holders relative to the plane of the frame, the upper and lower elements of each holder are located at an angle relative to each other, providing , when the upper elements of the holders are located relative to the plane of the frame at the mentioned angle γ, the location of the lower end of the blade opposite the lower wall of the casing, and the angle α between the two secant planes located along the radius is larger than the range of changes during the procedures of the angle of inclination of the upper elements of the holders, in the initial position of the contact with the inner surfaces of the upper, front, lower walls of the housing and the blade there is an elastic closed chamber of elongated shape, filled with pressurized gas and providing in the initial position of the holders a clamp of their limit stops to the outer surface of the upper wall a, each module is made with two horizontally positioned side shelves, which are located on each side of the spring base and detachably connected to them, and the modules are mounted on the sides of the spring base to tilt the corresponding hard support element to each side lumbar support. 2. The device according to p. 1, characterized in that the upper, front and lower walls of the housing are made in one piece. 3. The device according to p. 1, characterized in that the upper wall of the housing is made with the front edge bent down. 4. A device for stretching and lengthening the spine, containing a horizontally located rectangular frame in the form of two longitudinal elements parallel to each other, the ends of which are of the same name connected by a corresponding end cross member, and a head panel with a neck protrusion located in series along the longitudinal axis of symmetry of the frame, springy the base and the panel for the legs of the legs, while the spring base includes two identical longitudinal bearing elements, which are located opposite each other and fixed on the frame, as well as parallel rigid support elements located with a gap relative to each other sequentially along the longitudinal elements of the frame and on both sides relative to the lumbar support, with each said panel mounted on its corresponding base, and each base mounted on longitudinal frame elements with the possibility of movement along its longitudinal axis of symmetry and fixation in a given position, characterized in that the longitudinal bearing elements of the spring The boxes are made in the form of rigid sidewalls, which are located above the longitudinal frame element and are fixed on it, while the spring base also includes identical modules fixed with the possibility of removal on its sidewalls, the number of which is equal to the number of the mentioned rigid support elements in the spring base, wherein the modules are located perpendicular to the sides of the spring base, sequentially along the longitudinal axis of symmetry of the frame and on both sides relative to the lumbar support, which is perpendicular to the sidewalls and mounted on them, and each module contains a housing including a horizontally located upper wall with a front edge bent down, a vertically located front wall, a lower wall having the shape of a hollow circular cylinder with a horizontal axis, truncated laterally by two secant planes, located along the radius and at an angle α relative to each other, and two opposite vertical identical side walls, each of which is made through a hole, wherein said through holes are aligned with the axis of the outer and inner cylindrical surfaces of the lower wall of the housing, and in each of said through holes there is a corresponding end of the lateral axis, the upper wall of the housing is located above the lateral axis to ensure the smallest possible distance between its inner surface and the lateral axis , and each module also contains two identical holders, each of which is made in the form of an angular lever, including upper and lower elements, as well as a sharp emphasis, while the holders are placed in a rectangular cutout corresponding to each of them, made from the rear edge of the upper wall of the housing, and mounted on the lateral axis with the possibility of free rotation, and the end sections of the upper elements of the holders are interconnected by means of a horizontally located rigid support element and a blade made in the form of a flat plate is fixed on the lower elements of the holders located in the cavity of the housing, and the blade is made with a size s, providing the smallest possible guaranteed clearance along its entire perimeter, and the two sides of the plate having the largest surface area are located symmetrically with respect to the plane in which the axis of the outer and inner cylindrical surfaces of the lower case wall lies, and the restrictive stop of each holder is made to allow interaction it with the surface of the transverse wall corresponding to it and the said rectangular cutout made in the upper wall of the housing, and is located under scrap β relative to the upper element of the holder corresponding to it, and which is additional up to 180 ° to the specified initial angle γ of inclination of the upper elements of the holders relative to the plane of the frame, the upper and lower elements of each holder are located at an angle relative to each other, providing, when the upper elements of the holders are relative to the plane the frame at an angle equal to the initial angle γ of inclination, the location of the lower end of the blade opposite the lower wall of the housing, and the aforementioned angle α between the radius of the two intersecting planes is greater than the range of changes during the procedures of the angle of inclination of the upper elements of the holders, in the cavity of the housing with the initial position of contact with the inner surfaces of the upper, front, lower walls of the housing and the blade there is an elastic closed chamber of elongated shape, filled with pressurized gas providing in the initial position of the holders the clamp of their limit stops to the surface of the transverse wall corresponding to each of them mentioned of a rectangular cutout, each module is made with two horizontally positioned side shelves, which are located on each side of the spring base and are detachably connected to them, and the modules are fixed on the side walls to ensure that the hard support element corresponding to each of them tilts away from the lumbar support. 5. The device according to p. 4, characterized in that the upper, front and lower walls of the housing are made in one piece, and the side shelves are made in the form of two opposite sections, which are a continuation of a horizontally located section of the upper wall of the housing and extending it in a direction parallel to lateral axis. 6. The device according to p. 4, characterized in that each side wall is made with an upper protrusion located above the corresponding through hole made in the side wall.

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