RU2689841C1 - Spring base for extension and elongation of spine - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medical equipment, namely to physiotherapeutic devices for relieving stresses from skeletal muscles, unloading of nerve endings, restoration of intervertebral disks and correction of mutual position of vertebras. Spring base for elongation and elongation of the spinal column comprises two end transverse elements, and also located in parallel to the lumbar support and with a gap relative to each other rigid support elements, which are arranged on both sides relative to the lumbar support. Rigid support elements are fixed with the possibility of spring-loaded displacement of them against the lumbar support under action of external load. Spring-loaded base contains two identical and parallel hollow cases of tubular shape. Chambers are located horizontally, opposite to each other and are connected to each other by means of two end cross elements located perpendicular to bodies, as well as additionally inserted and located between them and a third parallel transverse element, on which a lug is fixed, located perpendicular to bodies, each of which is made with two vertical ribs located in its upper part and symmetrically relative to vertical longitudinal plane of symmetry of corresponding chamber. In the area of each rib of both bodies located on one side relative to the lumbar support there is a row of through holes arranged with the same pitch in the longitudinal direction of each rib and at the same level. On the area of each rib of both bodies located on the other side relative to the lumbar support there is a row of the same or another number of through holes located with the same pitch in the longitudinal direction of each rib and at the same level so that the axes of all through holes lie in one horizontal plane. Through holes made in ribs corresponding to the same body are arranged in pairs coaxially, and each pair of through holes made in the ribs of one body is located coaxially to the corresponding pair of coaxially located through holes made in the ribs of the other body. In each pair of coaxially arranged through holes made in the ribs of each body there is a horizontally located axis, on which a holder is arranged with possibility of rotation. All holders are made identical in the form of an angular lever including an upper element inclined away from the lumbar support, and a lower element. Lower element of each holder is passed through the corresponding through rectangular slot made in the wall part of each chamber between the ribs, long sides of which are parallel and symmetrical relative to the vertical longitudinal plane of symmetry of the corresponding chamber. Lower element of each holder is placed in the corresponding through rectangular slot with possibility of interaction of its or made on it of the corresponding projection with the short side of the corresponding through slot facing the lumbar support at maximum value of inclination of the upper element of the holder corresponding to it, as well as providing possibility of interaction of its or corresponding ledge made at specified initial inclination angle of upper element of corresponding holder relative to horizontal plane with short side of same through slot located opposite to its short side. On the end section of the lower element of each holder there installed is a horizontally located axis with the ends symmetrically protruding on both sides of the lower element of the holder, on each of which with possibility of rotation a cylindrical roller is installed. End sections of upper elements of holders, which are arranged on different chambers, but on coaxial axes, are connected in pairs to each other by means of horizontally located rigid support element. In the cavity of each body with contact with the inner surface of the corresponding body and with all rollers at the initial angle of inclination of the upper element of all holders relative to the horizontal plane there is an elastic chamber of elongated shape, filled with pressurized gas and equipped with a nozzle. Chambers are made identical, and branch pipes are pneumatically connected to each other and to the cock made with inlet branch pipe. Upper and lower elements of each holder are located at an angle relative to each other, providing in the initial position of the holders location of each upper element relative to the horizontal plane at an angle equal to a given initial angle of inclination thereof from the lumbar support, as well as arrangement of each lower element in cavity of corresponding chambers with provision of elastic interaction of rollers arranged on its end section with corresponding elastic chamber of elongated shape.EFFECT: invention is characterized by simplified design of a spring base for elongation and elongation of the spine with simultaneous improvement of its operational parameters.4 cl, 5 dwg

Description

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

From the achieved prior art known spring base for stretching and lengthening of the spine, containing placed inside a rectangular frame frame three-layer structure of elastically deformable polymeric material, while on the surface of the upper layer are placed with one piece lumbar support and transverse support elements located with relative to each other, on both sides with respect to the vertically oriented lumbar support and inclined from it towards the corresponding Rtsa base. The lumbar support is made in the form of a transverse rib having a cross section in the shape of an equilateral trapezoid with a large base facing upwards, with a groove located along its entire length and symmetrically relative to the vertically positioned plane of symmetry of the lumbar support. The transverse ribs are made the same and have an L-shaped shape, while the side protrusion flush with the upper surface faces the lumbar support. The second layer located under the upper layer described above includes three sections arranged successively in the longitudinal direction, with both extreme sections having the same rigidity, and the middle section (one border of which coincides with the plane of symmetry of the lumbar support, and the other on the border between the trunk and legs User) is made of material with a higher compressive stiffness. The lower (third) layer is made of a material whose rigidity is greater than the rigidity of the materials of which the layers above it are made. In addition, the device contains a support for the neck made in the form of a roller T-shaped section, while the upper part of the support for the neck has a cross-sectional shape in cross section, and the lower vertically positioned part of the support for the neck is placed with tension in the gap between two adjacent supporting elements (GB 2197785 (A), Kienlein K., 1987).

Execution in the above-described device of the second (middle) layer in the form of three sections arranged in series in the longitudinal direction and having different compressive stiffness (both extreme sections have the same rigidity, and the middle section located under the heavier lower part of the user's torso is made of material with higher compressive stiffness) provides a close to uniform distribution along the length of the spine tensile force, since in the case described above, the user's body is elastically supported be with stiffness corresponding to the longitudinal distribution of body weight. However, the implementation of the transverse support elements of the elastically-deformable material does not provide a high efficiency of stretching the spine.

It is also known spring base for stretching and lengthening of the spine, taken as a prototype and containing a rectangular frame formed by two sidewalls, the same ends of which are connected in pairs by two end crossbars, a lumbar support fixed on the sidewalls, three flexible ribbons, the ends of which by means of self-tightening loops secured with tension on the crossbars. Rigid transverse ribs (rigid support elements) are placed on the above tensioned ribbons and at the same distance (with a gap) relative to each other, with rigid transverse ribs placed on both sides relative to the lumbar support and inclined to the opposite side. Each rigid transverse edge is made in the form of a plate with the lower edge curved in the direction of the lumbar support, forming the first shelf, and with the upper edge curved in the opposite direction, forming the second shelf, which performs the function of the supporting element for the user's body during the procedure. Each tape is passed through the corresponding window, made in each rigid transverse edge. Each transverse edge is provided with means that ensure their spring-loaded rotation without moving along flexible bands and made in the form of three pairs of plates. The plates in each pair are mounted on the corresponding side of each side of the corresponding hole in the rigid transverse edge (in other words, on both sides of the corresponding flexible tape), while the side of the plates facing the lumbar support is made in the form of a stop with a cylindrical surface, and the opposed side of each plate is made in the form of a protrusion located at the level of the corresponding hole in the rigid transverse edge. In addition, the spring base is provided with elastic elements, each of which is made in the form of an insert from an elastically deformable material, each elastic element being placed between the first shelf of each rigid transverse rib and the corresponding flexible tape, and the protrusions corresponding to each rigid transverse edge interact with cylindrical surface corresponding to each of them stop, made on the side of the plate, placed on the adjacent rigid transverse edge. In addition, each pair of plates is interconnected by an element placed in grooves made in their stops and resting on top of the corresponding flexible tape. In addition, the prototype contains nodes changing curvature, placed on the sidewalls with the possibility of longitudinal movement and fixation in the desired position (RU 2005445 (C1), Kostanbaev B.C., 1994).

The main disadvantage of the prototype is that it has a complex structure and, therefore, low reliability. In addition, the prototype is characterized by low operating parameters, in particular, does not provide reproducibility of the amount of pulling force resulting from the forced tilt (due to user weight) of rigid transverse ribs away from the lumbar support. The fact is that due to the placement of elastic elements between the first shelf of each rigid transverse rib and the corresponding flexible tape, the amount of elastic force arising from the forced inclination of rigid transverse ribs depends not only on the stiffness of the material from which the elastic elements are made, but also on the size of the tension corresponding flexible tape. However, during operation of the device, the tension of the flexible bands changes (decreases) due to the inevitable residual deformation of the material from which they are made. On the other hand, the inequality of the tensions of the extreme flexible ribbons leads to the fact that, due to the user's weight, the forced tilting of rigid transverse ribs, the angles of inclination of the opposing sides of their sides will not be equal to each other. As a result, the second shelves of rigid transverse ribs will be located with respect to the longitudinal axis of the user's spine at an angle that is not equal to 90 °. This will lead not only to a decrease in the magnitude of the pulling force acting along the user's spine, but also to its uncomfortable position on the spring base. Moreover, the implementation of the distancing means in the form of plates (each of which is made with a protrusion on one side, and an emphasis on the other side, while the stop and the protrusion of each rigid transverse rib interacts respectively with the protrusion and the stop next to the rigid transverse ribs) does not ensure the operability of the device in the case when the said displacement relative to each other of the opposed opposed lateral sides of the rigid transverse ribs has a value comparable to the thickness of the said lustin. The use of funds that ensure constant control of the tension of flexible tapes will lead to a significant increase in the cost of the spring base.

The present invention is directed to solving a technical problem associated with the elimination of the above-mentioned disadvantages of the spring base for stretching and lengthening the spine, due to the use of flexible tapes in it and the fastening of rigid supporting elements thereto. Achievable technical result is to simplify the design of the spring base for stretching and lengthening the spine while increasing its operational parameters.

The technical problem is solved by the fact that a springy base for stretching and lengthening the spine, containing two end transverse elements, as well as rigid support elements parallel to the lumbar support and with a gap relative to each other, are placed on both sides relative to the lumbar support, while rigid supporting the elements are secured with the possibility of under the action of an external load of a spring-loaded displacement of them away from the lumbar support, according to the invention, it further comprises d and the tubular forms of hollow bodies that are the same and parallel to one another, while the bodies are located horizontally, opposite each other and interconnected by means of two end transverse elements perpendicular to the cases, as well as a third transverse element which is additionally inserted and located between them and fixed lumbar support, located perpendicular to the body, each of which is made with two vertical edges located in its upper part and symmet is normal relative to a vertically positioned longitudinal plane of symmetry of the corresponding body, with a series of through holes arranged with equal pitch in the longitudinal direction of each said rib and on the same level in the area of each edge of both buildings located on one side of the lumbar support each edge of both housings, located on the other side relative to the lumbar support, is made of a series of the same or a different number of through holes arranged with the same step in the longitudinal direction of each edge and at the same level so that the axes of all the mentioned through holes lie in the same horizontal plane, while the through holes made in the edges corresponding to the same body are arranged in pairs coaxially, and each pair of through openings made in the edges of one body are located coaxially with the corresponding pair of coaxially arranged through holes made in the edges of the other body, in each pair of coaxially arranged through holes made in the edges oh of each body, there is a horizontal axis, on which the holder is pivoted, all holders are identical in the form of an angular lever, including the upper element having a slope away from the lumbar support and the lower element, while the lower element of each holder is missing through the corresponding through rectangular slot made in the wall section of each body located between the ribs, the long sides of which are parallel and symmetrically relative vertically arranged longitudinal plane of symmetry of the corresponding body, and the lower element of each holder is placed in the corresponding through rectangular slot with the possibility of the interaction of it or the corresponding protrusion made on it with the short side corresponding to the lumbar support at the maximum slope of the upper element corresponding to it holder, as well as ensuring the possibility of its interaction or performed on it Corresponding protrusion at a given initial angle of inclination of the upper element of the corresponding holder relative to the horizontal plane with the short side of the same through slot located opposite the said short side, and on the end section of the lower element of each holder there is a horizontal axis with symmetrically protruding on both sides of the lower element holder ends, each of which is provided with the possibility of rotation placed a cylindrical roller, the end sections and the upper elements of the holders, which are placed on different housings, but on coaxially located axes, are interconnected by means of a horizontally positioned rigid support element, and in the cavity of each body to ensure contact with the inner surface of the corresponding body and all the mentioned rollers at a given initial angle the inclination of the top element of all holders relative to the horizontal plane is placed an elastic chamber of elongated shape, filled with pressurized gas and equipped with a nozzle, while the above-mentioned chambers are made the same, and the nozzles are pneumatically connected with each other and with a valve made with the inlet nozzle, the upper and lower elements of each holder are angled relative to each other, providing in the initial position of the holders the location of each upper element relative to horizontal plane at an angle equal to a given initial angle of inclination away from the lumbar support, as well as the location of each lower element in the cavity corresponding to favoring the housing to resiliently interaction placed at its end portion with the corresponding elastic clips elongated chamber.

In addition, the problem posed is solved by the fact that:

- each case is equipped with removable end caps;

- transverse elements are made in the form of vertically arranged plates with two notches located at the top and intended to be placed in each of the corresponding housing;

- the spring base is provided with means for measuring the gas pressure in elongated elastic chambers.

The advantage of the patented spring base for stretching and lengthening the spine, compared with the prototype, is that, thanks to the patented implementation of means fixed to the hulls that provide independent angular rotation of each rigid support element, they not only simplify their design, but also increase their operational reliability, due to the absence of the said distortions of the rigid support elements during the operation of the spring base. Fastening means, providing independent angular rotation of each rigid support element, on the housings, which also function as longitudinal bearing elements of the spring base and the function of the protective casing for an elongated elastic chamber, corresponding to each of them, filled with pressurized gas also simplifies the spring base design. . In addition, the use of two identical elastic chambers of elongated shape pneumatically connected to each other in a patentable spring-loaded base, filled with pressurized gas instead of flexible tapes, elastic elements and nodes for changing the curvature, leads not only to simplifying its design, but also to increasing its operational parameters due to the possibility of simultaneous regulation of the pressure in the above-mentioned chambers, in other words, the possibility of simultaneously regulating their elastic-deformation parameters ry.

Further, the present invention is explained in detail, with reference to the drawings, a description of specific examples, which, however, is not the only possible, but clearly demonstrate the possibility of achieving the aforementioned technical result by patented a set of essential features.

FIG. 1 schematically shows a spring base for stretching and lengthening the spine, front view; in fig. 2 is a side view, partly cut; in fig. 3 - the bearing part of the spring base: the body, interconnected by two extreme and central crossbars, top view, partial section; in fig. 4 is a view according to A-A of FIG. 1; in fig. 5 is a fragment of the form according to BB. FIG. 2

Springy base for stretching and lengthening the spine (Fig. 1 ÷ 3) contains two identical and parallel hollow body 1 and 2 tubular shape with a rectangular or round profile, made of metal or polymer material, while the body 1 and 2 are horizontal, opposite each other and interconnected by means of two end transverse elements 3 and 4 arranged perpendicularly to housings 1 and 2, and also a third (central) transverse element 5 arranged between them and parallel to them For example, the lumbar support, for example, in the form of a rigid roller 61 (solid or hollow) located perpendicular to the housings 1 and 2 (Fig. 4), is fixed by means of the pillars 6. In the preferred embodiment of the patented invention shown in the drawings, the transverse elements 3 ÷ 5 are made in the form of vertically arranged plates with two notches located at the top and intended to accommodate in each of them the corresponding body 1 and 2. In other embodiments of the patented invention, the transverse elements 3 ÷ 5 either made with legs 7 (in Fig. 2, they are shown by dashed lines), or with cutouts, for example, angular (they are not shown in the drawings) to accommodate the patented spring base n Frame devices known in the prior art for stretching and lengthening of the spine, for example, the frame device described in Patent RU 2271793 (C1), YA Skultan 2006. In other examples of embodiments of the patented invention, for example, in the case of cases 1 and 2 of insufficiently rigid polymeric material to provide the necessary mechanical strength of the patented spring base, the transverse elements 3 ÷ 5 are additionally interconnected by two lateral bodies 1 and 2 arranged in parallel to form together with transverse elements 3 ÷ 5 of a rectangular frame with two end and one central cross-pieces (they are not shown in the drawings).

Each body 1 (2) is made with two vertical ribs 8, 9 (10, 11) located in its upper part (in the example of the cases shown in the drawings (2 ÷ 4), with the rectangular profile, vertical ribs 8, 9 (10, 11 ) are located on the upper wall of the corresponding housing 1 and 2) and symmetrically relative to the vertically positioned longitudinal plane 12 (13) of symmetry of the corresponding housing 1 (2). In the simplest embodiment of the invention shown in the drawings, each edge 8, 9 (10, 11) is formed by a vertically arranged shelf, preferably of an unequal angle, attached to the outer surface of the housing 1 and 2, respectively, by means of either threaded fasteners or welding. In the preferred embodiment of the patented invention, each housing 1 and 2 is provided with removable end caps (they are not shown in the drawings).

On the section of each rib 8, 9 (10, 11) of both housings 1 and 2, located on the same side relative to the lumbar support 61 (FIG. 3), a series of N ₁ through holes 81, 91 (101, 111) are made, located with the same pitch in the longitudinal direction of each rib 8, 9 (10, 11) and at the same level, and a row is made in the section of each rib 8, 9 (10, 11) of both bodies 1 and 2 located on the other side relative to the lumbar support 61 from N ₂ through holes 82, 92 (102, 112) located with the same step in the longitudinal direction of each edge 8, 9 (10, 11) and at the same level, with N ₁ and N ₂ - positive integers, and in the particular case N ₁ = N ₂ .

Through holes 81, 91; 82, 92 (101, 111; 102, 112) made in the sections of the ribs 8 and 9 (10 and 11) corresponding to the same body 1 (2) and located on the same side relative to the lumbar support 61, are arranged in pairs coaxially, and each pair of coaxially arranged through holes 81, 91 and 82, 92, made respectively in the ribs 8 and 9 of the housing 1, is coaxially with its corresponding pair of coaxially arranged through holes 101, 111 and 102; 112, made respectively in the ribs 10 and 11 of the housing 2. In other words, the axis of all the through holes 81, 91; 82, 92 (101, 111; 102, 112) lie in the same horizontal plane, and each pair of coaxially arranged through holes 81, 91 and 82, 92 made in the ribs 8 and 9 of housing 1 corresponds to a coaxially arranged pair of coaxially arranged through holes 101, 111 and 102, 112, made in the edges 10 and 11 and the housing 2.

In addition, located between the ribs 8 and 9 (10 and 11) of the wall section of each housing 1 (2) is made corresponding to each pair of coaxially arranged through holes 81, 91; 82, 92 (101, 111; 102, 112) through-slot 14 of rectangular shape, the long sides of which are parallel and symmetrical with respect to the vertically positioned longitudinal plane 12 (13) of symmetry of the corresponding body 1 (2). In other words, in the wall section of each housing 1 (2) located between the ribs 8 and 9 (10 and 11) and on one side relative to the lumbar support 61, a series of N ₁ identical through slots 14 are made, which are arranged with the same pitch as the corresponding coaxially located pairs of through holes 81, 91 (101, 111), and in the wall section between the same ribs 8 and 9 (10 and 11), but on the other side relative to the lumbar support 61, each wall 1 of each body (2) is made a series of N ₂ identical through slots 14, which are located with the same step as the corresponding The coaxially arranged pairs of through holes 82, 92 (102, 112).

Springy base also contains 2⋅ (N ₁ + N ₂ ) of the same holders 15 (Fig. 1, 2, 4 and 5), each of which is made in the form of an angular lever, including the upper element 151, having a slope away from the lumbar support 61 , and the lower element 152, with each holder 15 is installed with the possibility of rotation on the corresponding to each of them axis 16, the ends of which are placed in the corresponding pair, coaxially spaced holes 81, 91; 82, 92 (101, 111; 102, 112), made in the oppositely located ribs 8 and 9 (11 and 12) of the corresponding body 1 (2), and the lower element 152 of each holder 15 is passed through the corresponding to it and made in the upper part of the wall the corresponding body 1 (2) through rectangular slot 14 (corresponding to a pair of through holes made in the oppositely spaced ribs 8 and 9 (11 and 12), in which the ends of the axis 16 of the said holder 15 are placed). The lower element 152 of each holder 15 is placed in the corresponding through rectangular slot 14 with the possibility of interaction between it or the corresponding projection made on it (not shown) with the short side facing the lumbar support 61 of the mentioned through slot 14 at the maximum slope of the upper element 151 corresponding to the holder 15, as well as ensuring the possibility of interaction between it or the corresponding protrusion made on it with a given initial angle j of inclination member 151 has the corresponding holder 15 relative to the horizontal plane of the short side of the same through the slit 14, positioned opposite to said short side thereof. At the end portion of the lower element 152 of each holder 15, a horizontally positioned axis 17 is installed with symmetrically protruding ends on both sides of the lower element 152, on each of which a cylindrical roller 18, preferably made of a polymeric material, is placed to ensure rotation. In the preferred embodiment of the invention, on each axis 16 and on both sides relative to the corresponding holder 15, washers of antifriction material are placed, for example, fluoroplastic (not shown). The end section of the upper element 151 of each holder 15, placed on the housing 1 with the possibility of rotation around the corresponding horizontal axis 16, through a horizontal rigid support element 19 is connected with the end section of the upper element 151 of the holder 15, placed on the housing 2 with the possibility of rotation around corresponding to it a horizontal axis 16, which is coaxial with the axis 16 of rotation of said holder 15 placed on housing 1. In other words, the end portions of the upper elements 151 ntov holders 15 which are arranged in separate housings 1 and 2, but coaxial axes 16 which are pairwise interconnected by means of a horizontal rigid support member 19, which are arranged parallel lumbar support 61 and with a clearance relative to each other.

In the cavity of each housing 1 (2) with ensuring contact with the inner surface of the corresponding housing 1 (2) and with all the rollers 18 at the initial angle j of the upper element 151 of all holders 15 relative to the horizontal plane, an elastic chamber 20 of elongated shape is placed, which is under pressure gas (for example, air or nitrogen) and equipped with a pipe 201, while the above-mentioned chambers 20 are the same, and the pipes 201 are pneumatically connected to each other and with a valve 21 made with the inlet pipe 211 for connection to an external controlled source of compressed gas, a pump or a cylinder with compressed gas and fixed, for example, on the end transverse element 3 (Fig. 1 and 2). In the preferred embodiment of the patented invention, the spring base is provided with means for measuring the gas pressure in the elongated elastic chambers 20, for example, with a pressure gauge 22.

The upper 151 and lower 152 elements of each holder 15 are angled relative to each other, providing in the initial position of the holders 15 the location of the upper element 151 of each holder 15 relative to the horizontal plane at an angle equal to a given initial angle j tilting it away from the lumbar support 61 (FIG. 5), as well as the location of its lower element 152 in the cavity of the corresponding body 1 (2) with the provision of elastic interaction of the rollers 18 placed on its end portion of the rollers 18 with the elastic chamber 20 elongated forms.

In other words, in the initial position of the holders 15, their lower elements 152 under the action of elastic force, due to the interaction of the rollers 18 with the elastic chamber 20, are pressed to the said short side corresponding to each holder 15 of the through slot 14.

Spring base for stretching and lengthening of the spine is used as follows. Before the procedure, depending on the weight of the user and on the basis of the dependencies obtained during the preliminary adjustment of the corresponding spring base, the elastic pressure chambers 20 of the elongated shape establish the pressure value that ensures the most comfortable procedure for a particular user. Since the cavities of two identical elastic chambers 20 of elongated shape by means of nozzles 201 are pneumatically connected to each other, therefore, in said chambers 20 the same gas pressure is established, and, consequently, said chambers 20 have the same elastic-deformation parameters. In the initial (before the procedure) position of the holders 14, their upper elements 141 are inclined away from the lumbar support 61 and located at a given initial angle j relative to the frame plane, the rigid supporting elements 19 are arranged parallel to the lumbar support 61 and with a gap relative to each other, and the rollers 18, placed on the end portion of their lower elements 152, elastically interact ("spring-loaded") with the elastic chamber 20 of elongated shape.

For the procedure of stretching and lengthening the spine, the user lays back on a springy base, while it is necessary that the place of maximum curvature of the spine of the user in the lumbar region (lumbar lordosis) is above the lumbar support 61, which, for example, by means of racks 6 (Fig. 4) mounted on the third (central) supporting element 5.

After placing the user on the spring base, his weight is distributed over all his rigid supporting elements 19, while the force acting on each rigid supporting element 19 results in a corresponding torque that acts relative to horizontal and coaxial axes 16 of rotation corresponding to each rigid supporting element 19 of the holders 15 and directional or clockwise for rigid supporting elements 19 located on the same side relative to the lumbar support 6 1, or counterclockwise for rigid supporting elements 19 located on the other side relative to the lumbar support 61 (in Figs. 1 and 5, said rigid supporting elements 19 are located to the right and to the left relative to the lumbar support 61, respectively). Under the action of torque, both the upper elements 151 corresponding to each rigid support element 19 of the holders 15 and, consequently, the movement of the rigid supporting element 19 connected to them in the direction from the lumbar support 61 and the lower elements 152 of the same holders take place. When turning the lower elements 152 of the holders 15, the rollers 18, rotating around the axis 17 corresponding to each pair of them, move along the surface of the corresponding elastic chamber 20 and simultaneously press into it. In other words, the rotation of each holder 15 causes a force to be applied to a corresponding elastic chamber 20 of elongated shape filled with pressurized gas. The application of force to the elastic chamber 20 leads to its elastic deformation, and, consequently, to the appearance of an elastic force that prevents further rotation of the holders 15.

Due to the rotation of the holders 15, the longitudinal displacement of the rigid support element 19 associated with them in the direction from the lumbar support 61 provides (due to the friction force between the upper surface of the rigid support element 19 and the user's skin) application to the body of the pulling force, which is transmitted through the skin and muscles the body surface of the spine, thereby ensuring its longitudinal extension. Thus, the magnitude of the angle of rotation of the holders 15 is determined, on the one hand, by the magnitude of said torque, and, on the other hand, by the rigidity of the elongated shape of the elastic chamber 20 filled with gas and the resistance of the user's body to stretching. At the end of the procedure, the user gets up from the spring base, and due to the force due to the elastic deformation of the elongated elastic chambers 20 and acting on the rollers 18, the latter, together with the corresponding holder 15, return to their original position.

Industrial applicability of the invention is also confirmed by the fact that it can be implemented using means and materials known from the prior art.

Claims (4)

1. A springy base for stretching and lengthening the spine, containing two end transverse elements, as well as rigid supporting elements parallel to the lumbar support and with a gap relative to each other, which are placed on both sides relative to the lumbar support, while the rigid supporting elements are fixed with possibility the action of the external load of the spring-loaded displacement of them away from the lumbar support, characterized in that it additionally contains two identical and parallel hollow cores tubular shape, with the body horizontally, opposite each other and interconnected by means of perpendicular to the body two end transverse elements, as well as additionally inserted and located between them and the third transverse element parallel to them, which is perpendicular to the body , each of which is made with two vertical edges, located in its upper part and symmetrically relative to the vertically located pr a portion of the symmetry of the corresponding body, with a section of each edge of both buildings, located on one side relative to the lumbar support, a series of through holes arranged with the same pitch in the longitudinal direction of each mentioned edge and at the same level, and in the section of each edge of both buildings located on the other side relative to the lumbar support, made a series of the same or a different number of through holes located with the same step in the longitudinal direction of each edge at the same level so that the axes of all the mentioned through holes lie in the same horizontal plane, while the through holes made in the edges corresponding to the same body are arranged in pairs coaxially, and each pair of through holes made in the edges of one body, located coaxially with a corresponding pair of coaxially arranged through holes made in the edges of the other body; in each pair of coaxially located through holes made in the edges of each body, placed horizontally A laid-out axis on which the holder is pivotally positioned, all holders being identical in the form of an angular lever including an upper element having a slope away from the lumbar support and a lower element, while the lower element of each holder is passed through the corresponding through rectangular a slot made in the wall section of each body located between the ribs, the long sides of which are parallel and symmetrical with respect to the vertically positioned longitudinal plane symmetry of the corresponding body, the lower element of each holder is placed in the corresponding through rectangular slot with the possibility of interaction between it or the corresponding protrusion made on it with the short side facing the lumbar support with the short side of the corresponding through slot at the maximum inclination of the upper element of the corresponding holder, and with the possibility of interaction between him or performed on it the corresponding protrusion at a given initial the angle of inclination of the upper element of the corresponding holder relative to the horizontal plane with the short side of the same through slot, located opposite to the mentioned short side, and on the end section of the lower element of each holder there is a horizontal axis with ends symmetrically protruding on both sides of the lower element of the holder of which a cylindrical roller is placed with the possibility of rotation, the ends of the upper elements of the holders which are placed S on different bodies, but on coaxially located axes, are connected in pairs by means of a horizontally positioned rigid support element, and in the cavity of each body to ensure contact with the internal surface of the corresponding body and with all the mentioned rollers at the initial angle of inclination of the top element of all holders relative to horizontal the plane is placed an elastic chamber of elongated shape, filled with gas under pressure and equipped with a nozzle, while the said chambers are The pipes are the same and the nozzles are pneumatically connected to each other and with a valve made with the inlet nozzle, the upper and lower elements of each holder are angled relative to each other, ensuring in the initial position of the holders the position of each upper element relative to the horizontal plane at an angle equal to the given initial the angle of its inclination away from the lumbar support, as well as the location of each lower element in the cavity of the corresponding body with the provision of elastic interaction I placed it on the end portion of the rollers with the appropriate elastic cam elongated shape. 2. Springy base under item 1, characterized in that each case is equipped with removable end caps. 3. Springy base under item 1, characterized in that the transverse elements are made in the form of vertically arranged plates with two notches located at the top and designed to accommodate in each of them the corresponding body. 4. Springy base under item 1, characterized in that it is equipped with means for measuring the pressure of gas in elastic chambers of elongated shape.

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