EA024287B1 - Measuring module and device for measuring and evaluation of backbone flexibility with such measuring module (variants) - Google Patents

Abstract

The invention relates to a measuring module of a device for measuring backbone flexibility and comprises a housing and a measuring element adapted to move along at least one measuring scale. The housing consists of two parallel to each other longitudinal lateral parts, connected from one side by the first connecting element, and from the other side by the second connecting element in the form of a linear segment made from a hollow profile. The second connecting element is positioned perpendicular to the longitudinal lateral parts and connects them so that its ends are free. A scale section with negative values is positioned from the lateral segment side, wherein the zero scale mark is positioned in the middle part of the housing. Holders in the form of linear segments made from a hollow profile are connected to the outer side of each longitudinal lateral part, in the zone of zero scale mark location, the holders are parallel to the second connecting element and have a common longitudinal axis. The invention also relates to variants of devices for measuring backbone flexibility provided with said measuring module. A group of inventions provides standartization of conditions for test execution, broadening of the device functional abilities, enhancement of using the devices for measuring backbone flexibility while operating and unification thereof.

Description

FIELD OF THE INVENTION

The group of inventions relates to the field of medicine, physical education and sports, namely to means of medical non-invasive examination, and relates to devices for measuring and evaluating the flexibility of the spine and joints, as well as the elasticity of the muscles of the back of the thigh and lower leg, and can be used to monitor the condition and reserves of physical health, health of children, adolescents, youth and adults.

Background of the Related Art

There are various devices for measuring the flexibility of the spine, which can be divided by the location of the measuring part (vertically or horizontally, at floor level or at some height);

by the method of measurement (with or without a moving element).

The closest analogue for inventions according to claims 1, 9 of the formula is the solution 8i 150577 A1 (publ. 01.01.1962), which disclosed a device for determining human flexibility, containing a frame and a movable bar. In order to fix the reached position of the ends of the fingers when the body is tilted forward relative to the supporting plane passing through the soles of straightened legs, fixation springs are installed in it, holding the bar movable along the bed with a scale graduated in units of length. The bar moves along the bed thanks to the T-shaped crackers. The device can be mounted on the floor or on a stool and used in a sitting or standing position.

The disadvantages of the analogue include the lack of elements in it that ensure standardization of the examinee's posture during testing, namely the position of the feet and hands when resting on the mobile bar.

The closest analogue to the variant of the device according to item 13 of the formula is the source I8 5935087 A (publ. 08/10/1999), which describes a device for measuring the flexibility of the spine when leaning forward and down from the initial position sitting on the floor above the supporting surface, containing a base plate, equipped with a scale for measuring flexibility. A back plate is attached to one end of the base plate, having the ability to rotate and install in a vertical position. Fixing the plate in an upright position is carried out using the side supports. The device comprises a movable table moving in the longitudinal direction of the base plate.

The disadvantages of the analogue include the lack of elements in it that ensure standardization of the examinee's posture during testing, namely the position of the feet and hands when moving the movable table.

The closest analogue to the third version of the device according to clause 16 of the formula is the solution 8i 1505503 A1 (publ. 09/07/1989), which disclosed a device for measuring the flexibility of the spinal column, containing a meter with a linear scale. In order to increase the accuracy and extend the measurement range, a support step is introduced into the device, and the meter is made in the form of a measuring bar installed with the possibility of vertical movement below the level of the supporting step connected to a vertical rail on which a linear scale is applied, and a mechanism that balances the measuring bar with the rail . The meter is mounted in a column. The rail moves in guide sleeves mounted on a removable bar.

The disadvantages of the analogue include the lack of elements in it that ensure standardization of the examinee's posture during testing, namely the position of the feet and hands when moving the measuring bar.

The problem to which the group of inventions is directed is to eliminate the above disadvantages.

The essence of the group of inventions

The technical result achieved by the group of inventions is to standardize the conditions for performing the test, expand the functionality of the devices, increase the usability of devices for measuring the flexibility of the spine during operation and their unification.

The technical result is achieved in that the measuring module of the device for measuring the flexibility of the spine contains a housing and a measuring element made with the possibility of movement along at least one measuring scale. The housing consists of two longitudinal lateral parts parallel to each other, connected on one side by a first connecting element, and on the opposite side by a second connecting element in the form of a straight section made of a hollow profile. The second connecting element is perpendicular to the longitudinal side parts and connects them so that its ends are free. A section of the scale with negative values is located on the side of the first connecting element, and a zero mark of the scale is located in the middle of the housing. Holders in the form of straight segments made of a hollow profile parallel to the second connecting element and having a common longitudinal axis are attached to the outside of each longitudinal side part, in the zone of the zero mark location.

There are guide elements perpendicular to the inner sides of the longitudinal side parts, in which longitudinal grooves are made facing each other, and on the upper and lower surfaces of each guide element, measuring scales are applied.

The measuring element is a finger stop mounted on a plate, the sides of which are located in the longitudinal grooves of the guide elements, while the finger stop is equipped with two semi-cylindrical eyepiece lenses located on both sides of the finger stop above the measuring scales, the lower flat surfaces of the eyepiece lenses parallel to the upper surfaces of the guide elements.

Eyepiece lenses have risks located along the midline of the flat surfaces of the lenses and risks associated with those forming the cylindrical surfaces of the lenses.

The working side of the finger stop is made in the form of a circle with a color target circle located in the center and a concentric ring

At least one side of the plate contains a recess with a friction stop placed therein, spring-loaded, the working side of which resiliently abuts against the wall of the longitudinal groove made in the guide element.

At the ends of the guide elements located on the side of the second connecting element, recesses are made for installing the sides of the plate in the grooves.

The first connecting element has the shape of one and a half.

The technical result is achieved by the fact that in the first embodiment, the device for measuring the flexibility of the spine when leaning forward and down from the starting position sitting on the floor contains the proposed measuring module and two vertical half frames, the lower end parts of which are pivotally connected to the holders, and the upper end parts are pivotally connected to the upper part of the thrust frame. The lateral parts of the thrust frame are telescopically mounted on rails pivotally connected to the ends of the second connecting element. The upper and lower end parts of the half frames are connected by jumpers. On the lower part of the thrust frame, a fixer for the vertical working position of the semi-frames is fixed, on each of the semi-frames there are stops for the feet of the subject.

Each of the stops for the test subject's feet is made in the form of a removable foot cradle with a rounded support foot and fast fixation elements on the frames.

The retainer for the vertical working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section bent in cross section with edge bending to the opposite side of the bend of the specified end part.

The technical result is also achieved by the fact that according to the second embodiment, the device for measuring the flexibility of the spine when leaning forward and down from the starting position sitting on the floor contains the proposed measuring module, which is mounted horizontally in the upper part of the composite frame containing two vertical half frames, the upper end parts of which are articulated connected to the holders, and two vertical half-frames, the upper end parts of which are pivotally connected to the ends of the second connecting element. The lower end parts of the semi-frames connected to the holders are pivotally connected to the lower part of the thrust frame. In the lateral parts of the thrust frame, guides are mounted pivotally connected to the upper end parts of the semi-frames connected to the ends of the second connecting element and made to extend from the lateral parts of the thrust frame. The lower end parts of the semi-frames connected to the holders and the lower end parts of the half-frames connected to the ends of the second connecting element are connected by connecting elements pivotally connected to the indicated lower end parts of the semi-frames. The lower end parts of the semi-frames connected to the ends of the second connecting element are connected to each other by a connecting element pivotally connected to the specified end parts. The upper and lower end parts of the semi-frames connected to the holders are connected by jumpers. On the upper part of the thrust frame, a fixer for the vertical working position of the semi-frames is fixed. On each of the half-frames connected to the holders, an emphasis is placed for the feet of the subject.

The retainer for the vertical working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section bent in cross section with edge bending to the opposite side of the bend of the specified end part.

Each of the stops for the test subject's feet is made in the form of a removable foot cradle with a rounded support foot and fast fixation elements on half frames connected to the holders.

The technical result is achieved by the fact that according to the third embodiment, the device for measuring the flexibility of the spine when leaning forward and down from the initial position while standing on the supporting platform contains the proposed measuring module, which is mounted vertically so that the first connecting element is located on top. The ends of the second connecting element are pivotally connected to the front of the horizontal frame, and the ends of the holders are pivotally connected to the front ends of the horizontal semi-frames. The rear end parts of the horizontal half frames are pivotally connected to the upper part of the thrust frame, while the lateral parts of the thrust frame are telescopically mounted on rails pivotally connected to the front of the horizontal frame. The front end parts of the horizontal half frames are connected by vertical connecting elements to the front of the horizontal frame, and the rear end parts of the horizontal half frames are connected by vertical connecting elements to the rear of the horizontal frame. The vertical connecting elements are connected to the indicated end parts of the horizontal half frames and the front and rear parts of the horizontal frame pivotally. On the lower part of the thrust frame is fixed the working position lock of horizontal semi-frames. The supporting platform is installed on horizontal half frames.

The horizontal working position latch for the semi-frames is made in the form of an elastic plate having a Y-shaped end section bent in cross section with edge bending to the opposite side of the bend of said end part.

The supporting platform has in front of the projections for stop stop.

The invention is further illustrated by the following drawings: in FIG. 1 shows a general view of a measuring module; in FIG. 2 depicts in general form a finger rest; in FIG. 3 depicts in general form a finger rest (bottom view); in FIG. 4 shows a device according to a first embodiment;

in FIG. 5 shows the device according to the first embodiment in the folded-up position for transportation;

in FIG. 6 is a longitudinal sectional view of a vertical position lock; in FIG. 7 shows a general view of the device according to the second embodiment;

in FIG. 8 shows a device according to the second embodiment in the folded-up position for transportation;

in FIG. 9 shows a general view of the device according to the third embodiment;

in FIG. 10 shows the device according to the third embodiment in the folded-up position for transportation.

Information confirming the possibility of implementing a group of inventions

The proposed measuring module (see Fig. 1) contains a housing and a measuring element (1), made with the possibility of movement along at least one measuring scale. The casing consists of two longitudinal lateral parts (2, 3) parallel to each other, connected on one side by a first connecting element (4), and on the opposite side by a second connecting element (5) in the form of a straight section made of a hollow profile. The second connecting element (5) is perpendicular to the longitudinal side parts (2, 3) and connects them so that its ends (6) are free. A section of the scale with negative values is located on the side of the first connecting element (4), while the zero mark of the scale is located in the middle part of the housing. To the outer side of each longitudinal side part (2, 3), in the zone of the zero mark, holders (7, 8) are attached in the form of straight segments made of a hollow profile parallel to the second connecting element (5) and having a common longitudinal axis (9 )

Perpendicular to the inner sides of the longitudinal side parts (2, 3), guide elements (10, 11) are attached, in which longitudinal grooves (12) are made. On the upper and lower surfaces of each guide element (10, 11), measuring scales are applied. The grooves of the first guide element (10) attached to the side part (2) are located opposite the grooves of the second guide element (11) attached to the side part (3).

The measuring element (see Fig. 2, 3) is a finger rest (13) mounted on a plate (14), the sides of which are located in the longitudinal grooves (12) of the guide elements (10, 11).

The finger rest (13) is equipped with two semi-cylindrical eyepiece lenses (15, 16) located on both sides of the finger rest (13) above the measuring scales. The lower flat surfaces of the eyepiece lenses (15, 16) are parallel to the upper surfaces of the guide elements (10, 11).

Eyepiece lenses (15, 16) have risks (17, 18) located along the midline of the flat surfaces of the eyepiece lenses and risks (19, 20) that are responsive to the risks (17, 18) on the forming cylindrical surfaces of the eyepiece lenses .

The working side of the finger stop is made in the form of a circle (21) with a colored target circle (22) located in the center and a concentric ring (23), serving as a guide for the installation of the ends of the fingers by the subject to move the finger stop (13). On the upper surface of the finger stop (13), an arrow-pointer (24) is applied during testing.

At least one side of the plate (14) contains a recess (25) with a friction stop (26) placed therein, a spring-loaded spring (27), the working side of which resiliently abuts against the wall of the longitudinal groove (12) made in the corresponding guide element, excluding the possibility of movement of the finger stop 13 under the action of inertial or gravitational forces without the application of a given force.

At the ends of the guide elements (10, 11) located on the side of the second connecting element (5), recesses (28, 29) are made for installing the sides of the plate in the grooves.

The measuring module according to the present invention allows to unify devices

- 3,024,287 measuring flexibility of various designs.

The device according to the first embodiment (see Figs. 4, 5) for measuring the flexibility of the spine when leaning forward and down from the initial sitting position on the floor contains the proposed measuring module and two vertical half frames (30, 31), the lower end parts of which (32, 33) are pivotally connected to the holders (7, 8), and the upper end parts (34, 35) are pivotally connected to the upper part (36) of the thrust frame. The lateral parts (37, 38) of the thrust frame are telescopically mounted on guides (39, 40) pivotally connected to the ends (6) of the second connecting element (5). The upper (34, 35) and lower (32, 33) end parts of the half-frames (30, 31) are connected by jumpers (41, 42). On the lower part (43) of the thrust frame, a latch (44) for the vertical working position of the semi-frames is fixed. Moreover, on each of the half-frames (30, 31) s, stops (45, 46) are installed for the feet of the subject.

The upper and side parts of the thrust frame are made of a straight hollow profile with a cylindrical inner surface, and the lower part is made in the form of a plate.

The stops (45, 46) for the feet of the subject are made in the form of a removable foot cradle with a support thrust (47, 48) of a rounded shape and fast fixation elements on half frames (30, 31).

The latch (44) of the vertical working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section (49) bent in cross section with edge bending (50) to the opposite side of the bend of the indicated end part.

The device folded for transportation according to the first embodiment (see FIG. 5) is mounted on a flat horizontal surface. Most preferably, the arrangement of the device on the mat, the upper working surface of which has high frictional properties. The half-frames (30, 31) are turned by setting the foot stops (45, 46) in a vertical position. When turning the semi-frames (45, 46), the lateral parts (37, 38) of the thrust frame begin to move along the guides (39, 40) until the latch (44) is fixed on the second connecting element (5). The stops (45, 46) in this case occupy a working vertical position. The finger stop (13) is installed in the extreme position at the first connecting element (4).

The examinee sits on the mat so that both feet of the legs straightened at the knees are placed in vertically mounted stops (45, 46). At the same time, the feet should fit snugly against the stops (45, 46). The heels of the subject are located on the thrust bearings (47, 48), pressing them to the supporting surface. At the command of the methodologist, the subject begins to slowly lean forward and down, abutting with the ends of the middle fingers of the superimposed hands straightened at the elbows of the hands in a circle (21) with a target circle (22), slowly and evenly moving the measuring element (1) away from you forward along the guides (10, 11) until it reaches the maximum remote position. Using measuring scales located on the upper surfaces of the guide elements (10, 11), determine the amount of movement of the measuring element with respect to the zero mark. The readings recorded. The test is performed three times. The arithmetic average is determined by three results, which is counted as the test result and used to assess the physiological and functional state of the spine.

The device according to the second embodiment (see Figs. 7, 8) for measuring the flexibility of the spine when leaning forward and down from the initial sitting position on the floor contains the proposed measuring module, which is installed horizontally in the upper part of the composite frame containing two vertical half frames (51, 52), the upper end parts (53, 54) of which are pivotally connected to the holders (7, 8), and two vertical half frames (55, 56), the upper end parts (57, 58) of which are pivotally connected to the ends (6) of the second connecting element (5). The lower end parts (59, 60) of the half frames (51, 52) are pivotally connected to the lower part (61) of the thrust frame. In the lateral parts (62, 63) of the thrust frame, guides (64, 65) are mounted pivotally connected to the upper end parts (57, 58) of the half-frames (55, 56), and made to extend the thrust from the side parts (62, 63) frames. The lower end parts (59, 60) of the half-frames (51, 52) and the lower end parts (66, 67) of the half-frames (55, 56) are connected by connecting elements (68, 69) pivotally connected to the indicated lower end parts (59, 66) and (60, 67). The lower end parts (66, 67) of the half frames (55, 56) are connected to each other by a connecting element (70), pivotally connected to the indicated end parts (66, 67). The upper (53, 54) and lower (59, 60) end parts of the half-frames (51, 52) are connected by jumpers (71, 72). On the upper part (73) of the thrust frame, a latch (74) for the vertical working position of the semi-frames (51, 52, 55, 56) is fixed. On each of the half frames (51, 52) an emphasis (75, 76) is installed for the feet of the subject.

The lower and side parts of the thrust frame are made of a straight hollow profile with a cylindrical inner surface, and the upper part is made in the form of a plate.

The latch of the vertical working position of the second variant of the device has a design similar to the latch of the first variant of the device.

The device folded for transportation according to the second embodiment (see FIG. 8) is mounted on a flat horizontal surface. Most preferably, the arrangement of the device on the mat, the upper working surface of which has high frictional properties. The half-frames (51, 52) and (55, 56) are rotated by setting the foot stops (75, 76) in a vertical position.

- 4,024,287

When turning the half-frames (51, 52), the half-frames connected to them (55, 56) turn simultaneously. The vertical position is set by the latch (74), fixed on the second connecting element (5). The finger stop (13) is installed in the extreme position at the first connecting element (4).

The examinee sits on the mat so that both feet of the legs straightened at the knees are placed in vertically mounted stops (75, 76). At the same time, the feet should fit snugly against the removable stops (75, 76), made in the form of a lodgement of the foot with a support foot (not marked) of a rounded shape. The heels of the subject are located on the thrust bearings of the stops, pressing them to the supporting surface. At the command of the methodologist, the subject begins to slowly lean forward and down, abutting with the ends of the middle fingers of the superimposed hands straightened at the elbows of the hands in a circle (21) with a target circle (22), slowly and uniformly moving the measuring element away from you along the guides (10, 11) until he reaches the maximum remote position. Using measuring scales located on the upper surfaces of the guide elements (10, 11), determine the amount of movement of the measuring element with respect to the zero mark. The readings recorded. The test is performed three times. The arithmetic average is determined by three results, which is counted as the test result and used to assess the physiological and functional state of the spine.

In addition, the device according to the second embodiment can be used to measure the flexibility of the spine when tilted forward and down as a device according to the first embodiment, for which the measuring element (1) is removed and placed in the measuring module turned 180 ° relative to the longitudinal axis of the measuring module, the device itself is located downward by the upper end ends (53, 54) of the vertical half-frames (51, 52) and the upper end parts (57, 58) of the vertical half-frames (55, 56), and the stops (75, 76) are removed and installed They are turned upside down in a manner similar to the usual arrangement of stops, supporting thrusters down and supporting surface towards the first connecting element (4) of the connecting module (to the subjects), thus providing enhanced functionality.

The device according to the third embodiment (see Figs. 9, 10) for measuring the flexibility of the spine when tilted forward and down from the initial position while standing on the supporting platform (77), contains the proposed measuring module, which is mounted vertically so that the first connecting element (4 ) is located on top. The ends (6) of the second connecting element (5) are pivotally connected to the front part (78) of the horizontal frame (79), and the ends of the holders (7, 8) are pivotally connected to the front end parts (80, 81) of the horizontal half frames (82, 83) . The rear end parts (84, 85) of the horizontal half frames (82, 83) are pivotally connected to the upper part (86) of the thrust frame, while the lateral parts (87, 88) of the thrust frame are telescopically mounted on rails (89, 90) pivotally connected to the front part (78) of the horizontal frame (79). The front end parts (80, 81) of the horizontal half frames (82, 83) are connected by vertical connecting elements (91, 92) to the front part (78) of the horizontal frame (79), and the rear end parts (84, 85) of the horizontal half frames (82, 83) are connected by vertical connecting elements (93, 94) to the rear part (95) of the horizontal frame (79). The vertical connecting elements (91, 92) are connected to the end parts (80, 81) and the front part (78) respectively, and the vertical connecting elements (93, 94) are pivotally connected to the end parts (84, 85) and the rear part ( 95). On the lower part (96) of the thrust frame, a latch (97) of the working position of the horizontal half frames (82, 83) is fixed. The supporting platform (77) is mounted on horizontal half frames (82, 83) and has projections (98, 99) in the front part for stop stop.

The upper and side parts of the thrust frame are made of a straight hollow profile with a cylindrical inner surface, and the lower part is made in the form of a plate.

The supporting platform has protrusions for stop stops.

The latch of the working horizontal position of the half frames (82, 83) of the third embodiment of the device has a design similar to the latch of the first embodiment of the device and is fixed on the second connecting element (5). The fixation of the working position of the device is also ensured by the vertical component of the test person’s weight, due to which the lateral parts (87, 88) of the thrust frame are supported by the end parts of the guides (89, 90).

The examinee stands on the supporting platform (77) in such a way that the toes of the feet rest on the protrusions, the legs are straightened at the knees, the feet are completely on the platform. At the command of the methodologist, the subject begins to slowly lean down and forward, abutting with the ends of the middle fingers of the superimposed hands straightened at the elbows of the hands in a circle (21) with a target circle (22), slowly and uniformly moving the measuring element (1) away from you down along the guides (10, 11) until it reaches the maximum remote position. Using measuring scales located on the upper surfaces of the guide elements (10, 11), determine the amount of movement of the measuring element with respect to the zero mark. The readings recorded. The test is performed three times. Using the three results, the arithmetic mean is determined, which is counted as the test result and used to evaluate the physiological and functional state of the spine.

In addition, the device according to the third embodiment can be used to measure the flexibility of the spine when tilted forward and down as a device according to the second embodiment, the device itself is positioned down by the connecting elements (93, 94) and up by the measuring module and connecting elements (91, 92) while the frame (79) and the support platform (77) are located vertically, thus providing an extension of functionality.

The proposed group of inventions provides standardization of the conditions for performing the test, expanding the functionality of the devices, improving the usability of devices for measuring the flexibility of the spine during operation and their unification.

The results obtained in testing using the above devices are comparable and can be used for prognostic purposes and recommendations to the subjects.

Claims (17)

CLAIM 1. The measuring module of the device for measuring the flexibility of the spine, comprising a housing and a measuring element (1), made with the possibility of movement along at least one measuring scale, characterized in that the housing consists of two parallel to each other longitudinal side parts (2, 3) connected on one side by a first connecting element (4), and on the opposite side by a second connecting element (5) in the form of a straight section made of a hollow profile, the second connecting element being located perpendicular to the longitudinal lateral parts and connected with them so that its ends (6) are free, the section of the scale with negative values is located on the side of the first connecting element (4), the zero mark of the scale is located in the middle of the housing, and to the outside of each longitudinal holders (7, 8) attached to the lateral part, in the zone of the zero mark location, having a common longitudinal axis, in the form of straight segments made of a hollow profile and parallel to the second connecting element (5). 2. The measuring module according to claim 1, characterized in that the scale is formed by guide elements (10, 11) attached perpendicularly to the inner sides of the longitudinal side parts (2, 3), in which longitudinal grooves (12) are made facing each other moreover, the divisions of the measuring scale are plotted on the upper and lower surfaces of each guide element. 3. The measuring module according to claim 2, characterized in that the measuring element (1) is a finger stop (13) mounted on a plate, the sides of which are located in the longitudinal grooves of the guide elements, while the finger stop (13) is equipped with two semi-cylindrical eyepiece lenses (15, 16) located on both sides of the finger rest (13) above the measuring scales, and the lower flat surfaces of the eyepiece lenses are parallel to the upper surfaces of the guide elements. 4. The measuring module according to claim 3, characterized in that the eyepiece lenses have risks located along the midline of the flat surfaces of the eyepiece lenses and risks associated with the forming cylindrical surfaces of the eyepiece lenses. 5. The measuring module according to claim 4, characterized in that the working side of the finger stop (13) is made in the form of a circle (21) with a colored target circle (22) located in the center and a concentric ring (23). 6. The measuring module according to claim 3, characterized in that at least one side of the plate contains a recess (25) with a friction stop (26) placed in it, a spring-loaded spring, the working side of which resiliently abuts against the wall of the longitudinal groove made in guide element. 7. The measuring module according to claim 4, characterized in that at the ends of the guide elements (10, 11) located on the side of the second connecting element (5), recesses (28, 29) are made for installing the sides of the plate in the grooves. 8. The measuring module according to claim 1, characterized in that the first connecting element has the shape of one and a half. 9. A device for measuring the flexibility of the spine when leaning forward and down from the starting position sitting on the floor, containing a measuring module according to claims 1-8, a thrust frame, a composite frame consisting of two vertical half-frames (30, 31), where the measuring module is installed horizontally in the lower part of the composite frame so that the lower end parts (32, 33) of the vertical half frames (30, 31) are pivotally connected to the holders (7, 8) of the measuring module, and the upper end parts (34, 35) are pivotally connected to the upper part (36) thrust frame, with the lateral parts (37, 38) unitary enterprise The base frame is telescopically mounted on guides (39, 40) pivotally connected to the ends of the second connecting element (5) of the measuring module, the upper and lower end parts (34, 35, 32, 33) of the half frames are connected by jumpers (41, 42), on the lower part (43) of the thrust frame fixed to the clamp (44) of the vertical working position of the half-frames, on each of the half-frames mounted stops (45, 46) for the feet of the subject. - 6,024,287 10. The device according to claim 9, characterized in that each of the stops (45, 46) for the feet of the test subject is made in the form of a removable cradle of the foot with a circular support (47, 48) of rounded shape and quick fixation elements on the frames. 11. The device according to claim 9, characterized in that the retainer (44) of the vertical working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section (49) curved in cross section with edge bending (50) in the opposite direction of the bend of the specified end part. 12. A device for measuring the flexibility of the spine when leaning forward and down from the starting position while sitting on the floor, containing a measuring module according to claims 1-8, a thrust frame, a composite frame, where the measuring module is installed horizontally in the upper part of the composite frame containing two vertical half frames (51, 52), the upper end parts (53, 54) of which are pivotally connected to the holders (7, 8) of the measuring module, and two vertical half frames (55, 56), the upper end parts (57, 58) of which are pivotally connected to the ends (6) the second connecting element ( 5) a measuring module, the lower end parts (59, 60) of the half frames (51, 52) connected to the holders (7, 8), pivotally connected to the lower part (61) of the thrust frame, guides (64 , 65), semi-frames (55, 56) pivotally connected to the upper end parts (57, 58), connected to the ends of the second connecting element (5), and made with the possibility of extension of the thrust frame from the lateral parts (62, 63), lower end parts (59, 60) of the half-frames (51, 52) connected to the holders (7, 8), and the lower end parts (66, 67) of the half-frames (55, 56), connected connected with the ends of the second connecting element (5), are connected to each other by connecting elements (68, 69), pivotally connected to the indicated lower end parts (59, 60, 66, 67) of the half-frames, while the lower end parts (66, 67) half frames (55, 56) connected to the ends of the second connecting element (5) are connected to each other by a connecting element (70), pivotally connected to the indicated end parts (66, 67), the upper (53, 54) and lower (59, 60) the end parts of the half-frames (51, 52) connected to the holders (7, 8) are connected by jumpers (71, 72), on the upper part (73) an emphasis A retainer (74) for the vertical working position of the half-frames is fixed to each frame; on each of the half-frames (51, 52) connected to the holders (7, 8), an emphasis (75, 76) is installed for the feet of the subject. 13. The device according to p. 12, characterized in that the retainer (74) of the vertical working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section bent in cross section with edge bending to the opposite side of the bend of said end part. 14. The device according to p. 12, characterized in that each of the stops (75, 76) for the feet of the subject is made in the form of a removable cradle of the foot with a rounded support foot and fast fixation elements on the frames connected to the holders. 15. A device for measuring the flexibility of the spine when leaning forward and down from the starting position while standing on a supporting platform, containing a measuring module according to claims 1-8, a thrust frame, a composite frame consisting of a horizontal frame (79) and two horizontal half-frames (81, 83), where the measuring module is mounted vertically in the upper part of the composite frame so that the first connecting element (4) of the measuring module is located on top of two horizontal half frames (81, 83), the ends (6) of the second connecting element (5) of the measuring module are pivotally are united with the front part (7, 8) of the horizontal frame (79), and the ends of the holders (7, 8) are pivotally connected to the front end parts (80, 81) of the horizontal half frames (82, 83), the rear end parts (84, 85) horizontal half frames (82, 83) are pivotally connected to the upper part (86) of the thrust frame, while the lateral parts (87, 88) of the thrust frame are telescopically mounted on guides (89, 90) pivotally connected to the front part (78) of the horizontal frame ( 79), the front end parts (80, 81) of the horizontal half frames (82, 83) are connected by vertical connecting elements (91, 92) with the front part (78) of the horizontal frame (79), and the rear end parts (84, 85) of the horizontal half frames (82, 83) are connected by vertical connecting elements (93, 94) with the rear part (95) of the horizontal frame (79), and the vertical connecting elements (91, 92, 93, 94) are connected to the indicated end parts (80, 81) of the horizontal half frames (82, 83) and the front (78) and rear (95) parts of the horizontal frame (79) pivotally on the lower part (96) of the thrust frame, a latch (97) of the working position of the horizontal half frames (82, 83) is fixed, the supporting platform (77) is installed on the horizon cial half-frames. 16. The device according to p. 15, characterized in that the latch (97) of the horizontal working position of the semi-frames is made in the form of an elastic plate having a Y-shaped end section bent in cross section with edge bending to the opposite side of the bend of said end part. 17. The device according to p. 15, characterized in that the supporting platform (77) has in front of the projections for stop stops.