RU2369421C2 - Device to make exercises in handstand - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: post is mounted on the support and represents a vertical tube. Hand pad is coupled with aforesaid support and has a central through hole. Aforesaid support and pad can revolve around tube. Knockdown device has the height making at least the spread of arms of person making exercise but not exceeding his height with lifted arms. Control device can be arranged at whatever part of the device. Bearing unit is mounted at top or bottom part to revolve in whatever direction. Inner chamber of bearing unit features two spaced apart precision cylindrical surfaces and splines arranged between aforesaid surfaces. Drive or reduction gear can be disconnected from rotary parts for the latter to revolve free. Motor incorporates programming device. Guns are arranged at the support feet ends and/or at the support top or bottom parts and are connected with self-contained power supply.

EFFECT: expanded performances.

20 cl, 13 dwg

Description

The proposed technical solution relates to the field of sports and circus art, and more specifically, to sports (circus) props, that is, a technical device with which and / or on which acrobatic and circus exercises and handstand tricks are performed. A circus dictionary posted on the Internet at circusland.com gives the following definition of the term props: “These are all auxiliary objects and circus apparatuses with which and on which tricks are performed” [1]. The props are used both in the field of sports for training gymnasts and acrobats, and in the field of circus art - mainly in the genre of manual balancing act.

There are various technical constructions of props for performing exercises on it in order to train muscles or to demonstrate various exercises in a handstand. The following description of acrobatic tricks and exercises related to manual balancing is given in the literature: “the basis of this type is balance in the handstand (on two and one), performed in various positions and on various supports, including rotating ones. Hence the name - manual balancer, or stand-ups, adopted in a professional environment ”[2]. In circus colleges and sports facilities, performing handstand exercises is part of student training programs. The program for training circus artists recorded: “Manual balancing exercises give excellent development of all muscles, develop physical strength, agility, endurance, and plastic expressiveness, and coordination of movements. ...” [3].

The most typical props for performing exercises and tricks in a handstand is a technical device that has various names: support, stand, stand. A typical device is shown in photo p. 159 of the book “CIRQUE DU SOLTIL. 20 YEARS UNDER THE SUN »by HARRY. ABRAMS, INC., PUBLISHERS, 2004 [4], as well as in FIG. 1 and FIG. 2, and allows an artist (athlete) to perform acrobatic elements in a stand on one or two hands, train certain muscles and the vestibular apparatus, and also demonstrate strength and the person’s plastic abilities when performing tricks and exercises that are difficult or impossible to perform on other sports equipment or props. A device for performing exercises in a handstand consists (Fig. 1) of a base - 1, usually made of a three- or four-legged structure, a support - 2, a vertically mounted pipe or rod connected to an individual (Fig. 1) or common (Fig. 1) 2) the base, stand - 3, located in the upper part and connected to the support. Base 1 ensures the stability of the device when performing exercises. The support 2 usually represents a pipe or rod, the height of which is different, but in most cases is in the range of 0.5-1.0 m, which provides a quick and effort-free access to the handstand from the stop or by jumping. Stand 3 - the main element of the device, on which a person rests with his hand while performing exercises in a handstand. Not only convenience depends on the shape of the stand, but also the very ability to perform certain exercises in a stand on one or two hands. As can be seen from FIG. 1, the stand is usually rectangular in shape and secured to a support.

There are various designs of devices for performing exercises in the handstand. The most typical is the design of the device in the form of two supports fixed on a common or individual basis, with each support on top has a stand. The stand is made of wood or plastic, has a rectangular cross-section, convenient for resting on it and grabbing it with the hand while performing exercises. There are devices with three or more supports, including those with different heights. On page 301 of the book [4] shows a device with three supports.

Structurally, existing devices are calculated from the conditions of ensuring rigidity and stability when a vertical load is applied.

Devices for performing exercises in the handstand are a mandatory attribute of gyms for training acrobats, gymnasts or circus artists to elements performed in the handstand. Technically correctly designed device provides the ability to train and then perform complex strength elements on the verge of human capabilities.

As the closest analogue, a device for performing exercises in the handstand according to the copyright certificate SU No. 1007685, class. A63B 23/00, 1983 [5], comprising a base, a support fixed to the base and made in the form of a vertically mounted pipe, and a palm rest connected to the support.

The main disadvantage of the known device is its limited capabilities when performing exercises: the stand is used only partially to rest on it with the hand, and the support of the device is not used at all. When using a known device for performing exercises, two or more similar devices are required to support each of the hands on them or to move from one to the other, so at least two devices are always required. When using a device with one support, exercises can be performed for a short time only in a stand on one arm. In this case, the possibility of performing exercises in a stand on two hands is practically excluded, and in a stand on one hand and switching to the other hand, going down to the ground is an obligatory element. To perform exercises in the rack both on one and on the other hand without going down to the ground, the use of at least a two-support device is required to ensure the transition from one hand to another. The known device is not adapted for rotation about the axis at the time of the handstand, and the lack of an autonomous power source does not allow its use in darkened rooms and at night in open areas.

The technical result of the invention is to expand the range of exercises.

The specified technical result is achieved due to the fact that in the known device for performing exercises in a handstand containing a base, a support fixed to the base and made in the form of a vertically mounted pipe, and a palm rest connected to the support, according to the invention, the support together with the stand is mounted to rotate relative to the base, the stand is made with a through hole in the center, and the device is collapsible, and its height is not less than the span of the hands performing injuries of a person, but no more than the height of a person with arms raised up.

The support can be made in the form of three vertical pipes with a diameter of 35-40 mm, which are separated in a horizontal plane by 120 degrees, while the diameter of the circle described around the pipes does not exceed the outer diameter of the stand.

The device can be equipped with a bearing assembly with a braking device and a control device that is arranged to be placed in any part of the device, while the upper bearing has a diameter larger than the lower one, and the inside of the movable part of the bearing assembly has a cavity for providing a quick disconnect connection with the support with two precision cylindrical surfaces located at a distance from each other, and slots located between these surfaces.

The bearing assembly can be installed in the lower or upper part of the support, while rotation is provided both in one or in opposite directions.

The device can be equipped with an electric motor with a drive and gearbox for forced rotation of its rotating parts, while the drive and gearbox can be completely disconnected from the rotating parts of the device to ensure their free rotation, and the electric motor is equipped with a software device.

The base can be made tripod, with each leg connected to the base in the center of the device using a dovetail connection with a fixing screw in the lower part or using a bolted connection.

The legs of the base at the ends may have metal plugs with a leveling device made in the form of a heel with a threaded rod, while the heel on the side of the surface on which it rests is made of a spherical shape with a radius of 2.5-6 mm.

The legs at the ends can also have a part perpendicular to them, located horizontally, 0.2-0.5 long from the length of the legs of the base, metal inserts with an alignment device are inserted at the ends of the perpendicular part.

The device can be equipped with spotlights installed in the legs of the base at the ends and / or in the upper or lower parts of the support and connected to a stand-alone power source by a wire line.

The axes of the support pipes are located at a distance of 55-85 mm from the vertical axis of the device, and in the lower part of the support has an axis with two precision cylindrical surfaces and splines for fixing in the rotating part of the bearing assembly and splines for engagement with the counterpart of the braking device. At the junction of the support with the stand, the diameter of the pipes is 12-20 mm.

Each support pipe can be made detachable, at the same time, metal inserts are installed at the junction in the pipes, one of which has a recess in the form of a cylinder or a truncated cone, and the other a mate in the form of a cylindrical rod or a truncated cone, the length of the conical or cylindrical connection 50-70 mm, while with the conical connection, the cone angle is 4 degrees, and the detachable connection is made with the possibility of fixing by a bolted connection.

The stand can be made of three segments having a detachable connection between each other, two support pipes in the upper part at a length of 150-400 mm have a detachable connection for disconnecting from the support during the exercise together with the stand segment attached to them, while the stand segment is the integral part of the support pipe is equal to half the circumference of the stand.

The support may be in the form of a disk, the thickness of which depends on the length of the inner lower phalanx of the index finger of the human right hand and is within 25-35 mm, the diameter of the inner hole is 2.5-3.5 thickness of the middle phalanx of the thumb of the human right hand and is within 50-70 mm, and the outer diameter of the disk does not exceed 210 mm.

The stand can be made in the form of a triangle or polygon with a hole in the center, which is made round or repeating the external shape of the stand, and can also be made of wood blocks glued in the horizontal and / or vertical planes.

The bearing assembly and the lower part of the support may have a detachable connection having slots and two precision surfaces spaced 150-180 mm apart from each other.

The height of the base does not exceed 0.1 of the total height of the device, and the height of the entire device is in the range of 2000-2300 mm, the maximum length of each element of the device does not exceed 1300 mm, and the weight of the device is selected from the condition of ensuring stability and rigidity of the structure when vertical and horizontal are applied loads when performing exercises by a person having a weight of 70 kg and a height of 175 cm.

Design features of the proposed device are shown below (figure 3).

To be able to perform exercises and tricks using the support, the device design is calculated from the condition of providing rigidity and stability when both vertical and lateral forces are applied. The stand is made in the form of a disk with a through hole in the center, while the diameter of the disk is selected as minimal from the condition of ensuring the convenience of performing exercises when resting on the stand with two hands, which minimizes the size and weight of the device. To perform exercises using the support, the height of the device is selected from the following condition: the stand is at the level of the outstretched arms of a person standing on the floor, and the height of the base is no more than 10% of the total height of the device, in this case there is a large free surface of the support to be gripped by hands. This design of the device allows you to enter it and then exit to the handstand mainly due to the strength of the hands, as gymnasts make an "exit by force" by performing exercises on the bar or rings, and the large free length of the support pipes allows it to be used for other exercises (similar to exercises on a rope or pole) on the side of the support, holding both hands on the support or with one hand on the support, the other on the stand.

The support of the proposed device is one or more metal pipes of the same diameter, located vertically and connected to the base and stand (Fig.3, 4). More aesthetic and difficult to perform exercises device design with a support of one pipe.

The best result according to the conditions of structural rigidity, minimizing weight and performing the maximum number of exercises is obtained with the support structure in the form of three metal pipes - 3, spaced 120 degrees in the horizontal plane and at a distance of 55-85 mm from the vertical axis of the device (Fig. 3, view top - Fig.6). The maximum diameter of the circle described around the three support pipes does not exceed the outer diameter of the stand, made in the form of a disk. In order to reduce weight while maintaining the rigidity and stability of the structure, the convenience of working on them while grasping them with hands and performing exercises without overstrain and injury, the pipe diameter is in the range of 35-40 mm, the wall thickness of stainless steel pipes to provide the required rigidity is 2 mm . The strength calculation of this design was performed for an artist weighing 70 kg and a height of 175 cm. Ordinary metal is used as the pipe material, but it is better to use stainless steel.

When using a support of three pipes, the distance between the pipes is selected from the conditions for ensuring the greatest rigidity and stability of the structure, avoiding its bulkiness, and ensures the achievement of several goals:

- firstly, the distance between the pipes should allow the person’s foot to pass between the two pipes in order to be able to abut the opposite pipe, while the two side pipes will ensure the fixation of the leg when performing exercises, in addition, it is convenient to take these two other pipes hands, performing elements of acrobatic exercises;

- secondly, when a person takes two pipes at the same or different levels, the presence of a distance between the pipes in a horizontal plane (two pipes are horizontally remote from each other) allows you to perform specific exercises that cannot be performed on one pipe, which allows you to train other muscle groups and diversify the exercises;

- the presence of three spaced pipes as it increases the radius of the structure and increases the rigidity and stability of the structure with a minimum weight, the wall thickness of the pipes is not more than 2.0 mm For comparison, when using only one pipe, the weight of the support with the same stiffness is almost one and a half times more than when using three pipes.

To ensure transportation, the device is collapsible. It is advisable that the length of each collapsible element does not exceed 1300 mm In order to reduce the weight of the structure when making a support in the form of a single pipe, it is impractical to make a collapsible pipe, in this case, the base and stand are separated from the support. For the support of three pipes, the following solution can be applied: the supports in a certain section have a quick-disconnect connection of a cylindrical (Fig. 7) or conical (Fig. 8) type. The detachable connection is made using metal inserts - 1, while one part enters the other. The length of the cylindrical part at the junction is 50-70 mm. Inserts - 1 in pipes - 2 supports are fixed by electric-welded rivets or by welding.

To ensure easy connection and disconnection, the cone angle in the detachable connection is 4 degrees, the length of the generatrix of the truncated cone is in the range of 50-70 mm, and for the reliability of the connection 2/3 of the length of the generatrix of the cone, a circular recess is made with a depth of 2-4 mm, in which the surface abuts a screw that is tightened from the counterpart.

In the upper part (Fig. 9), the support pipes are interconnected by a metal disk - 1 with a hole in the center, the outer and inner diameters of the metal disk are 15-30 mm less than the similar diameters of the stand fixed to it. The disk has a thickness of 6-8 mm, which is sufficient from the condition of ensuring structural rigidity. In the place of fastening the pipes and the metal disk, the diameter of the pipes - 2 is reduced to 12-20 mm so that they do not interfere with the grip of the stand with hands.

The upper part of the pipes can be made of another design: at a distance of about 1/6 of the part from the top, three pipes and a metal disk are welded to each other. At the same time, two of the three pipes have a detachable connection and during the performance these parts of the pipes, together with the segments of the stand attached to them, can be removed to the side or down, which allows making the exercises more difficult, requiring great effort and concentration. In this case, the stand is made as a disc with a central hole, the disk is divided into sectors, attached to the respective tube support body, wherein on the one-piece part of the tube is fixed sector equal to half of the disc, and the other two sectors pipe - _^1/4 drive.

The stand is the most important and significant element of the device. The best form of the stand is a disk with a hole in the center, which includes the thumbs when grasping the stand during the exercise (Fig. 10). A support of this shape allows you to perform the exercise in a predetermined position at any angle of rotation of the support relative to the base, that is, this form of the stand figuratively represents nothing more than two stands of rectangular cross section, rotating about an axis passing through the middle of the distance between the stands. The inner diameter of the disk, on the one hand, provides the convenience of grasping the stand with the hands due to the possibility of grasping with the thumb of the hand, and on the other hand, allows you to grasp the stand with your hand when performing exercises on the side of the support with the grip of the support with the other hand. The dimensions of the stand are determined by the size of the hand of the person performing the exercises on it. The thickness of the stand depends on the length of the inner side of the lower phalanx of the index finger of the person working on it and is within 25-35 mm, the diameter of the inner hole in the case of the upper part in the form of a disk is 2.5-3.5 thicknesses of the middle phalanx of the thumb of the right hand artist and is in the range of 50-70 mm, and the outer diameter of the disk does not exceed the width of the adjacent hands and does not exceed 200-210 mm, in this case, the support area for the hands on the disk corresponds to the length of the supporting part of the palm - 55-75 mm. With this diameter of the outer disk, the possibility and convenience of positioning on the stand of the hands when performing a stand on two hands and the ease of transition from one hand to another when performing exercises are provided. The presence of a through hole in the center of the stand with a diameter of 50-70 mm is minimal, making it possible not only to conveniently and reliably reach the stand with your hand when performing a stand on two hands and when moving from a stand on two hands to a stand on one hand and performing exercises in a stand on one hand, but also while holding the body during the exercises on the side of the device with the arms around the support and stand. All the edges of the stand are rounded, and a recess is made from the lower part, which includes the counterpart of the support (three pipes) - a metal disk. Another form of stand without a notch is shown in Fig.11.

The stand may be in the form of a flat body (triangle, circle, square, polygon, sector of the circle, etc.) with a width at which it is possible to stand on it with emphasis on two hands. A mandatory element of the stand is the hole in the center. It can follow the outer contours of a flat body or be round in shape.

The base has three legs located at an angle of 120 degrees from each other, or four legs located at a right angle. Each leg of the support is made of a triangular shape (figure 5, 12). To reduce the length of the legs while maintaining the stability of the device when performing rotational and flywheel movements at the ends of the legs there is an additional part - 7 in the form perpendicular to the leg - 5 parts with a length of 30-60 mm (Fig. 12). To reduce the weight of the device, the base is made of rectangular metal pipes with a vertical wall of 40 mm and a horizontal wall of 20-30 mm, the pipe wall thickness is 1.5-2 mm, the legs are 1100-1300 mm long. The height of the base in the center of the device - 6 does not exceed 200 mm. In the cavity of the legs - 1 at the ends (Fig. 12) a metal insert-plug - 2 is inserted and a device for leveling - 3 is installed. The metal insert performs two functions: it allows to reduce the length of the legs of the base by increasing the weight at the ends of the legs, and also ensures they have alignment devices. The alignment device (Fig. 12) is made in the form of a heel - 3 with a rod - 4 having a thread. To ensure the stability of the entire device on various, including uneven, heel bases from the side of the surface on which it rests, it is made spherical in shape with a radius of 2.5-6 mm. A “level” is located on the base to ensure quick, even installation of the device using leveling devices.

The base legs are connected to the lower part of the support body. At this point, there may be a detachable connection so that each leg is detached from the support body. The simplest and most reliable is the bolt connection, for which the lower part of the legs is longer and fastened to the lower part of the support from below (the bolt connection is vertical) using a bolt connection, in the side element of the base from the support side closer to the upper part, a bolt connection is also made (axis connections located horizontally). This design of detachable connection provides stability against rotation in all planes. The detachable connection can be made in the form of a quick disconnect connection type "dovetail" (Fig.6).

In the center of the base is a structural unit for connecting together the legs of the base and support. In the case of a rotating support, the bearing assembly of FIG. 13 is located at this location. The bearing assembly has a fixed part - a housing - 1, to which the legs of the base and a support with a stand are connected, and a movable part - 2. The lower part of the support ends with an axis - 3, which is inserted into the internal cavity of the part - 2. In the upper part, the axis - 3 has metal disk - 13, on which the support pipes are installed. To ensure easy rotation, while minimizing the weight of the assembly, an upper radial bearing of larger diameter - 4 and a lower angular contact bearing of smaller diameter - 5 were used. The bearings are closed by a cover - 12. The inside of the rotating part of the bearing assembly has slots - 8 and two precision surfaces - 6 and 7, in this embodiment, similar surfaces are on the axis - 3 in the lower part of the support. This provides a backlash quick disconnect connection and a reliable connection of the support and the bearing assembly without slipping. The bearing assembly has a braking device - 11 in the form of a retractable part from a fixed part-housing - 1 and has splines - 10 for engagement, which abut against splines - 9 on the outer part of the rotating part of the bearing assembly. The locking device can be controlled from anywhere in the structure. Locking of rotating parts can be done by pressing the weight of the body on the stand while standing on hands. A bearing assembly of this design provides easy rotation and execution of elements on the side of the support, in which, when rotating and pressing the body to the center of the device (as the skater does when rotating around its axis, removing and then bringing the legs and arms closer to the body), the rotation frequency increases or decreases automatically. The bearing assembly can be installed not only in the lower, but also in the upper part of the support. In the case of installing the bearing assembly in the upper part of the support, only the support is rotated relative to the fixed base and support. A variant is possible when there are two bearing units, and the rotation can be either in one or in opposite directions.

An engine with a software device and a drive or gearbox can be installed at the base to ensure a given forced rotation of the support or stand. The drive or gearbox has the ability to connect during the exercise to the rotating part of the support / stand for their forced rotation or disconnect from them to ensure free rotation. The moments of turning on (turning off) the engine, engine speed can be programmed in the software device in accordance with the exercises.

To enable exercises in darkened rooms, the device can be equipped with small built-in spotlights, on the one hand, providing autonomous illumination of the device, and on the other, not interfering with the exercise. It is proposed to use the following location options for spotlights. In the first version, a single spotlight is located under the upper metal disk, the light from it is directed downward, the backlight is provided by reflected light. In the second embodiment, in the upper part (lower) of each pipe, separate searchlights are installed on the inside, the light from which is directed downward (upward) along the pipes. In the third version, spotlights are installed at the edges of the legs of the base and are directed either below the stand or above the head of a person standing on the stand in his hands. In the fourth embodiment, the spotlight is located in the lower part of the support, while the light from it is directed vertically upward. In order to avoid blinding of a person acting on the device, a reflection device with a diameter equal to the inner diameter of the stand is installed under the metal disk in the upper part of the support. To use an autonomous backlight, a battery or a power battery is located at the bottom of the support, the wires from which go to the searchlights through the internal cavity of the pipes. The backlight can be turned on from anywhere in the device.

Literature

1. Circus Dictionary, circusland.com.

2. Z. B. Gurevich. On the genres of the Soviet circus. M., 1977.

3. STATE STANDARD OF SECONDARY VOCATIONAL EDUCATION “STATE REQUIREMENTS for the minimum content and level of training of graduates in the specialty 0508“ Circus Art ”(advanced secondary vocational education)”, approved by the Ministry of Education of the Russian Federation on March 15, 2001. Registration No. 03-0508-P .

4. “CIRQUE DU SOLTIL. 20 YEARS UNDER THE SUN »by HARRY. ABRAMS, INC., PUBLISHERS, 2004, p. 159, 301.

5. Copyright certificate SU No. 1007685 in class A36B 23/00, 1983

Claims (20)

1. A device for performing exercises in a handstand, comprising a base, a support mounted on the base and made in the form of a vertically mounted pipe, and a palm rest connected to the support, characterized in that the support together with the stand is rotatably mounted relative to the base , the stand is made with a through hole in the center, and the device is collapsible, and its height is made not less than the span of the hands of the person performing the exercises, but not more than the height of the person with the arm raised up mi 2. The device according to claim 1, characterized in that the support is made in the form of three vertical pipes with a diameter of 35-40 mm, which are separated in a horizontal plane by 120 ° degrees, while the diameter of the circle described around the pipes does not exceed the outer diameter of the stand. 3. The device according to claim 1, characterized in that it is equipped with a bearing assembly with a braking device and a control device that is arranged to be placed in any part of the device, while the upper bearing has a diameter larger than the lower and the inner part of the movable part of the bearing node to provide a quick connection with a support has a cavity with two precision cylindrical surfaces located at a distance from each other, and slots located between these surfaces. 4. The device according to claim 3, characterized in that the bearing assembly is installed in the lower or upper part of the support, while the rotation is provided in one or the opposite direction. 5. The device according to claim 1, characterized in that it is equipped with an electric motor with a drive or gearbox for forced rotation of its rotating parts, while the drive or gearbox can be completely disconnected from the rotating parts of the device to ensure their free rotation, and the electric motor is equipped with a software device . 6. The device according to claim 1, characterized in that the base is made tripod, each leg being connected to the base in the center of the device using a dovetail type connection with a fixing screw in the lower part or using a bolted connection. 7. The device according to claim 1, characterized in that the legs of the base at the ends have metal plugs with a leveling device made in the form of a heel with a threaded rod, while the heel on the side of the surface on which it rests is made of a spherical shape with a radius of 2 5-6 mm. 8. The device according to claim 6, characterized in that the legs at the ends have a part perpendicular to them, located horizontally, 0.2-0.5 times the length of the legs of the base, metal inserts with an alignment device are inserted at the ends of the perpendicular part. 9. The device according to claim 1, characterized in that it is equipped with spotlights installed in the legs of the base at the ends and / or in the upper or lower parts of the support and connected to an autonomous power source by a wire line. 10. The device according to claim 1, characterized in that the axis of the support pipes are located at a distance of 55-85 mm from the vertical axis of the device, and in the lower part of the support has an axis with two precision cylindrical surfaces and slots for fixing in the rotating part of the bearing assembly and splines for engagement with the counterpart of the braking device. 11. The device according to claim 1, characterized in that at the junction of the support with the stand, the diameter of the pipes is 12-20 mm 12. The device according to claim 1, characterized in that each support pipe is detachable, while metal inserts are installed at the junction in the pipes, one of which has a recess in the form of a cylinder or a truncated cone, and the other a mating part in the form of a cylindrical rod or a truncated cone, the length of the generatrix of the conical or cylindrical connection is 50-70 mm, while the cone angle is 4 ° with the conical connection, and the detachable connection is made with the possibility of fixing by a bolted connection. 13. The device according to claim 1, characterized in that the stand is made of three segments having a detachable connection between each other, the two support pipes in the upper part at a length of 150-400 mm have a detachable connection to disconnect from the support during the exercise, together with the attached to them a stand segment, wherein the stand segment on the integral part of the support pipe is equal to half the circumference of the stand. 14. The device according to claim 1, characterized in that the stand has a disk shape, the thickness of which depends on the length of the inner lower phalanx of the index finger of the human right hand and is within 25-35 mm, the diameter of the inner hole is 2.5-3, 5 of the thickness of the middle phalanx of the thumb of the right hand of a person and is in the range of 50-70 mm, and the outer diameter of the disk does not exceed 210 mm. 15. The device according to claim 1, characterized in that its stand is made in the form of a triangle or polygon with a hole in the center, which is made round or repeating the external shape of the stand. 16. The device according to claim 1, characterized in that the stand is made of wood blocks glued in the horizontal and / or vertical planes. 17. The device according to claim 3, characterized in that the bearing assembly and the lower part of the support have a detachable connection having slots and two precision surfaces spaced 150-180 mm apart from each other. 18. The device according to claim 1, characterized in that the height of the base does not exceed 0.1 of the total height of the device, and the height of the entire device is in the range of 2000-2300 mm 19. The device according to claim 1, characterized in that the maximum length of each of its elements does not exceed 1300 mm 20. The device according to claim 1, characterized in that its weight is selected from the minimum condition for ensuring stability and rigidity of the structure when applying vertical and horizontal loads when performing exercises by a person having a weight of 70 kg and a height of 175 cm

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