RU2635784C2 - Ahmetov's biokinetic training device for strengthening human supporting-motor system under null-gravity condition - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: in null-gravity condition disrupt of eupraxia occurs, cardiovascular system weakens, metabolic disorder, weight absence leads to muscle atrophy, loss of calcium and bones strength reduction. The most acceptable method to withstand said disorders is movement and physical activity. Biokinetic training device for strengthening human supporting-motor system under null-gravity condition allows to some extent simulate gravity, compensate lack of movements and maintain normal coordination of movements the musculoskeletal system. Foundation of biokinetic training device for strengthening human supporting-motor system under null-gravity condition is made up of: biokinetic module, consisting of kinetically united hand supports and foot pedals, which ensures coordination of movements of musculoskeletal system and involves in the development of almost all the major muscle groups of body; and a device to simulate Earth's gravity, consisting of lining for the back and ties. Use of biokinetic training is considered viable to strengthen human supporting-motor system under null-gravity condition both separately and in complex in combination with a treadmill and a special space simulator ARED.

EFFECT: biokinetic training device for strengthening human supporting-motor system under null-gravity condition does not contain complex elements, it is easy to manufacture, does not take up much space, is convenient and effective in application.

2 cl, 1 dwg

Description

The inventive biokinetic simulator belongs to the field of general physical training and recovery of the musculoskeletal system of a person in zero gravity.

Well-known simulators used on the ISS, such as a treadmill, exercise bike, as well as special ARED space simulators, in which a set of cylinders, discs and rubber joints provide a load of up to 600 kg, do not provide complex dynamic training for the entire musculoskeletal system and construction cannot be considered as close prototypes to the claimed biokinetic trainer Akhmetov.

Closest to the claimed invention is the prototype adopted for the prototype, containing the supporting base and mounted on it two kinematically coupled pairs of cranks, one of which is equipped with hand holders, and supporting devices for legs are installed on the other pair of cranks.

The main disadvantages of the known simulator are the impossibility of its use in zero gravity, as well as the inability to install in conditions of limited space of the ISS.

The objective of the invention is the creation of a simple, compact and effective simulator for the comprehensive training of the musculoskeletal system of a person in zero gravity and limited space.

The technical result in the claimed invention, characterized in paragraph 1 of the formula, containing:

- bearing element

- a biokinetic module mounted on a supporting element, consisting of a guide element, in which two pairs of cranks are mounted, one for hand supports and the second for foot pedals, the distance between the pairs of cranks is adjustable, the axes of the crank pairs have a kinematic connection with a gear ratio of 1: 1 ,

is achieved due to the fact that:

- the supporting element is equipped with fasteners made taking into account the design of the cab and the installation location in the cab,

- the biokinetic module is mounted on the supporting element with the possibility of deviation from the vertical to the supporting element position in the lateral direction and subsequent fixing,

- manual supports and foot pedals are made folding in a non-working position,

- the simulator is equipped with a device for creating an adjustable training load, consisting of special screeds and overlays for the back that are variable in length, special screeds are attached at one end to the load-bearing element and the second to the back pad so that the trainee’s body can be regulated to be attracted to supports at least three places - shoulders, lower back, hip area,

- the simulator is equipped with a second device for creating an adjustable training load on the manual supports and foot pedals,

- manual supports and foot pedals are fixed in the mutual position, providing natural coordination of the movement of the musculoskeletal system of a person,

- hand holders and foot pedals can be fixed with the possibility of installation and fixation in one direction from the axis of rotation or on different sides from the axis of rotation at an angle of 180 ° to each other.

The kinematic connection of the crank pairs with a gear ratio of 1: 1 and the corresponding mutual position of the hand supports and foot pedals forcibly provide natural coordination of the movements of the musculoskeletal system of the trainee.

Folding hand supports and pedals and a folding biokinetic module save cab space.

Special screeds provide imitation of the gravitational load on the musculoskeletal system of the trainee, which helps to slow down the demineralization of bone tissue and weaken the mechanical strength of the skeleton. Special screeds, as the simplest option, can be made of rubber.

The device for creating a training load on the manual supports and foot pedals provides physical load on the musculoskeletal system in motion.

The possibility of fixing the holders for arms and foot pedals in one direction from the axis of rotation or on different sides of the axis of rotation at an angle of 180 ° to each other provides a variety of exercises and a more complete development of the spinal column and the entire musculoskeletal system.

As a result, the claimed biokinetic simulator Akhmetov provides:

- the variety of movements and dynamic effects on the musculoskeletal system,

- good physical activity on almost all major muscle groups and joints of the trainee,

- a good study of the muscles and joints of the spinal column,

- activation of metabolic processes in the body and increase tone,

- training of the respiratory and cardiovascular system,

- intensive inertial shake-massage of internal organs, including the spinal cord,

- training of the vestibular apparatus and spatial coordination of movements.

As a result of applying the Akhmetov biokinetic simulator, the following is achieved:

- strengthening and maintaining the tone of the muscles and joints of the musculoskeletal, as well as the respiratory and cardiovascular systems in general,

- prevention of muscle atrophy,

- slowing down the process of demineralization of bone tissue and weakening the mechanical strength of the skeleton,

- maintaining normal physical performance.

In FIG. Figure 1 shows the general scheme of the Akhmetov biokinetic simulator for strengthening the musculoskeletal system of a person in zero gravity, a side view, the biokinetic module is shown fixed in the working position.

The claimed biokinetic simulator of Akhmetov consists of a supporting element (1) equipped with mounting units of the system (2), a biokinetic module consisting of a guiding element (4) is mounted on the supporting element through fixation nodes (3), into which two pairs of cranks are mounted, one for hand supports (5) and the second for foot pedals (6), the axis of the crank pairs have a kinematic connection (7) with a gear ratio of 1: 1,

the device for creating an adjustable training load is made of variable length ties of special ties (8) and lining for the back (9),

the second device for creating an adjustable training load on the manual supports and foot pedals (10) is installed on the guide of the biokinetic module (4).

The inventive biokinetic simulator Akhmetov to strengthen the musculoskeletal system of a person in zero gravity is used as follows:

- the biokinetic module is transferred from folded to the working position and is fixed vertically on the supporting element,

- hand holders and foot pedals are put into working position,

- the position of the hand holders and foot pedals is set - in one direction from the axis of rotation or on different sides - at an angle of 180 ° to each other,

- sets the distance between the axis of rotation of the hand supports and foot pedals in accordance with the growth of the trainee,

- the practitioner fastens the pad for the back, fixes the soles of the feet on the pedals and takes on the hand supports, adjusts the tension of special ties himself or with the help of an assistant,

- sets the required level of training load on the second device.

Training is carried out by rotating hand holders and foot pedals, while the trainee creates a wide variety of twisting and bending moments of the spine, involving all the muscle groups of the spinal column and the musculoskeletal system as a whole.

The embodiment of the Akhmetov biokinetic simulator described above, shown in FIG. 1, should be considered in all aspects only as illustrative, but not limiting. It is clear that other embodiments may be practiced without departing from the spirit and scope of the present invention.

Claims (9)

1. Biokinetic simulator for strengthening the musculoskeletal system of a person in zero gravity, containing: - bearing element - a biokinetic module mounted on a supporting element, consisting of a guide element, in which two pairs of cranks are mounted, one for hand supports and the second for foot pedals, the distance between the pairs of cranks is adjustable, the axes of the crank pairs have a kinematic connection with a gear ratio of 1: 1 , - the supporting element is equipped with fasteners made taking into account the design of the cab and the installation location in the cab, - the biokinetic module is mounted on the supporting element with the possibility of deviation from the vertical to the supporting element position in the lateral direction and subsequent fixing, - manual supports and foot pedals are made folding in a non-working position, - the simulator is equipped with a device for creating an adjustable training load, consisting of length-adjustable screeds and lining for the back, the screeds are attached at one end to the supporting element, the second to the lining for the back so that the body of the trainee can be regulated to be attracted to the exercise machine in at least three places - shoulders, lower back, hip area, - the simulator is equipped with a second device for creating an adjustable training load on the manual supports and foot pedals. 2. Biokinetic simulator for strengthening the human musculoskeletal system under zero gravity according to claim 1, characterized in that the hand holders and foot pedals are fixed with the possibility of installation and fixation in one direction from the axis of rotation or on different sides from the axis of rotation at an angle 180 ° to each other.

Images