RU2633872C1 - Stop clamps for sports trainer - Google Patents

Abstract

FIELD: sports.

SUBSTANCE: in the foot clamp for a sports simulator containing a sole element made of elastic material, with fixing elements for the toe portion and the heel part of the foot, the sole element is provided with means for fastening to the support elements of the frame of the simulator. The fastening means is formed in the form of a longitudinally elongated member with a central support capable of adjusting the direction of the longitudinal axis of the plantar element; on the lower side of the plantar element, support and adjustment elements are mounted on the front part and rear, and also with the possibility of providing a rotation of the front part and the rear part of the plantar element relative to its longitudinal axis independently of each other. One of the supporting and adjusting elements is provided with an adjusting element for the arch of the foot.

EFFECT: muscular balance of the foot, corresponding to its physiologically correct position.

5 dwg

Description

The invention relates to a device for training the muscles of the lower extremities and can be used for training and medical rehabilitation classes.

To train the muscles of the lower extremities, various types of exercise equipment are used - exercise bikes, ellipsoidal, steppers. They allow you to train the muscles of the leg, ankle and foot joints. However, as a rule, such simulators cannot be used to correct the foot in case of deformation, since they are not designed to perform special settings and fix the position of the foot depending on the type of deformation. Many types of foot deformities can develop due to structural features of the musculoskeletal system as a whole, as well as imperfections in the tendon-ligamentous apparatus. Such types of deformities, for example, are varus and valgus deformities. They can be congenital, but they can develop under the influence of external factors, while they are difficult to correct, because they require the provision of proper muscle balance, which cannot be achieved with conventional simulators.

A device is known in accordance with the patent No. 26432 for a utility model, “Pedal Arm of an Exercise Bike for Training Shin and Foot Muscles” (published on December 10, 2002, IPC A63B 23/04). The device is a pedal mounted on one end of the axis with the possibility of rotation, while the lever is equipped with a clutch with a ball joint located in it, providing an increase in range of motion. The foot can deviate outward and inward, which makes it possible to train the muscles of the lower leg, ankle joint and foot joint. In the presence of foot deformation, it is impossible to provide an impact correcting these deformations.

A shoe device is known in accordance with the patent No. 2343946 for the invention "Proprioceptive / kinesthetic device and method" (published on January 20, 2009, IPC A63B 5/10). The known device is a shoe for proprioceptive exercises, containing a support element that has an upper surface attached to the foot, and two protrusions that are made on the lower surface of the support element. The protrusions have the ability to move in the right directions. Shoes that provide fixation of the foot in the required position can also be used in various simulators. Thus, an effect is achieved on various mechanoreceptors interacting with the central nervous system and coordinating body movements, posture and balance. The use of a well-known technical solution helps to maintain muscle tone and correct the muscular tension of the joints. However, this device is not intended to correct the deformation of the foot. This technical solution was taken as the closest analogue.

The technical problem solved by the claimed invention is the expansion of the treatment and rehabilitation capabilities of a sports simulator that simulates movement while walking.

The technical result of the claimed invention is to ensure the muscular balance of the foot, corresponding to its physiologically correct position.

The specified technical result is achieved due to the fact that in the foot retainer for a sports simulator containing a sole element made of elastic material with fixing elements for the forefoot and the heel of the foot, the outsole element is equipped with a means for attaching to the supporting-running elements of the simulator frame, wherein the fastening means is made in the form of a longitudinally elongated element with a central support made with the possibility of adjusting the direction of the longitudinal axis of the plantar element, with the lower support and adjustment elements mounted on a longitudinally elongated element with the possibility of movement along it, as well as with the possibility of turning the front part and the rear part of the sole element relative to its longitudinal axis independently, when this one of the supporting and adjusting elements is equipped with an adjusting element for the arch of the foot.

The plantar element is fixed on the simulator, providing a load on the feet, for example, on the stepper, which simulates the climb up the stairs. The plantar elements are designed for each foot and are fixed on the supporting-running elements of the simulator, so as to perform exercises on the stepper, in which the foot is loaded, as when climbing stairs. Means for mounting the sole element are made in the form of a longitudinal element with a central support through which the load is transmitted from the supporting-running elements of the simulator, while the longitudinal element can rotate around an axis passing through the central support. This ensures the adjustment of the position of the sole element in the longitudinal direction. On the longitudinal element there are two supporting-adjusting elements that can be moved along it and fixed in the desired position, while they are fastened to the plantar element. One of the supporting and adjusting elements is installed in the area of the forefoot (forefoot) of the foot, and the second supporting and adjusting element is installed in the region of the back (heel) part of the foot. This ensures tuning to a specific longitudinal foot size. Both supporting and adjusting elements can provide rotational movements of the sole element around the longitudinal axis, with the front part being rotated independently of the rear part. In the desired position, each part of the plantar element can be fixed. Thus, the forefoot and hindfoot are locked in position. On one of the supporting and adjusting elements there is an adjusting element for the arch of the foot, with which the height of the arch of the foot is adjusted.

Design features of the claimed foot retainer are illustrated in the following images:

FIG. 1 is an image of a General view of the simulator with the claimed foot lock;

FIG. 2 - shows a front view of the claimed foot retainer;

FIG. 3 - shows a top view of the claimed foot retainer;

FIG. 4 - shows a cross section of the claimed foot fixer;

FIG. 5 - shows a front view of the plantar element with locking elements for the toe and heel of the foot.

The plantar element 1 is fixed on the supporting-running element 2 of the simulator frame. The means for attaching the sole element 1 is made in the form of a longitudinal element 3 with a central support 4. The longitudinal element 3 is made in the form of a cylindrical rod, and there are two supporting and adjusting elements 5 that are fastened to the sole element 1, while one supporting and adjusting element 5 is placed in the region of the front of the plantar element 1, and the second supporting and adjusting element 5 is located in the region of the rear of the plantar element 5. The lower part of the supporting and regulating element 5 is made in the form of a sleeve which is mounted on a cylindrical rod along which the sleeve can move. The clutch is equipped with a clamping unit 6, which allows you to fix the clutch in the desired both longitudinal and angular position. The upper part of the support-adjusting element 5 is made in the form of a plate with small walls, which in size and configuration provide installation of the plantar element 1 in it, and the support-adjusting element 1 for the front part can be additionally fixed, for example, with small screws. The coupling can be rotated clockwise on a cylindrical rod or counterclockwise up to 30 °. An adjustment element 7 for the arch of the foot is fixed to the rear support-adjusting element 5. It is a small curved plate with a threaded adjuster, which provides the desired position of the plate under the arch of the foot. The sole element 1 is provided with fixing elements 8 for the forefoot and the heel of the foot, which are made in the form of flexible straps with a Velcro fastener. To use the claimed invention, the foot is installed on the plantar element 1, then the doctor adjusts the position of the foot. For example, if the patient’s foot is tilted inward, the correct position is ensured - the heel is placed vertically due to the fact that the back support and adjustment element 1 is installed horizontally, the middle part of the foot is raised by turning the front support and adjustment element 1, and the arch of the foot is raised. Thus, the foot is set in the correct physiological position, with the fixing elements 8, the foot is fixed. In this position, a person begins to make muscle efforts (take steps), muscles are included in this process and the right efforts are formed to maintain the correct position of the foot. All the tibial muscles are tuned in, since they are involved in the position of the foot, muscles of the arch of the foot and plantar muscles. Thus, the simulator is intended primarily for the correction of various types of deformity of the feet, and can also be used for rehabilitation after various types of ankle injuries with the control of proper muscle balance.

Claims (1)

A foot latch for a sports simulator comprising a sole element made of elastic material with fixing elements for the forefoot and the heel of the foot, characterized in that the sole element is provided with means for attaching to the supporting-running elements of the simulator frame, while the means for attaching are made in the form of a longitudinally elongated element with a central support made with the possibility of adjusting the direction of the longitudinal axis of the plantar element, from the lower side of the plantar element in its front the part and the back part are placed supporting and adjusting elements mounted on a longitudinally elongated element with the possibility of movement along it, and also with the ability to provide rotation of the front and rear parts of the plantar element relative to its longitudinal axis independently of each other, while one of the supporting and adjusting elements equipped with an adjustment element for the arch of the foot.

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