WO2017171534A1

WO2017171534A1 - Portable training device for regaining finger mobility

Info

Publication number: WO2017171534A1
Application number: PCT/MD2017/000001
Authority: WO
Inventors: Артём Сергеевич ТКАЧЁВ
Original assignee: Артём Сергеевич ТКАЧЁВ; ГЭИНЭ, Думитру Анатольевич; ПЕРЦЕВ, Антон Сергеевич
Priority date: 2016-03-26
Filing date: 2017-03-24
Publication date: 2017-10-05
Also published as: MD4466B1; MD4466C1

Abstract

The invention relates to apparatus and equipment for physical training, more particularly to exercising apparatus for developing or strengthening the muscles or joints by working against a counterforce, and specifically to apparatus for finger and hand development. The present training device for finger muscle development consists of a housing which has a tension spring fastened therein connected to a carriage which comprises a seat for the finger being exercised, said carriage being able to move reciprocally in an aperture in said housing along inner guides, a site being provided on the outside of the device for securing a finger that opposes the finger being exercised, wherein the housing is hollow, elongated and disassemblable, the site for securing a finger is in the form of a trough disposed in an end of the housing, and the carriage seat is in the form of a blind hole. The housing is additionally provided, on the inside, with an assembly for adjusting the force applied to said carriage, said assembly consisting of: a hollow plunger that has an external thread formed in the bottom part and can axially displace the tension spring which is mounted therein and attached by one end to the plunger bottom and by a second end, via a flexible coupling (cable) passing through at least one pulley, to the carriage; and a nut ring that is screwed onto said plunger and secured in a recess in the housing against axial displacement. Also provided inside the housing is an assembly for adjusting the carriage displacement amplitude, consisting of a rod which is arranged transversely to the aperture of the housing and can move, along its own guides, longitudinally relative to said aperture and can subsequently be secured in a series of grooves with the aid of a retaining spring.

Description

Portable simulator for restoring mobility of fingers

The invention relates to shells and devices for physical exercises, and more specifically to training devices for the development and strengthening of muscles or joints with exercises to overcome the opposing effort, and in particular to devices for the development of fingers and hands.

Known portable simulator [1], designed to develop the muscles of the thumb of the hand, consisting of a body, inside which is placed with the possibility of reciprocating movement of the rod, mounted on it an elastic element made of rubber. The resistance level changes due to the use of additional rubber rings. The disadvantage of this solution is the lack of versatility. Only the thumb is involved in the development.

Known portable simulator [2], designed to develop the muscles of the fingers of the hand, consisting of a body with a cover, to the lower part of which is attached an elastic element, presented in the form of a compression spring. A device for controlling the degree of compression of an elastic element (level of resistance) includes a rotating rod that is threadedly connected to the lid and connected to the elastic element. As the simulator cover rotates, the spring is compressed to a size that provides the required level of resistance. The disadvantage of this simulator is its difficult development of individual pairs of fingers (large with any other), because It is designed to develop the entire brush.

Known portable simulator for restoring mobility of the fingers of a hand [3], consisting of a body, an elastic element and a device for. regulation of the compression force of the elastic element. The elastic element, made in the form of a friction sleeve, with an axial threaded hole, is fixedly installed inside the housing. The adjustment of the compression force of the elastic element occurs due to the rotation of the external elements made in the form of handles connected by a threaded connection to the elastic element. The disadvantage of the simulator is the difficult development of individual pairs of fingers (large with any other) due to its unstable position when making movements in the development of these pairs.

Also known is a portable simulator [4], designed to develop the muscles of the fingers of the hand, adopted as a prototype, consisting of a frame body, which is equipped in the middle with a square hole with guides, a carriage with a through hole for the finger being developed with the possibility of reciprocating movement along the guides and the place for fixing the adjacent fingers under development in the form of two lateral tides with holes. Several tension springs connect the movable carriage directly to the frame body. The force of action is regulated by changing the number of springs or by replacing springs of different stiffness, or by changing their position by tightening the screws by means of which they are connected to the housing. The disadvantages of the simulator are its bulkiness and the practically lack of the ability to adjust the effort when changing the fingers being developed.

The objective of this invention is to provide a simulator with improved ergonomics, the widest physiological range of motion, as well as the ability to quickly and finely adjust the effort without replacing the elastic element when changing the fingers being developed, or when the user changes the simulator, taking into account his individual needs.

The problem is solved by the proposed portable simulator for developing the muscles of the fingers of the hand, consisting of a body with a tension spring fixed inside, connected to a carriage with a socket for the developed finger and having the possibility of reciprocating movement in the case window along internal guides, and containing an outside place for fixing the finger opposed to the developed finger and in which the body is hollow, elongated and collapsible, the place of fixing the finger is made in the form of a groove laid at the end of the housing, the carriage socket is made in the form of a blind hole and the housing inside is additionally equipped with a force control device applied to the carriage, consisting of a hollow plunger with an external thread made in the bottom and with the possibility of axial movement of the tension spring mounted in it, fixed at one end to the bottom, and the second, through flexible connection (cable) through at least one block to the carriage, and a ring-nut screwed onto the plunger and fixed from axial displacement in the recess of the housing, as well as a device for controlling the amplitude of movement of the carriage, consisting of a rod located across the window of the housing with the ability to move along the window along its own guides and the possibility of its sequential fixation in a number of grooves using a holding spring.

The invention is illustrated by drawings, where:

FIG. 1 is a side view in section

FIG. 2 - front view of the simulator

FIG. 3 - side view of the simulator

FIG. 4 - general view of the block

FIG. 5 - general view of the simulator in the initial position

FIG. 6 - general view of the simulator in the final position

A portable simulator for restoring mobility of fingers consists of a housing 1 (Fig. 1 ... Fig. 4), collapsible, hollow inside, containing a window 2 located on one of the side surfaces, internal guides 3 for movement of the carriage 4, a recess 5 located opposite Windows 2 is intended for the location of the adjusting ring-nut 6 and the groove 7 located at the end of the housing 1, which is a place for fixing the finger, opposed to the developed finger. Inside the housing 1, on the guides 3, with the possibility of reciprocating movement along them, a carriage 4 is installed, which partially protrudes from the cavity of the window 2 and contains a socket 8 in the form of a blind hole for fixing the finger being developed. The carriage 4 by means of a cable 9 through a freely rotating block 10 is connected with an elastic element in the form of a tension spring 11. Block 10 (figure 4) is made in the form of a 2-speed wheel with grooves on both circles, with a diameter ratio of 1: 1, 5. ..1: 2.5 and contains on the side surface of a larger diameter a through hole 12 with an exit into the groove 13 of a circle of a larger diameter. The cable 9, fixed at one end to the spring 11, wraps around at least once the surface of the block 10 along the groove 14 of a smaller diameter and passes through the hole 12 to the surface of the groove 13 of a larger diameter, partially bends around the block along the groove 13 and is attached to the carriage by the second end 4. The tension spring 11 is installed in the hollow plunger 15, and is fastened with one (conditionally lower) end to the bottom of the plunger, and the second (conditionally upper) end to the cable 9. The plunger 15 is installed inside the housing 1 s the possibility of axial movement on its own guides (not shown in the figures), in its bottom part is equipped with an external thread 16, on which a ring nut 6 is screwed, which is rotatably mounted in a recess 5. Plunger 15, a ring nut 6 and a recess 5 in their interaction are a device for regulating the tensile force of the spring 11. When the ring nut 6 is rotated, it abuts the recess 5 and moves the plunger 15 in the axial direction by an amount proportional to the thread pitch 16. The simulator is additionally equipped with an adjustment device the amplitude of movement of the developed finger, which consists of a rod 17 located across the window 2 of the housing 1, with the possibility of moving along the window 2 along its own guides 18 made in the form of slots 19 in the opposite walls of the housing 1 and with the possibility of sequentially fixing the rod 17 in the grooves 20 with holding spring 21. Also, on the side wall of the housing 1 there is a viewing hole 22 in which, conventionally marked graduation marks of the degree of growth appear on the side surface of the plunger 15 spring pressure 11 ,.

The simulator operates as follows (Fig. 5, Fig. 6).

Before performing the exercises, the load required for exercises (spring resistance 11) is set by the user by rotating the nut ring 6 and selecting the gradation value appearing in window 22. If necessary, the amplitude of the carriage 4 is set by moving along the guides 18 of the rod 17 and then fixing it in one of the grooves 20.

Positioning the trained finger 23 in the carriage socket 8, and the finger 24, opposed to the trained finger (usually either the 1st or any other finger, depending on the exercise program) in the groove 7, made in the lower (conditionally) part of the housing 1, the user, applying force, makes reciprocating movements with the trained finger. In this case, the movement of the carriage 4 is transmitted through the cable 9 and the block 10 to the spring 11, then stretching it, then returning to its original position. After completing the exercise cycle, the user, as described above, is able to reconfigure the degree of resistance of the spring 11 or the amplitude of movement of the carriage 4 in any combination.

The design of this simulator to restore mobility of the muscles of the fingers, allows you to expand its functionality through regulation load range, namely, providing independent adjustment of both the resistance level and the amplitude of movement of the trained finger and to ensure the development of the muscles of the middle group of the hand (such as the vermiform, palmar and dorsal interosseous muscles), which are involved in the flexion of the proximal phalanges of the second to fifth fingers.

Bibliography:

1. http://www.rehabmart.com product / thumbciser-8178.html, last viewed 2015.12.05

2. Patent US 8882644 published 2014-11-11

3. Patent US 6179749 published 2001-01-30

4. Application CN 88200219 published 1988-09-21

Claims

Claim

1. A portable simulator for developing the muscles of the fingers of the hand consisting of a body with a tension spring fixed inside and connected to a carriage with a socket for the finger being developed and having the possibility of reciprocating movement in the case window along internal guides, and containing outside a place for fixing the finger, which is opposed to the developed finger characterized in that the casing is hollow, elongated and collapsible, the place for fixing the finger is made in the form of a groove located at the end of the core the mustache, the carriage socket is made in the form of a blind hole and the housing inside is additionally equipped with a force control device applied to the carriage consisting of a hollow plunger with an external thread made in the bottom part and with the possibility of reciprocating movement, a tension spring fixed in it fixed at one end to the bottom, and the second, through flexible connection (cable) through at least one block to the carriage, and the ring-nut screwed onto the plunger and fixed from axial displacement in the recess of the housing, as well as the device for controlling carriage movement amplitudes consisting of a rod disposed transversely to the window casing and movable along the window along its own guide, and the possibility of its subsequent fixation in a number of slots by means of retaining springs.

2. A portable simulator for developing the muscles of the fingers according to claim 1, characterized in that the block is made in the form of a 2-speed wheel with a ratio of diameters of 1: 1.5 ... 1: 2.5 and with grooves on both circles