RU195780U1 - BIOMECHANICAL STIMULANT - Google Patents

Abstract

The utility model relates to medical equipment, namely to biomechanical stimulants for conducting hardware massage. The biomechanical stimulator contains a housing 1 (Fig. 1, 2, 3), an electric drive 2 (Fig. 2, 3), a crank mechanism 3 (Fig. 2, 3) and a shaft 4 (Fig. 2, 3) with a fixed cylindrical massage nozzle 5 (Figs. 1, 2, 3). A shaft with the possibility of interaction with the crank mechanism and the possibility of rotation is located in the bearings. One of the bearings is rigidly fixed in the housing, and the other is equipped with a shock absorber. The electric drive is equipped with shock absorbers placed on its end bearing caps. The crank mechanism is configured to convert a uniform rotational movement into an oscillatory movement of the massage nozzle with a constant amplitude of 40 ° ± 2 °. Shock absorbers are made of elastic polymers. This improves the performance and efficiency of the procedures by reducing the impact of vibration on the case. 3 s.p. f-ly, 3 ill.

Description

Biomechanical stimulant belongs to the field of medical technology, cosmetology, physiotherapy and is intended for therapeutic and wellness-preventive hardware massage related to the prevention of diseases and general healing of the body.

Biomechanical stimulant can be used in medical institutions, in cosmetology rooms and clinics, as well as in everyday life, in particular for skin care for the face and neck through biomechanical effects on muscles to increase tone and blood circulation, as well as to slow down the aging process and manifestations age signs on the face and neck.

When using a Biomechanical stimulator, frequent periodic mechanical action on the muscles occurs in order to control a number of physiological functions, especially blood circulation. When exposed to a muscle, its longitudinal vibration occurs, while the circulatory function of the muscles is enhanced and metabolic processes in the tissues are accelerated.

As a result of working with the Biomechanical stimulator, muscle tone improves, their volume and functionality normalize, in particular, the skin of the face acquires a healthy color, elasticity returns, facial wrinkles and wrinkles disappear, the face oval gains clarity, and the sagging of the skin in the cheekbones becomes invisible, bags are smoothed under eyes, eyelids rise and double chin becomes less noticeable.

To achieve a healing effect when working with a Biomechanical stimulator, the total mass of the device and the level of vibration transmitted to the operator’s hand are of no small importance.

Various designs of Biomechanical stimulants for hardware massage are known. However, the field of use of known devices is limited by their design features that reduce the effectiveness of the procedures performed with their help.

Known apparatus for biomechanical stimulation "Nazarov simulator for the face" (Appendix 1):

http://bms7.ru/magazin/trenazher-nazarova-dlya-litsa-yunost-2/

The biomechanical stimulation apparatus “Nazarov Facial Trainer” is intended for mechanical action of vibration on the skeletal muscles of a person along the muscle fiber through the current of lymph and venous blood of the face, neck and head. The apparatus comprises a housing, an electric motor with frequency adjustment, a stimulation unit with a nozzle, and a power supply.

The disadvantage of this device is surface vibration, which does not allow you to affect muscle blocks, which reduces the effectiveness of the procedure.

Also known Biomechanical stimulator according to the patent for the invention SU No. 1777870, publ. November 30, 1992 for medical procedures, in particular, it can be used in dentistry in devices for massage of the gums, as well as in proctology for stimulation of the prostate gland. The biomechanical stimulator contains a housing, an electric drive, a transmission link mechanism, a shaft consisting of two parts with the possibility of interaction and a removable massage nozzle.

The disadvantage of this device is the limitation of the scope and inconvenience of use.

Closest to the claimed solution, taken as a prototype, is the Electromechanical Biostimulator according to the patent for the invention SU No. 1801466, publ. 03/15/1993, for massage of various parts of the patient’s body. The electromechanical biostimulator contains a housing, an electric drive, a speed reduction mechanism with an oscillation control lever, and an output shaft with a working nozzle fixed to it.

The disadvantage of this Electromechanical Biostimulator is the low performance associated with the mechanical adjustment of the amplitude of oscillations and the complexity of the mechanism for changing the frequency of vibrations.

When using known Biomechanical stimulation devices, there are problems associated with vibration transmitted from the electric motor and the stimulation unit to the body and arm of the operator, which affects the decrease in the effectiveness of the procedures.

The technical result of the claimed utility model is to increase the operational characteristics and effectiveness of the procedures by reducing the effects of vibration on the body of the Biomechanical stimulator.

To achieve the claimed technical result in a biomechanical stimulator containing a housing, an electric drive, a crank mechanism and a shaft with a massage nozzle, otherwise the drive and the shaft bearing are fixed in the housing

Biomechanical stimulant.

The latches are made in the form of shock absorbers and are placed on the outer surface of the shaft bearing and bearing caps of the electric drive, with each shock absorber made of elastic polymers (for example: silicone, rubber, polyurethane).

The use of additional elastic shock absorbers in the proposed design can improve operational characteristics, as well as increase the efficiency of the procedures and make them more comfortable by attenuating the transmission of vibration to the device body.

The proposed Biomechanical stimulator is illustrated by the following drawings, which show:

FIG. 1 - general view;

FIG. 2 is a general view with a conditional section of the body along the axis of symmetry;

FIG. 3 - section along the axis of symmetry.

The proposed Biomechanical stimulator contains a housing 1 (Fig. 1, 2, 3), an electric drive 2 (Fig. 2, 3), a crank mechanism 3 (Fig. 2, 3), a shaft 4 (Fig. 2, 3) with a fixed cylindrical massage nozzle 5 (Fig. 1, 2, 3), while the shaft with the possibility of interaction with the crank mechanism and the possibility of rotation is located in the bearings, one of which is rigidly fixed in the housing, and the other is equipped with an elastic shock absorber 6 (Fig. 2, 3), in addition, the electric drive is equipped with elastic shock absorbers 7 (Fig. 2, 3), placed on its end bearing caps.

The device operates as follows. A voltage of a certain frequency is supplied from the external power supply unit to the electric drive 2, the movement of the electric drive shaft is transmitted to the crank mechanism 3, the shaft 4 and the massage nozzle 5. The crank mechanism converts the uniformly rotational movement into the oscillatory movement of the massage nozzle, the amplitude of which is set constant 40 ° ± 2 °.

During the procedures, the massage nozzle is pressed against the skin surface along the strained muscle fibers, that is, in the direction characteristic of normal muscle contraction. The massage nozzle, making oscillatory movements, removes muscle clamps and enhances blood flow in the vessels, improving blood circulation in muscle fibers and increasing their endurance and elasticity.

With the mechanical effect of the massage nozzle on muscle fibers, muscle tremor occurs, which stimulates physiological processes in muscle cells similar to those that occur after physical exertion.

The use of elastic shock absorbers can significantly reduce the transmission of vibration to the body of the Biomechanical stimulator and, accordingly, to the operator’s hand, as well as improve the operational characteristics of the device and increase the efficiency of the procedures.

Claims (4)

1. Biomechanical stimulator for conducting hardware massage, comprising a housing, an electric drive, a crank mechanism and a shaft with a fixed cylindrical massage nozzle, while the shaft with the possibility of interaction with the crank mechanism and the possibility of rotation is located in the bearings, one of which is rigidly fixed in the housing, and the other equipped with a shock absorber, the electric drive is equipped with shock absorbers placed on its end bearing caps, while the crank mechanism is configured to uniformly th rotary motion into oscillatory motion massage head with a constant amplitude of 40 ° ± 2 °, dampers made of elastic polymers. 2. Biomechanical stimulator according to claim 1, characterized in that silicone is used as an elastic polymer. 3. The biomechanical stimulator according to claim 1, characterized in that rubber is used as an elastic polymer. 4. The biomechanical stimulator according to claim 1, characterized in that polyurethane is used as an elastic polymer.

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