WO2020122751A1 - Vibrostimulator - Google Patents

Abstract

The invention relates to medical technology, more particularly to devices for massaging muscles of a human or animal, and is intended for use in medicine, veterinary medicine and sport exercise machines. The vibrostimulator comprises a housing which accommodates an electric motor, and changeable massaging attachments which are carried by an axle of which one end is connected to an electric motor axle and the other end extends outwards from the housing and is provided with a fastening element for fixing the attachments. Each attachment has a working head and a tail portion with a fastening element at the end thereof. The bearing axle of the attachment is offset at an angle, preferably perpendicularly, in relation to the electric motor axle and is connected to the electric motor axle so as to be capable of rotary-oscillatory motion. The technical result is the implementation of muscle massage by means of both biomechanical stimulation and impact action.

Description

VIBRATION STIMULATOR

Technical field

The invention relates to medical equipment, in particular to devices for massaging the muscles of humans and animals and can be used in medicine, veterinary medicine and in the devices of sports simulators.

State of the art

A device for training muscles, comprising a housing with a vibration exciter and a nozzle vibrator (SU 1480826, 1989)

Also known is an electromechanical stimulator with a nozzle, the axis of which is connected to the axis of the electric motor through an eccentric, by means of which vibration of the nozzle occurs (WO 2013/153500, 2013). The stimulant can affect any muscle.

The closest analogue of the proposed invention is a biomechanical vibration stimulator containing a housing with an electric motor and a nozzle mounted with the possibility of rotation-vibrational motion. (RU 2052989, 1996). The stimulator is intended for periodic mechanical effects on the facial and cervical muscles of a person directed along their fibers.

All known devices have a limited scope, because they use a nozzle of only one shape, which during operation performs movement of only one kind.

SUMMARY OF THE INVENTION

The technical result of the invention is to perform muscle massage, both due to biomechanical stimulation, and due to shock, changing the shape of the nozzles, the direction and amplitude of the vibrations.

The vibration stimulator according to the invention comprises a housing with an electric motor housed in it and interchangeable massage nozzles resting on an axis, one end of which is connected to the axis of the electric motor, and the other is brought out of the housing and provided with a fastener for fixing the nozzles. Each nozzle has a working head and a shank with a fastener at the end. The support axis for nozzles extends at an angle to the axis of the motor, preferably perpendicularly, and is connected to the axis electric motor with the possibility of rotational-oscillatory (oscillating) movement.

The constructive device inside the vibro-stimulator case is not the subject of the invention, since it is known as a part of various kinds of hand-held power tools. In particular, the location of the supporting axis for nozzles at an angle or perpendicular to the axis of the motor can be achieved by connecting the axes through a pair of bevel gears. In turn, for the rotation - vibrational movement, the supporting axis for the nozzles can be connected to the axis of the electric motor using an eccentric, as shown in the previously mentioned patent documents WO 2013/153500 and RU 2052989.

The electric motor can be equipped with a control unit for controlling the speed and current magnitude of the motor.

The fasteners of the nozzles and the support axis for the nozzles are made flat with compatible curly cutouts. For a stronger connection, the fasteners can be reinforced with a fixing screw.

The working heads of the nozzles contain from one to eight fingers, which can be located parallel, at an angle or perpendicular to the axis of the shank and the plane of the fastener. Depending on the required impact (biomechanical or impact), the fingers of the nozzle are located at an angle of 0-90 ° with respect to the axis of the shank and / or at an angle of 0-90 ° with respect to the planes of the fasteners.

A brief description of the figures of the drawings.

In FIG. 1 shows the appearance of a vibratory stimulator with a fastener on a support axis for nozzles. A fixing screw is shown opposite the fastener.

In FIG. 2-5 show individual nozzles with working heads containing one, two, four or six fingers, respectively. Nozzles with a different number of fingers are not shown in the drawings.

In the drawings, reference numeral 1 denotes a vibration stimulator housing, reference numeral 2 indicates a fastening element on the support axis for nozzles, reference numeral 3 indicates a fixing screw. Each nozzle contains from one to eight fingers 4, a shank 5 and a fastener 6. During the operation of the vibration stimulator, the supporting axis for the nozzles together with the fastening elements 2 and 6 will perform rotational-vibrational movements or vibrations within the angle of rotation of 2-5 °. In this case, the fingers of the nozzles, depending on their position relative to the axis of the shank and the plane of the fastener, will produce either biomechanical muscle stimulation with the direction of vibrations along the muscle fibers, or an impact action perpendicular to the muscle fiber.

The direction of movement of the support axis for nozzles and fasteners is shown in the drawings by arrows near the fasteners. The fingers of the nozzles shown in FIG. 3 and FIG. 5 will produce muscle impact. The fingers of the nozzles shown in FIG. 2 and FIG. 4 will produce biomechanical muscle stimulation - a vibrational movement along the muscle fibers. In this case, the amplitude of the vibrational movements will depend, inter alia, on the length of the shank. The longer the shank, the greater the amplitude of the vibrations.

Different forms of nozzles with a different number of fingers in each nozzle are selected depending on the type of massage required and the muscle groups to be massaged throughout the human body, including on the head and face.

Claims

Claim

1. A vibration stimulator comprising a housing with an electric motor housed in it and interchangeable massage nozzles resting on an axis, one end of which is connected to the axis of the electric motor, and the other is brought out of the housing and provided with a fastener for fixing the nozzles, each of the nozzles having a working head and a shank with a fastening element at the end, while the supporting axis for nozzles extends at an angle to the axis of the electric motor, preferably perpendicularly, and is connected to the axis of the electric motor with the possibility of rotational-vibrational motion.

2. The vibration stimulator according to claim 1, characterized in that the fasteners of the nozzles and the support axis for the nozzles are made flat with compatible curly cutouts.

3. The vibration stimulator according to claim 1, characterized in that the working heads of the nozzles contain from one to eight fingers located at an angle of 0-90 ° with respect to the axis of the shank.

4. The vibration stimulator according to claim 1, characterized in that the fingers of the working heads are located at an angle of 0-90 ° with respect to the planes of the fasteners.

5. The vibration stimulator according to claim 1, characterized in that the supporting axis for the nozzles is connected to the axis of the electric motor using bevel gears.

6. The vibration stimulator according to claim 1, characterized in that for the implementation of the reciprocating motion, the supporting axis for the nozzles is connected to the axis of the electric motor using an eccentric.

7. The vibration stimulator according to claim 1, characterized in that the electric motor is equipped with a control unit.