RU163690U1 - ELECTROMECHANICAL TOOTHBRUSH - Google Patents

Abstract

1. Electromechanical toothbrush containing mounted in the cavity of the body of its handle: a tooth processing unit mechanically connected to an electric drive installed in the housing with a battery; the tooth processing unit is made in the form of a shaft mounted with the possibility of rotation and partially protruding from the handle housing with a removable nozzle, which is fixed at its end protruding from the handle housing; at the same time, over the shaft end protruding from the handle body, a visor is connected with the handle body corresponding to the length of the shaft protruding part with the nozzle, which is structurally formed in the form of a profile plate with an internal longitudinal protrusion with a height that ensures its contact with the peripheral portions of the nozzle surface, characterized in that the shaft of the tooth processing unit is made of two telescopically connected with each other with the possibility of transmitting torque of the leading and driven parts, and the unit is equipped with detecting the reciprocating movement of the driven portion relative to the leading portion during rotation of the shaft (4) .2. An electromechanical toothbrush according to claim 1, characterized in that the means of reciprocating movement of the driven part of the shaft relative to the lead is made of mechanical, or electromechanical, or magnetic, or electromagnetic, or magnetostrictive, or electrostrictive types. 3. The electromechanical toothbrush according to claim 1, characterized in that the means of reciprocating movement of the driven part of the shaft relative to the leading one is configured to adjust the amplitude of the reciprocating

Description

The claimed technical solution relates to the field of dentistry and can be used for brushing teeth and interdental spaces, as well as polishing teeth and massage gums.

The electromechanical toothbrush is known from the state of the art and contains a handle mounted in a cavity of the body of the body: a tooth processing unit mechanically connected to an electric drive with a battery installed in the body. The tooth processing unit is made in the form of a shaft mounted with the possibility of rotation and partially protruding from the shaft handle with a removable nozzle, which is fixed to its end protruding from the handle body. At the same time, a visor connected with the handle body corresponding to the length of the protruding part of the shaft with a nozzle is made over the shaft end protruding from the handle body. The visor is structurally formed in the form of a profile plate with an internal longitudinal radially directed protrusion. The height of the protrusion ensures that it touches the peripheral portions of the surface of the nozzle (RU 143923 U1).

The disadvantages of this technical solution include the insufficient quality of cleaning the enamel surface of the teeth with an increased coefficient of friction between the interacting surfaces of the working element and the enamel surface of the teeth.

The objective of the claimed technical solution is to improve the quality of cleaning of the enamel surface of the teeth while reducing the coefficient of friction in the contact area of the working element of the brush and the enamel surface of the teeth (and, as a result, reduce wear of the enamel surface of the teeth during brushing) by ensuring the combination of two types of movement (rotational and reciprocating, jointly providing a decrease in the coefficient of friction and an increase in the cleanliness of the treated surface) on the working element of the tooth processing unit in the process ce their cleaning.

The technical result is a reduction in the coefficient of friction in the contact zone of the mutually movable surfaces of the brush working element and the enamel surface of the teeth by ensuring the combination of two types of movement (and, accordingly, increasing the cleanliness of the treated surface with minimal wear) on the brush working element during cleaning, in total with automatic mechanical cleaning of the surface of the working element from foreign friction microparticles (for example, tartar) with ensuring their disposal in the process during the functioning of the object (excluding the re-entry of these microparticles into the friction zone).

The technical result achieved is achieved by the fact that in an electromechanical toothbrush containing handles installed in the cavity of the body of the handle: a tooth processing unit mechanically connected to an electric drive with a battery installed in the body; the tooth processing unit is made in the form of a shaft mounted with the possibility of rotation and partially protruding from the handle housing with a removable nozzle, which is fixed at its end protruding from the handle housing; at the same time, over the shaft end protruding from the handle body, a visor is made connected with the handle body, corresponding to the length of the shaft protruding part with a nozzle, which is structurally formed in the form of a profile plate with an internal longitudinal (directed mainly radially) protrusion with a height that ensures its peripheral contact sections of the surface of the nozzle, according to a utility model, the shaft of the tooth processing unit is made of two telescopically connected to each other with the possibility of transmitting torque to the leading and driven parts, and the unit is equipped with a means of reciprocating movement of the driven part relative to the leading part during rotation of the shaft.

The means for reciprocating the driven part of the shaft relative to the drive may be mechanical, or electromechanical, or magnetic, or electromagnetic, or magnetostrictive, or electrostrictive.

The means for implementing the reciprocating movement of the driven part of the shaft relative to the leading can be performed with the possibility of adjusting the amplitude of the reciprocating movement of the driven part from the maximum to the minimum, including zero, values.

The means of reciprocating movement of the driven part of the shaft relative to the leading can be made in the form of two kinematically interconnected elements, structurally organized with the possibility of reciprocating movement of the driven part of the shaft during its rotation, while one of the elements is stationary and located on the inner surface of the handle housing, and the second - movable and rigidly connected with the driven part of the shaft.

It is reasonable that one of the elements of the means of reciprocating the driven part of the shaft would have the form of a groove closed in the circumferential direction, at least part of the longitudinal plane of which is located at an angle to the axis of rotation of the shaft, while the second element should be made in the form radially directed emphasis, for example, in the form of a finger, which should be placed in the said groove with the possibility of interaction with its walls.

It is permissible that an element having the form of a groove closed in the circumferential direction would be located on the inner surface of the handle body, that is, would be stationary, while the element made in the form of a radially directed stop should be rigidly connected with the driven part of the shaft, that is, would be mobile.

It is permissible that the element, made in the form of a radially directed stop, would be located on the inner surface of the handle body, that is, would be stationary, while the element, having the form of a groove closed in the circumferential direction, should be rigidly connected to the driven part of the shaft, that is, would be mobile.

The tooth processing unit may be provided with at least one additional element having the form of a groove closed in the circumferential direction, at least a part of the longitudinal plane of which is located at an angle to the axis of rotation of the shaft, while the inclination angle for the additional groove must be excellent , relative to the angle of inclination of the previous groove.

It is reasonable that one of the elements of the means for reciprocating the driven part of the shaft relative to the leading one is made in the form of a ring, at least one of the side surfaces of which is located at an angle to the axis of rotation of the shaft, that is, it is inclined, while the second element should be made in the form of an axially directed emphasis, for example, in the form of a finger, which should contact the inclined surface of the ring during their relative movement during rotation of the shaft, and the said elements you must be mutually spring loaded.

It is most effective that one of the elements of the means for effecting reciprocating movement of the driven part of the shaft relative to the leading one is made in the form of a ring, both side surfaces of which would be located at equal angles to the axis of rotation of the shaft, that is, they are inclined, in this case, the second element should be made in the form of an axially directed emphasis with a radially directed section, structurally organized as a fork, with the inner side surfaces of the radially directed section must contact the corresponding inclined surfaces of the ring during their relative movement during rotation of the shaft.

It is permissible that the element, made in the form of a ring, would be located on the inner surface of the handle body, that is, would be stationary, while the element in the form of an axially directed stop should be rigidly connected to the driven part of the shaft of the dental unit, that is, would be mobile.

It is also permissible that the element, made in the form of an axially directed stop, would be located on the inner surface of the handle body, that is, would be stationary, while the element, made in the form of a ring, should be rigidly connected to the driven part of the shaft of the dental unit , that is, it would be mobile.

It is possible that the element, made in the form of an axially directed stop, would be structurally organized with the possibility of adjusting the position in the radial direction of the point of contact with the inclined surface of the ring.

It is optimal that the element, made in the form of a ring, consist of two mutually moving parts and would be structurally organized with the possibility of adjusting the angle of inclination of its side surface relative to the axis of rotation of the shaft of the dental unit.

It is reasonable that the electromechanical toothbrush would be equipped with a visual indicator of the magnitude of the change in the amplitude of the reciprocating movement of the driven part of the shaft from the maximum to the minimum value.

It is optimal that the nozzle be made in the form of a cylindrical brush formed by tufts of bristles fixed to the base along a spiral path.

It is necessary that the electromechanical toothbrush be equipped with a unit for changing the direction of rotation of the shaft.

It is reasonable that the electromechanical toothbrush would be provided with a knot for lowering the rotation speed of the shaft of a mechanical and / or electromechanical type.

It is optimal that the electromechanical toothbrush would be equipped with a light indicator of the direction of rotation of the shaft electrically connected to the battery, functionally organized as a creeping line and made in the form of an annular optical element placed on the outer surface of the handle body from the side of the protruding outer part of the shaft.

The technical solution is illustrated by graphic materials.

FIG. 1 is a simplified design diagram of an electromechanical toothbrush.

FIG. 2 is a general view of an electromechanical toothbrush (partial longitudinal section).

FIG. 3 is a view A of FIG. 2.

FIG. 4 - the basis of a removable nozzle with a helical trajectory of the tufts of bristles.

FIG. 5 - callout I of FIG. 2 (one of the embodiments of the electromechanical toothbrush according to claim 8).

FIG. 6 - leader I of FIG. 2 (the second embodiment of the device according to p. 12 claims).

FIG. 7 - callout I of FIG. 2 (the third embodiment of the device according to p. 12 of the claims with adjustable amplitude of the reciprocating movement of the driven part of the drive shaft).

FIG. 8 is a view along arrow C in FIG. 7 (a visual indicator according to claim 15 is shown in the form of an annular surface with a notch).

FIG. 9 and FIG. 10 is a view along arrow B in FIG. 7 (the relative position of the grooves on the rotary disk and the ring for installing the slider with the axial stop is shown, which ensures the stop moves along the radius when the disk is rotated).

In the claimed technical solution, the nodes, blocks and elements included in it are indicated by the following positions:

1 - block (dental treatment); 2 - case (device handles); 3 - electric drive; 4 - shaft (block 1 tooth processing); 5 - nozzle (in the form of a cylindrical brush); 6 - peak; 7 - ledge (longitudinal visor 6); 8 - battery; 9 - toggle switch (turning on the electric motor 3); 10 - indicator (direction of rotation of the shaft 4); 11 - trajectory (rotation of the peripheral sections of the cylindrical brush); 12 - part (drive shaft 4); 13 - part (driven shaft 4); 14 - surface (inner body 2 of the handle); 15 - groove (closed in the circumferential direction); 16 - axis (rotation of the shaft 4); 17 - emphasis (radially directed); 18 - ring (with an inclined surface 19); 19 - surface (inclined ring 18); 20 - emphasis (axially directed); 21 - point (contact stop 20 with an inclined surface 19); 22 and 23 - elements (mutually movable in the axial direction of the means of reciprocating movement of the driven part 13 relative to the leading part 12); 24 - pointer (indicator of the amplitude of the reciprocating movement of the driven part 13 of the shaft 4); 25 - arrow - slider (amplitude indicator of the reciprocating movement of the driven part 13 of the shaft 4); 26 - tufts (bristles of the nozzle 5), 27 - base (for attaching tufts of 26 bristles of the nozzle 5); 28 - trajectory (spiral placement of tufts of 26 bristles); 29 - slider (axially directed emphasis 20); 30 - finger (leading slider 20); 31 - a disk (rotary, leading for a finger 30); 32 - groove (inclined to accommodate the finger 30); 33 - trace (longitudinal plane of the groove 15); 34 - spring (returnable for ring 18); 35 - ring (retainer); 36 - line (parallel to the axis of rotation 16 of the shaft 4); 37 - groove (radial for the slider 29); 38 - stopper; 39 - ring (rigidly connected with the housing 2); 40 - notch (on the rotary disk 31).

An electromechanical toothbrush contains handles installed in the cavity of the body 2: a tooth processing unit 1 mechanically connected to an electric drive 3 installed in the body 2 (made, for example, in the form of a DI1-2 s microelectric motor - see, for example, http: // modelist- konstruktor.eom / v_mire_modelej / vy-priobretaete-mikroelektrodvigatel-kak-vvbrat-luchshii) with battery 8 (see, for example, AAA Duracell type power supply http: //www.http: //duracell.ru/ru-ru/ category / duracell-rechargeable / AAA).

The electric drive 3 is equipped with a circuit (not shown in FIGS. 1 and 2) for changing the direction of rotation of the shaft 4 (see, for example, http://fictionbook.ru/author/dion_lovin/sozdaem_robota_androida_svoimi_rukami/read_online.html?page=5), when this toggle switch 9 should be made in the form of a reversing switch (see, for example, http://www.dkc2.ru/shop_show_374413.html). In addition, the cavity inside the housing 2 of the handle of the device from the outside can be closed with a protective waterproof rubber ring (not shown conditionally in FIGS. 1 and 2).

The tooth processing unit 1 is made in the form of a shaft 4 mounted with a possibility of rotation and partially protruding from the housing 2 of the shaft handle 4 with a removable nozzle 5, which is fixed to its end protruding from the handle body 2. At the same time, over the shaft end 4 protruding from the handle body 2, a visor 6 is connected with the handle body 2 corresponding to the length of the protruding part of the shaft 4 with the nozzle 5, which is structurally formed in the form of a profile plate with an internal longitudinal protrusion 7. The height of the protrusion 7 is made such this ensures that the protrusion 7 touches the peripheral sections of the surface of the nozzle 5. The shaft 4 of the tooth processing unit 1 is made of two telescopically connected to each other with the possibility of transmitting torque to the leading and driven parts 12 and 13. When this, the unit 1 is equipped with a means of reciprocating movement of the driven part 13 relative to the leading part 12 during rotation of the shaft 4.

The means of reciprocating movement of the driven part 13 of the shaft 4 relative to the driving part 12 may be mechanical, or electromechanical, or magnetic, or electromagnetic, or magnetostrictive, or electrostrictive, (see, for example, “Mechanisms”, as amended by Corresponding Member of the Academy of Sciences of the Ukrainian SSR, SN Kozhevnikova, 4th ed., M., "Mechanical Engineering", 1976: p. 70, fig. 2.30; p. 129, fig. 2.226; p. 309, fig. 4.95-4.98; p. 310, fig. 4.100 and 4.101; p. 311, fig. 4.105 and 4.106; p. 312, fig. 4.107 and 4.111; p. 544, fig. 9.23; p. 709, fig. 11.100 ) - (one).

The means for implementing the reciprocating movement of the driven part 13 of the shaft 4 relative to the leading can be performed with the possibility of adjusting the amplitude of the reciprocating movement of the driven part 13 from the maximum to the minimum, including zero, values (see Fig. 5 and Fig. 7, and p. 311, Fig. 4.106 of the source (1)).

The means of implementing the reciprocating movement of the driven part 13 of the shaft 4 relative to the leading can be made in the form of two kinematically connected elements 22 and 23, structurally organized with the possibility of the reciprocating movement of the driven part 13 of the shaft 4 during its rotation. In this case, one of the elements 22 or 23 is stationary and is located on the inner surface 14 of the handle body 2, and the second is movable and is rigidly connected to the driven part 13 of the shaft 4 (see Figs. 5, 6, and 7).

It is reasonable that one of the elements 22 or 23 of the means for reciprocating the driven part 13 of the shaft 4 would have the form of a groove 15 closed in the circumferential direction, at least a part of the longitudinal plane of which is located at an angle to the axis of rotation 16 of the shaft 4. In this case , the second element 22 or 23 should be made in the form of a radially directed stop 17, for example, in the form of a finger, which should be placed in the said groove 15 with the possibility of interaction with its walls (see Fig. 5).

It is acceptable that the element 22 or 23, having the form of a groove 15 closed in the circumferential direction, would be located on the inner surface 14 of the handle body 2, that is, would be stationary, while the element 22 or 23, made in the form of a radially directed stop 17 must be rigidly connected with the driven part 13 of the shaft 4, that is, it would be movable. This constructive option in graphic materials is conditionally not shown due to its obviousness.

It is acceptable that the element 22 or 23, made in the form of a radially directed stop 17, would be located on the inner surface 14 of the handle body 2, that is, would be fixed, while the element 22 or 23, having the form of a groove 15 closed in the circumferential direction must be rigidly connected with the driven part 13 of the shaft 4, that is, it would be movable (see Fig. 5).

The dental processing unit 1 may be provided with at least one additional element having the form of a groove 15 closed in the circumferential direction, at least a part of the longitudinal plane of which is located at an angle to the axis of rotation 16 of the shaft 4, while the inclination angle for additional the groove 15 must be excellent with respect to the angle of inclination of the previous groove 15 (see Fig. 4). This constructive embodiment of the brush provides a change in the amplitude of the reciprocating movement of the nozzle 5 during rotation of the driven part 13 of the shaft 4. The left groove 15 provides the minimum amplitude, the right - the maximum, and the middle - zero amplitude.

The most optimally closed groove 15 is in the form of an endless screw with a right and left thread. In this case, the full cycle of the reciprocating movement of the driven part 13 is carried out in two revolutions of the shaft 4. This constructive option is not conventionally shown in graphic materials, due to its wide popularity from the modern level of technology (see, for example, page 70 of Fig. 2.30. or p. 309 of Fig. 4.98 of the source (1)).

It is reasonable that one of the elements 22 or 23 of the means for reciprocating the driven part 13 of the shaft 4 relative to the leading one is made in the form of a ring 18, at least one of the side surfaces 19 of which is located at an angle to the axis of rotation 16 of the shaft 4, that is, it is inclined. In this case, the second element 22 or 23 should be made in the form of an axially directed stop 20, for example, in the form of a finger, which should contact the inclined surface 19 of the ring 18 during their relative movement during rotation of the shaft 4. In this case, the above-mentioned elements (ring 18 and emphasis 20) must be mutually spring-loaded.

It is most effective that one of the elements 22 or 23 of the means for reciprocating the driven part 13 of the shaft 4 relative to the leading one is made in the form of a ring 18, both side surfaces of which 19 would be located at equal angles to the axis of rotation 16 of the shaft 4, then are, are inclined. In this case, the second element 22 or 23 should be made in the form of an axially directed stop 20 with a radially directed section, structurally organized by the type of a fork. In this case, the inner side surfaces of the radially directed portion should contact the corresponding inclined surfaces 19 of the ring 18 during their relative movement during rotation of the shaft 4. This option is not shown conditionally in graphic materials, due to its obviousness and wide popularity from the prior art (p. 311, Fig. 4.106; p. 312 Fig. 4.107. “a)” and “b)”), source (1)). This constructive embodiment of the brush ensures the exclusion of the spring 34 from the design of the brush.

It is acceptable that the element 22 or 23, made in the form of a ring 18, would be located on the inner surface 14 of the housing 2 of the handle, that is, would be stationary. At the same time, the element 22 or 23 in the form of an axially directed stop 20 should be rigidly connected with the driven part 13 of the shaft 4 of the tooth processing unit 1, that is, it would be movable. This constructive option is not conventionally shown in graphic materials, due to its obviousness.

It is also permissible that the element 22 or 23, made in the form of an axially directed stop 20, would be located on the inner surface 14 of the handle body 2, that is, would be stationary, while the element 22 or 23, made in the form of a ring 18, should to be rigidly connected with the driven part 13 of the shaft 4 of the tooth processing unit 1, that is, it would be movable (see Fig. 6 and Fig. 7).

It is possible that the element 22 or 23, made in the form of an axially directed stop 20, would be structurally organized with the possibility of adjusting the position in the radial direction of the point 21 of its contact with the inclined surface 19 of the ring 18 (see Fig. 7-10). This constructive embodiment of the brush provides a change in the amplitude of the reciprocating movement of the nozzle 5 during rotation of the driven part 13 of the shaft 4. With a maximum radius of the point of contact 21 of the stop 20 and the inclined surface of the ring 18, the maximum amplitude is provided, with a minimum radius - the minimum amplitude.

Optimally, the element 22 or 23, made in the form of a ring 18, would consist of two mutually movable parts and would be structurally organized with the possibility of adjusting the angle of inclination of its side surface 19 relative to the axis of rotation 16 of the shaft 4 of the tooth processing unit 1. This option is conditionally not shown in graphic materials, due to its obviousness and wide popularity from the prior art (p. 311, Fig. 4.106 of the source (1)).

It is reasonable that the electromechanical toothbrush would be equipped with a visual indicator of the magnitude of the change in the amplitude of the reciprocating movement of the driven part 13 of the shaft 4 from the maximum to the minimum value (see Fig. 8).

Optimally, the nozzle 5 would be made in the form of a cylindrical brush formed by tufts of 26 bristles fixed to the base 27 along a spiral path 28 (see Fig. 4).

The tufts 26 of bristles can be located in parallel planes perpendicular to the longitudinal axis of the base 27.

It is necessary that the electromechanical toothbrush be equipped with a unit for changing the direction of rotation of the shaft 4 (conventionally not shown in graphic materials).

It is reasonable that the electromechanical toothbrush would be equipped with a unit for lowering the rotation speed of the shaft 4 of a mechanical and / or electromechanical type (not shown conventionally in graphic materials).

For ease of use, an electromechanical toothbrush can be equipped with a light indicator 10 of the direction of rotation of the shaft 4 electrically connected to the battery 8, functionally organized as a creeping line and made in the form of an annular optical element located on the outer surface of the handle body 2 from the side of the protruding outer part shaft 4.

The work of the claimed technical solution is as follows.

First, for carrying out the procedure for brushing the teeth, as well as the interdental space, the nozzle 5 is mounted on the shaft 4 in the form of a cylindrical brush made of tufts of bristles. Accordingly, for the tooth polishing procedure, a nozzle 5 is installed on the shaft 4 in the form of a polishing rubber sleeve, the diameter of the outer surface of which is chosen so that this surface practically does not touch the protrusion 7 of the visor 6, or, in extreme cases, slides along the visor 6.

Using the toggle switch 9 include an electric drive 3, a rotating shaft 4 (and, accordingly, the nozzle 5), apply toothpaste under the visor 6 and insert the nozzle 5 into the oral cavity for contact of the brush bristles with the teeth. In this case, the nozzle 5 simultaneously performs rotational and translational movements, and the protrusion 7 of the visor 6 removes food particles adhering to the brush bristles. Visor 6 provides protection against injuries of the mucous membrane of the cheek. It should be noted that the design of the device in accordance with the requirements of dentists provides for the rotation of the nozzle 5 from the gums (sweeping rotation, the direction of which is controlled by the “running line” of indicator 10), and at the same time, the angle of inclination is changed, which ensures cleaning of the interdental space.

It is obvious that when rotating the nozzle 5 it is visually difficult to determine the direction of its rotation. Therefore, for ease of operation, a light indicator 10 of the direction of rotation of the shaft 4 can be used in the device, functionally organized as a creeping line and made in the form of an annular optical element located on the outer surface of the handle body 2 from the side of the protruding outer part of the shaft 4. In the direction of movement of the light spot along the surface of the indicator 10, the direction of rotation of the nozzle 5 is determined. It is possible to control the direction of rotation directly in the process of brushing teeth according to the movement of the light spot in the mirror.

Recommended by dentists, the main direction of movement of the toothbrush when brushing your teeth is sweeping from the gums. It is difficult to reproduce it in practice with a traditional brush. The movement of a traditional toothbrush when brushing your teeth is recommended: for the upper teeth - from top to bottom and for the lower - from bottom to top, that is, vertically from the gums. The proposed device for providing oral hygiene (electromechanical toothbrush) ideally simulates sweeping movements from the gums. The bristles of the nozzle 5, on the one hand, are covered by a screen - a visor 6, which protects the mucous membrane of the cheeks from touching the rotating brush 5. The feature of the protective screen-visor 6 is a pronounced protrusion 7 located in the center along the entire inner surface of the visor 6. Its main and important purpose: during rotation and reciprocating movement of the brush - brush, the ends of the bristles hit an obstacle, spring and discard the plaque on them towards the mucous membrane of the cheeks or in the oral cavity, returning clean to erhnosti teeth. Advantages: easily feasible vertically-sweeping brush movements, which allow qualitatively "sweeping" food debris from the interdental spaces without rubbing them back, as is the case with known toothbrushes; the possibility to use rubber polishes instead of a brush - brush - nozzles for polishing tooth enamel to a mirror shine, combining bristles with rubber inserts, you can simultaneously massage the gums with brushing your teeth.

The device can be switched on with a common button and start the rotation of the nozzle 5 in any direction, while the direction of rotation of the nozzle 5 is visually duplicated by the running light spot of the indicator 10. The rotation is carried out, say, for 15 seconds, then, after the beeper sounds, the reverse is triggered. And so this will happen until you press the button again (that is, to disable the rotation of the nozzle 5). It is better to turn on the device after applying toothpaste to the brush and placing it in the oral cavity, in order to avoid spraying the paste. The signal of the beeper will make it possible to carry out better brushing of teeth in segments, which will undoubtedly improve the quality of brushing. The signal can serve as a timer to control the duration of cleaning.

The above information indicates the following conditions are met when using the claimed technical solution:

- an object embodying the claimed technical solution in its industrial implementation is intended for use in the field of medicine, namely, in the field of auxiliary preventive dental devices;

- for the claimed object in the form described in the independent clause of the formula below, the possibility of its implementation using the means and methods described above or known from the prior art on the priority date is confirmed;

- an object embodying the claimed technical solution during its implementation is able to achieve the achievement of the technical result perceived by the applicant - improving the efficiency of brushing by reducing the coefficient of friction between the interacting surfaces of the working element and the enamel surface of the teeth.

Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

Claims (19)

1. Electromechanical toothbrush containing mounted in the cavity of the body of its handle: a tooth processing unit mechanically connected to an electric drive installed in the housing with a battery; the tooth processing unit is made in the form of a shaft mounted with the possibility of rotation and partially protruding from the handle housing with a removable nozzle, which is fixed at its end protruding from the handle housing; at the same time, over the shaft end protruding from the handle body, a visor is connected with the handle body corresponding to the length of the shaft protruding part with the nozzle, which is structurally formed in the form of a profile plate with an internal longitudinal protrusion with a height that ensures its contact with the peripheral portions of the nozzle surface, characterized in that the shaft of the tooth processing unit is made of two telescopically connected with each other with the possibility of transmitting torque of the leading and driven parts, and the unit is equipped with detecting the reciprocating movement of the driven portion relative to the leading portion during rotation of the shaft (4). 2. The electromechanical toothbrush according to claim 1, characterized in that the means of reciprocating movement of the driven part of the shaft relative to the drive is made of mechanical, or electromechanical, or magnetic, or electromagnetic, or magnetostrictive, or electrostrictive types. 3. The electromechanical toothbrush according to claim 1, characterized in that the means for reciprocating the driven part of the shaft relative to the leading one is arranged to adjust the amplitude of the reciprocating movement of the driven part from the maximum to the minimum, including zero, value. 4. The electromechanical toothbrush according to claim 1, characterized in that the means of reciprocating movement of the driven part of the shaft relative to the leading one is made in the form of two kinematically connected elements and structurally organized with the possibility of reciprocating movement of the driven part of the shaft in the process of rotation, while one of the elements is stationary and is located on the inner surface of the handle body, and the second is movable and is rigidly connected with the driven part of the shaft la 5. An electromechanical toothbrush according to claim 4, characterized in that one of the elements or means for reciprocating the driven part of the shaft has the form of a groove closed in the circumferential direction, at least a part of the longitudinal plane of which is located at an angle to the axis of rotation of the shaft while the second element is made in the form of a radially directed emphasis, for example, in the form of a finger, which is placed in the said groove with the possibility of interaction with its walls. 6. The electromechanical toothbrush according to claim 5, characterized in that the element, having the form of a groove closed in the circumferential direction, is located on the inner surface of the handle body, i.e., is stationary, and the element, made in the form of a radially directed stop, is rigidly connected to the driven part of the shaft, i.e., is movable. 7. The electromechanical toothbrush according to claim 5, characterized in that the element, made in the form of a radially directed stop, is located on the inner surface of the handle body, that is, it is stationary, and the element, having the form of a groove closed in the circumferential direction, rigidly connected to the driven part of the shaft, i.e., is movable. 8. An electromechanical toothbrush according to claim 5, characterized in that the tooth processing unit is provided with at least one additional element having the form of a groove closed in the circumferential direction, at least a part of the longitudinal plane of which is located at an angle to the axis of rotation of the shaft wherein the angle of inclination for the additional groove is excellent with respect to the angle of inclination of the previous groove. 9. The electromechanical toothbrush according to claim 4, characterized in that one of the elements of the means for reciprocating the driven part of the shaft relative to the leading one is made in the form of a ring, at least one of the side surfaces of which is located at an angle to the axis of rotation of the shaft, i.e., it is inclined, and the second element is made in the form of an axially directed emphasis, for example, in the form of a finger in contact with the inclined surface of the ring during their relative movement during rotation of the shaft, while mentioning The internal elements are mutually spring-loaded. 10. The electromechanical toothbrush according to claim 4, characterized in that one of the elements of the means for reciprocating the driven part of the shaft relative to the leading one is made in the form of a ring, both side surfaces of which are located at equal angles to the axis of rotation of the shaft, i.e. are inclined, and the second element is made in the form of an axially directed emphasis with a radially directed section, structurally organized as a fork, while the inner side surfaces of the radially directed section of the contour Editin with corresponding inclined surfaces of the ring during their relative movement when the shaft rotates. 11. The electromechanical toothbrush according to claim 9 or 10, characterized in that the element, made in the form of a ring, is located on the inner surface of the handle body, that is, it is stationary, and the element in the form of an axially directed stop is rigidly connected with the follower part of the shaft of the dental unit, i.e., is movable. 12. An electromechanical toothbrush according to claim 9 or 10, characterized in that the element made in the form of an axially directed stop is located on the inner surface of the handle body, i.e., is stationary, and the element made in the form of a ring is rigidly It is connected with the driven part of the shaft of the dental unit, i.e., it is movable. 13. An electromechanical toothbrush according to claim 9 or 10, characterized in that the element, made in the form of an axially directed stop, is structurally organized with the possibility of adjusting the position in the radial direction of the point of contact with the inclined surface of the ring. 14. An electromechanical toothbrush according to claim 9 or 10, characterized in that the element, made in the form of a ring, consists of two mutually movable parts and is structurally organized with the possibility of adjusting the angle of inclination of its side surface relative to the axis of rotation of the shaft of the dental unit. 15. The electromechanical toothbrush according to claim 1, characterized in that it is equipped with a visual indicator of the magnitude of the change in the amplitude of the reciprocating movement of the driven part of the shaft from the maximum to the minimum value. 16. An electromechanical toothbrush according to claim 1, characterized in that the nozzle is made in the form of a cylindrical brush formed by tufts of bristles fixed to the base along a spiral path (28). 17. The electromechanical toothbrush according to claim 1, characterized in that it is equipped with a unit for changing the direction of rotation of the shaft. 18. An electromechanical toothbrush according to claim 1, characterized in that it is equipped with a node for lowering the shaft speed of a mechanical and / or electromechanical type. 19. An electromechanical toothbrush according to claim 1, characterized in that it is provided with a light indicator of the direction of rotation of the shaft electrically connected to the battery, functionally organized as a creeping line and made in the form of an annular optical element placed on the outer surface of the handle body from the side protruding outer part of the shaft.

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