RU2341229C2 - Electric tooth-brush supplied with element with electric power supply - Google Patents

Abstract

FIELD: items of personal use.

SUBSTANCE: electric tooth-brush contains the handle, a head and the narrowed part located between the handle and the head. The handle has an internal cavity which contains the engine and power supply source, and the head contains the holder of a bristle and an element with power supplies, executed in the form of the ultrasonic converter. The ultrasonic generator is electrically connected with a source of power supply and supplied by the ultrasonic megaphone which is passing from the ultrasonic converter to a surface of a head, and the engine is functionally connected to shaft for movement of the holder of a bristle.

EFFECT: allows expanding an arsenal of means for cleaning of teeth and care of an oral cavity.

7 cl, 30 dwg

Description

FIELD OF THE INVENTION

The present invention relates to electric toothbrushes that use a movable bristle holder in combination with a light emitting element that illuminates the cleaning area and serves as the basis for the movable bristle holder. In some embodiments, the toothbrush has a removable head.

State of the art

A toothbrush that emits light or generates other types of radiation from one or more power elements can be made in various ways. A manual or electric toothbrush may have power elements located in a handle or other area remote from the head, and transmit radiation from the power elements to the toothbrush head using a transmitter, for example using a fiber optic cable. However, emissions transmitted by a fiber-optic cable type transmitter are often attenuated. For example, light emitted by a light-emitting element that passes through a fiber optic cable can reduce its light intensity and / or flux density as it travels through the fiber optic transmitter. Alternatively, the powered element may be located on the head of the toothbrush. However, the power element located on the head of the electric toothbrush must be sized and positioned so that there is room for the bristles and mechanism of the electric toothbrush. The mechanism of the toothbrush, especially the drive shaft, occupies a significant part of the space available in the head and the narrowed part of the toothbrush. In addition, increasing the size of the head and / or handle of the toothbrush in order to expand the space so that it can accommodate the element with power supply, can lead to the fact that the toothbrush is too large for efficient and convenient cleaning of the surfaces of the oral cavity. Therefore, it is desirable to have an electric toothbrush in which an electrically powered element is located on the head of the toothbrush so as not to impede the operation of the mechanism. In addition, it is desirable that the electrically powered element is located on the head of the toothbrush so that no fiber optic and / or other transmitters are required to transmit radiation from the electrically powered element to the head of the electric toothbrush.

SUMMARY OF THE INVENTION

The present invention is aimed at expanding the arsenal of technical means of the above purpose and is an electric toothbrush for use in the oral cavity, containing a handle, a head and a narrowed part located between the handle and the head.

The handle has an internal cavity. In the internal cavity located in the handle, the engine and the power source are located, and the engine is functionally connected to the movable bristle holder using a drive shaft.

The head contains at least one power element made in the form of an ultrasonic transducer and at least one movable bristle holder, the ultrasonic transducer being electrically connected to the power supply and equipped with an ultrasonic horn extending from the ultrasonic transducer to the head surface, and the motor is functionally connected with shaft for movement of the bristle holder.

The present invention also provides a drive shaft for an electric toothbrush, the drive shaft being located between the motor and the movable bristle holder, and the drive shaft is encircled by a power element located on the toothbrush, and the working drive shaft does not touch the power element.

The present invention also provides a drive shaft comprising an electrically powered element, wherein the electrically powered element is located on the drive shaft.

The present invention also provides an electric toothbrush comprising a head with a movable bristle holder, a handle having an engine located therein, a light emitting element, and a drive shaft operably connecting the engine to the movable bristle holder, wherein at least a portion of the drive shaft is transparent.

The present invention also provides an electric toothbrush comprising a handle, a head, a light emitting element, a drive shaft located between the light emitting element and the part of the toothbrush from which light is emitted, and reflective elements that reflect light coming from the light emitting elements around the drive shaft, to that part of the head from which light is emitted.

The present invention also provides a head portion of an electric toothbrush for connecting with a handle, the head portion comprising an electrically powered element, at least one movable bristle holder and at least one channel.

Brief Description of the Drawings

The invention may take a material form in separate parts and combinations of parts, embodiments of which are described in more detail below in the present description and are illustrated by the accompanying drawings, which are an integral part of the description.

FIG. 1 is a perspective view of an electric toothbrush in accordance with the present invention.

FIG.2 is a top view of the electric toothbrush shown in FIG.1.

FIG. 2 a is a top view of the electric toothbrush shown in FIG.

FIG. 3 is a sectional side view of the electric toothbrush shown in FIG. 1.

FIG. 3a is a sectional side view of a head portion of an embodiment of the present invention.

FIG. 3b is a partial front view of a head and a narrowed portion of an embodiment of the present invention.

FIG. 3c is a partial front view of a lens of a light emitting element.

FIG. 4 is a detailed sectional side view of the head of an electric toothbrush according to the present invention.

FIG.5 is a detailed side view in section of the head of the electric toothbrush shown in FIG.1.

FIG.6 is a partial front view of the head and the narrowed part of another variant implementation of the present invention.

FIG. 6a is a partial front view of a head and a narrowed portion of yet another embodiment of the present invention.

FIG.7 is a partial front view of the head and the narrowed part of another embodiment of the present invention.

FIG. 7a is a partial front view of a head and a narrowed portion of yet another embodiment of the present invention.

FIG. 7b is a partial front view of a head and a narrowed portion of yet another embodiment of the present invention.

FIG. 8 is a partial front view of a head and a narrowed portion of yet another embodiment of the present invention.

FIG. 8a is a partial front view of a head and a narrowed portion of yet another embodiment of the present invention.

FIG. 9 is a perspective view of another embodiment of an electric toothbrush of the present invention, in which the toothbrush comprises a head and a tapered portion that can be separated from the handle.

FIG. 10 is a perspective view of a head and a tapered portion of yet another embodiment of the present invention.

11 is a front view of the head and the narrowed portion of the embodiment depicted in FIG. 10.

FIG. 11a is a rear view of the head and the narrowed portion of the embodiment depicted in FIG. 10.

FIG. 12 is a side view of the head and the constricted portion of the embodiment depicted in FIG. 10.

FIG.13 is a side view in section of an embodiment depicted in FIG.10.

FIG. 14 is a partial front view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

15 is a partial front view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

15a is a partial front view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

15b is a partial side view of an embodiment of a drive shaft shown in FIG. 15a.

FIG. 16 is a partial front view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

17 is a partial rear view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

FIG. 18 is a partial front view of an embodiment of a drive shaft of a toothbrush made in accordance with the present invention.

FIGURE 19 is an end view in section of a drive shaft, a light emitting element and reflectors of a toothbrush made in accordance with the present invention.

FIGURE 20 is an end view in section of a drive shaft and a light emitting element of a toothbrush made in accordance with the present invention.

21 is an end view in section of a drive shaft and a light emitting element of a toothbrush made in accordance with the present invention.

22 is a sectional side view of an embodiment of an electric toothbrush according to the present invention.

23 is a sectional side view of an embodiment of an electric toothbrush according to the present invention.

24 is a front sectional view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

25 is a sectional side view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

FIG. 26 is a front cross-sectional view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

27 is a sectional side view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

FIG. 28 is a front view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

FIG. 29 is a front view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

FIG. 30 is a front view of an embodiment of a head and a tapered portion of an electric toothbrush according to the present invention.

Detailed Description of Embodiments

In general, the present invention relates to an oral care tool used in an oral cavity having one or more power-supply elements, including in particular LEDs, light-emitting elements using incandescent elements, laser elements, halogen elements, neon elements , fluorescent elements, plasma elements, xenon elements, elements with floss for brushing teeth, elements for massage, scraping elements, heat-radiating elements, elements emitting sound waves, elements, emitting digits together with the ultrasound elements, electric current emitting elements, substance emitting and (or) any combination of these elements. Such oral care tools may include, but are not limited to, electric toothbrushes, electric flossing devices, tooth polishing devices, gum massage devices, etc. In the present description, the term "power element" includes any power element that can convert electrical energy at the location of the element. For example, a light-emitting element can convert electrical energy into light at its location, for example, on the head of an electric toothbrush. For simplicity, an embodiment in the form of an electric toothbrush with a head on which the light-emitting element is located will be further considered. Such electric toothbrushes can be used as personal care products for brushing teeth and gums using mechanical movement when the powered element is activated. The present invention also relates to an electric toothbrush having a removable or removable head and / or tapered part. In addition, the present invention relates to kits comprising a toothbrush according to the present invention.

As used herein, the term “light emitting” element includes an element that converts electrical energy into light. In one embodiment, the light emitting element according to the present invention is an LED. As used herein, the term “light” encompasses a spectrum of visible and invisible (ie, ultraviolet and infrared) light. In the various embodiments of the toothbrushes described herein, light emitting elements with a wide variety of characteristics can be used. As for the wavelength, the light emitting elements used in the toothbrushes described herein can emit light with a central wavelength between about 10 nm and about 10 ⁶ nm. In one embodiment of the toothbrush of the present invention, the light emitted by the light emitting element may be greater than about 370, 390, 410, 430, 450, 470, 490, 510, 530, 550, 570, 590, 610, 630, 650, 670, 690, 710 nm and / or less than about 770, 750, 730, 710, 690, 670, 650, 630, 610 nm. In another embodiment, the emitted light may have a wavelength greater than about 420, 430, 440, 450, 460, 470, 480 and / or 490 nm and / or less than about 490, 480, 470, 460, 450, 440 , 430, 420 nm. It should be borne in mind that the specific range of selected wavelengths may depend on what color light is required. In one embodiment, the emitted light may be blue.

In one embodiment, the electric toothbrush comprises an elongated body, or handle, a head and a tapered portion located between the head and the handle. One or more light emitting elements may be located on the head, which are adjacent to, are on or are in one or more fixed or movable bristle holders having a plurality of bristles. Inserting the light emitting element into the head of the electric toothbrush can interfere with the mechanism of the electric toothbrush, especially the functional connection between the drive shaft and the movable bristle holder (s), depending on the location of the light emitting element. In order to prevent such interference, one or more light emitting elements may be installed so that the light emitting element is not located between the engine and the movable bristle holder. In some embodiments, the light-emitting element may be placed in the center or on the axis of movement of the holder of the bristles, making oscillating movements. In addition, the light-emitting element can act as a rod, which serves as a contact surface and (or) the center or axis of rotation of the movable bristle holder. When the light emitting element is placed inside the movable bristle holder, especially as an axis and (or) a center of rotation, the light emitting element is not located between the motor and the movable bristle holder, and therefore the drive shaft can be functionally connected to the movable bristle holder without interfering with the light emitting item. In addition, the light emitting element can make the movement of the movable bristle holder more precise, preventing undesirable movements of the movable bristle holder. For example, a light-emitting element serving as a rod in the center of an oscillating bristle holder may interfere with the non-rotational or non-oscillatory movement of the oscillating bristle holder. The light emitting element may be stationary or it may be attached to the movable bristle holder so that the element moves with the bristle holder. In other embodiments, the light emitting element is located at the distal end of the toothbrush head distal to the movable bristle holder. This embodiment also avoids interference with the functional connection between the movable bristle holder and the drive shaft.

In other embodiments, in which the light emitting element is located between the engine and the movable bristle holder, a functional connection between the drive shaft and the movable bristle holder can provide a drive shaft, an envelope of the light emitting element, a drive shaft that serves as a base or support for the light emitting element, the drive shaft, which passes over the light-emitting element, at least a part of the drive shaft is transparent to the emitted light, the drive shaft, which passes under a radiating element, and / or such a modification of the light emitting element when the drive shaft becomes part of the light emitting element. In some embodiments, the bristle holder may comprise an area typically located in the center of the holder that transmits light. This region can be made of a transparent or translucent material, or this region can be a hole or another zone that is practically devoid of bristles, thereby ensuring the passage of light. This area can be located in any part of the toothbrush head, including in the center of the movable bristle holder. Alternatively, an electric toothbrush may have a light emitting element located on one part of the toothbrush head, and a different type of power element, for example an ultrasound emitting element located on another part of the toothbrush head.

The head comprises a longitudinal axis, one or more movable bristle holders or carriers, and, optionally, one or more fixed or fixed bristle holders. The movable bristle holders can rotate, rotate, make circular movements, oscillate, make reciprocating movements or make any combination of movements. The electric toothbrushes of the present invention can provide a variety of types of movement. The fixed bristle holders and the placement of bristles located on them can also be very different. For example, the fixed bristles may partially or completely surround the movable bristle holders or may be located between the movable bristle holders. Examples of certain types of movement of bristle holders and bristle placement options that can be used in the present invention are described in US 20030126699; US20030084525; US20030084524; US20030084526; WO 03/063723 and WO 03/063722. The bristles can be made of conventional non-elastomeric materials such as polyethylene or can be made of elastomeric materials such as natural or synthetic rubbers, polyolefins, polyetheramides, polyesters, styrene polymers, polyurethanes, etc. or from a combination of materials.

The handle has a cavity inside which an engine is located, functionally connected to the movable bristle holders. From the engine, a shaft passes through the narrowed part and at least in the part of the head. Under the action of the engine, the shaft can rotate, oscillate, reciprocate, circular, vibrate, orbital or cone-shaped motion, transmitting one or more movements to the movable bristle holders. Between the motor and the shaft, or between the shaft and the movable bristle holders, there may be a gear for transmitting movement by the movable bristle holders. Examples of the shaft and / or gears are given in US patents 6360395 and 5617601 and in applications for the receipt of US patent 2003/0134567 and 2003/0163881, as well as in other patents and patent publications, referenced in the present description. The handle also contains a power source, for example one or more batteries, designed to power the engine and light-emitting elements. Alternatively, the motor in the electric toothbrush may be powered by an external power source. A switch is located on the handle to turn on the engine and (or) the light emitting element. The switch contains a drive button and a metal contact. Manual pressing of the molded drive button, which is pressed against the metal contact, closes the circuit, as in a conventional switch without fixing. The continuous operation of the circuit breaker is ensured by the inclined design when the button is pressed and pushed forward, as in a conventional latching circuit breaker. The combination of these two functions in one switch allows the consumer to test the device and check its operation before purchase and at the same time turn it on for a long time as soon as it is removed from the package. Using the switch, you can also turn on one or more light emitting elements. The light emitting elements are turned on each time the engine is turned on, however, the electric toothbrush may also have a switch for turning on the light emitting element.

We now turn to the drawings, which depict solely embodiments of the invention and which are not intended to limit the invention itself. FIG. 1 shows an electric toothbrush 10 according to an embodiment of the present invention. An electric toothbrush can be used as a personal care product for brushing your teeth and gums. The electric toothbrush shown in FIG. 1 comprises a handle 12 and a tapered part 14 attached to the pen 12. A head 16 is attached to the tapered part 14. Typically, the head is larger than the tapered part 14, which is usually smaller than the handle 12.

FIG. 2 shows a head 16 having a longitudinal axis 19 and comprising a movable bristle holder 20 and one or more optional fixed bristle holders 22. In this embodiment, the fixed bristle holders 22 are located on opposite sides of the movable bristle holder 20. The movable bristle holder 20 in this embodiment is located in the center of the head 16. The movable bristle holder 20 comprises a plurality of bristles 24 fixed and held to the holder 20. The movable bristle holder may oscillate or rotate about a axis of movement approximately perpendicular to the longitudinal axis 19 of the head 16 although the other types of motion described above are possible. Along this axis of movement of the movable bristle holder is a power element 74, described here in more detail. In one particular embodiment (shown in FIG. 2 a), the electric element is a light emitting element 75 of an LED type located on the head of the toothbrush and generally below or below it, so that the surface of the light emitting element does not protrude above the bristle-bearing surface of the movable bristle holder (as shown in FIG. 22). In some embodiments of the mutual arrangement, the movable bristle holder rotates on or around the light-emitting element or performs a different type of movement relative to the light-emitting element, which may be stationary. Ideally, with this mutual arrangement, the light emitting element 75 can serve as a base, thereby acting as a supporting contact surface for the movable bristle holder 20. The above axis of movement can pass through the light emitting element and, depending on the shape and orientation of the light emitting element, be collinear to it.

FIG. 3 shows a handle 12, which further comprises an internal cavity 30 accommodating the engine 32. The internal cavity 30 generally extends along the axis 34 and accommodates the engine 32 and one or more power sources such as battery 60. In combination with the switch 52, switching elements or contacts 50 and 54 for selectively turning on the motor 32 and the light emitting element 75. In this embodiment, the motor 32 drives the movable bristle holder 20 by means of a rotating shaft 44. The shaft 44 makes Carefully or oscillatory motion about the axis 19. Functional connection of the shaft 44 and the motor 32 carries gear. The gear train comprises a worm gear 40 and a pair of gears 42, 43. The engine 32 is operatively connected to the worm gear 40. The gear 42 is operatively connected to the gear 43 and the worm gear 40. A light emitting element 75 is located inside the toothbrush head. There is a switch 52 for controlling the operation of the electric a toothbrush that is operatively connected to the motor 32. In addition, the switch 52 is arranged to control the operation of one or more light emitting elements of the toothbrush. Such work may be short-term or continuous. When the switch 52 is closed, the circuit between the battery 60 located inside the cavity 30 of the handle 12, the motor 32 and the light emitting element 75 is closed.

FIGS. 3a-3b illustrate embodiments of an electric toothbrush in which at least a portion of the light emitting element is a shaft and / or a contact surface serving as an axis or center of rotation of a movable bristle holder. To protect the light-emitting element from damage due to contact with the movable bristle holder, the light-emitting element may be located inside the guard column, and the outer surfaces of the light-emitting element or lens of the light-emitting element may be coated with a protective material. The coating on the external surfaces may have several layers and may contain various materials. These materials may include polymers, metals, and / or any other material that strengthens the surfaces of the light emitting element. In addition, to make the movement of the movable bristle holder around the light emitting element smoother, the light emitting element may be coated with a friction reducing material. If the lens serves as a rod for the movable bristle holder, the lower part of the lens 13 may be opaque rather than transparent and (or) translucent, and the upper part of the lens 9 may be transparent and (or) translucent so that light is emitted from the upper part of the lens, as shown FIG.3C.

In one embodiment of the head of the toothbrush 1200 shown in FIG. 3 a, the drive shaft 1202 includes an opening 1204, and the movable bristle holder 1206 includes a protrusion 1208. The protrusion 1208 enters the hole 1204 and thereby operatively connects the drive shaft 1202 to the movable bristle holder 1206 . The movable bristle holder 1206 also includes an opening 1210. A light emitting element 1275 enters the opening 1210 when the movable bristle holder is attached to the toothbrush head 1212. When the toothbrush is turned on, the movement of the drive shaft 1202 is transmitted to the movable bristle holder 1206, which vibrates around the light emitting element 1275. In this embodiment, the drive shaft reciprocates.

In the embodiment of the head of the toothbrush 1300 shown in FIG. 3b, the movable bristle holder 1302 includes an opening 1304, and the drive shaft 1306 enters the hole 1304, thereby functionally connecting the drive shaft 1306 and the movable bristle holder 1302. When the electric toothbrush is operating, the movement of the drive shaft 1306 is transmitted to the movable bristle holder 1302, which vibrates around the light emitting element 1375. In this embodiment of the toothbrush, the drive shaft makes a conical movement.

FIG. 4 shows an embodiment of a toothbrush having a fixed light emitting element 75 connected to the column 91 and / or located inside the column which is fixed and attached to the toothbrush head 95 at a point 93. In this embodiment, the movable bristle holder 97 makes oscillatory or rotational movements around a stationary light emitting element 75 located inside the strut 91. This light emitting element 75 located inside the strut 91 serves as the axis of rotation for the movable bristle holder 97 on the head of a 95 toothbrush. From the light-emitting element 75 through the rack 91 and further along the head 95 and the narrowed part (not shown) to the power source (not shown), a positive terminal 87 and a negative terminal 89 can go.

FIG. 5 shows an embodiment in which power is supplied to the light emitting element 75 by means of a pair of electrical contacts 76 and 77, which create a sliding contact with a dedicated contact area located on the lower side of the movable bristle holder 20, as shown by way of example in FIG. .four. From the switch and the power source to the contacts 76 and 77 can go electrical wires (not shown), providing power from the power source to the light-emitting element. The wires can go from the handle through the narrowed part 14 to the head 16. The wires can lie against the inner wall of the narrowed part 14 so that they do not interfere with the movement of the shaft 44. Alternatively, the wires can be embedded in the narrowed part 14.

It is assumed that along the outer edge of the movable bristle holder 20, annular electrically conductive contact zones 80 and 82 can be located that are in electrical communication with a pair of fixed contacts 76 and 77 located inside the head. The electrically conductive contact zones 80 and 82 are insulated from each other by a non-conductive material. From the electrically conductive contact zones to the light emitting element, electrical leads 84 and 86 can flow. FIG. 5 shows a light emitting element 75 in contact with or within the movable bristle holder 20. In this embodiment, the light emitting element is rigidly attached to the movable bristle holder 20 and therefore moves with the bristle holder. As shown in the drawing, the bristle holder 20 and the light emitting element 75 oscillate about the axis 90. In one embodiment, the upper surface of the light emitting element, for example, the lens 81, is flush with the upper surface 92 of the movable bristle holder 20, although, if desired , the upper surface may be higher than the upper surface 92. A bristle (not shown) may be located on the upper surface 92. There may be additional light emitting elements located in the fixed holders 22 of the bristles or on them (FIG. 2).

FIGS. 1-5 collectively depict other characteristic features of an embodiment of a toothbrush 10. For example, a toothbrush may have one or more holding areas, for example 70 and 72, and, as already mentioned, a switch 52 that can be selectively located in the area 56 of the switch located on the handle 12. When turned on, the light emitting element illuminates a certain area, specifically the cleaning area, to which the front surface of the head is directed.

In another related embodiment 300, the light emitting element 375 is located in an opening 88 that extends through the movable bristle holder 320, which is best seen in FIG. 6, so that the light emitting element is stationary and the movable bristle holder 320 makes oscillatory or rotational movements around the stationary light emitting element 375. FIG. 6 shows an embodiment of a toothbrush 300 having a head 316 and a tapered portion 314 with a movable bristle holder 320 located on the head. A plurality of bristles 332 are attached to the holder 320. The head may comprise a region of fixed bristles 322. In this embodiment, the light emitting element 375 is rigidly attached to the head 316. The light emitting element 375 may partially enter the hole 88 or it may be located below the lower surface of the movable bristle holder 320 and completely inside the head 316. The center line, or axis, of the light emitting element 375 may also be the axis of rotation or oscillation of the movable bristle holder 320. In some of the above embodiments, especially where the light emitting element is located below the movable bristle holder 320, the movable bristle holder may be made of a transparent or translucent material. This feature facilitates the transmission of light from one or more light emitting elements to the cleaning area. This relative position can protect the light emitting element from exposure to saliva, water and oral care compositions used in conjunction with an electric toothbrush. It is also possible that the bristle holder is made of colored or tinted material.

Transparent or translucent bristle holder and / or head can be made of various materials. Examples of such materials are polystyrene (PS), polycarbonate (PC), polymethyl methacrylate (PMMA), polyethylene terephthalate glycol (PETG) (commercially available under the Eastoman BR003 brand), cellulose acetate propylate (CAP), and combinations thereof. It is possible that, in order to facilitate the processing of these materials, they are subjected to one or more heat treatment cycles.

In each of the above embodiments, the light emitting element is located in, on, around, below or directly adjacent to the movable and (or) fixed bristle holder, so that the light is directed to the cleaning area in the most efficient way possible. In addition, the light emitting elements can be arranged so that the main direction of the light radiation is generally perpendicular to the upper surface of the bristle holders, that is, generally parallel to the direction of the bristles of the bristle holder. In one embodiment, the light emitting element may be positioned so that the center line 90, or axis, of the movement of the light emitting element is generally perpendicular to the upper surface of the head and / or bristle holder, which is best seen in FIG. 4. The axial line 90 typically passes through the lens 81 or the opening of the light emitting element 75. When the light emitting element is located inside, on or below the movable and / or fixed bristle holder, the cylindrical region containing the light emitting element or the volume around the axial line 90 of the light emitting element may be free away from the bristles, so that light is transmitted to the cleaning surface without interference from the bristles. The diameter of the cylindrical region, which is free from bristles, may be greater than about 2, 4, 6, 8, 10, 12, 14, 16, 18, 20 mm and less than about 20, 18, 16, 15, 14, 12, 10, 8, 6, 4, 2 mm. However, the movable bristle holder may have at least one ring of bristles that surround the light-emitting element, as shown by way of example in FIG. 6. Additional tufts of bristles or an inner ring of tufts of bristles may also be present.

FIGS. 7a and 8 illustrate toothbrush heads, bristle holders, and relative positions of bristles for embodiments of a toothbrush made according to the present invention, which all contain one or more light emitting elements.

FIG. 7a shows an embodiment of a toothbrush 600 having a head 616 and a tapered portion 614 in accordance with the present invention. The head 616 comprises a single bristle holder 620 on which the light emitting element 675 is located. The bristle holder 620 contains one or more concentric rings of bristles or tufts of bristles 632.

FIG. 8 shows another toothbrush 800 having a head 816 and a tapered portion 814. The head 816 includes a first bristle holder 820 that is movable and a second bristle holder 822 that is fixed or fixed. A light emitting element 875 is located on both bristle holders. The first bristle holder 820 has a plurality of bristle tufts 832 that surround the light emitting element 875 located thereon, and the second bristle holder 834 has a plurality of bristle tufts 822 that surround the light emitting element 875 located thereon. .8a shows another embodiment of the present invention. The head and tapered portion of the toothbrush 900 comprise three bristle holders 902, 906 and 908 and two light emitting elements 975 and 976. The light emitting element 976 is located on the bristle holder 902 located at the far end of the head 904 of the toothbrush 900. The light emitting element 975 is located on the movable holder 906 bristles located in the center of the head of the toothbrush 900. Finally, the holder 908 of the bristles is located near the handle 914 of the end of the head of the toothbrush. Holders 902 and (or) 908 bristles can be either movable or stationary.

FIG. 9 shows another electric toothbrush 1000 having a head 1016, a tapered part 1014 and a handle 1012. A light emitting element 1075 is located on the head 1016. The tapered part and the handle are removable and disconnectable at a point 1015 and comprise appropriate structures for their physical adhesion and to establish an electrical connection between the light emitting element and the power source.

10-13 show another embodiment of the toothbrushes of the present invention. Toothbrush 1100 comprises a head 1116 and a handle or case (not shown) and a tapered portion 1114 located between the head and the handle. Although this specific embodiment is depicted and described having a removable head and a tapered portion, the present invention is in no way limited to this configuration. On the head 1116 is a first movable bristle holder 1120 and an optional second bristle holder 1122. The second bristle holder 1122 may be movable. However, there is an option when the second bristle holder is stationary. Each of the bristle holders comprises a plurality of holes or recesses for holding the tufts of bristles. For example, the first bristle holder 1120 contains a plurality of recesses or holes into which the bristles 1124 are inserted. The optional second bristle holder 1122 also contains a plurality of recesses or holes into which the bristles 1126 are inserted. It should be borne in mind that one or several sets of fixed or fixed bristles instead of or in addition to the first bristle holder 1120 and associated bristles 1124 and the second bristle holder 1122 and associated bristles 1126.

Toothbrush 1100 contains one or more light emitting components located on or inside the brush head 1116. For example, as shown in FIGS. 11 and 12, the brush head comprises a first light emitting element 1175 and a second light emitting element 1185. In one embodiment, the first light emitting element 1175 is located within the center of the first bristle holder 1120 and, in particular, its center coincides with the center holder bristles. As shown in FIG. 12, the first light emitting element 1175 may also be located under the first bristle holder 1120. Such a mutual arrangement is described in more detail in the present description. A second light emitting element 1185 is also located inside the toothbrush head 1116. A second light emitting element 1185 may be located inside the brush head 1116, which is best shown in FIG. However, as shown in FIG. 11, both light emitting elements 1175 and 1185 may be externally or visible on the outer surface of the toothbrush head 1116. The light emitting element (s) may also be located between the first bristle holder 1120 and the second bristle holder 1122, as shown in FIG. 11. The second bristle holder 1122 may include a notch 1127. This cutout region may allow the light emitting element to be outside, and light emanating from the light emitting element does not encounter obstacles from the side of the bristle holder 1122. The bristle holder may also contain a transparent and (or) translucent material, which allows light to pass through the bristle holder without hindrance. In addition, the areas above the light-emitting element can be practically free of bristles. This second bristle holder 1122 may be stationary or may make a movement, including, in particular, oscillatory, rotational, reciprocating motion and (or) any combination of movements.

In addition, if this second bristle holder makes a movement, the area of the cutout 1127 of the bristle holder can also move. This cutout 1127 may be positioned such that the light emitting element is partially or completely closed, or is generally not covered by the bristle holder when the bristle holder makes a movement. In another embodiment of FIG. 6a, the light emitting element 475 is located partially below the first bristle holder 420, which is located in the center of the toothbrush head 416 and partially below the second bristle holder 421, located on the part of the head 416 that is closer to the narrowed portion 414 of the toothbrush 400. The bristle holder (s) may comprise a translucent and (or) transparent material that allows light to pass through the bristle holder, even if the light emitting element is fully or partially closed by bristle holder. In addition, a third bristle holder 422 may be located at the far end of the toothbrush head 416, and a light emitting element 475 may be located partially below the first bristle holder 420 and partially below the third bristle holder 422.

In other embodiments, the light emitting element may be located on, in, or below a second bristle holder located on a part of the head of the toothbrush closer to the narrowed part, as shown in FIGS. 7, 7b and 8. FIG. 7 shows an embodiment of a tooth a brush 500 having a head 516 and a tapered portion 514. It should be borne in mind that the tapered portion 514 is located between the head 516 and the handle of a toothbrush (not shown). A single movable bristle holder 520 is located on the head 516, having a plurality of bristle tufts 532 located thereon. A light emitting element 575 is located on the second bristle holder 534. The toothbrush 500 may comprise a plurality of stationary bristles 522 located on the second bristle holder 534. The light emitting element 575 passes through the second bristle holder 524, and the area above the light emitting element 575 is practically free of bristles. FIG. 7b shows an embodiment of a toothbrush 501 having a light emitting element 575 located below the second bristle holder 576, which is located in the head portion closest to the narrowed portion 514. This bristle holder 576 is translucent or transparent, allowing light to pass through the holder 576 bristles.

FIG. 8 shows a portion of a toothbrush 800 having a head 816 and a tapered portion 814. The head 816 has a first bristle holder 820 that is movable and a second bristle holder 822 that is fixed or fixed. Both bristle holders comprise light emitting elements 875 located thereon. The first bristle holder 820 has a plurality of tufts of bristles 832 that surround the light emitting element 875 located thereon, and the second bristle holder 834 has a plurality of bristles 822 that surround the light emitting element 875 located thereon. The light emitting element 875 passes through the second bristle holder 834, and the area above the light emitting element 875 is substantially free of bristles.

In another embodiment of the toothbrush 1100 of FIG. 11, the first light emitting element 1175 is aligned with an area along the first bristle holder 1120 that is substantially free of bristles. In particular, it can be seen that the first light emitting element 1175 is generally lower than the first bristle holder 1120, accessed through an opening 1121 provided in the bristle holder 1120. In addition, the first light emitting element 1175 can be installed in such a way that the light emitted by this element does not interfere, as it passes through the first bristle holder 1120 and bypasses a plurality of bristles 1124 emerging from the first holder 1120. In general, the bristles 1124 are located around the perimeter of the first bristle holder 1120, forming an annular region of the bristles and, in particular, forming a concentric circle around the light emitting element 1175. The rest of the area above the outer surface of the first bristle holder 1120, which is almost free from bristles, indicated in FIG.13 as region A, which has a generally cylindrical shape. You can see that the first light emitting element is located in the center of region A.

FIG. 13 also depicts a method for connecting and / or coupling a first light emitting element 1175 and a first bristle holder 1120. The first bristle holder 1120 can rotate or oscillate directly on the light emitting element 1175. That is, in some embodiments, the light emitting element 1175 or a component of this element, such as a lens, cap, cap, screen, or light emitting element itself, can represent a contact surface or a rod on which the bristle holder 1120 rotates or oscillates. The hole 1121 in the holder 1120 may be sized and configured to facilitate movement of the holder 1120 around the element 1175. For example, the diameter of the hole may be slightly smaller than the maximum diameter of the element 1175 having a dome or conical tip, so that the tip the element partially goes inside the hole 1121. Alternatively, the hole 1121 may be of such size and configuration that its diameter is slightly larger than the diameter of the light-emitting element 1175, so that the element 1175 extends far into the hole or 1121 completely passes through hole 1121. In this latter configuration, the light emitting element serves as the axis of oscillation or rotation of the bristle holder 1120.

In addition, the toothbrush 1100 shown in FIG. 13 also contains an optional second light emitting element 1185 located generally inside the toothbrush head 1116. The second element 1185 serves primarily to give light to other transparent, translucent or open areas of the toothbrush and, in particular, the head region 1116. Any of the light-emitting elements 1175 and (or) 1185 can be integrated into a receiving or mounting structure available in head, for example in a rack, which creates a cavity with a size sufficient to fit an element into it.

A light-emitting element, for example an LED, contains a light-emitting substrate, that is, a place where light is created, and a lens, that is, a place where light is emitted from them. In one embodiment of the present invention, as shown in FIG. 22, the light emitting element is located on the head of the toothbrush, so that the light emitting substrate 1902 is lower and / or flush with the upper surface 1915 of the toothbrush head. The upper surface 1915 may carry bristles. However, the place from which the light is emitted, that is, the lens 1904, extends from the upper surface 1915 of the toothbrush to the distal ends 1916 of the bristles 1910 extending from the indicated upper surface 1915. The lens 1904 may contain elastomeric material. The elastomeric material may be transparent and / or translucent. During use, a lens containing elastomeric material can massage the gums and to a greater extent contribute to the cleanliness of the oral cavity. The surface of the lens may be ribbed or smooth. Or, as shown in FIG. 23, the light emitting substrate 1903 can be located inside or on the upper part of the stand 1913, which protrudes above the upper surface 1915 of the toothbrush head, and the lens 1904 reaches the distal ends 1916 of the bristles 1910. On both FIG 22 and 23, leads extend from the light emitting element along the entire length of the rod 1913 to the head 1914 and then extend along the narrowed portion 1912 and a handle (not shown) for connecting to a power source.

In another embodiment of the toothbrush shown in FIGS. 24 and 25, two electrical elements are located on the head 2012 of the toothbrush 2000. One element is a light emitting element 2075 located in the strut 2010, and serves as a central axis for the vibration holder bristle holder 2004. The second power element is an ultrasonic emitting element 2008, which is located in the bristle holder 2006 closest to the narrowed portion 2014 and / or the handle (not shown) of the electric toothbrush. However, it is possible that the ultrasound emitting element may also be located at the far end of the toothbrush above the light emitting element, or when the ultrasound emitting element may be partially located on the narrowed portion of the electric toothbrush.

FIGS. 26 and 27 depict another embodiment of a toothbrush 2001 comprising an ultrasound emitting member. The ultrasound emitting element contains an ultrasonic transducer 2018 and an ultrasonic horn 2016. The ultrasonic transducer 2018 is located on the head of the toothbrush 2012, and the ultrasonic horn 2016 passes from the ultrasonic transducer 2018 to the surface of the toothbrush that comes into contact with the teeth. In this embodiment, the teeth come into contact through walls 2020 and 2022. These walls can be made of elastomeric and / or non-elastomeric material and extend above and / or around the ultrasonic horn 2016, thereby creating a space between the ultrasonic horn and the teeth. This space serves as a precaution to prevent contact of the teeth with the ultrasonic horn. The walls may be a fixed bristle carrier plate 2028, and bristles 2026 may be located thereon (as shown in FIG. 30). The walls can vibrate, and the gel placed on top of the walls can transmit vibration from the ultrasonic element to the surface of the teeth. In addition, bristles 2024 may be located around the walls and / or the ultrasonic element. The bristles 2024 and 2026 surrounding the ultrasonic horn 2016 and located on a fixed plate 2028 placed around the ultrasonic horn 2016 can vibrate when ultrasound is emitted by the ultrasonic element. The elastomeric walls 2020 and 2222, including the fixed plate 2028, serve to hold the oral composition between the elastomeric walls and the ultrasonic horn. When this embodiment of the toothbrush is used for brushing teeth, the oral composition comes into contact with the teeth, thereby facilitating the transmission of ultrasonic waves from the ultrasonic horn to the teeth. The oral composition may be in the form of a gel. The ultrasonic element can be used in combination with the light emitting element 2075, which can also be located on the head of the toothbrush.

In an embodiment 2001 of the toothbrush, the vibrating brush holder 2004 located around the light emitting element 2075 may be the only movable surface of the toothbrush head containing the bristles 2024. An ultrasonic element located on the head of the toothbrush closer to the handle 2014 can be used to clean teeth. The ultrasonic element has excellent toothbrushing properties. The bristles 2024 may be located on the fixed parts of the head of the toothbrush (as shown in FIG. 29).

The drive shaft 2026 of the embodiments of the toothbrush 2000 and 2001 functionally connects the vibrating motion bristle holder 2004 to an engine (not shown) through a narrowed portion 2014 and can be structurally designed to bend around an ultrasonic element 2008 or an ultrasonic horn 2016 and an ultrasonic transducer 2018 located on the 2012 toothbrush head as shown in FIG. 28. The drive shaft 2026 may have a laterally displaced portion 2028, which surrounds the ultrasonic horn 2016 and ultrasonic transducers 2018 and then goes inside the head of the toothbrush to the vibration holder bristle holder 2004. The same design will allow the drive shaft to bypass the ultrasonic element 2008.

A toothbrush made according to the present invention can be used together with the composition. However, if such a toothbrush is used in combination with a composition, including, in particular, a composition for whitening teeth, the composition may accumulate in areas around the light emitting element (s), for example, in cutout areas, in openings, through which light shines and (or) into which the light emitting element is inserted, and (or) in open areas around the light emitting element (s). This accumulation can reduce the quality and / or amount of light emitted from the head of the toothbrush. To minimize accumulation of composition in areas around the light emitting element (s) or light emitting element (s), drainage channels may be provided on the head and (or) inside the head of the toothbrush. FIG. 11 shows a toothbrush head having channels 1125 and 1123 that facilitate removal of the composition from the area around the light emitting elements 1175 and 1185. The channel 1125 may be formed by the end surface of the first bristle holder 1120 and the end surface of the second bristle holder 1122. Alternatively, the channels may be located on, in and / or below the bristle holder. Typically, the channels begin at the light emitting element, for example 1185, and extend to the side surfaces 1129 of the head 1116 of the toothbrush. In addition, if the bristle holder 1122 reciprocates, the compositions in the channel 1125 may shake, which may increase the outflow of the compositions from the light-emitting element. Channels may also be provided on the first movable bristle holder 1120. These channels 1123 extend from the bristle holder surface closest to the light emitting element 1175 to the end surface 1131 of the movable bristle holder 1120. These channels may be grooves in the bristle holder. If the movable bristle holder 1120 makes oscillatory movements, then the centrifugal force resulting from the oscillatory movements can increase the amount of composition flowing from the light-emitting element 1185 to the end face 1131 of the bristle holder 1120. The channels may be of any shape that allows the outflow of the compositions from the light emitting element. In addition, the channels 1130, 1132, 1133 and 1134 can pass through the head of the toothbrush 1116, allowing water to flow out from the back of the toothbrush, as shown in FIG. 11a. The width of the channels can be more than about 0.5, 1, 1.5, 2, 2.5, 3 mm and less than about 3, 2.5, 2, 1.5, 1 mm, the length is more than about 2 , 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30 mm and less than about 30, 25, 20, 15, 10, 9, 8, 7, 6, 5, 4 , 3, 2 mm, and the depth is greater than about 0.5, 1, 1.5, 2, 2.5, 3 mm and less than about 3, 2.5, 2, 1.5, 1 mm. The channels can also serve to remove heat generated by an electric element located on the head of the toothbrush.

If the light-emitting element is built into the movable bristle holder or is located further from it, then there is no need to make any modifications to the drive shaft. However, the location of the light-emitting element in the region between the movable bristle holder and the motor may interfere with the operation of the drive shaft, interfering with the functional connection of the drive shaft and the movable bristle holder. Therefore, to transmit motion to the movable bristle holder, modifications can be made to the drive shaft to facilitate the establishment of a functional connection between the movable bristle holder and the drive shaft. The drive shafts shown generally make it possible to position the light emitting element anywhere in the toothbrush that corresponds to the position of the drive shaft. However, for the sake of simplicity, in the following description, the light emitting element will be placed on the head and / or in the head of the toothbrush. A functional connection between the drive shaft and the movable bristle holder can be achieved by means of a drive shaft that surrounds the light emitting element, a drive shaft that serves as a base or support for the light emitting element, a drive shaft that extends above the light emitting element, with at least a portion of the drive shaft passing the emitted light of the drive shaft, which passes below the light-emitting element and (or) by such a modification of the light-emitting element, in which the drive shaft becomes part of the light emitting element. FIGS. 14-15 show drive shafts that envelope the light emitting element and thereby enable the drive shaft to be operatively connected to the movable bristle holder when the light emitting element is located between the drive shaft and the movable bristle holder (as shown in FIG. 7). In addition, if the drive shaft rotates, makes oscillating movements, circular motions, orbital motion and (or) performs cone-shaped movements, then the drive shaft can be flexible, bending around the light-emitting element during operation. If the shaft makes a reciprocating motion, the drive shaft can be flexible or rigid, so long as it does not come into contact with the light emitting element during operation.

FIG. 14 shows a drive shaft 1400 for use in an electric toothbrush, comprising a laterally biased portion 1402 that surrounds the light emitting element 1475. This embodiment of the drive shaft allows the motor (not shown) to be operatively connected to a movable bristle holder (not shown) and round the light emitting element 1475, which can be located anywhere on the head of the toothbrush. The lateral displacement portion 1402 may be of any shape and size necessary to bend around the light emitting element so that the drive shaft does not touch the light emitting element during operation. The shape and size of the laterally biased portion 1402 can result in regions 1401 and 1403 that are large enough to prevent the drive shaft from coming into contact with the light emitting element during operation. The dimensions of these areas can largely depend on the movement of the shaft and the distance that the shaft travels. In one embodiment, when the drive shaft is reciprocating, regions 1401 and 1403 may be greater than about 0 and less than about 5 mm.

FIG. 15 shows a drive shaft that surrounds a light emitting element located on the head of an electric toothbrush. The drive shaft 1407 splits into two laterally displaced parts 1405 and 1406, these laterally displaced parts surround the light emitting element 1475, and then the lateral displacement parts reconnect to form a single drive shaft 1409. The drive shaft can operate without being in contact with the light emitting element. Areas 1419 and 1421 must be large enough so that the drive shaft does not come into contact with the light emitting element during operation. In addition, regions 1411 and 1413 must also be large enough so that the drive shaft does not touch the light emitting element. In an embodiment where the drive shaft is reciprocating, regions 1411 and 1413 may be greater than about 0, 0.5, 1, 1.5, 2, 3, 4, 6, 8, 10, 15, 20, 25, 30 mm and / or less than about 30, 25, 20, 15, 10, 8, 6, 5, 4, 3, 2, 1.5, 1, 0.5 mm, and regions 1419 and 1421 may be greater than about 0 and less than about 5 mm.

The embodiment depicted in FIG. 15 may lead to an increase in the width of the drive shaft. To minimize this increase in the width of the drive shaft resulting from splitting the drive shaft into two parts with lateral displacement, the parts can be elongated rather than wide, as shown in FIGS. 15a and 15b. The drive shaft 1443 is split into two laterally biased parts 1444 and 1445, which are then connected to form the drive shaft 1442 again. The drive shaft can operate without touching the light emitting element. Areas 1446, 1447, 1448 and 1449 must be large enough so that the drive shaft does not touch the light emitting element during operation. In an embodiment in which the drive shaft reciprocates, the regions 1446, 1447, 1448 and 1449 may be greater than about 0, 0.5, 1, 1.5, 2, 3, 4, 6, 8, 10 , 15, 20, 25, 30 mm and / or less than about 30, 25, 20, 15, 10, 8, 6, 5, 4, 3, 2, 1.5, 1, 0.5 mm. The height of 1450 shoulders 1444 and 1445 gives them additional strength, while it is not necessary to increase the width of the drive shaft. The height of 1450 may be greater than about 0.2, 0.5, 0.75, 1, 1.5, 2, 3, 4, 5, 6, 7, 8, 9, 10, 13, 15 mm and (or ) less than about 15, 13, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 1.5, 1, 0.75, 0.5, 0.2 mm.

16-17, an embodiment of a drive shaft is shown in which the drive shaft supports the light emitting element. This drive shaft has a cavity part in which a light emitting element can be located. The drive shaft 1410 has a cut-out part 1408, a light emitting element 1475 is disposed therein. As shown in FIG. 16, the terminals 1415 and 1416 of the light emitting element can be embedded in the drive shaft 1410 and extend along the entire length of the drive shaft to the engine. Or, as shown in FIG. 17, leads 1417 and 1418 may exit from the rear side of the drive shaft 1410 and extend along the head, tapered portion and handle of the toothbrush to the engine (not shown).

As already mentioned above, additional modifications can be made to the drive shafts that perform rotational, oscillatory, reciprocating, circular, orbital and (or) cone-shaped movements in order to embed the light-emitting element on and (or) into the head of the toothbrush including the drive shaft can be transparent or translucent, the light emitting element can be located below and (or) above the drive shaft and the light emitting element can be modified so that the drive shaft becomes part vetoizluchayuschego element.

On Fig-19 shows the drive shaft, which passes under the light-emitting element. The drive shaft 1500 has a transparent part 1502 and parts 1504 and 1506, which can be either transparent and (or) translucent, or opaque (i.e. matte) and (or) represent any combination of the above. The drive shaft is located between the light emitting element 1575 and the part of the head of the toothbrush from which light is emitted. At least a portion of the drive shaft 1502 may be transparent and / or translucent. This transparent and / or translucent part of the drive shaft 1502 allows light to pass from the light-emitting element through the drive shaft and exit the head of the toothbrush. This transparent and / or translucent part may be located above the light emitting element. The light emitting element may be located inside the head of the toothbrush, wherein the drive shaft extends above the light emitting element, such as, for example, the light emitting element 1185 and the drive shaft 1141 shown in FIG. The part of the head of the toothbrush from which light is emitted may be a hole, such as, for example, hole 1121 shown in FIG. 10. This hole can be closed with a transparent and (or) translucent material to prevent water from entering the toothbrush head while transmitting light emitted from the toothbrush head.

In the embodiment shown in FIG. 19, the light emitting element 1675 is located below the drive shaft 1602 of the electric toothbrush. The drive shaft 1602 can be either transparent and (or) translucent, or opaque and (or) translucent (i.e. matte). Reflectors 1600 and 1604 reflect light emitted by the light emitting element around the drive shaft 1602, thereby allowing light to be emitted from the head of the toothbrush. The drive shaft may contain a reflective material, for example a reflective coating, which can serve to improve the quality and / or amount of light emitted from the head of the toothbrush.

FIG. 20 shows a light emitting element 1775 located between the drive shaft 1706 and a part of the toothbrush head from which light is emitted. Thus, the drive shaft does not interfere with light emission by the light emitting element. In addition, the findings 1704 and 1702 can be located in the walls of the head of the toothbrush and pass along the head and handle of the toothbrush to the engine (not shown). The light-emitting element may be located on a support and / or a rod through which the drive shaft passes to the movable bristle holder. Alternatively, the light emitting element may be located on the head of the toothbrush, so that there is no need for a support and (or) a shaft, and the drive shaft may extend under the light emitting element.

The light emitting element may also be modified so that the drive shaft becomes part of the light emitting element. 21, the light-emitting element has a lens 1802, the shape of which allows the drive shaft to fit under the light-emitting element 1875. The drive shaft 1800 can be transparent and / or translucent, thereby allowing light to pass through the drive shaft to the part of the toothbrush head from which the shine. In addition, the structure, material, and / or shape may be such as to increase light emission by the light emitting element. The light emitting element may be located on the inside of the head of the toothbrush, as the light emitting element 1185 shown in FIG.13.

A wide variety of light emitting elements can be used with the present invention. The light emitting element may be a small, low energy LED, such as, for example, Luxeon ™ commercially available LEDs from Lumileds Lighting, LLC, San Jose, California. Other industrial LEDs include LEDs from American Opto Plus LED Corporation. LEDs can operate from a relatively low voltage source of constant voltage, which, for example, is greater than about 0.5, 1, 2, 2.5, 3, 4, 5 volts and (or) less than about 3, 2.5, 1, 5, 1 volt. The light emitting element may have a diameter greater than about 0.5, 1, 2, 3, 4, 5, 6, 7, 8, 10, 15, 20 mm and less than about 20, 15, 10, 8, 7, 6, 5, 4, 3, 2, 1 mm.

With the present invention, a voltage or current driver “Shaper for single-cell and multi-cell LEDs” ZXSC310 manufactured by Zetex Semiconductors, Ouldem, UK, can be used. Separate switches may be provided for separately activating the light emitting element and the motor. More than one light emitting element may be provided. Various light-emitting elements with different spectral, photometric, radiometric and colorimetric characteristics (i.e., with different dominant wavelengths, maximum wavelengths, radiometric power, etc.) can be provided so that one electric toothbrush has several fields of application (i.e., the first light emitting element may be adapted for use with a first light-activated composition, and the second light emitting element may be adapted for use Ia with a second composition, activated by light).

As indicated above, in some embodiments, it may be desirable for one or more movable bristle holders to rotate, oscillate or move directly on the surface and in contact with the surface or surface portion of the light emitting element. In these relative arrangements, the present invention includes the use of a layer or coating that reduces friction on the surface of the light emitting element with which the bristle holder is in contact. This layer or coating can also serve to reduce wear that would otherwise occur due to the presence of contacting surfaces. You can apply a wide range of coating materials, including those known from the prior art, which can be used in household medical equipment. Typically, such coatings are non-toxic and inert, durable and, depending on the application, can be transparent or translucent. Examples of coatings that can be used in the present invention include, in particular, Teflon and silicone grease, for example RT910T manufactured by Refrigeration Technologies, Nevastan 5 manufactured by Keystone Lubricants, and Keystone Lubricants Nevastan SFG.

The present invention can be used in combination with almost any tooth whitening composition, for example, in particular, with the compositions described in US Pat. Nos. 6,488,914; 5.851.514; 4.980.152; 3.657.413; 4.983.380; 5.084.268; 5.171.564; 5.376.006; 5.645.428; 5.713.738; RE 34.196; 5.122.365; 6.558.654; 6.555.020; 6.536.628; 6.533.582; 6.521.215; 6.514.543; 6.479.037; 6,447,757; 5.891.453 and 6.419.905. The composition does not have to show an increase in bleaching ability under the influence of light. A positive effect can occur simply as a result of exposure to light from an electric toothbrush on the surface of the tooth before applying the whitening composition. In addition, an additional positive effect may occur due to greater tooth brushing efficiency due to the lighting of the brushing area. In one aspect, the present invention relates to the use of the toothbrushes described herein during a whitening procedure, wherein the whitening effect of the composition is enhanced or accelerated by exposure to light and heat emitted from the light emitting element of an electric toothbrush.

In some embodiments, it may be desirable for the toothbrush and the whitening composition to match. That is, it is desirable that if the whitening composition exhibits enhanced or accelerated whitening ability under the influence of light with a specific wavelength or wavelength range, then the wavelength of the light emitted by the light-emitting device of the toothbrushes described here would be the same or practically same as this particular wavelength. For example, if a specific whitening composition has been installed for use with the toothbrushes described herein, and if this composition exhibits enhanced effects when exposed to light with a wavelength maximum of 430 nm to 470 nm, the toothbrush to be used in conjunction with this composition emits light with a wavelength in the range from 430 nm to 470 cm.

An electric toothbrush may be supplied in a kit containing one or more interchangeable heads containing a light emitting element. Thus, the heads can be interchangeable or intended for use by various family members. Thus, the various heads in a kit can often vary in color. Although the pen is battery-powered in the above description, the invention also includes other well-known power sources, such as a cord for connecting to a power outlet or rechargeable batteries in combination with a brush holder and a charger (not shown). The kit may also include one or more packages of light-activated oral care substances or formulations, such as a package of teeth whitening composition. In addition, the kit may contain other non-light activated oral care products and toothbrush heads that do not contain a light emitting element.

The typical duration of the cleaning process is usually greater than about 10, 20, 30, 45, 60, 90, 120, 150, 300, 360, 480 seconds and / or less than about 600, 480, 360, 300, 150, 120, 90 , 60, 45 seconds.

All documents cited here, in the relevant part, are given in the present description for reference; citation of any document should not be construed as recognition of this document by the prior art in relation to the present invention.

Although specific embodiments of the present invention have been illustrated and described, it will be obvious to a person skilled in the art that various other modifications and modifications can be made without departing from the spirit and scope of the invention. It is therefore understood that the appended claims cover all such alterations and modifications that do not depart from the scope of the present invention.

Claims (7)

1. An electric toothbrush comprising a handle, a head and a tapered part located between the handle and the head, the handle having an internal cavity that contains a motor and a power source, and the head contains a bristle holder and a power element made in the form of an ultrasonic transducer, moreover, the ultrasonic transducer is electrically connected to the power source and is equipped with an ultrasonic horn passing from the ultrasonic transducer to the surface of the head, and the motor is functional It is connected to the shaft for movement of the bristle holder. 2. The electric toothbrush according to claim 1, wherein the shaft is rotatable. 3. The electric toothbrush according to claim 1, in which the head and the narrowed part are attached to the handle with the possibility of separation. 4. The electric toothbrush according to claim 1 or 2, in which the ultrasonic transducer is surrounded by bristles. 5. The electric toothbrush according to claim 1 or 2, in which the head further comprises a second power element. 6. The electric toothbrush according to claim 5, in which the second element with power is made in the form of a light-emitting element. 7. An electric toothbrush according to claim 1 or 2, wherein the ultrasonic horn is surrounded by walls of elastomeric material.

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