CYLINDRICAL DUAL ROTATING ELECTRIC TOOTHBRUSH

Abstract

A powered, mechanical teeth cleaning device having two lines of rotating brushes is disclosed. The brushes rotate inwardly from each side, giving a cleaning effect on both buccal and lingual surface of the tooth from the gum tissue to the tooth direction. A protective shield for minimizing tissue irritation, a guiding stop for proper tooth positioning and a brush direction-of-rotation switch are included.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The invention, together with further advantages thereof, may best be understood by reference to the following description of the simplest form of the invention, taken in conjunction with the accompanying drawings in which:

FIG. 1 illustrates a front plan view of a head assembly with the guiding stop in a horizontal position, according to an embodiment of the technology described herein.

FIG. 2 illustrates a front plan view of a head assembly with the guiding stop in a non-horizontal position, according to an embodiment of the technology described herein.

FIG. 3 illustrates a top perspective view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 4 illustrates a bottom perspective view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 5 illustrates a top plan view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 6 illustrates a side plan view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 7 illustrates a bottom perspective view of a cylindrical dual rotating electric toothbrush, according to a second embodiment of the technology described herein.

FIG. 8 illustrates a bottom exploded view of a cylindrical dual rotating electric toothbrush, according to a second embodiment of the technology described herein.

FIG. 9 illustrates a top exploded view of a cylindrical dual rotating electric toothbrush, according to a second embodiment of the technology described herein.

FIG. 10 illustrates a rear perspective view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 11 illustrates a front perspective view of a cylindrical dual rotating electric toothbrush, according to an embodiment of the technology described herein.

FIG. 12 illustrates a back exploded view of a cylindrical dual rotating electric toothbrush, according to a second embodiment of the technology described herein.

FIG. 13 illustrates a top plan view of a cylindrical dual rotating electric toothbrush with the bristle direction switch in a first position, according to an embodiment of the technology described herein.

FIG. 14 illustrates a top plan view of a cylindrical dual rotating electric toothbrush with the bristle direction switch in a second position, according to an embodiment of the technology described herein.

DETAILED DESCRIPTION OF THE INVENTION

The technology described herein will now be described in detail with reference to at least one preferred embodiment thereof as illustrated in the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the technology described herein. It will be apparent, however, to one skilled in the art, that the technology described herein may be practiced without some or all of these specific details. In other instances, well known operations have not been described in detail so not to unnecessarily obscure the technology described herein.

Referring to the drawings, FIGS. 1-14, where like reference numerals designate corresponding parts throughout the several figures, reference is made first to FIG. 1 which illustrates a head assembly 100.

The cylindrical dual rotating electric toothbrush 10 is comprised of a body assembly 100 and a head assembly 200. In an exemplary embodiment the body assembly is about 6-7 inches long, 0.75 inches thick and 1.5 inches in diameter of an oval shaped structure. The body assembly is further comprised of a motor and battery chamber 140 and batter chamber closure 150. At the front end of the body assembly 100, two of 0.5 inch long cylinders 120 stick out, which function as male parts when a user connects the head assembly 200 to the body assembly 100.

The head assembly 200 is about 3 inches long with about one inch of this being the head tip 210. This head assembly 200 can be connected to the body assembly 100 with a simple snap-in motion. The head tip 210 has an open area where two lines of bristles 220 are fixed to the wires or cylinders. The wires or cylinders are connected to a power source for rotation, once the switch 130 is positioned to complete the circuit. The wires or cylinders may be flexible, so that they can adjust to embrace different dimensions of the teeth. The dimension of the head tip is about 0.75 inch wide from a dorsal point of view and about 0.5 inch height from side view. Between the two lines of bristles, there is about 0.125 inch gap or space.

A head cover 230 covers the upper portion of the bristles 220 in order to protect the inner cheeks or lips of the user from unpleasant feelings or mechanical injury. At the tip of the brush head, in the middle of the two lines of bristles 220, there is prominent feature which works as guiding stop 240. With this guiding stop 240, a user has a higher probability of positioning the bristles 220 correctly.

From the ventral view of the head assembly, there is an opening not only for the one inch long head tip portion where actual brushing actions are performed but also for the second part of the head assembly 200, which is about two inches long, that is the size of 0.5 inch wide and 1.75 inch long. This space provides accommodation of the dentition for the user to position the brush tip in as correct of a position as possible. This feature make it possible to position the bristle line close to perpendicular to the long axis of a tooth.

In a second embodiment of the technology described herein, a cylindrical dual rotating electric toothbrush 10 is comprised of a left brush assembly 10a and a right brush assembly 10b. Each of these assemblies has a battery chamber, battery chamber closure, brush activation switch and corresponding circuitry. The left brush assembly 10a is comprised of a left body element 310 and a left brush element 220. The right brush assembly 10b is comprised of a right body element 320 and a right brush element 340.

The technology described herein may also be described as follows:

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition; and
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; where the head tip is hingedly divisible at a pivot-point location on an underside of the guiding stop, thereby narrowing the gap between the rotating brushes configured to correctly accommodate the dentition and thereby accommodating any of narrow or front teeth.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth;
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user: and,
  • a toggle switch located on the body of the mechanical teeth-cleaning device, the toggle switch configured to change between two predetermined width settings, thereby changing a width of the gap configured to correctly accommodate the dentition, where the toggle switch is configured to switch between two settings, one representing a width of front teeth and one representing a width of back teeth.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the motor of the mechanical teeth-cleaning device is configured to utilize and derive power from both an AC voltage source and a DC voltage source interchangeably.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the two, generally parallel, rotating brushes located in the head tip are configured to rotate in a direction from a gum area upwardly to a tooth area along a long axis of the tooth area to address cleaning an embrasure-space area located between two adjacent teeth and a gum line, and where the rotating brushes are configured to prevent gingival from detachment or retrocession.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth;
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user; and
  • one or more electrical sensors configured to automatically detect a width of one or more teeth and to automatically and continually adjust a width of the gap between the rotating brushes configured to correctly accommodate the dentition.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the rotating brushes further comprise bristles of varying lengths and diameters.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the cylindrical, rotatable shafts are comprised of a flexible material to bend as necessary to accommodate varying sizes of teeth.

A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising

• • a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;
  • a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;
  • a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition;
  • a guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the head of the mechanical teeth-cleaning device further comprises an opening located in a center portion of the head configured to provide space for dentition as the mechanical teeth-cleaning device is moved and rotated, thereby configured to provide correct positioning of a plurality of bristles generally perpendicular to a long axis of a tooth.

A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising:

• • utilizing a body defining a user handle,
  • contouring the body to provide gripability,
  • configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;
  • utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;
  • utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition; and
  • utilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth.

A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising:

• • utilizing a body defining a user handle,
  • contouring the body to provide gripability,
  • configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;
  • utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;
  • utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition;
  • utilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • utilizing a cover portion on the head tip thereby providing a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user, where the head tip is hingedly divisible at a pivot-point location on an underside of the guiding stop, thereby narrowing the gap between the rotating brushes configured to correctly accommodate the dentition and thereby accommodating any of narrow or front teeth, or where the rotating brushes further comprise bristles of varying lengths and diameters, or where the cylindrical, rotatable shafts are comprised of a flexible material to bend as necessary to accommodate varying sizes of teeth.

A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising:

• • utilizing a body defining a user handle,
  • contouring the body to provide gripability,
  • configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;
  • utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;
  • utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition;
  • utilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth;
  • utilizing a cover portion on the head tip thereby providing a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user,
  • utilizing a toggle switch located on the body of the mechanical teeth-cleaning device; and
  • configuring the toggle switch to change between two predetermined width settings, thereby changing a width of the gap configured to correctly accommodate the dentition.

A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising:

• • utilizing a body defining a user handle,
  • contouring the body to provide gripability,
  • configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;
  • utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;
  • utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition;
  • utilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth;
  • utilizing a cover portion on the head tip thereby providing a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user,
  • utilizing a toggle switch located on the body of the mechanical teeth-cleaning device;
  • configuring the toggle switch to change between two predetermined width settings, thereby changing a width of the gap configured to correctly accommodate the dentition; and
  • configuring the toggle switch to switch between two settings, one representing a width of front teeth and one representing a width of back teeth.

A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising:

• • utilizing a body defining a user handle,
  • contouring the body to provide gripability,
  • configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;
  • utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;
  • utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition;
  • utilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth; and
  • configuring the motor of the mechanical teeth-cleaning device to utilize and derive power from both an AC voltage source and a DC voltage source interchangeably, or configuring the two, generally parallel, rotating brushes located in the head tip to rotate in a direction from a gum area upwardly to a tooth area along a long axis of the tooth area to address cleaning an embrasure-space area located between two adjacent teeth and a gum line, and where the rotating brushes are configured to prevent gingival from detachment or retrocession, or
  • utilizing one or more electrical sensors; and configuring the one or more electrical sensors to automatically detect a width of one or more teeth and to automatically and continually adjust a width of the gap between the rotating brushes configured to correctly accommodate the dentition; or
  • configuring the head of the mechanical teeth-cleaning device with an opening located in a center portion of the head configured to provide space for dentition as the mechanical teeth-cleaning device is moved and rotated, thereby configured to provide correct positioning of a plurality of bristles generally perpendicular to a long axis of a tooth.

The foregoing description and drawings comprise illustrative embodiments of the technology described herein. Having thus described exemplary embodiments of the technology described herein, it should be noted by those skilled in the art that the within disclosures are exemplary only, and that various other alternatives, adaptations and modifications may be made within the scope of the technology described herein. Merely listing or numbering the steps of a method in a certain order does not constitute any limitation on the order of the steps of that method. Many modifications and other embodiments of the invention will come to mind to one skilled in the art to which this invention pertains having the benefit of the teachings presented in the foregoing description and the associated drawings. Although specific terms may be employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation. Accordingly, the technology described herein is not limited to the specific embodiments illustrated herein, but is limited only by the following claims.

Claims

1. A mechanical teeth-cleaning device having two motorized lines of rotating brushes, the device comprising: a body defining a user handle, the body contoured to provide gripability, the body configured to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor and configured to provide rotation each in a direction opposite to one another;a head secured to the body, configured to connect to the body with a snap-in motion and mechanically coupled to the cylindrical, rotatable shafts;a head tip containing two, generally parallel, rotating brushes exposed on their sides and undersides, the head tip located at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, the rotating brushes configured for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and each rotating brush being separated one from another by a gap of a predetermined width and configured to correctly accommodate the dentition; anda guiding stop, located at a center, underside position of the head tip, configured to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth.

2. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, further comprising: a cover portion on the head tip to provide a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user.

3. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the head tip is hingedly divisible at a pivot-point location on an underside of the guiding stop, thereby narrowing the gap between the rotating brushes configured to correctly accommodate the dentition and thereby accommodating any of narrow or front teeth.

4. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, further comprising: a toggle switch located on the body of the mechanical teeth-cleaning device, the toggle switch configured to change between two predetermined width settings, thereby changing a width of the gap configured to correctly accommodate the dentition.

5. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 4, wherein the toggle switch is configured to switch between two settings, one representing a width of front teeth and one representing a width of back teeth.

6. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the motor of the mechanical teeth-cleaning device is configured to utilize and derive power from both an AC voltage source and a DC voltage source interchangeably.

7. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the two, generally parallel, rotating brushes located in the head tip are configured to rotate in a direction from a gum area upwardly to a tooth area along a long axis of the tooth area to address cleaning an embrasure-space area located between two adjacent teeth and a gum line, and wherein the rotating brushes are configured to prevent gingival from detachment or retrocession.

8. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, further comprising: one or more electrical sensors configured to automatically detect a width of one or more teeth and to automatically and continually adjust a width of the gap between the rotating brushes configured to correctly accommodate the dentition.

9. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the rotating brushes further comprise bristles of varying lengths and diameters.

10. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the cylindrical, rotatable shafts are comprised of a flexible material to bend as necessary to accommodate varying sizes of teeth.

11. The mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 1, wherein the head of the mechanical teeth-cleaning device further comprises: an opening located in a center portion of the head configured to provide space for dentition as the mechanical teeth-cleaning device is moved and rotated, thereby configured to provide correct positioning of a plurality of bristles generally perpendicular to a long axis of a tooth.

12. A method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes, the method comprising: utilizing a body defining a user handle, contouring the body to provide gripability, configuring the body to contain a miniaturized motor to provide two shafts with counter-rotation and a battery chamber, the body having two protruding and substantially parallel, cylindrical, rotatable shafts mechanically coupled to the motor, configuring the cylindrical, rotatable shafts to provide rotation each in a direction opposite to one another;utilizing a head secured to the body, configuring the head to connect to the body with a snap-in motion and mechanically coupling the head to the cylindrical, rotatable shafts;utilizing a head tip containing two, generally parallel, rotating brushes, placing the head tip at the top of the head, each rotating brush being generally cylindrical and each connecting to one of the cylindrical, rotatable shafts, configuring the rotating brushes for simultaneous contact with dentition, one with a buccal side and the other with a lingual side, and separating each rotating brush one from another by a gap of a predetermined width, configuring the gap to correctly accommodate the dentition; andutilizing a guiding stop, locating the guiding stop at a center, underside position of the head tip, configuring the guiding stop to aid a user obtain a correct dentition placement position of the head tip and the brushes on one or more teeth.

13. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: utilizing a cover portion on the head tip thereby providing a shielding protection between the rotating brushes and a cheek, tongue, or lip of a user, thereby preventing discomfort or injury to the user.

14. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, wherein the head tip is hingedly divisible at a pivot-point location on an underside of the guiding stop, thereby narrowing the gap between the rotating brushes configured to correctly accommodate the dentition and thereby accommodating any of narrow or front teeth.

15. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: utilizing a toggle switch located on the body of the mechanical teeth-cleaning device; andconfiguring the toggle switch to change between two predetermined width settings, thereby changing a width of the gap configured to correctly accommodate the dentition.

16. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 15, further comprising: configuring the toggle switch to switch between two settings, one representing a width of front teeth and one representing a width of back teeth.

17. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: configuring the motor of the mechanical teeth-cleaning device to utilize and derive power from both an AC voltage source and a DC voltage source interchangeably.

18. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: configuring the two, generally parallel, rotating brushes located in the head tip to rotate in a direction from a gum area upwardly to a tooth area along a long axis of the tooth area to address cleaning an embrasure-space area located between two adjacent teeth and a gum line, and wherein the rotating brushes are configured to prevent gingival from detachment or retrocession.

19. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: utilizing one or more electrical sensors; andconfiguring the one or more electrical sensors to automatically detect a width of one or more teeth and to automatically and continually adjust a width of the gap between the rotating brushes configured to correctly accommodate the dentition.

20. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, wherein the rotating brushes further comprise bristles of varying lengths and diameters.

21. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, wherein the cylindrical, rotatable shafts are comprised of a flexible material to bend as necessary to accommodate varying sizes of teeth.

22. The method for manufacturing a mechanical teeth-cleaning device having two motorized lines of rotating brushes of claim 12, further comprising: configuring the head of the mechanical teeth-cleaning device with an opening located in a center portion of the head configured to provide space for dentition as the mechanical teeth-cleaning device is moved and rotated, thereby configured to provide correct positioning of a plurality of bristles generally perpendicular to a long axis of a tooth.