This invention relates to toothbrushes, and more particularly to power toothbrushes.
Power toothbrushes are well known and have been on the market for years. In typical power toothbrushes, tufts of bristles on the brush head extend generally perpendicularly from the top surface of the head. The head is oscillated, rotated and/or translated in order to provide enhanced tooth cleaning capability. Generally, the head moves in a substantially fixed path over the surface of the user's teeth.
In one aspect, the invention features a power toothbrush including a handle, a toothbrush head that extends from the handle and carries a plurality of cleaning elements, and a drive mechanism constructed to cause motion of the toothbrush head. The toothbrush head is configured to move in a substantially random path when the drive mechanism is actuated and the cleaning elements are brought into contact with a user's teeth.
In some embodiments, the drive mechanism drives the toothbrush head in an orbital motion about an axis that is spaced from the axis of the toothbrush head.
In some cases, the drive mechanism includes a bevel gear. The toothbrush head can be mounted on the bevel gear. The toothbrush head can be mounted on a shaft that extends through a bore in the bevel gear, the shaft being mounted to spin freely within the bore. In some embodiments, the shaft is disposed at an angle (e.g., from about 2° to about 7°) with respect to a center axis of the bevel gear. In some cases, the bore is offset from a center axis of the bevel gear. The bore can be offset from the center axis by about 1 mm to about 3 mm. The bevel gear can include an O-ring disposed between a lower surface of the toothbrush head and an upper surface of the bevel gear. The upper surface of the bevel gear can include a counterbore that is configured so that the O-ring rests on a plane that is perpendicular to a center axis of the bore. In some cases, there is sufficient clearance between the bore and the shaft to allow the shaft to move radially within the bore.
In some embodiments, the toothbrush is configured so that when the toothbrush is in use, the motion of the toothbrush head is determined by a fluctuating sticking and slipping of a surface of the toothbrush head on a surface of the drive mechanism.
In some cases, the cleaning elements include bristles. In some embodiments, the cleaning elements include bristle tufts.
In another aspect, the invention features a method of brushing the teeth of a mammal. The method includes providing a power toothbrush that has a handle, a toothbrush head extending from the handle and carrying a plurality of cleaning elements, and a drive mechanism that causes the toothbrush head to move. The toothbrush is configured so that the toothbrush head will move in a substantially random path when the drive mechanism is actuated and the cleaning elements are brought into contact with a user's teeth. The method further includes contacting the teeth with the cleaning elements while the drive mechanism is actuated.
In another aspect, the invention features a power toothbrush including a handle, a toothbrush head extending from the handle and carrying a plurality of cleaning elements, and a drive mechanism. The drive mechanism is constructed to drive the toothbrush head in an orbital motion about an axis spaced from the axis of the toothbrush head. The drive mechanism includes a bevel gear. The toothbrush head is mounted on a shaft that extends through a bore defined by the bevel gear. The shaft is mounted to spin freely within the bore.
In some embodiments, the shaft is disposed at an angle with respect to a center axis of the bevel gear. In some cases, the bore is offset from a center axis of the bevel gear.
In another aspect, the invention features a power toothbrush including a handle, a toothbrush head extending from the handle and carrying a plurality of cleaning elements, and a drive mechanism that is constructed to cause the toothbrush head to move. The drive mechanism drives the toothbrush head in an orbital motion.
In some embodiments, the orbital motion is about an axis spaced from the axis of the toothbrush head. The drive mechanism can include a bevel gear.
In some cases, the toothbrush head is configured to move in a substantially random path when the drive mechanism is actuated and the cleaning elements are brought into contact with a user's teeth.
Other features and advantages of the invention will be apparent from the description and drawings, and from the claims.
Referring to
The toothbrush head 30 includes a spinning shaft 28. One end of spinning shaft 28 is mounted to spin freely within a bore 202 in bevel gear 22, and includes a cap 27 of greater diameter than the bore 202 to retain the spinning shaft 28 in the bore. Cap 27 is seated in a recess 29.
The toothbrush head 30 includes a plurality of bristle tufts 32 mounted on a support member 34, which is fixedly mounted on the other end of spinning shaft 28. Although each tuft is shown as a solid mass in the drawings, the tufts are actually each made up of a great mass of individual plastic bristles. The bristles may be made of any desired polymer, e.g., nylon 6.12 or 6.10, and may have any desired diameter, e.g., 4-8 mil. The tufts are supported at their bases by the support member 34, and may be held in place by any desired tufting technique as is well known in the art, e.g., hot tufting or a stapling process. The tufts have a length of between about 4 mm and about 12 mm, and preferably have a length of about 8 mm.
The support member 34 includes a lower portion 36. The lower portion 36 has a diameter of between about 6 mm and about 18 mm, and preferably has a diameter of about 14 mm. One end of spinning shaft 28 is disposed within a bore 37 in lower portion 36.
Referring also to
Spinning shaft 28 is also located at an offset distance 200 relative to the center of bevel gear 22. When toothbrush 10 is in operation, spinning shaft 28 and, therefore, toothbrush head 30 (which is mounted on spinning shaft 28), orbits about the axis of rotation 210 of bevel gear 22. When a load is applied to the toothbrush head 30, e.g., when the bristles contact a user's teeth, toothbrush head 30 will spin about axis 207 of spinning shaft 28, as will be discussed below. As a result, when it is in use and under load, toothbrush head 30 moves in a path that includes both orbital and spinning motion.
Spinning shaft 28 extends through and spins freely within bore 202 in bevel gear 22. The spinning shaft 28 does not fit tightly within bore 202; instead, there is clearance between spinning shaft 28 and the wall of bore 202. Moreover, the cap 27 of shaft 28 can move freely within recess 29. Because of the clearance between spinning shaft 28 and bore 202, the shaft can move axially in response to pressure exerted on the upper surface 213 of tufts 32, displacing cap 27 axially. These clearances also allow the toothbrush head 30 to pivot about the bore 202.
When the brush is activated, centripetal force throws toothbrush head 30 outward to the greatest angle allowed by the clearances discussed above, i.e., an angle greater than angle 208, typically about 7 degrees (angle A,
Referring now to
The general motion of toothbrush head 30, when it is contacting the teeth, is shown schematically in
As long as no load is applied to toothbrush head 30, the toothbrush head will orbit about axis 210 of bevel gear 22 at a constant velocity equal to that of bevel gear 22. When an axial force is applied, toothbrush head 30 also begins to spin about its own axis 207. Tilting of the toothbrush head toward the gear axis 210, with constantly changing forces and binding of the O-ring, creates the effect of an eccentric weight, so that the head spins under load in a random motion. By “random”, we mean that during use of the toothbrush, toothbrush head 30 moves in a path that changes as a result of the changing force applied to the bristle tufts 32 when the tufts contact a user's teeth. Generally, the path changes constantly during brushing. This random motion allows the toothbrush user to more easily cover the surface of his teeth and the spaces in between his teeth, without having to intentionally exert an extra effort to achieve such coverage. A factor in the changing direction of the applied force is that the toothbrush 10 is not stationary in the user's hand.
The position of the force applied to the toothbrush head continuously changes during brushing, thus causing the binding and frictional forces to fluctuate. This fluctuation in turn causes a “stick and slip” contact between bevel gear 22 and lower portion 36 of support member 34, transmitted by the O-ring 38. This sticking and slipping occurs in a random, fluctuating manner, resulting in random motion of the toothbrush head 30.
Referring back to
Other embodiments are possible within the scope of the invention.
In some cases, different bristle tufts 32 have a height differential. For example, the tufts around the perimeter of the toothbrush head may be shorter than the tufts at the center of the toothbrush head.
In some embodiments, the power toothbrush 10 does not have an O-ring. The O-ring could be replaced with a rubber flat washer or the bottom of 36 and/or top of 22 could be made of a material that has a rough surface or made of a molded elastomer.
Further embodiments are within the scope of the following claims.
This application is a continuation application of and claims priority to U.S. Ser. No. 10/445,103, filed on May 23, 2003, now U.S. Pat. No. 7,302,726 which is hereby incorporated by reference.
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Child | 11949137 | US |