This invention relates generally to dentition cleaning devices and dentition cleaning systems. More specifically the invention relates to dentition cleaning devices and dentition cleaning systems that clean teeth, gums and dentures through contact.
The toothbrush is the most common instrument for cleaning teeth, gums, and other areas of the mouth. A toothbrush, unfortunately, is an inefficient device for removing plaque and stains from the enamel surfaces of teeth and is poorly suited for cleaning the surfaces of gum tissue. The inefficiency arises because plaque, while relatively soft, strongly adheres to enamel surfaces of the teeth. Because, plaque strongly adheres to enamel surfaces of teeth, brushing convection does not readily remove plaque. In order to remove all the plaque from the enamel surfaces of the teeth, bristles must contact each point on the surfaces of the teeth. Even where bristles contact the enamel surfaces of the teeth during a cleaning operation, the toothbrush generally fails to remove stains.
A further disadvantage of toothbrushing is the tendency of the toothbrush to cause gum abrasion, or toothbrush abrasion. The main symptom of toothbrush abrasion is gingival recession, or receding gums, often found in people who brush their teeth frequently. As the gums recede, sensitive parts of the teeth are exposed, generally resulting in painful reactions to hot and cold foods. Frequent brushing of the teeth, even with a very soft bristle toothbrush can lead to a condition of gingival recession. Furthermore, gingival recession is a progressive condition: it never improves but only worsens with time. Although the connection between toothbrushes and receding gums has been documented for over half a century, progress in the field of dentition cleaning devices designed to reduce or eliminate receding gums has been tortuously slow.
In addition to causing gingival recession, toothbrushes are difficult to keep clean, because the bristles have a tendency to accumulate and trap debris. Further, toothbrushes have the propensity to retain water and remain moist long after brushing thus providing an excellent place for the cultivation of bacteria, germs and the like.
There have been several attempts to improve oral hygiene by providing cleaning devices that help remove plaque from the tongue, the gums and the palate. For example, Vezjak describes an oral hygiene brush in U.S. Pat. No. 4,610,043 that comprises a toothbrush and a rigid plaque scraper mounted on the side of the toothbrush head. The plaque scraper is engineered for removing plaque from the tongue, and Vezjak's device requires that a toothbrush still be used for cleaning teeth. Herrera, in U.S. Pat. No. 5,032,082 discloses a device for removing denture adhesive from the palate. The device comprises ahead that has several lines of projections extending from a common surface. The projections are made of a material whose flexibility is temperature dependent, so that submerging the projections in hot water makes them more pliable, and placing them in cold water makes them more rigid. This device is tailored toward removing adhesive from the mouth, and cannot be effectively used for cleaning teeth. Tveras, in U.S. Pat. No. 5,810,856 discloses an oral scraping device having at least one wiping element. Each wiping element is flexible, and has at least one scoop-like side that terminates in a wiping edge in an undercutting fashion. This device is designed for scraping the tongue, and in the preferred embodiment, is mounted on a toothbrush handle on the end opposite the toothbrush head. Thus, using the device of Tveras, teeth must still be cleaned with a toothbrush.
The effects of gum stimulators were studied recently by M. J. Cronin et al., “Anti-Gingivitis Efficacy of Toothbrushing Compared to Toothbrushing and Gum Stimulation,” Journal of Dental Research 78 (Special Issue), 1999, p. 149. In this study, a group of test subjects used selected toothbrushes and gum stimulators regularly, and were compared to a control group that used the toothbrushes alone. The researchers found that the toothbrushes provided the same benefit in reducing gingival bleeding as the toothbrushes and gum stimulators combined. However, this study did not address the problem of gingival recession, nor did it provide an alternative to toothbrushing for cleaning teeth.
What is needed is an efficient contact dentition cleaning device and system that provides an alternative to using a toothbrush for cleaning teeth and that is capable of reducing bristle abrasion to the surrounding gum tissue.
The invention is a dentition cleaning device and system that provides an alternative to using a bristle-only toothbrush. The dentition cleaning device has at least one squeegee that contacts the surface of the teeth during a cleaning operation. The squeegee may be used in combination with bristles or bristle sections that also contact teeth during cleaning. The bristle sections clean the teeth with brushing convection, much like a conventional tooth brush, while the squeegee wipes the surfaces of the teeth to improve the efficiency of teeth cleaning. Alternatively, the squeegee is configured to confine bristle portions of the device from directly contacting the gum tissue, while a squeegee messages the gums during cleaning of the teeth.
In alternative embodiments, a continuous squeegee encircles the outer portion of the cleaning head allowing the device to be used in conjunction with low viscosity cleaning solutions or allows the cleaning head to be equipped with a sealed cap that can be removed when the device is ready for use. Sealing the cleaning head with a cap can help to keep the cleaning head sanitary during storage and/or can help enclose an oral cleaning material within the cleaning head making the device particularly useful and convenient to used during traveling, camping and the like.
Several embodiments of the invention provide for a plurality of squeegee cleaning directions that enhance the efficiency of cleaning dentition. The plurality of cleaning directions is achieved by supplying several elongated squeegees having different orientations or at least one squeegee that curves, as described in detail below.
Other embodiments of the present invention provide a dentition cleaning device and system that utilize squeegees that extend in several directions and form squeegee channels or compartments. The channels or compartments are preferably capable of holding water or cleaning solutions, allowing the device to wet the surface of dentition during cleaning.
Yet other embodiments of the invention provide for oral squeegee cleaning in a plurality of wiping planes. Because several wiping planes are provided, the device and system is capable of simultaneously contacting non-planar dentition surfaces or irregular dentition surfaces with edges of the squeegees. Configuring the device with different squeegee heights, different squeegee protruding directions, contoured squeegee edges, or combinations thereof, which provides for the plurality of squeegee wiping planes.
Still other embodiments of the invention do not utilize bristles or bristle sections. These embodiments utilize only squeegee cleaning elements to provide a dentition cleaning device. Such bristle-free embodiments provide for a dentition cleaning device and system that is highly sanitary because the cleaning head is less likely to trap debris and moisture which can lead to bacterial to growth between uses of or during storage of the device.
Still other embodiments of the invention, provide for a device and system that stores an oral cleaning substance in a handle portion of the device. The cleaning substance is delivered to the cleaning head of the device through apertures at or near the cleaning head. The handle is preferably equipped with a pumping mechanism to deliver the oral cleaning substance to the cleaning head. Alternatively the cleaning substance is delivered to the cleaning head by squeezing a compressible handle.
Other embodiments of the invention provide oral cleaning heads that are attachable to electric or motorized handles. The electric handles provide back and forth or rotational agitation during cleaning of dentition.
Still other embodiments of the invention utilize cleaning heads with a squeegee element that has bristles that are attached to the squeegee element. The squeegee element helps to guide the bristles into sections of dentition that require detailed or special cleaning. These embodiments are especially useful for persons that wear corrective braces or other corrective devices on their teeth.
The dentition cleaning device and system of the current invention has many useful applications besides cleaning of dentition. Bristle-free embodiments of the invention are useful as general tissue massagers to message any soft or delicate tissue where a bristle device is undesirable. For example, the device is useful to messages sore gums of teething babies or adults after oral surgery. Embodiments of the invention are useful as applicators to apply plaque removers, sealants, glues, medications and other substances to dentition.
In the most preferred embodiments of the current invention the dentition cleaning system and device is a manual hand-held system and device with an elongated handle attached to the dentition cleaning head. The handle and the cleaning head are configured to be detachable so the different dentition cleaning heads may be used with a single handle. The dentition cleaning head is preferably similar in size to a conventional toothbrush cleaning head for easy and comfortable insertion into a human oral cavity. It is, however, understood that there may be reasons to miniaturize or enlarge the system and device for a particular application at hand.
a shows a cleaning device configured with bristle sections and linear elongated squeegees.
b illustrates a dentition cleaning device with bristle sections and linear elongated squeegees in accordance with current invention.
a illustrates a perspective view of an elongated squeegee member.
b illustrates a perspective view of an elongated curved squeegee member.
c compares the primary squeegee directions provided by the linear squeegee member of
a–o show a top perspective views of several squeegee configurations in accordance with the current invention.
a–d show several top perspective views of squeegee configurations that have directionally dependent squeegee cleaning action.
a–d show several squeegee configurations with bristle sections incorporated.
a–d show cross-sectional view of squeegees with continuous squeegees walls protruding from a single squeegee member.
a–f show several squeegee segments with contoured cleaning edges used in the dentition cleaning system and device of the current invention.
a–f show several squeegee segments with contoured or modified squeegee walls used in the dentition cleaning system and device of the current invention.
a–b illustrate a perspective view and a top perspective view of a continuous squeegee member with contoured squeegee walls and a contoured squeegee cleaning edge.
a–d show perspective views of a dentition cleaning head according to a preferred embodiment of the current invention.
a–b illustrate a dentition cleaning system with a hand held dentition cleaning device and a low viscosity dentition cleaning solution that is deliverable through a container equipped with a pump.
a–b illustrate a dentition cleaning device with a removable seal according to an embodiment of the current invention.
a–b illustrate the cleaning head portion of a cleaning device with a cavity and apertures for delivering cleaning solution to the cleaning head.
a–b illustrate cross-sectional views of squeegee configurations that provide for primary squeegee cleaning in a plurality of non-coincident wiping planes.
Although the following detailed description contains many specifics for the purposes of illustration, anyone of ordinary skill in the art will appreciate that many variations and alterations to the following details are within the scope of the invention. Accordingly, the following preferred embodiment of the invention is set forth without any loss of generality to, and without imposing limitations upon, the claimed invention.
a shows a cleaning head 50 configured with rows bristle sections 12, 14, 16 and 18 protruding from a surface 19 of a support member 10. Protruding in a similar direction to the rows of bristle section, are squeegee segments 13, 15 and 17. The bristle sections 12, 14, 16 and 18 and the squeegee segments 13, 15 and 17 are preferably capable of contacting a surface (not shown) simultaneously during a cleaning operation.
b illustrates a dentition cleaning device 100 according to one embodiment of the current invention. The dentition cleaning device 100 employs a cleaning head configuration with a design that is similar to that shown in
Again referring to
Still referring to
Again referring to
a shows a perspective view of a squeegee structure 99 with a squeegee member 98 that protrudes from a support member 102 in a protruding direction 108. The squeegee member 98 has a protruding edge, or cleaning edge, 101 that contacts a surface during a cleaning operation. The squeegee member 98 is elongated in an elongation direction 107 with two elongated squeegee walls 103/104. At any point on the surface of the squeegee walls 103/104, the squeegee member 98 has a squeegee wall thickness 105. The primary squeegee direction 109 is defined, herein, as any co-linear direction that is normal to the elongation direction 107 at each point along elongation direction 107. Strictly speaking, for any elongated squeegee there will be at least two wiping directions, corresponding to a back and forth cleaning motion along the line of primary squeegee direction 109. For the sake of simplicity and for this description, squeegee action along any straight line of motion is referred to as a single direction. Thus, the linear elongated squeegee 98 provides for one primary squeegee direction, regardless of a protruding angle 97 or curvature of the squeegee wall in the protruding direction 108. Further, for clarity and descriptive purpose, elongated squeegees and squeegee supports are usually described as separated elements herein. However, it is clear that squeegees and squeegee supports may be monolithic and made of the same or different materials. Further, the shapes of supports are not limited to circles or squares as generally described herein; squeegee supports may take any shape or form that is reasonable for the application at hand.
The current invention utilizes elongated squeegees in the numerous configurations described below to provide an effective dentition cleaning device. The elongated squeegees are preferably made from a soft flexible, pliable or malleable material such as rubber, latex, urethane, silicone and the like. The flexibility, pliability or malleability of the squeegees are preferably in the range between 10 to 50 Shore A durometers as measured with durometer gauges well known in the art. The dimensions of the squeegees can vary in the numerous ways described below but preferably protrude from a support surface by an average distance of 0.1 to 3.0 cm in the squeegee protruding direction 108. Further, while the squeegee wall thickness 105 can vary at any point between the squeegee walls 103 and 104, the squeegee wall thicknesses are preferably within the range of 0.1 to 5.0 mm.
b illustrates a squeegee structure 110 with a curved squeegee member 121 that is curved in the elongation directions 127. Curved squeegee members, such as 121 are particularly useful in the current invention. Geometric considerations will reveal that each point on the curved squeegee wall 122/123 corresponds to a primary squeegee direction in the direction that is normal to a tangent line of the squeegee curvature. For example points 131, 133 and 135 have tangent lines of curvature 151, 153 and 155, respectively, and corresponding primary squeegee directions 141, 143 and 145.
c compares the primary squeegee directions provided by the linear squeegee member of
For descriptive purposes squeegees are classified as the following: squeegee segments have at least two terminus ends; continuous squeegees have no ends; and squeegee networks have squeegee walls that are shared by one or more adjacent squeegee enclosures or compartments. Squeegees can also have a single terminus end, wherein the squeegee forms and squeegee enclosure or compartment, but does not connect end-to-end.
a–o illustrate top perspective views of several alternative squeegee configurations that provide for a plurality of primary squeegee directions.
a–d illustrate several squeegee configurations that provide for directionally dependent squeegee action.
a–d show top views of several dentition cleaning heads configured with squeegee sections and bristles.
There are several medium ports 425, 425′ and 425″ positioned within the spiraling channel 422. The medium ports 425, 425′ and 425″ provide a means for directing a medium to dentition surfaces during cleaning or alternately for drawing a vacuum near a surface of dentition. The cleaning configuration 420 further includes a brush section 427 attached substantially central to the support member 421. The configuration 420 is particularly useful where a cleaning medium such water is required or where vacuum convection is needed to remove cleaning solutions, saliva and the like. The cleaning configuration 420 can also be configured to attached to a rotary device to provide a rotary cleaning action to the surfaces of dentition during a cleaning operation. It is clear that any of the cleaning head configurations described herein are adaptable to have ports or apertures through which oral cleaning solutions can be delivered or through which a vacuum can be drawn to facilitate cleaning of dentition.
a–d show cross-sectional views of several dentition cleaning head configurations with a squeegee member having continuous elongated squeegees.
All of the dentition cleaning heads detailed and described, herein can be configured to have bristles or bristle sections integrated into the cleaning head, attached to the squeegee members themselves or attached to another portion of the cleaning device. For some applications of the invention the combination of a squeegee or squeegees and bristles is preferred. In one embodiment of the invention a squeegee section encircle bristle sections or portions thereof to reduce potential contact of the bristles with soft gum tissue while messaging the gums during cleaning of the teeth.
a–f illustrate squeegee segments with contoured squeegee cleaning edges that are useful in the dentition cleaning device and system of the current invention.
a–f illustrate several squeegee segments with contoured squeegee walls.
a–b show a continuous squeegee with a contoured squeegee cleaning edge and contoured squeegee walls.
a–d illustrate several views of a dentition cleaning head configured according to a preferred embodiment of the current invention.
a–b illustrate a cleaning system according to the present invention.
a–b illustrate a dentition cleaning device that is similar to the device 450 shown in
a–b illustrate an embodiment of the current invention that is particularly useful in clinical environments.
Embodiments illustrated in the preceding Figures have shown squeegee walls that protrude in direction substantially parallel with respect to each other. Such devices provided a plurality of primary squeegee cleaning actions in a plurality of wiping directions contained in a single wiping plane or in a plurality of co-linear wiping planes. However, it will be clear from the following description that these embodiments previously described can also include squeegee walls that protrude at nonzero angles relative to each other in order to provide for primary squeegee cleaning action in a plurality of non-coincident wiping planes. Further, it will be clear for the following description that oral cleaning devices and other cleaning devices can be configured with squeegee elements that provide for a plurality of squeegees cleaning actions in a plurality of wiping directions within a plurality of non-coincident wiping planes.
a illustrates a cross-sectional view of a squeegee configuration 925 with squeegee walls 929, 931, 933 and 935 that protrude from a squeegee support member 927. The squeegee walls 929 and 935 protrude in a squeegee protruding direction that is at an angle θ1 from the squeegee support member 927 and provide for primary squeegee directions in the non-coincident squeegee wiping planes indicated by the arrows 930 and 928, respectively. The angle θ1, can be any angle between 180 and 90 degrees. The squeegees walls 931 and 933 protrude from the squeegee support 927 in a squeegee protruding direction that is at an angle θ2 relative to the squeegee support 927 to provide for a primary squeegee direction in the wiping plane indicated by the arrow 926. Angle θ2 can also be any angle between 90 and 180 degrees that is different from angle θ1 such as to provide primary squeegee directions in a plurality of non-coincident wiping planes 930, 926 and 928.
b illustrates a cross-sectional view of an alternative squeegee configuration 950. The squeegee configuration 950 has squeegee walls 954, 956, 958 and 960 that protrude in squeegee protruding directions at the angles θ1, θ2, θ3 and θ2 relative to a contoured squeegee support member 952. The squeegee configuration provides primary squeegee direction in the wiping planes indicated by the arrows 953, 955, 957 and 959, respectively. The squeegee walls described in
Squeegee configurations with squeegee walls that protrude in non-parallel squeegee protruding directions are utilized in cleaning devices that provide for primary squeegee directions in a plurality of non-coincident wiping planes. Extending, the principles illustrated in
It will be clear to one skilled in the art that the above embodiment may be altered in many ways without departing from the scope of the invention. For example the dentition cleaning heads can be made to be any variety of color that make the particularly attractive for children. Accordingly, the scope of the invention should be determined by the following claims and their legal equivalents.
This Application is a Continuation Application of the application Ser. No. 10/382,559 titled. “DENTITION CLEANING DEVICE AND SYSTEM”, filed Mar. 5, 2003, now U.S. Pat. No. 6,820,299, which is a Continuation Application of the application Ser. No. 09/588,686, titled “DENTITION CLEANING DEVICE AND SYSTEM”, filed Jun. 5, 2000, now U.S. Pat. No. 6,571,417, which is a Continuation-in-part of application Ser. No. 09/330,704 entitled “SQUEEGEE CLEANING DEVICE AND SYSTEM”. filed Jun. 11, 1999 and now U.S. Pat. No. 6,319,332. The U.S. Pat. No. 6,571,417, the U.S. Pat. No. 6,319,332 and the application Ser. No. 10/382,559, now U.S. Pat. No. 6,820,299, titled “DENTITION CLEANING DEVICE AND SYSTEM”, are all hereby incorporated by reference.
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Number | Date | Country | |
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Child | 10883302 | US | |
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Child | 10382559 | US |
Number | Date | Country | |
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Parent | 09330704 | Jun 1999 | US |
Child | 09588686 | US |