U.S. patent application number 12/965085 was filed with the patent office on 2011-09-15 for toothbrush.
This patent application is currently assigned to The Procter & Gamble Company. Invention is credited to Kathi Ballmaier, Kathrin Schichtel, Jens Storkel, Martin Vitt, Tilmann Winkler.
Application Number | 20110219558 12/965085 |
Document ID | / |
Family ID | 44145163 |
Filed Date | 2011-09-15 |
United States Patent
Application |
20110219558 |
Kind Code |
A1 |
Vitt; Martin ; et
al. |
September 15, 2011 |
Toothbrush
Abstract
A toothbrush having a toothbrush head with a top side at which
cleaning elements for cleaning teeth are arranged. The cleaning
elements and the head can facilitate the removal of foam, plaque
and undesired particles.
Inventors: |
Vitt; Martin;
(Frankfurt/Main, DE) ; Storkel; Jens; (Frankfurt,
DE) ; Winkler; Tilmann; (Kronberg/Taunus, DE)
; Schichtel; Kathrin; (Schwalbach, DE) ;
Ballmaier; Kathi; (Wehrheim, DE) |
Assignee: |
The Procter & Gamble
Company
Cincinnati
OH
|
Family ID: |
44145163 |
Appl. No.: |
12/965085 |
Filed: |
December 10, 2010 |
Current U.S.
Class: |
15/167.1 |
Current CPC
Class: |
A46B 3/22 20130101; A46B
9/005 20130101; A46B 15/0081 20130101; A46B 2200/1026 20130101;
A46B 9/06 20130101; A46B 9/026 20130101 |
Class at
Publication: |
15/167.1 |
International
Class: |
A46B 9/00 20060101
A46B009/00 |
Foreign Application Data
Date |
Code |
Application Number |
Dec 10, 2009 |
DE |
102009057483.2 |
Nov 22, 2010 |
DE |
102010051877.8 |
Claims
1. A toothbrush having a toothbrush head with a top side at which
elements are arranged for cleaning teeth, with a bottom side that
is arranged opposite to the top side and that connects the top side
with the bottom side with lateral surfaces, wherein at least one
lateral surface has a curvature, and wherein the toothbrush head
has an elastomer component and a hard plastic component, wherein
the surface of the lateral surface having the curvature is partly
covered with the elastomer and partly with the hard component.
2. The toothbrush according to claim 1, wherein lateral surfaces
are arranged along the longitudinal side of the toothbrush head,
which are convexly curved to the outside or provided with an
outward bulge and are provide with a hard plastic component.
3. The toothpaste according to claim 1, wherein the region of the
lateral surfaces that is adjacent to the convex curvature, is
provided with elastomer on both sides.
4. The toothbrush according to any one of the preceding claims,
wherein each lateral surface is designed to alternate hard plastic,
elastomer, hard plastic, elastomer, and hard plastic.
5. The toothbrush according to claim 1, wherein the lateral
surfaces are provided partly with elastomer and partly with a hard
plastic component over the entire height extending from the bottom
side to the top side.
6. The toothbrush according to claim 1, wherein the lateral surface
has a cut-out near the surface relative to the hard plastic
component, which is filled with the elastomer.
7. The toothbrush according to claim 1, wherein an elastomer tongue
scraper on the bottom side develops into a region with elastomer at
the lateral surface and further into elongated massaging fingers
made of the same elastomer.
8. A toothbrush having a handle and a toothbrush head at whose top
side first, second, and third cleaning elements are provided for
cleaning teeth, wherein the first cleaning elements have first
bristle tufts, which, as single tufts, each have a long and a short
side and thus an approximately rectangular or oval base in
crosssection, or, as compound tufts separated from one another, are
arranged with their center points along a straight line each of a
first bristle tuft each in such a way that enveloping area of
compound tufts has first bristle tufts that have an approximately
rectangular or oval base in cross-section, wherein a longitudinal
center axis of the toothbrush proceeds from a free handle end to a
free head end and a transverse axis is arranged perpendicular to
the longitudinal center axis, wherein several first bristle tufts
are arranged on the top side in such a way that their combined
circumferential surface forms an approximately triangular, square,
rhombic, or pentagonal base.
9. The toothbrush according to claim 8, wherein the combined
circumferential surface of the first bristle tufts forms a square
or rhombic base, wherein two corners of the square or rhombus of
the first cleaning elements are arranged along a longitudinal
center axis of the toothbrush and the two additional corners of the
square or rhombus of the first cleaning elements are arranged on an
axis transverse to the longitudinal center axis.
10. The toothbrush according to claim 8, wherein the first cleaning
elements surround the second cleaning elements, and the first
cleaning elements are designed to be longer than the second
cleaning elements, resulting in a trough-like toothpaste receiving
zone formed by the free ends of the second cleaning elements and
the surrounding end areas of the first cleaning elements.
11. The toothbrush according to claim 8, wherein the first cleaning
elements are of different lengths and the second cleaning elements
are of the same lengths.
12. The toothbrush according to claim 8, wherein the compound
bristle tufts of the first bristle tufts and the bristle tufts of
the second and third cleaning elements each have circular cross
sections, wherein immediately adjacent bristle tufts are arranged
with the shortest lateral distance to one another; in the direction
of the longitudinal center axis with a distant smaller than 0 mm
and in the direction of the transverse axis with a distance of from
0 to 0.5 mm.
13. The toothbrush according to claim 8, wherein the second
cleaning elements have second bristle tufts with a circular tuft
cross-section and/or elastomer cleaning elements.
14. The toothbrush according to claim 8, wherein the first bristle
tufts are designed to be longer than the second bristle tufts
and/or that the first bristle tufts enclose the second bristle
tufts or the elastomer cleaning elements.
15. A toothbrush having a handle and a toothbrush head, at whose
surface first, second, and third cleaning elements are provided for
cleaning teeth, wherein the first cleaning elements surround the
second cleaning elements, wherein the second cleaning elements are
designed to be shorter than the first cleaning elements, wherein
the free ends of the first cleaning elements and the second
cleaning elements form a trough-like toothpaste receiving zone, and
wherein the first cleaning elements form an approximately
triangular, square, rhombic, or pentagonal enveloping area of the
base enclosed therewith.
16. A toothbrush having a toothbrush head with a top side having
cleaning elements made of an elastomer for cleaning teeth, wherein
a platform is arranged on the top side of the toothbrush head, that
the elastomer cleaning elements are attached to the platform, and
that the elastomer cleaning elements and the platform are made of
the same elastomer.
17. The toothbrush according to claim 16, wherein the platform has
a square, rectangular, oval, or circular base and that an axis of
symmetry of the platform base is arranged within the longitudinal
center plane of the toothbrush.
18. The toothbrush according to claim 16, wherein the platform
extends away vertically from the top side between 10% to 90% of the
total longitudinal extension of the platform having elastomer
cleaning elements.
19. The toothbrush according to claim 16, wherein the top side of
the platform at which the elastomer cleaning elements are arranged
is designed to be flat and parallel to the top side of the
toothbrush head or designed to be spherically arched.
20. The toothbrush according to claim 16, wherein the elastomer
cleaning elements are designed to be pin-shaped, in particular
cylindrical, or that they taper conically towards the free ends.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority to DE 10 2010 051 878.6
filed Nov. 22, 2010 and DE 10 2009 057 483.2, filed Dec. 10, 2009,
the contents of each being incorporated herein by reference.
FIELD OF THE INVENTION
[0002] The invention relates to a toothbrush having a toothbrush
head with a top side to which cleaning elements for cleaning teeth
are arranged.
BACKGROUND OF THE INVENTION
[0003] The utilization of toothbrushes to clean one's teeth has
long been known. In general, toothbrushes include a head and a
handle. The head includes a plurality of bristle tufts which extend
from a top surface of the head. The bristle tufts generally consist
of a plurality of filaments which are attached to the head in a
suitable fashion. In addition to bristle tufts, some toothbrushes
available on the market also provide elastomeric elements in an
effort to achieve benefits such as gum massaging, tongue cleaning,
etc.
[0004] The use of elastomers at various points on toothbrush heads
is known. The elastomer in toothbrushes can be provided at the
bottom side of the head or the lateral surface as a soft surface.
As an example, tongue scrapers made of elastomer plastic on the
bottom side of the head are well known. Furthermore, toothbrushes
are known in which elastomer massaging rods are arranged at the
lateral surfaces or laterally spaced from the tooth cleaning
elements on the top side of the head. Finally, also known are
elastomers at the top side of the head as cleaning elements for
cleaning teeth. Relevant examples are WO-A-2003/055351,
WO-A-1999/037181, WO-A-2000/076369, WO-A-1998/018364, and
US-A-2007/0101525.
[0005] In an effort to increase efficiency, some toothbrushes
utilize a much more densely populated cleaning element field.
Bristle tufts and/or elastomeric elements can be spaced very close
together. However, a disadvantage of such toothbrushes is that,
during brushing, plaque and other undesired substances can get
caught between the bristles, which are then retained in the
cleaning element field and thereby may have a damaging effect on
the tooth enamel when teeth are cleaned and polished.
[0006] Therefore, there is a need for a toothbrush which can
facilitate the removal of plaque and other undesired items from the
cleaning element field.
SUMMARY OF THE INVENTION
[0007] A toothbrush constructed in accordance with the present
invention can facilitate the removal of plaque and/or undesired
substances from the bristle field. In some embodiments, foam
removal, plaque removal, and/or undesired particle removal may be
accomplished by utilization of lateral surfaces having a curvature
that deviates from a straight line. An elastomer region at the
lateral surface can be provided either with a constriction or a
flat portion or a convex curvature, and the provision of a section
at the lateral surface that consists of hard plastic and that is
provided with an outward bulge or a convex curvature can facilitate
this removal.
[0008] In other embodiments, a toothbrush is provided having a
toothbrush head at whose top side first and second cleaning
elements for cleaning teeth are provided, wherein the first
cleaning elements have first bristle tufts with a long and a short
side and thus, in cross-section, an approximately rectangular or
oval base. This essentially creates toothpaste and foam carriers
within the elongated tufts, which make it possible for foam to
escape at the corners of the base where no tufts are arranged. As
an alternative, first bristle tufts are provided, also named
compound or multiple tufts, each of which conventionally has a
circular cross-section; however, because they are strung together
along a straight line each, the result is a square or rhombic
bristle arrangement. Accordingly, for a rhombus, 4 straight lines
are provided, each having several bristle tufts. These tufts are
designed to be longer the than cleaning elements arranged within
the polygon (e.g., the rhombus), resulting in the formation of a
recessed, in particular trough-like, toothpaste receiving reservoir
that is surrounded by tufts. This contributes to the toothpaste
gradually distributing in the oral cavity during tooth brushing.
According to the alternative design, the "corners" of the rhombus,
square, or other polygon are formed by bristle tufts, and according
to the embodiment having tufts with a short and a long side by
interstices without forming a corner in the strictly geometric
sense.
[0009] In contrast to the conventional rounded, possibly
pot-shaped, design of a recessed toothpaste receiving region, the
polygonal design of this toothpaste receiving reservoir in the
bristle area makes it easier, after the toothbrush head has been
packed with bristles, to trim the bristles that border the
receiving region on the side to their desired length and round off
their ends in order to achieve the desired topography of the free
bristle ends. Because in a polygonal design of the toothpaste
receiving region that is recessed on the inside, the centers of the
bristle tuft forming the polygon as a tuft or as a plurality of
tufts lie on a straight line in each case, it is possible that
adjacent tufts that are not part of the polygon can be more easily
pushed out of the way by means of deflector plates or displacers in
order to trim certain regions of the bristle area to the desired
length and/or to round off the ends in isolation from other bristle
tufts. In doing so, the deflector plate is threaded between the
bristle tufts of the packed head and subsequently pivoted
laterally, making it possible to separately trim tufts to the
correct length relative to adjacent tufts. The polygonal design of
the toothbrush receiving region may certainly also be of advantage
for those toothbrushes that are not produced in this way using
anchor wire tufting but rather, e.g., without an anchor wire.
[0010] An advantageous further design provides that a plurality of
first bristle tufts are arranged on the top side in such a way that
their combined circumferential surface forms an approximately
triangular, square, rhombic, or pentagonal base.
[0011] An advantageous further design provides that the first
bristle tufts are arranged in such a way that four first bristle
tufts enclose a square base.
[0012] An advantageous further design provides that the second
cleaning elements have second bristle tufts with a circular
cross-section and/or elastomer cleaning elements.
[0013] An advantageous further design provides that the first
bristle tufts are designed to be longer than the second bristle
tufts and/or that the first bristle tufts enclose the second
bristle tufts or the elastomer cleaning elements.
[0014] An advantageous further design provides the
compound/multiple bristle tufts of the first bristle tufts and the
bristle tufts of the second and third cleaning elements each have
circular cross sections, wherein immediately adjacent bristle tufts
are arranged with the shortest lateral distance to one another; in
the direction of the longitudinal center axis with a distant
smaller than 0 mm and in the direction of the transverse axis with
a distance of from 0 to 0.5 mm. A distant smaller than 0 mm along
the longitudinal axis of the brush can be achieved by a shifted
placement of the tufts of the polygon and the tufts inside the
polygon. Thus if the brush is viewed from the lateral longitudinal
side the distance between neighboring tufts appears to be
overlapping and less than 0 mm.
[0015] According to a further aspect, a toothbrush is provided
having a toothbrush head with cleaning elements for cleaning teeth,
which are grouped in various care zones in each case, having at
least one pre-cleaning zone with longer cleaning elements relative
to the cleaning elements in the cleaning zone, wherein the
pre-cleaning zone is arranged at the free end of the toothbrush
head, and having a polishing zone or massaging zone consisting of
elastomer cleaning elements and a toothpaste receiving zone
designed in a trough-like shape. In known bristle areas, multiple
care zones are not arranged separated from one another; rather,
differently effective cleaning elements are mixed with others
nearby. Therefore, the care properties of the cleaning elements
should be arranged according to their various functions at the head
in local groupings.
[0016] Further goals, advantages, features, and possible
applications of the present invention result from the following
descriptions of exemplary embodiments by way of the drawings. The
subject matter of the present invention is formed from all of the
described or depicted features, individually or in any meaningful
combination, and independently of their summary in the claims or
their relations of dependence.
BRIEF DESCRIPTION OF THE DRAWINGS
[0017] It is shown:
[0018] FIG. 1A top view of the top side of a toothbrush head in a
schematic representation according to the invention,
[0019] FIG. 2 A schematic cross-sectional representation along the
line A-A in FIG. 4B of a toothbrush head according to FIG. 1,
[0020] FIG. 3 An enlarged representation of section y in FIG.
1,
[0021] FIGS. 4A-4D A side view, top view of the top side,
perspective top view, and perspective view of the bottom side each
of the toothbrush head according to FIG. 1,
[0022] FIG. 4E An enlargement of section x in FIG. 4B,
[0023] FIG. 4F An enlargement of the terminal section of the
toothbrush head according to FIG. 4B,
[0024] FIG. 5A-5E A right side view, top view of the top side, left
side view, perspective top view, and perspective view of the bottom
side each of a toothbrush head according to the invention, modified
in relation to FIG. 1,
[0025] FIG. 6A-6E A right side view, top view of the top side, left
side view, a perspective top view, and further perspective top view
each of a toothbrush head according to the invention, modified in
relation to FIG. 1,
[0026] FIG. 7A-7D A side view, top view of the top side,
perspective top view, and further perspective top view each of a
toothbrush head according to the invention, modified in relation to
FIG. 1,
[0027] FIG. 8A-8D A side view, top view of the top side,
perspective top view, and perspective back view each of a
toothbrush head according to the invention, modified in relation to
FIG. 1,
[0028] FIG. 9A-9F A right side view, top view of the top side, left
side view, view of the bottom side, perspective top view, and
further top view each of a toothbrush head according to the
invention, modified in relation to FIG. 1,
[0029] FIG. 10A-10D A top view of the top side, side view,
perspective top view, and perspective back view each of a
toothbrush head according to the invention, modified in relation to
FIG. 1,
[0030] FIG. 11A perspective top view of a toothbrush head according
to the invention, modified in relation to FIG. 1,
[0031] FIG. 12A-12B A perspective representation and a
cross-sectional representation of an elastomer cleaning element
having a platform with a square base of a toothbrush head according
to the invention, modified in relation to FIG. 1,
[0032] FIG. 13 A perspective representation of an elastomer
cleaning element having a platform with an approximately triangular
base of a toothbrush head according to the invention, modified in
relation to FIG. 1,
[0033] FIG. 14A-14B A perspective representation and a
cross-sectional representation of an elastomer cleaning element
having a platform with a circular base of a toothbrush head
according to the invention, modified in relation to FIG. 1,
[0034] FIG. 15A-15C A perspective representation, a longitudinal
cross-sectional representation, and a top view of the top side of a
toothbrush head with an elastomer cleaning element having a
platform with a circular base according to the invention, modified
in relation to FIG. 1,
[0035] FIG. 16A-16C A perspective representation, a longitudinal
cross-sectional representation, and a top view of the top side of a
toothbrush head with an elastomer cleaning element having a
platform with a circular base according to the invention, modified
in relation to FIG. 1,
[0036] FIG. 17A-17C A perspective representation, a longitudinal
cross-sectional representation, and a top view of the top side of a
toothbrush head with an elastomer cleaning element having a
platform with a circular base according to the invention, modified
in relation to FIG. 1,
[0037] FIG. 18A-18C A perspective representation, a longitudinal
cross-sectional representation, and a top view of the top side of a
toothbrush head with an elastomer cleaning element having a
platform with an approximately triangular base according to the
invention, modified in relation to FIG. 1,
[0038] FIG. 19A-19C A perspective representation, a longitudinal
cross-section, and a top view of the top side of a toothbrush head
according to the invention, modified in relation to FIG. 1,
[0039] FIG. 20A-20B A perspective representation of the top side
and a perspective view of the bottom side of a toothbrush head
according to the invention, modified in relation to FIG. 1,
[0040] FIG. 21A-21B A perspective representation of the top side
and a perspective view of the bottom side of a toothbrush head with
a spherical second component according to the invention, modified
in relation to FIG. 1,
[0041] FIG. 22 A perspective representation of the top side of a
toothbrush head with a spherical second component according to the
invention, modified in relation to FIG. 1,
[0042] FIG. 23 A perspective representation of the top side of a
toothbrush head with a spherical second component according to the
invention, modified in relation to FIG. 1,
[0043] FIG. 24A-24B A perspective representation each of a
toothbrush head having a rhombic toothpaste receiving zone
according to the invention, modified in relation to FIG. 1,
[0044] FIG. 24C-24D A side view each of a modified toothbrush head
having a rhombic toothpaste receiving zone according to FIG.
24a),
[0045] FIG. 24E-24F A top view each onto the bristle area of the
modified toothbrush head having a rhombic toothpaste receiving zone
according to FIG. 24A,
[0046] FIG. 24F also schematically showing a handle of the
toothbrush, and
[0047] FIG. 24G A further top view onto the bristle area of the
modified toothbrush head having a rhombic toothpaste receiving zone
according to FIG. 24A with a representation of the bristle
displacers used.
DETAILED DESCRIPTION OF THE INVENTION
[0048] FIGS. 1-24 G show toothbrush heads or sections thereof that
are connected with any toothbrush neck and handle to form a
toothbrush. These heads are equally suitable for purely manual
toothbrushes and electrically powered ones. Each of the features of
the toothbrush heads shown in these embodiments can be designed in
reduced form or in a different combination than those represented.
Although most embodiments show a tongue scraper having a specific
structure on the underside of the head, all of the embodiments can
also be made without a tongue scraper or be provided with another
tongue scraper structure. Furthermore, some embodiments have
elastomer cleaning elements 17 (shown in FIG. 9F)(elastic cleaning
elements 17 preferably made of soft material) in combination with
bristle tuft cleaning elements, while others have only bristle tuft
cleaning elements.
[0049] Referring to FIGS. 1-4F, the toothbrush head 1 made of hard
material or of a first component 2 is provided with a lateral
surface or an outside edge 3, which is interrupted by a single or
several elastomer regions that can be designed as a constriction 4.
The constrictions, in some embodiments, can be an overmolded soft
material layer or a second component made of elastomer plastic 5.
Referring to FIG. 4E, the width b.sub.1 of the constriction
corresponds to 55%-85% of the width b.sub.2 of the remaining widest
outside edge line 6 of the head when viewed from above in the
center 7 of the constriction. The outside edge line 6 is generally
parallel to a longitudinal center plane of the toothbrush head 1
and is tangent to an outer edge of the head representing the
largest width of the head 1. The center 7 of the constriction 4
represents the smallest width of the head 1, in the related
constriction 4 being measured.
[0050] The constriction 4 proceeds in a concave manner 8 and is
thus directed to the inside towards the longitudinal center plane
of the toothbrush head. The concave curvature can be formed by the
angle .beta. and different radii R.sub.Xi. The effect of a narrow
concave constriction radius provided with elastomer can be that
toothpaste foam 20 is received very well. The passage of the foam
20 from a top side 16 of the head 1 to the constriction 4 can
further be influenced by the angle .alpha..
[0051] For example, where the tops side 16 is angled downward
toward the constriction 4, plaque 25 sliding down the cleaning
elements 10 during brushing can be moved more easily with foam 20
in the direction of the constriction 4. Accordingly, the foam 20
first migrates partly from the free ends of the cleaning elements
10 to the top side 16 of the head 1 and then to a lateral surface
of the head 3. Due to the change of direction during brushing, foam
20 can be effectively retained and then removed along with the
plaque 25 contained therein from the constrictions 4 to the
preferably convexly curved sections of the same lateral surfaces 3,
which may be made of hard plastic.
[0052] According to several embodiments shown--see in particular
FIGS. 5 to 10--each of the constrictions divides the brush into
different tooth care zones. The care zones for various tooth care
tasks are arranged at specific local sections of the head, which
can reduce the likelihood of a mixing of other cleaning elements
for other cleaning purposes within a zone. The tasks of the care
zones can be determined by various types of cleaning elements,
e.g., different types of filaments, tuft cross-sections, size of
bristle tuft crosssections, elastomer elements 17, or the effective
length of the cleaning elements.
[0053] Each of the zones can be divided into two or more subzones.
Each subzone is designed and equipped in such a way that various
tasks are possible during the brushing process. As shown in FIGS.
5A through 5E, a pre-cleaning zone 500A may be present near a
distal end 520 of a brush head 510 and near a proximal end 530 of
the head 510. As shown in FIG. 5A, the pre-cleaning zone 500A may
comprise a plurality of cleaning elements 511 which are configured
as the outermost cleaning elements adjacent the distal end 520 and
adjacent the proximal end 530.
[0054] The cleaning elements 511 of the pre-cleaning zones 500A may
be configured such that their heights vary. For example, as shown,
the cleaning elements adjacent the distal end 720 may be configured
such that the height of the cleaning elements 511 decreases in a
direction toward the handle. Additionally, these cleaning elements
511 may be trimmed at an angle such that a peak is formed adjacent
the cleaning elements 511 nearest the distal end 520. Similarly,
the cleaning elements 511 in the pre-cleaning zone 500A adjacent
the proximal end 530 may be configured such that the cleaning
elements 511 have varying height. As shown, the cleaning elements
511 may decrease in height from the proximal end 530 toward the
distal end 520. Additionally, these cleaning elements 511 may be
trimmed at an angle such that a peak is formed adjacent the
cleaning elements 511 nearest the proximal end 530.
[0055] A cleaning zone 500B may be disposed between the
pre-cleaning zones 500A. Additionally, an interdental zone 500D may
be generally disposed in a similar area as the cleaning zone 500B.
The interdental zone 500D may comprise cleaning elements 513 which
are disposed on either side of cleaning elements 512 for the
cleaning zone 500B. As shown, the interdental zone 500D may
comprise a convex arcuate trim.
[0056] As shown, a polishing zone 500C may comprise a plurality of
cleaning elements 514 which are disposed between the cleaning
elements 511 for the pre-cleaning zone 500A and the cleaning
elements 512 for the cleaning zone 500B. The polishing zone 500C
may comprise cleaning elements 514 which have a larger cross
section than those adjacent thereto.
[0057] As shown in FIG. 6A-6E, a pre-cleaning zone 600A disposed
adjacent a distal end 620 of a brush head 610 and a proximal end
630 of the head 610 may comprise a plurality of cleaning elements
611. The cleaning elements 611 may be configured as the outermost
cleaning elements adjacent the distal end 620 and adjacent the
proximal end 630 of the head 610. The pre-cleaning zones 600A may
be configured similar to the precleaning zones 500A described
heretofore.
[0058] A cleaning zone 600B may be disposed between the
pre-cleaning zones 600A. Additionally, an outer zone 600E may be
generally disposed in a similar area as the cleaning zone 600B. The
outer zone 600E may comprise cleaning elements 615 which are
disposed on either side of cleaning elements 612 and 613.
[0059] As shown, the cleaning zone 600B may comprise a convex
arcuate trim, and similarly, the outer zone 600E may comprise a
convex arcuate trim. In some embodiments, the cleaning elements 615
of the outer zone 600E may have a shorter height than the cleaning
elements 613 of the cleaning zone 600B.
[0060] As shown, a polishing zone 600C may comprise a plurality of
cleaning elements 614 which are disposed between the cleaning
elements 611 for the pre-cleaning zone 600A and the cleaning
elements 613 for the cleaning zone 600B. The polishing zone 600C
may comprise cleaning elements 614 which have a larger cross
section than those adjacent thereto.
[0061] Zone 600D may comprise a plurality of cleaning elements 612
disposed adjacent a periphery of the head. Additionally, a portion
of the plurality of cleaning elements 612 may be disposed inboard
of the cleaning elements 615 of the outer zone 600E.
[0062] As shown in FIGS. 7A through 7D, in some embodiments, a
brush head 710 may be divided into a pre-cleaning zone 700A, a
cleaning zone 700B, a post-cleaning zone 700C and a toothpaste
holding zone 700D. As shown, the toothpaste holding zone 700D may
be disposed within the cleaning zone 700B. For example, as shown,
cleaning elements 713 of the cleaning zone 700B may surround, at
least in part, cleaning elements 712 of the holding zone 700D. In
some embodiments, the cleaning elements 712 of the holding zone
700D may be shorter than the cleaning elements 713 of the cleaning
zone 700B. In this manner a recessed area may be formed in the
cleaning element field which may provide better retention of, for
example, toothpaste.
[0063] The pre-cleaning zone 700A may be configured similar to the
pre-cleaning zones discussed heretofore, e.g. 500A and 600A. The
post-cleaning zone 700C may be configured such that the cleaning
elements 711 increase in height toward a proximal end 730 of the
brush head 710. However, unlike the pre-cleaning zone 700A, the
gradual increase in height may be slightly less than that present
for the cleaning elements 712 of the precleaning zone 700A.
[0064] As shown in FIGS. 8A through 8D, similar to the
configuration of the head 710 shown in FIGS. 7A-7D, a head 810 of
FIGS. 8A through 8D may comprise similar zones, e.g. 800A, 800B,
800C, and 800D. Zone 800A may be configured similar to the
pre-cleaning zones 500A, 600A, and 700A described heretofore. Zone
800B may be configured as described heretofore with regard to
cleaning zones 500B, 600B, and/or 700B. Zone 800C may be configured
similar to the post-cleaning zone 700C described heretofore. Zone
800D may be configured as described heretofore with regard to the
holding zone 700D. In other embodiments, zone 800D may be
configured similarly to zone 600D or interdental zone 500D.
[0065] Additionally, head 810 may comprise a plurality of
elastomeric elements 17 which border a cleaning zone 800B on either
one or both sides. The elastomeric elements 17 may extend from a
common base 817. The base 817, as shown in FIG. 2 can be integrally
formed with the elastomeric material of the tongue cleaner.
[0066] As shown in FIGS. 9A through 9F, a brush head 910
constructed in accordance with the present invention may comprise a
pre-cleaning zone 900A adjacent a distal end 920 and a pre-cleaning
zone 900A adjacent a proximal end 930. A cleaning zone 900B may be
disposed between the pre-cleaning zones 900A. Additionally, a gap
945 may be present between the pre-cleaning zones 900A and the
cleaning zone 900B. This gap 945 may facilitate the removal of the
foam 20 (shown in FIG. 1) from the cleaning element field toward a
constriction as described previously.
[0067] The pre-cleaning zone 900A may be configured similar to the
pre-cleaning zones 500A, 600A, 700A, and/or 800A discussed
heretofore. The cleaning zone 900B may be configured similar to the
cleaning zone 500B, 600B, 700B, and/or 800B described heretofore.
The pre-cleaning zone 900A may comprise a plurality of cleaning
elements 911. The cleaning zone 900B may comprise a plurality of
cleaning elements 912 which are disposed between the cleaning
elements 911 of the pre-cleaning zones 900A.
[0068] Cleaning elements 913 of an outer zone 900D may be
positioned between a first set of cleaning elements 912 and a
second set of cleaning elements 912. The cleaning elements 913 may
be oriented in any suitable shape. As shown, the cleaning elements
913 may be arranged such that the cleaning elements 913 form a
diamond shape on the head 910. Within the diamond shape of the
cleaning elements 913, cleaning elements 914 of a holding zone 900C
may be disposed. The cleaning elements 914 may similarly be
configured in a diamond shape. As shown, the cleaning elements 913
and the cleaning elements 914 may be configured such that they form
an outer diamond and an inner diamond shape. Additionally, the
cleaning elements 913 may have a height which is less than the
height of the cleaning elements 914.
[0069] The head 910 may further comprise a plurality of elastomeric
elements 17. A first set of elastomeric elements 17A may extend
from a first base 917A. The first base 917A may be integrally
formed with the elastomeric material of the tongue cleaner.
Similarly, the first set of elastomeric elements 17A may be
integrally formed from the first base 917A. The brush head 910 may
further comprise a second set of elastomeric elements 17B may
extend from a second base 917B. The second set of elastomeric
elements 17B may be configured similar to the first set of
elastomeric elements 17A, and the second base 917B may be
configured similar to the first base 917A.
[0070] As shown, the first set of elastomeric elements 17A and/or
the second set of elastomeric elements 17B may have a height which
is shorter than that of the cleaning elements 913 of the outer zone
900D. Additionally, in some embodiments, the first set of
elastomeric elements 17A and/or the second set of elastomeric
elements 17B may have an angle of taper. The angle of taper may be
greater than about 0.5 degrees, greater than about 1 degrees,
greater than about 1.5 degrees, greater than about 2.0 degrees,
greater than about 2.5 degrees, greater than about 3.0 degrees,
and/or less than about 3.0 degrees, less than about 2.5 degrees,
less than about 2.0 degrees, less than about 1.5 degrees, less than
about 1.0 degrees, or any number or any range within the values
provided. The angle of taper may be beneficial during the
manufacturing process. For example, the angle of taper can
facilitate the removal of the elastomeric elements from an
injection mold.
[0071] A third set of elastomeric elements 17C may extend from a
third base 917C. The third set of elastomeric elements 17C may be
configured similar to the first set of elastomeric elements 917A,
and the third base 917C may be configured similar to the first base
917A. A fourth set of elastomeric elements 17D may extend from a
fourth base 917D. The fourth set of elastomeric elements 17D may be
configured similar to the first set of elastomeric elements 17A,
and the fourth base 917D may by configured similar to the first
base 917A.
[0072] As shown in FIG. 10, a brush head 1010 may comprise a
pre-cleaning zone 1000A disposed adjacent a distal end 1020 and a
pre-cleaning zone 1000A adjacent a proximal end 1030. A cleaning
zone 1000B may be disposed between the pre-cleaning zones 1000A.
Polishing zones 1000C may be surrounded, at least in part, by
cleaning elements 1011 of the pre-cleaning zones 1000A. As shown,
cleaning elements 1013 of the polishing zones 1000C are completely
surrounded by cleaning elements 1011.
[0073] An inner zone 1000D may be surrounded, at least in part, by
cleaning elements 1012 of the cleaning zone 1000B. As shown,
cleaning elements 1014 of the inner zone 1000D may be completely
surrounded by cleaning elements 1012 of the cleaning zone
1000B.
[0074] The brush head 1010 may be configured such that a plurality
of constrictions 1004 is present along a periphery of the head
1010. The constrictions 1004 may be configured as discussed
heretofore with regard to the constrictions 4. Additionally, the
pre-cleaning zones 1000A may be separated from the cleaning zone
1000B by a plurality of elastomeric elements 17. For example, as
shown, a first set of elastomeric elements 1017A may separate the
pre-cleaning zone 1000A adjacent the distal end 1020 from the
cleaning zone 1000B. Additionally, a second set of elastomeric
elements 1017B may separate the cleaning zone 1000B from the
pre-cleaning zone 1000A adjacent the proximal end 1030 of the brush
head 1010.
[0075] The pre-cleaning zones 1000A may be configured as discussed
heretofore with regard to the pre-cleaning zones 500A, 600A, 700A,
800A, and 900A. Additionally, either one or both of the
pre-cleaning zones 1000A may be configured similar to the
postcleaning zones 700C and 800C described heretofore. The cleaning
zones 1000B may be configured similar to the cleaning zones 500B,
600B, 700B, 800B, or 900B.
[0076] The various care zones described heretofore may be achieved
in a variety of ways. For example, as shown in FIG. 11, a
toothbrush head 1110, may realize different care zones by arranging
shorter tufts 19 in the center of the top side, mixed tufts 21
having long filaments in a core region and shorter filaments in an
edge region of the same tuft 21, and tufts 24 having tapered
filaments.
[0077] In some embodiments, cleaning elements may be provided which
perform multiple functions and as such, a dual care zone may be
created. For example, as shown in FIGS. 12 to 14, elastomer
cleaning elements 1226A to 1226C having a platform 1227A to 1227C
that are injection-molded in one piece, may perform both a
toothpaste retaining function and a polishing function. To achieve
the toothpaste retaining function, the free ends of these elastomer
cleaning elements may lie lower than the adjacent bristle tufts
which exceed them in height, creating a trough-like structure. It
is possible to join the platforms 1227A to 1227C to the heads using
an injection molding process or another joining technology.
[0078] As shown in FIGS. 15A through 15C, a toothbrush head 1510
may comprise an elastomeric element described in FIGS. 12A-14B. For
example, as shown, toothbrush head 1510 may comprise elastomeric
element 1226C. The elastomeric element 1226C may be disposed
generally in a center of the brush head 1510. As shown, the
elastomeric element 1226C may be surrounded, at least in part, by a
plurality of cleaning elements 1512. As discussed above, the
elastomeric element 1226C may have a height which is less than that
of the cleaning elements 1512 such that a holding zone is created
similar to zones 700D, 800D, and 900C.
[0079] As shown in FIGS. 16A through 16C, a toothbrush head 1610
may comprise an elastomeric element as described in FIGS. 12A-14B.
For example, as shown, toothbrush head 1610 may comprise
elastomeric element 1226C. As shown, the elastomeric element 1226C
may be surrounded, at least in part, by a plurality of cleaning
elements 1612. As shown, the elastomeric element 1610 may be
positioned longitudinally offset from the center of the brush head
1610.
[0080] Referring to FIGS. 17A through 17C, a toothbrush head 1710
may comprise a plurality of elastomeric elements 1226A. The
elastomeric elements 1226A may be longitudinally offset from one
another and separated by at least one cleaning element. The
elastomeric elements 1226A may be configured such that either one
or both form a holding zone, e.g. have a height which is less than
adjacent cleaning elements.
[0081] As shown, brush head 1710 may comprise a first plurality of
cleaning elements 1728 which have a rectangular cross section. The
first plurality of cleaning elements 1728 can be attached in
elongated openings of the head 1710 and can have various width to
depth proportions. In horizontal cross-section, each of the first
plurality of cleaning elements 1728 can be approximately
rectangular. The first plurality of cleaning elements 1728 can be
arranged at an angle to a longitudinal axis of the head. In some
embodiments, the first plurality of cleaning elements 1728 can form
an angle delta of between 30 to 60 degrees with the longitudinal
axis.
[0082] As shown in FIGS. 18A through 18C, a toothbrush head 1810
may comprise an elastomeric element 1226B adjacent a distal end
1820 of the head 1810. The elastomeric element 1226B may form a
portion or all of a pre-cleaning zone as described heretofore.
[0083] As shown, the elastomeric element 1226B may be angled with
respect to a top surface 1825 of the head 1810. The angle may be
any suitable measure of degrees. The inclination may be away from a
proximal end 1830. Embodiments are contemplated where a second
elastomeric element similar to the elastomeric element 1226B is
utilized adjacent the proximal end 1830. In such embodiments, the
second elastomeric element may be inclined with respect to the top
surface 1825 away from the distal end 1820. As shown in FIGS. 19A
through 19C, a toothbrush head 1910 may comprise a plurality of
cleaning elements which does not include an elastomeric elements
arranged at an angle with respect to a longitudinal axis 29 of the
head 1910. As shown, the head 1910 may comprise a first plurality
of cleaning elements 1928 attached in elongated openings of the
head 1910 and can have various width to depth proportions. In
horizontal cross-section, each of the first plurality of cleaning
elements 1928 can be approximately rectangular. The first plurality
of cleaning elements 1728 can be arranged at an angle to a
longitudinal axis of the head. In some embodiments, the first
plurality of cleaning elements 1728 can form an angle delta of
between 30 to 60 degrees with the longitudinal axis 29.
[0084] Referring to FIGS. 20A and 20B, in some embodiments, a
toothbrush head 2010 may comprise a first component 30 and a second
component 31A. The first component 30 may comprise a first material
and the second component may comprise a second material which is
different than the first material. The first material may be harder
than the second material in some embodiments. The second material
may comprise a hard material similar to that of the first material.
Where the second component 31A comprise a soft material,
embodiments are contemplated where the second component 31A is
integrally formed with the material of a tongue cleaner. The first
component 30 can have a flat top side or bristle plate, and may be
provided with cleaning elements. The second component 31A can be
made of hard or soft plastic and may be flexibly or movably mounted
in the first component 30. The second component 31A can be designed
to be approximately spherical in part and may terminate with a flat
or likewise spherical top side at which the cleaning elements are
arranged.
[0085] As shown in FIGS. 21A and 21B, a toothbrush head 2110 may
comprise a first component 2130 and a second component 31B. In such
embodiments, the first component 2130 and the second component 31B
may comprise similar materials as those described with regard to
FIGS. 20A and 20B. Additionally, the first component 2130 may
comprise an opening which extends from a top surface of the first
component 2130 to a bottom surface of the first component 2130. The
second component 31B may be disposed within the opening and have a
plurality of cleaning elements attached thereto. The second
component 31B may have a top surface which is slightly elevated
above the top surface of the first component 2130.
[0086] As shown in FIG. 22, a toothbrush head 2210 may comprise a
first component 2230 and a second component 31C. The first
component 2230 may have a distal portion 2220 and a proximal
portion 2231. The distal portion 2220 and the proximal portion 2231
may be longitudinally separated. The second component 31C may be
positioned between the distal portion 2220 and the proximal portion
2231. In such embodiments, the second component 31C may be
integrally formed from the material for a tongue cleaner. The first
component 2230 and the second component 31C may comprise the
materials described heretofore with regard to FIGS. 20A and
20B.
[0087] As shown in FIG. 23, a toothbrush head 2310 may comprise a
first component 2330 and a second component 31B. The first
component 2330 may be configured similarly to the first component
2230 discussed previously. Namely, the first component 2330 may
comprise a distal portion 2320 and a proximal portion 2331 which
are longitudinally separated from each other. The second component
31B may be disposed between the distal portion 2320 and the
proximal portion 2331. The second component 31B may be integrally
formed with the material of the tongue cleaner, in some
embodiments. The first component 2330 and the second component 31B
may comprise the materials described heretofore with regard to
FIGS. 20A and 20B.
[0088] Each of FIGS. 24A to 24G shows different views of the same
toothbrush head 100, which is another variant of the preceding
toothbrush heads. The already described features of the other
toothbrush heads according to FIGS. 1 to 23 can be utilized in the
embodiment according to FIGS. 24A to 24G. The toothbrush has a
longitudinal center axis 110 and a lateral axis 111 perpendicular
thereto.
[0089] According to FIGS. 24A to 24G, the toothbrush head 100 as
well as the neck 102 and the handle 101 of the toothbrush can be
produced from a first hard plastic component in an injection
molding process. On a back side 2476 of the head 100 or the bottom
side (optional), the head 100 may comprise cut-outs on lateral
surfaces 107 and 108 between a top side 2475 and the back side
2476. In a second injection molding step, the cut-outs can be
filled with a soft plastic component consisting of an elastomer in
order to provide a tongue scraper (optional) on the back side 2476
and an alternating hard-soft structure on the lateral surface 107
and 108 of the head 100. According to this embodiment, the soft
plastic at the lateral surfaces 107 and 108 may also be the base
for lateral soft massaging fingers 103, which are arranged adjacent
to the bristle area. Two pairs of massaging fingers 103 for
massaging the gums can be provided on each side of the head. The
number of massaging fingers 103 can optionally vary. The length of
the massaging fingers 103 can be shorter than that of the adjacent
bristles. The neck and handle can be designed in any way. In one
variant, the head, neck, and handle are each provided with a hard
plastic component and at least one soft plastic component.
[0090] As shown in FIGS. 24E, 24F, and 24G, the shape of the head
100 is designed in such a way that the head 100 tapers with regard
to the width both towards the free end 104 and the opposing end 105
that borders the neck 102. A middle region 106 on the top side 2475
of the head 100 can be designed to have the greatest width.
Accordingly, the lateral surfaces 107 and 108 can be convexly
curved. In some embodiments, the lateral surfaces 107, 108 comprise
a hard plastic, then, in the base region of the first pair of
massaging fingers 103 of soft plastic. In the direction of the neck
at the widest point 106, the lateral surfaces 107 and 108 may
comprise hard plastic, and continuing in the direction of the neck,
each lateral surface 107, 108 of the base region of each second
pair of massaging fingers consists of soft plastic, and further in
the direction of the neck follows again a hard plastic region at
each lateral surface 107 and 108. Hard and soft sections thus
alternate repeatedly at each lateral surface 107, 108. As a
consequence, there are alternating sections at the lateral surfaces
107 and 108, which have slightly adhesive properties and distribute
the toothpaste foam in the mouth, and regions along which the
toothpaste foam is not transported as readily with the lateral
surfaces. This may create an effect that is comparable to that
achieved by means of constrictions, as shown in FIGS. 1 to 3. The
nonlinear shape of the head 100 having convex bulges is likewise
suitable to exert a positive influence on removing foam.
[0091] Additionally, the nonlinear shape of the head 100 having
convex lateral bulges is likewise suitable to exert a positive
influence on removing foam, since the foam is more exposed due of
the convex curvature, and thus the least amount of foam remains at
this location. FIG. 24d) shows that at the lateral surfaces,
starting from the free end of the head 104, a hard plastic section
126 alternates with an elastomer section 127, with a hard plastic
section 128, with a further elastomer section 129, and with a hard
plastic section 103 adjacent to the neck. Advantageously, each of
the hard and soft sections extends over the entire height of the
lateral surface.
[0092] Having massaging fingers 103 and a tongue scraper 109, the
head 100 can offer at least two care zones, e.g. one for the
treatment of the tongue and the cheeks and another for the
treatment of the gums. As shown in FIG. 24G, the tooth cleaning
area of the head 100 may comprise further care zones, which can be
designed in such a way that specifically determined tooth regions
are thoroughly cleaned.
[0093] For example, provided in one region adjacent to the free end
104 and adjacent to the neck 105 are cleaning elements, forming a
pre-cleaning zone 2400A. The precleaning zone 2400A may be
configured similar to the pre-cleaning zones described herein.
These cleaning elements can be somewhat longer and designed to be
slightly angled compared with most of the typical bristle tufts.
Because these cleaning elements are arranged on each end of the
head, these cleaning elements also automatically pre-clean the
teeth.
[0094] After the pre-cleaning zone 2400A, a number of cleaning
elements follows on both sides of the top side 2475 of the head
100, in particular cleaning elements for interdental cleaning
2400E. These cleaning elements may be designed to be longer than
immediately adjacent cleaning elements and can be arranged in a row
parallel to the trans-verse axis.
[0095] In a center region of the head 100, cleaning elements are
arranged to form the cleaning zone 2400B and the polishing zone
2400D. These cleaning elements can be particularly dense, offset in
relation to one another in the transverse direction, and arranged
at the head in such a way that the bristles bend slightly and
provide an intensive cleaning and polishing effect. In contrast,
the bristles of the interdental and pre-cleaning zones 2400E and
2400A, respectively, are less densely arranged and can therefore
bend easier, so that the greater length is not an unpleasant
sensation.
[0096] The polishing zone 2400D in this embodiment can be formed by
a first plurality of cleaning elements, which together form a
rhombic configuration or enclose a rhombic base when viewed from
above. The center points of the drill holes of the first plurality
of cleaning elements may lie on a straight line 112, 113, 114, and
115 in each case (see FIG. 24E). These straight lines may likewise
enclose a polygon or a rhombus. According to the FIG. 24, each of
the cleaning elements forming the polygon is an approximately
circular tuft in cross-section, so that several tufts form one side
each of the rhombus. By contrast, some of the zones of FIGS. 17,
18, and 19 comprise approximately rectangular or oval bristle
tufts, seen in cross-section, and in which one side of the rhombus
is designed from one or two tufts. On the inside of the polishing
zone 2400D are cleaning elements, which form the toothpaste holding
zones 2400C. These are shorter than the immediately adjacent tufts
of the rhombic polishing zone 2400D, so that a trough-like recess
is created for receiving toothpaste.
[0097] FIGS. 24C and 24D demonstrate that the free ends of the
cleaning elements, with the exception of the protruding bristle
tufts used for interdental cleaning 2400E and the recessed tufts in
the toothpaste holding zone 2400C, form an approximately double
concave curve along the longitudinal center axis 110. The
interruption of the topography of this double concave curve by
protruding bristle tufts in the interdental zone 2400E increases
the interdental cleaning effect because immediately adjacent tufts
are especially short, making deep interdental penetration
possible.
[0098] The head is injection-molded to have tuft holes to be packed
with bristle tufts, into which the bristle tufts are then packed
and attached with an anchor wire, in some embodiments. In the
region of the free ends, the bristle tufts are subsequently trimmed
to the correct length and end-rounded. In order for the different
bristle tufts to be trimmed to the desired length, displacers can
be used, which pass laterally through the bristle area and which
laterally displace or bend certain cleaning elements in such a way
that desired tufts can be treated or trimmed while tufts which are
displaced are not treated. It may be assumed that the configuration
of the head is also advantageous in anchor free tufting (AFT
method).
[0099] Shown in FIG. 24G are the paths of the displacers 116-125,
in some embodiments. During the manufacturing process, displacers
118, 119, 124, and 125 are used, which are movable in parallel to
the transverse axis. The displacers 120, 121, 122, and 123 are
moved diagonally through the bristle area. Because the toothpaste
holding zone 2400D and the tufts enclosing the same are in the form
of a polygon or rhombus, a dense bristle area with optimum
topography can be provided because the diagonal displacers can be
guided in parallel to the straight lines of the rhombus 112-115.
Furthermore provided are displacers 116 and 117, which are guided
essentially in the longitudinal direction along a curved path.
[0100] The following describes further advantages and variants of
the above-mentioned heads.
[0101] In one variant, the toothbrush has: a toothbrush head having
a first and a second component, at each of which cleaning elements
are arranged for cleaning teeth, wherein the second component has a
partly spherical or ball-shaped geometry, wherein each of the first
and the second component has a flat top side at which the cleaning
elements are arranged and both of these top sides are arranged to
be inclined toward one another, wherein the second component is
movably mounted relative to the first component, wherein of the
first and the second component are made of material having
different properties, in particular having different hardnesses,
wherein the second component forms a raised platform relative to
the top side of the first component.
[0102] Advantageously, the constrictions or the different adhesive
properties alternating on the lateral surfaces remove the foam
created during brushing from the bristle area better and thus
provide better wetting of the foam in the entire oral cavity
instead of retaining the foam in the bristle area. The continuous
removal of freshly created foam furthermore makes it possible that
additional foam from the applied toothpaste is created without
being impeded by the already existing foam. From this it follows
that these constrictions make a greater amount of foam available
for brushing during the entire brushing process compared with
conventional toothbrush heads. As a result, care substances for
tooth enamel, gums, etc. contained in the toothpaste can provided
better, faster, and longer-lasting to the desired locations than is
the case with conventional toothbrush heads.
[0103] It has been shown that along constrictions in combination
with an elastomer surface at the lateral surface of the toothbrush
head, foam and plaque are transported very differently than at a
smooth lateral surface lacking constrictions or elastomer coating.
This effect is amplified even more if a surface with very different
adhesive properties is designed at the same lateral surface. This
is the case when providing partly a foamretaining elastomer and
partly a hard component that glides through foam.
[0104] By applying a soft material to the hard material with an
angle of inclination of the transition region towards the
constriction, the flow behavior of the foam can be influenced as to
whether it can flow slowly or fast from the brush head.
[0105] In a further embodiment of the constriction, it extends over
the entire bristle plate and thus functions as a stopper for the
mixture of foam and dirt, which is produced in the front and back
cleaning zones of the cleaning elements of the head. This mixture
of foam and dirt is then effectively removed by the geometry of the
constrictions. This effect can be amplified further with the aid of
special stop and drain elements and the application of
well-directed channel geometry.
[0106] Because of the above-describe embodiment, a multifunctional
brushing process can be achieved that makes it possible to
eliminate plaque, optionally polish the tooth, as well as provide
the tooth and the gums with active substances in one tooth brushing
motion.
[0107] An advantageous further design provides that the lateral
surface having the constriction is covered partly with the
elastomer and partly with the hard component.
[0108] An advantageous further design provides that the
constriction is at least partly covered with the elastomer.
[0109] An advantageous further design provides that the region of
the lateral surface, which is arranged adjacent to the
constriction, is provided with the hard component--and not with the
elastomer.
[0110] An advantageous further design provides that the lateral
surfaces are arranged along the longitudinal side of the toothbrush
head, are convexly curved to the outside, and are provided with the
hard component. A further advantage of the constrictions is better
removal of dirt particles that were taken up by the foam from the
toothbrush bristle area. The convex curve adjacent to the
constriction achieves that the dirt-binding foam is continuously
removed from the brushing area, and dirt particles thus cannot
damage the tooth during the ongoing brushing and polishing
process.
[0111] According to a further aspect, it is provided that a
platform is arranged on the top side of the toothbrush head, that
the elastomer cleaning elements are attached to this platform, and
that the elastomer cleaning elements and the platform are made of
the same elastomer. The cleaning effect of elastomer cleaning
elements is linked to the wiping effect along the tooth. The wiping
surface of a rod-shaped cleaning element is increased when it is
designed to be thinner. However, depending on the contact force, a
negative effect may occur during brushing due to elastomer cleaning
elements that are too flexible. It is therefore desirable to
determine the flexibility of elastomer cleaning elements not only
according to their hardness but also according to how much they
yield over their total length. In addition, thin, long elastomer
cleaning elements are more difficult to produce. It is suggested
that the elastomers are manufactured to have a platform or socket
in a single injection-molding cycle.
[0112] An advantageous further design provides that the platform
has a square, rectangular, oval, or circular base and that an axis
of symmetry of the platform base is arranged within the
longitudinal center plane of the toothbrush.
[0113] An advantageous further design provides that the platform
extends away vertically from the top side between 10% to 90%, in
particular from 10 to 50%, in particular from 10 to 30% of the
total longitudinal extension of the platform having elastomer
cleaning elements. This leads to a positive wiping behavior of the
cleaning elements and good producibility the same time.
[0114] An advantageous further design provides that the top side of
the platform at which the elastomer cleaning elements are arranged
is designed to be flat and parallel to the top side of the
toothbrush head, or designed to be spherically arched.
[0115] An advantageous further design provides that the elastomer
cleaning elements are designed to be pin-shaped, in particular
cylindrical, or that they taper conically towards the free
ends.
[0116] It is advantageously provided that the free ends of the
elastomer cleaning elements are arranged adjacent to the bristle
cleaning elements, and wherein the bristle cleaning elements
project farther from the top side than the free ends of the
elastomer cleaning elements, so that both cleaning elements
together create a trough-like cross-sectional area for receiving
toothpaste. A trough-like recess formed by the cleaning elements
thus leads to uniform distribution of toothpaste in the mouth.
[0117] A further aspect provides that the toothbrush head is made
of a first and a second component, at each of which cleaning
elements are arranged, wherein the second component has a partly
spherical or ball-shaped geometry. The ball-shaped geometry also
causes a changed flow behavior of toothpaste foam or plaque along
this geometry with the above-described advantages.
[0118] An advantageous further design provides that each first and
second component has a flat top side, at which cleaning elements
are arranged and that these two top sides are arranged to be
inclined toward one another. Such a design of a second component
permits simplified manufacture of cleaning elements in special
inclined embodiments while maintaining the brushing advantages
through inclined cleaning elements.
[0119] An advantageous further design provides that the second
component is movably mounted relative to the first component.
[0120] An advantageous further design provides that the first and
the second component are made of material having different
properties, in particular having different hardnesses.
[0121] An advantageous further design provides that the second
component forms a raised platform relative to the top side of the
first component.
[0122] The dimensions and values disclosed herein are not to be
understood as being strictly limited to the exact numerical values
recited. Instead, unless otherwise specified, each such dimension
is intended to mean both the recited value and a functionally
equivalent range surrounding that value. For example, a dimension
disclosed as "40 mm" is intended to mean "about 40 mm."
[0123] Every document cited herein, including any cross referenced
or related patent or application, is hereby incorporated herein by
reference in its entirety unless expressly excluded or otherwise
limited. The citation of any document is not an admission that it
is prior art with respect to any invention disclosed or claimed
herein or that it alone, or in any combination with any other
reference or references, teaches, suggests or discloses any such
invention. Further, to the extent that any meaning or definition of
a term in this document conflicts with any meaning or definition of
the same term in a document incorporated by reference, the meaning
or definition assigned to that term in this document shall
govern.
[0124] While particular embodiments of the present invention have
been illustrated and described, it would be obvious to those
skilled in the art that various other changes and modifications can
be made without departing from the spirit and scope of the
invention. It is therefore intended to cover in the appended claims
all such changes and modifications that are within the scope of
this invention.
* * * * *