U.S. patent application number 11/815274 was filed with the patent office on 2009-01-15 for toothbrush.
This patent application is currently assigned to SUNSTAR INC.. Invention is credited to Toyokazu Mori, Shinya Sakurai.
Application Number | 20090013488 11/815274 |
Document ID | / |
Family ID | 36777183 |
Filed Date | 2009-01-15 |
United States Patent
Application |
20090013488 |
Kind Code |
A1 |
Sakurai; Shinya ; et
al. |
January 15, 2009 |
TOOTHBRUSH
Abstract
A toothbrush which comprises a brush main body made of a
synthetic resin and having a bristle base and bristles made of a
thermoplastic resin which have been fusion-bonded to the bristle
base to constitute a bristled part, wherein the bristles
constituting the bristled part at least partly comprise: tapered
bristles which are bristles having split free ends, the split free
ends having been tapered beforehand; tapered bristles which have a
sectional shape having a core-sheath structure or islands in a sea
structure; or tapered bristles in each of which a core bristle
comprising a core or island part has been formed beforehand so as
to be exposed at the free end. The toothbrush has excellent
suitability for bristle insertion into narrow parts. It is highly
effective in removing dental plaque and cleaning the teeth. It is
highly easy to use in the oral cavity. It further has a highly
attractive appearance.
Inventors: |
Sakurai; Shinya; (Osaka,
JP) ; Mori; Toyokazu; (Osaka, JP) |
Correspondence
Address: |
WESTERMAN, HATTORI, DANIELS & ADRIAN, LLP
1250 CONNECTICUT AVENUE, NW, SUITE 700
WASHINGTON
DC
20036
US
|
Assignee: |
SUNSTAR INC.
Takatsuki-shi, Osaka
JP
|
Family ID: |
36777183 |
Appl. No.: |
11/815274 |
Filed: |
January 31, 2006 |
PCT Filed: |
January 31, 2006 |
PCT NO: |
PCT/JP2006/301507 |
371 Date: |
August 1, 2007 |
Current U.S.
Class: |
15/167.1 ;
15/207.2 |
Current CPC
Class: |
A46D 1/0276 20130101;
A46D 1/00 20130101; B29C 65/1412 20130101; A46B 2200/1066 20130101;
A46D 1/023 20130101 |
Class at
Publication: |
15/167.1 ;
15/207.2 |
International
Class: |
A46B 9/04 20060101
A46B009/04; A46D 1/00 20060101 A46D001/00 |
Foreign Application Data
Date |
Code |
Application Number |
Feb 2, 2005 |
JP |
2005-026553 |
Claims
1. A toothbrush comprising: a brush main body made of a synthetic
resin; and a bristled part fusion-bonded to a bristle base of the
brush main body, the bristled part being composed of bristles made
of a thermoplastic resin, wherein at least some of the bristles
constituting the bristled part comprise tapered bristles with split
free ends, the split free ends being tapered beforehand.
2. A toothbrush comprising a brush main body made of a synthetic
resin; and a bristled part fusion-bonded to a bristle base of the
brush main body, the bristled part being composed of bristles made
of a thermoplastic resin, wherein at least some of the bristles
constituting the bristled part comprise tapered bristles with a
sectional shape having a core-sheath structure or islands in a sea
structure.
3. The toothbrush according to claim 2, wherein the tapered
bristles each comprise a core bristle having a core or island
portion exposed beforehand at the free end.
4. The toothbrush according to any one of claims 1 to 3, wherein
each of the bristles are fixed to the bristle base at a thick
portion formed at each of base end portions of the bristles.
5. The toothbrush according to claim 4, wherein the thick portion
comprises a fused mass formed by heat-fusing the base end portion
of each of the bristles or bristle tufts.
6. The toothbrush according to any one of claims 1 to 3, wherein
the bristle base is not more than 4.0 mm thick.
7. The toothbrush according to any one of claims 1 to 3, wherein
each of the tapered bristles are synthetic resin filaments each
with a sectional shape composed of a plurality of connected unit
cross-sectional elements.
8. The toothbrush according to claim 2 or 3, wherein each of the
tapered bristles is formed in a tapered shape in which the sheath
portion or sea portion becomes thinner towards the free end and is
a split bristle with a plurality of core bristles exposed at the
free end.
9. The toothbrush according to claim 2 or 3, wherein each of the
tapered bristles is formed in a tapered shape in which the sheath
portion or sea portion becomes thinner towards the free end and is
a tapered bristle with a single core bristle exposed at the free
end.
10. The toothbrush according to claim 9, wherein the
cross-sectional shape of each of the core bristles of the tapered
bristles exposed at the free end has a nearly same shape throughout
the length in the axial direction of the core bristle.
11. The toothbrush according to any one of claims 1 to 3, wherein
each of the bristles is made of a material containing at least one
kind of thermoplastic resin selected from polyester resin,
polyamide resin, and polyolefin resin.
12. The toothbrush according to claim 2 or 3, wherein in each of
the tapered bristles, a main component of the material of the core
or island is a polyamide resin, and a main component of the
material of the sheath or sea portion is a polyester resin.
13. The toothbrush according to any one of claims 1 to 3, wherein
the bristled part comprises at least two or more kinds of bristles
of different specifications.
14. The toothbrush according to claim 13, wherein the bristled part
is formed by implanting at least two or more kinds of tapered
bristles of different specifications.
15. The toothbrush according to any one of claims 1 to 3, wherein
the tapered bristles are implanted to at least part of a front end
portion, right-side surface portion, center portion, left-side
surface portion, and rear end portion of the bristled part.
16. The toothbrush according to any one of claims 1 to 3, wherein a
brush surface composed of the free ends of the bristles in the
bristled part is not flat.
17. The toothbrush according to claim 16, wherein the brush surface
has irregularities.
18. The toothbrush according to claim 17, wherein the brush surface
has irregularities in both the length direction and the width
direction of the bristled part.
19. The toothbrush according to any one of claims 1 to 3, wherein
the bristles are fused to the bristle base of the brush main body
by an in-mold process or fused-in process.
Description
TECHNICAL FIELD
[0001] The present invention relates to a toothbrush, and more
particularly to a toothbrush which is highly effective in removing
dental plaque and cleaning teeth, and which is highly easy to use
in an oral cavity and further has a highly attractive
appearance.
BACKGROUND ART
[0002] Heretofore, as toothbrushes with enhanced effects of
removing dental plaque and cleaning the teeth of narrow portions
such as the gaps between neighboring teeth and gaps between the
teeth and the gums, a large number of toothbrushes have been
proposed with the bristle free end processed into a tapered shape
to increase the suitability for bristle insertion into narrow
portions. For example, there proposed are various kinds of
toothbrushes that have tapered bristles with the bristle free ends
tapered, such as a toothbrush which has a tapered shape in which a
brush diameter at each portion of a predetermined length from the
tapered portion free end portion of the synthetic monofilament
achieves a predetermined ratio with respect to the brush diameter
at the base in the toothbrush formed by bending synthetic
monofilaments with tapered portions on both ends from the center
portion and bundling and implanting them in tuft holes as a brush
(see Patent Document 1), a toothbrush formed by bending filament
bristle tufts in a U-shape and implanted in tuft holes of the brush
head by anchor has the shapes of both free ends of the filament
varied with one end of the filament formed in a sphere and the
other end in a tapered shape, and furthermore, a toothbrush with
one end of the filament implanted protrudably from the other free
end (see Patent Document 2), a toothbrush that has long tapered
bristles and short tapered bristles implanted by tufts (bundles of
bristles) in a bristle base and mixed mutually (see Patent Document
3), etc. Furthermore, there proposed are a toothbrush formed by
immersing the free end portion of composite synthetic resin
filament having a cross-sectional shape with polyamide resin island
portions scattered in a polyester resin sea in an acid or alkali
solution and dissolving the sea portion to expose the island
portions only at the bristle free end so that the islands in a sea
composite fibers with the core bristles formed in a specified
length are implanted in a bristle base (see Patent Document 4), a
toothbrush formed by implanting a brush formed into a shape with a
plurality of unit cross-sectional elements which form a
predetermined shape such as circle, ellipse, triangle, or hexagon
linked for the base cross-sectional shape on a bristle base
surface, immersing the brush in an acid or alkali, or other
chemical solution, splitting the brush free end portion into a
plurality, and forming each of split bristles in a sharp taper (see
Patent Document 5), and a toothbrush having a plurality of sharp
tapered split bristles formed at the free end portion and at the
same time having a brush with other split bristles whose lengths
are varied with respect to specific split bristles implanted (see
Patent Document 6).
[0003] The toothbrushes as described above with tapered bristles of
various shapes implanted in a bristle base have excellent
suitability for bristle insertion into narrow portions, such as the
gaps between neighboring teeth and gaps between the teeth and the
gums because of the free end shape of the tapered bristles and is
highly effective in removing dental plaque and cleaning the teeth
of the relevant portions. However, toothbrushes using conventional
tapered bristles as described above have tufts of synthetic resin
filaments at least with one end formed in a taper form folded into
two in a U-shape and fitted and fixed (driven) together with anchor
(also called metal wire rod, wire staple, etc.) into tuft holes
formed in a bristle base of a brush main body formed beforehand by
injection-molding of synthetic resin. However, in the event that
bristle tufts are driven into tuft holes of the bristle base using
anchor, there is a restriction in the thickness of the bristle base
which is unable to be reduced excessively, and there is a
limitation in the density of the bristle tuft to be implanted into
one tuft hole.
[0004] In the event that bristles processed to have tapered
bristles beforehand are implanted into a bristle base, implantation
using anchor as described above prevents the free end from being
cut to an even length by trimming after implantation, and the
bristled surface is held as implanted. However, in the case of
implantation using anchor, the bristles are bent in a U-shape at
the portion where bristles between the tuft hole bottom surface and
anchor are inserted, but as a matter of course, a slight level
difference is generated at the bent position, and this level
difference causes the bristled surface to be irregular. That is, by
the implantation using anchor, it is unable to manufacture a
toothbrush which has an bristled surface with the free end aligned
using bristles whose free ends are processed in advance. However,
because the shape (configuration) of the bristled surface has big
effects on cleaning the teeth and removing dental plaque, the shape
of the bristled surface is extremely important in toothbrushes.
[0005] On the other hand, as a method for fixing bristles to the
toothbrush bristle base, in addition to the above-mentioned method
of using anchor, there proposed are many manufacturing methods of
toothbrushes with bristles fixed to the bristle base without using
anchor (anchorless toothbrushes), such as so-called in-mold process
to fix bristles to a bristle base by forming a thick portion wider
than the hole diameter of tuft holes or tuft diameter at the base
portion of tufts, for example, a fused mass formed by
fusion-bonding, disposing the thick portion in a molding cavity at
the time of molding the brush main body, filling the cavity with
molding material of the brush main body, and molding the brush main
body (for example, see Patent Documents 7 to 9), and a method for
preventing leakage of molding material at the time of molding a
brush main body by mounting bristles to a bristled part cover
(primary molded handle section) and then molding this bristled part
cover integrally with the bristle base (secondary molded handle
section) (see Patent Documents 10, 11, etc.), and a so-called
fuse-in process in which a plurality of holes (tuft holes) are
formed to house bristles (setae) into a bristle base (also called a
bristle holder or bristled part), fixed-side base end portion of
the bristles is heat-fused without molding the tuft holes, further
the bristle length is shortened to form a thick portion (also
called a thickened area and enlarged portion) at the fixed end
section, and the base end portion of molten bristles is
fusion-bonded to the bristle base (see Patent Documents 12, 13,
etc.). Furthermore, there is proposed a toothbrush in which a head
insert is bonded to a bristle base (head section) of a brush main
body after fixing the base end portion (non-needlelike section) of
a needlelike bristles by heat-fusing after the base end portion is
pressed into a through-hole formed in a bristled part cover (head
insert) of needlelike bristles whose free end is sharpened in a
taper form (see Patent Document 14, etc.). According to these
toothbrush manufacturing methods without using anchor, as compared
to the method for driving bristle tufts together with anchor into
tuft holes formed in the bristle base, the thickness of the bristle
base can be reduced and ease of using the toothbrush in the oral
cavity can be expected to be improved. In addition, the bristle
implanting density of bristles can be increased as compared with
the method using anchor. However, toothbrushes manufactured by the
conventional anchorless toothbrush manufacturing methods had the
bristled part formed by providing regular free end rounding
processing by machining to the free end of bristles planted to the
bristle base or mechanically dividing the free end after integrally
fixing and planting bristles to the bristle base when the brush
main body is molded by the above-mentioned manufacturing
methods.
[0006] In addition, when bristles with the free ends processed in
advance are fixed to the bristle base without using anchor, the
free ends of bristles are unable to be mechanically or chemically
processed after forming the bristle base to trim the shape of the
bristle tuft free end portion or are unable to have the brush
surface shapes composed with the free end of bristles. Therefore,
the shape of the brush tuft free end and the brush surface shapes
must be adjusted at the time of implanting. For example, in the
insert process disclosed in Patent Documents 7 to 9, as shown in
FIG. 15, a thick portion (fused mass) 31 is formed by fusing
bristles 2 of the tuft 3 at the base end portion 30b of the tuft 3
formed by bundling bristles (setae) 2, and a cavity 140 is filled
with molding resin material with the thick portion 31 disposed
inside the cavity 140 of a brush molding dies 130 and the bristles
2 (tufts 3) are fixed to the bristle base of the brush main body,
but when the thick portion 31 is formed at the base end portion of
the tuft 3 and is disposed within the cavity 140, the free end 30a
side tapered at each tuft 3 is brought in contact with a backplate
110, and the free end shape of the tuft 3 and the shape of the
brush surface f composed with bristles 2 must be adjusted in
advance. In addition, in the manufacturing method of a anchorless
toothbrush by the fuse-in process disclosed in the Patent Document
12, for example, as shown in FIG. 19, the base end 30b side of the
tuft (bristle tuft) 30 of bristles 2 is melted to form the thick
portion (thickened portion, molten mass) 31, and this is
fusion-bonded to the bristle base (bristle supporter) 12 of the
brush main body 10 formed in advance. Furthermore, in the
manufacturing method of anchorless toothbrushes by the fuse-in
process disclosed in the Patent Document 13, as shown in FIG. 20,
the base end portion 30b of the bristles tuft (bristles bundle) 30
is fused to form the thick portion (enlarged termination portion)
31 and at the same time, the bristled surface 12a of the bristle
base (bristle base) 11 of the brush main body 10 is fused, and
furthermore, tuft holes (dented holes) 6 are formed on the bristled
surface 12a as shown in FIG. 21, and the fused thick portion 31 is
heat-fused to the fused bristled surface 12a or tuft holes 6 formed
on the bristled surface 12a to fix the tuft 3 to the bristle base
12. In these processes disclosed in Patent Documents 12 and 13,
when the thick portions 31 is formed in the base end portion 30b of
the tuft 3 and this is fused to the bristled surface 12a of the
bristle base 12, the tapered bristle free end side (free end side)
30a of each tuft 3 is brought in contact with backplates 410 and
510 and the free-end shape of the tuft 3 and the shape of brush
surface f composed with bristles must be adjusted in advance.
[0007] As described above, when the bristles with the free end
processed in advance are implanted to the bristle base and the
bristled part is formed without using anchor, post-processing after
implantation is unable to be performed, and therefore, at the time
of implantation, the free end portion of bristles with the free end
processed is brought in contact with the backplate, etc. and under
the aligned condition, operations must be performed. However, in
the case of bristles formed simply into a tapered shape for
increased cleaning efficiency, the free end is slender and is
scarcely elastic, the tapered free end portion is brought into
contact with the backplate at the time of implantation operation
and the free end is aligned, the relevant free end portion is bent
or broken, the free end of bristles after implantation tends to be
not uniform, and it is difficult to adjust the brush surface
composed with the free end portion of tufts and free end to a
desired shape.
Patent document 1: Japanese Unexamined Patent Publication No.
H6-141923 Patent document 2: Japanese Unexamined Patent Publication
No. Patent document 3: Japanese Unexamined Patent Publication No.
Patent document 4: Japanese Unexamined Patent Publication No.
Patent document 5: Japanese Unexamined Patent Publication No.
Patent document 6: Japanese Unexamined Patent Publication No.
Patent document 7: Examined Patent Publication (Kokoku) No.
H6-16725 Patent document 8: Patent Publication No. 2732875 Patent
document 9: National Publication of Translated Version No. Patent
document 10: Japanese Unexamined Patent Publication No. H9-182632
Patent document 11: Japanese Unexamined Patent Publication No.
Patent document 12: Japanese Unexamined Patent Publication No.
Patent document 13: Examined Patent Publication (Kokoku) No.
H6-46962 Patent document 14: Japanese Unexamined Patent Publication
No.
DISCLOSURE OF THE INVENTION
Problems to be Solved by the Invention
[0008] The present invention is to provide a toothbrush which has
excellent suitability for bristle insertion into narrow portions,
such as the gaps between neighboring teeth and gaps between the
teeth and the gums, and is highly effective in removing dental
plaque and cleaning the teeth, and at the same time, is highly easy
to use in the oral cavity and further has a highly attractive
appearance.
Means for Solving the Problems
[0009] In order to achieve the above object, the present inventors
devoted themselves to examinations and found that a toothbrush with
an aligned bristle free end and free of bend or breakage could be
manufactured when the tapered bristle free end was fixed to the
bristle base by thermally fixing bristles formed into a specific
tapered shape in advance without using anchor and forming the
bristled part, and completed the present invention.
[0010] That is, the toothbrush related to the present invention is
a toothbrush that includes a brush main body made of a synthetic
resin and has a bristle base and bristles made of a thermoplastic
resin which have been fusion-bonded to the bristle base to
constitute a bristled part, wherein at least some of the bristles
constituting the bristled part (1) contain tapered bristles which
are bristles having split free ends, and the split free ends having
been tapered beforehand, or (2) comprise tapered bristles which
have a sectional shape having a core-sheath structure or islands in
a sea structure, or (3) are tapered bristles in each of which a
core bristle comprising a core or island portion has been formed
beforehand so as to be exposed at the free end.
[0011] In the toothbrush related to the present invention as
described above, it is preferable that each of the bristles are
fixed to the bristle base at a thick portion formed at each of base
end portions of the bristles. The thick portion is preferable to be
composed with a fused mass formed by heat-fusing the base end
portion of each of the bristles or bristle tufts.
[0012] The thickness of the bristle base in the toothbrush related
to the present invention is preferably not more than 3.5 mm.
[0013] For the tapered bristles in the toothbrush related to the
present invention, synthetic resin filaments each with a sectional
shape composed of a plurality of connected unit cross-sectional
elements can be used. In such event, immersing the free end of the
synthetic resin filament in solutions such as alkali, acid, etc.
can produce tapered bristles with the tapered split bristles formed
at the bristle free end in the quantity that conforms to the
quantity of the linked unit cross-sectional elements.
[0014] As the tapered bristles which have a cross sectional shape
having the core-sheath structure or islands in a sea structure, the
tapered bristles formed in a tapered shape in which the sheath
portion or sea portion becomes thinner towards the free end can be
used. In the case of such tapered bristles, the tapered bristles
may be split bristles with a plurality of core bristles exposed at
the free end or tapered bristles with a single core bristle exposed
at the free end. For the tapered bristles whose cross-sectional
shape has a core-sheath structure or islands in a sea structure and
has a core bristle formed at the free end, it is preferable that
the cross-sectional shape of each of the core bristles of the
tapered bristles has a nearly same shape throughout the length in
the axial direction of the core bristle.
[0015] The material of the bristles is not particularly limited and
polyester resin, polyamide resin, polyolefin resin, etc. may be
used. In particular, in the case of the tapered bristles whose
cross-sectional shape has a core-sheath structure or islands in a
sea structure and has a core bristle with a core or island portion
exposed at the free end, it is preferable that a main component of
the material of the core or island is a polyamide resin, and a main
component of the material of the sheath or sea portion is a
polyester resin.
[0016] In a toothbrush related to the present invention, the
bristled portion may be formed by at least two or more kinds of
bristles of different specifications. That is, all the bristled
part may not be formed with tapered bristles as described above but
tapered bristles are implanted for only a part of the bristled part
and the remaining portion may be regular bristles. For example, the
tapered bristles may be implanted to at least part of the front end
portion, right-side surface portion, center portion, left-side
surface portion, and rear end portion of the bristled part. The
tapered bristles may be formed by combining at least two or more
kinds of bristles of different specifications of the free end
shape, thickness, cross-sectional shape, length, material, etc.
Furthermore, when bristles other than tapered bristles are used,
bristles of different thicknesses, lengths, cross-sectional shapes,
materials, etc. may be combined.
[0017] In addition, the brush surface formed at the free end of
bristles in the bristled part may not always be flat but may be
formed into a desired shape, and the brush surface may have
irregularities, and in such event, the brush surface may have
irregularities in both directions of the length direction and the
width direction of the bristled part.
[0018] In the toothbrush related to the present invention as
described above, as a method to thermally fix bristles to the
bristle base, toothbrushes can be manufactured in any method,
including a method to fuse bristles to the bristle base of the
brush main body by an in-mold process or fused-in process, etc.
EFFECT OF THE INVENTION
[0019] The toothbrush related to the present invention is a
so-called anchorless toothbrush in which the bristled part is
formed by fusion-bonding synthetic resin bristles and thermally
fixing them to the bristle base, for example, by in-mold process or
fused-in process. Consequently, as compared to the toothbrushes
manufactured by driving (fitting) bristle tufts together with
anchor into tuft holes formed in the bristle base of the brush main
body, the bristle base is able to be made with the thickness of the
bristle base reduced, and the toothbrush is highly easy to be used
in the oral cavity and at the same time, has a highly attractive
appearance, too. In addition, because at least some of the bristles
constituting the bristled part (1) contain tapered bristles which
are bristles having split free ends, and the split free ends having
been tapered beforehand, (2) comprise tapered bristles which have a
sectional shape having a core-sheath structure or islands in a sea
structure, or (3) are tapered bristles in each of which a core
bristle comprising a core or island portion has been formed
beforehand so as to be exposed at the free end, the toothbrush has
excellent suitability for bristle insertion into narrow portions,
such as the gaps between neighboring teeth and gaps between the
teeth and the gums.
[0020] That is, the toothbrush with bristles implanted without any
anchor and having a thin bristle base enables us to handle the
toothbrush head more freely in the oral cavity than the toothbrush
with bristles implanted by the use of anchor. Consequently, the
toothbrush head can be smoothly moved to places suited for cleaning
portions where imperfect cleaning is likely to occur and high risk
of dental diseases exists, and in cleaning at the position, a high
degree of operating freedom can be secured and effective motion of
bristles that removes dental plaque can be achieved. Thus, the
plaque removing capabilities can be enhanced. In addition, in the
present invention, as bristles which are implanted by anchorless,
tapered bristles are used, and this enables the bristles to easily
reach the gaps between neighboring teeth and gaps between the teeth
and the gums, and other narrow portions subject to high dental
disease risk, and the toothbrush can exhibit superb dental plaque
removing effects as compared to conventional toothbrushes.
[0021] Furthermore, in the case of regular tapered bristles (simple
tapered bristles), because of the taper shape formed to be thinner
towards the free end, when the tuft density is low, low elasticity
results and polishing and cleaning properties in flat portions of
teeth are likely to be lowered, but the toothbrush related to the
present invention can increase the tuft density as compared to the
case in which bristles are driven into tuft holes using anchor
because the bristles are thermally fixed to the bristle base.
Consequently, even though the tapered bristles are used, the tuft
achieves high elasticity and the toothbrush provides excellent
polishing and cleaning properties not only in narrow portions such
as the between the teeth and the gums or the gaps between
neighboring teeth but also in the teeth planar portions, and is
highly effective in removing dental plaque for the whole teeth and
excels in cleaning power.
[0022] In the toothbrush related to the present invention, there is
no case in that the free end is bent or the free end is not aligned
when bristles are fixed to the bristle base, because the free end
is elastic due to a plurality of split bristles at the free end of
bristles and the free ends of a plurality of split bristles are
brought in contact with the backplate surface in the case of
tapered bristles whose free end of the foregoing (1) is split, and
because the free end is elastic due to core bristles and the core
bristles are brought in contact with the backplate surface in the
case of tapered bristles in which the cross-sectional shape of the
foregoing (2) has a core-sheath structure or islands in a sea
structure and tapered bristles in each of which a core bristle
including a core or island portion has been formed beforehand so as
to be exposed at the free end, when the brush surfaces composed
with the free ends of tufts and bristles are adjusted to achieve a
desired shape by bringing the free end of bristles is brought in
contact with the backplate in the event that bristles are fixed to
the bristle base without using anchor, because for the bristles
which compose the bristled part, tapered bristles of specific
structures of foregoing (1) to (3) are used. Consequently, it is
able to form the tuft free-end shape and the brush surfaces
composed by the bristles free-end into optional shapes by forming
the portion of the backplate which the free end of the bristles
come in contact with into a desired shape.
[0023] Furthermore, as is the case of the present invention, when
bristles processed to have tapered free end in advance are
implanted to the bristle base, in the case of conventional
implantation using anchor, the free end is unable to be aligned by
trimming after implantation and the bristled surface is kept as
implanted, and bristles are folded in a U-shape at the bristles are
held between the tuft hole bottom surface and anchor and a slight
level difference is generated at the folded position, and this
level difference causes the bristled surface to be unaligned, and
it is therefore unable to manufacture a toothbrush having the
bristled surface with an aligned free end using bristles with the
free end processed in advance. On the other hand, the toothbrush
according to the present invention, by anchorless implantation, a
toothbrush that has the bristled surface with a free end aligned to
specific shapes such as protruded, recessed, uneven, and all other
surfaces, not to mention a flat surface can be obtained, and a
toothbrush with higher cleaning capabilities and higher effects in
removing dental plaque can be provided.
[0024] In the event that bristles of the toothbrush are fixed to
the bristle base by the thick portion formed at the base end
portion, an undercut section is formed between the thick portions
and the bristled surface and by the anchor effect of the thick
portion, the fixing strength of bristles to the bristle base is
increased, and the bristles are difficult to drop from the bristle
base, which is preferable. Furthermore, in the event that the thick
portion is composed with a fused mass formed by heat-fusing the
base end portion of bristle tufts, drop of bristles can be
definitely prevented by bristles which are heat-fused each
other.
[0025] By keeping the bristle base thickness of the toothbrush to
not more than 3.5 mm, a toothbrush that achieves superb ease of use
in the oral cavity and highly attractive appearance can be
obtained.
[0026] In the event that as the tapered bristles, those with
tapered split bristles formed at the bristle free end in the
quantity that conforms to a number of unit cross-sectional elements
linked are used by using synthetic resin filaments which have a
cross-sectional shape with the plurality of unit cross-sectional
elements linked and whose free ends are immersed in alkali, acid,
or other chemical solutions, the toothbrush has excellent
suitability for bristle insertion into narrow portions by a
plurality of split bristles formed at the free end and provides
superb elasticity of bristles and achieves outstanding dental
plaque removing effect, though the bristles come in soft contact
with the gums and are free of damaging the gums or free of causing
a user to feel pains.
[0027] In addition, in the event that the tapered bristles have a
cross-sectional shape having a core-sheath structure and islands in
a sea structure, or tapered bristles in each of which a core
bristle having a core or island part has been formed so as to be
exposed at the free end, the toothbrush has excellent suitability
for bristle insertion into narrow portions by a plurality of split
bristles formed at the free end and provides superb elasticity of
bristles and achieves outstanding dental plaque removing effect,
though the bristles come in soft contact with the gums and are free
of damaging the gums or free of causing a user to feel pains.
Furthermore, a toothbrush in which the sheath portion or the sea
portion is formed to become thinner towards the bristle free end
not only provides soft contact with the gums but also has excellent
suitability for bristle insertion into narrow portions.
[0028] In the event that polyester resin is used for the material
of the bristles, the bristle free end can be easily processed to be
tapered or to form split bristles by immersing in alkali chemical
solutions such as NaOH, etc. In the event that nylon resin is used
for the material of bristles, bristles with outstanding elasticity
and durability can be obtained even if they are processed to be
tapered. Furthermore, in the case of tapered bristles which have a
sectional shape having a core-sheath structure or islands in a sea
structure in which the core portion or the island portion is made
of nylon resin and the sheath portion or the sea portion is
polyester resin, immersing the bristle free end in the chemical
solution as described above forms core bristles with the sheath
portion and the core portion formed with nylon resin exposed at the
bristle free end, and tapered bristles in which the sheath portion
or sea portion made of polyester resin grow thinner towards the
bristle free end can be easily manufactured and at the same time, a
toothbrush with highly elastic bristles and superb durability can
be obtained by the nylon resin of the core portion.
[0029] In addition, by configuring the bristled part with at least
two types ob bristles of different specifications such as material,
thickness, cross-sectional shape, length, free-end shape, etc.,
cleaning capabilities, durability, etc. can be freely established
in accord with principal objects of toothbrushes manufactured, such
as removal of dental plaque, massage of the gums, etc.
[0030] In the case of a toothbrush whose brush surface composed
with bristle free end in the bristled part is not flat, for
example, a toothbrush whose brush surface has irregularities and
furthermore, in the case of a toothbrush whose brush surface has
irregularities in both length direction and width direction of the
bristled part, the bristle insertion into narrow portions such as
the gaps between neighboring teeth and gaps between the teeth and
the gums can be improved by the protruded portion in the brush
surface, and a toothbrush with still greater effect of dental
plaque removal and cleaning capabilities can be obtained.
[0031] The toothbrush related to the present invention can be
easily manufactured by thermally fixing bristles to the bristle
base without using anchor by, for example, the in-mold process or
fused-in process.
BRIEF DESCRIPTION OF THE DRAWINGS
[0032] FIG. 1 is a front view showing one embodiment of a
toothbrush according to the present invention;
[0033] FIGS. 2(a) to (d) are enlarged cross-sectional views of a
principal portion (bristled part) of the toothbrush;
[0034] FIGS. 3(a) and (b) are enlarged cross-sectional views of a
principal portion (bristled part) of a toothbrush of another
embodiment;
[0035] FIG. 4(a) is an enlarged view of a free end portion of split
bristles and FIGS. 4(b) to 4(h) are cross-sectional views of split
bristle filaments;
[0036] FIG. 5(a) is a front view of bristles with a plurality of
core bristles protrudably formed at the free end, FIG. 5(b) is the
perspective view, and FIGS. 5(c) to 5(e) are cross-sectional views
of filament which has a islands in a sea structure;
[0037] FIG. 6(a) is a perspective view of another embodiment of
bristles with a plurality of core bristles protrudably formed at
the free end and FIG. 6(b) is a cross-sectional view of filaments
of the bristles;
[0038] FIG. 7(a) is a perspective view of bristles with a single
core bristle protrudably formed at the free end and FIG. 7(b) is
the cross-sectional view;
[0039] FIG. 8(a) is a perspective view of bristles with a single
core bristle protrudably formed at the free end and FIG. 8(b) is
the cross-sectional view;
[0040] FIG. 9(a) is a perspective view of bristles with a single
core bristle protrudably formed at the free end and FIG. 9(b) is
the cross-sectional view;
[0041] FIG. 10(a) is a perspective view of bristles with a single
core bristle protrudably formed at the free end and FIG. 10(b) is
the cross-sectional view;
[0042] FIGS. 11(a) to 11(c) are cross-sectional views of a filament
which has a sectional shape having a core-sheath structure;
[0043] FIG. 12(a) is a front view of a bristled part and FIG. 12(b)
a side view to explain the distribution of bristles;
[0044] FIG. 13(a) is a front view of a bristled part and FIG. 13(b)
a side view to show one embodiment of a brush surface;
[0045] FIG. 14(a) is a front view of a bristled part and FIG. 14(b)
a side view to show another embodiment of a brush surface;
[0046] FIGS. 15(a) to 15(e) are illustrations of a toothbrush
manufacturing process by an insert process;
[0047] FIGS. 16(a) to 16(c) are illustrations showing an embodiment
by another insert process;
[0048] FIGS. 17(a) to 17(c) are illustrations of a toothbrush
manufacturing process by another insert process;
[0049] FIGS. 18(a) to 18(f) are illustrations of a toothbrush
manufacturing process by an insert process using a bristled part
cover;
[0050] FIGS. 19(a) to 19(c) are illustrations of a toothbrush
manufacturing process by a fuse-in process;
[0051] FIGS. 20(a) to 20(c) are illustrations of a toothbrush
manufacturing process by a fuse-in process;
[0052] FIGS. 21(a) to 21(c) are illustrations of a toothbrush
manufacturing process by a fuse-in process;
[0053] FIGS. 22(a) and 22(b) are illustrations of a method for
forming a brush surface into a specified shape; and
[0054] FIGS. 23(a) to 23(c) are illustrations of a method for
forming a free end of the bristle tuft to a specified shape.
DESCRIPTION OF REFERENCE NUMERALS
[0055] 1 Toothbrush [0056] 2 Bristles [0057] 3 Bristle tuft [0058]
4 Bristled part cover [0059] 10 Brush main body [0060] 11 Bristled
part [0061] 12 Bristle base [0062] 13 Neck [0063] 14 Block handle
[0064] 31 Thick portion [0065] f Brush surface
BEST MODE FOR CARRYING OUT THE INVENTION
[0066] FIG. 1 is a front view showing one embodiment of a
toothbrush related to the present invention. A toothbrush 1 is
equipped with a brush main body 10 made of synthetic rein, a
bristled part 11 installed to a bristle base 12 of the main body
10. The brush main body 10 includes, for example, the bristle base
12, a neck 13, and a block handle 14, which are integrally formed
by injection molding of synthetic resin such as polypropylene. This
toothbrush 1 is a so-called anchorless toothbrush, in which the
bristled part 11 mounted to the bristle base 12 is formed by
thermally fixing tufts 3 formed by bundling a plurality of bristles
2 whose free end is taper-processed in advance to the bristle base
12 of the brush main body 10 without using any anchor.
Specifically, for example, as shown in FIG. 2(a), thick-wall
sections 31 composed with a fused mass in which a plurality of
bristles 2 that compose tufts 3 are fused each other are formed at
the base end portion 3b embedded in the bristle base 12 in the
tufts 3, the thick portions 31 are heat-fused each other to
synthetic resin that composes the bristle base 12 and at the same
time, by anchor effects by the thick portions 31 formed into a
large diameter by the diameter of tufts 3, tufts are firmly fixed
to the bristle base 12. The thick portions 31 may be embedded right
below a surface (bristled surface) 12a of the bristle base 12 as
shown in FIG. 2(a) but the thick portions 31 may be embedded inside
the bristle base 12 as shown in FIG. 2(b). In addition, as shown in
FIG. 2(c), on the surface side (bristled surface side) of the
bristle base 12, the thick portions may be formed by integrally
fixing a bristled part cover 4 formed a plurality of tuft holes 41
. . . that conform to the size (tuft diameter) and position of the
tufts 3 implanted in the bristle base 12. Furthermore, in such
event, the thick portions 31 formed at the base end portion of the
tufts 3 may be installed in contact with the bottom surface of the
bristled part cover 4 as shown in FIG. 2(c) or the thick portions
31 may be embedded inside the bristle base 12 located lower than
the bristled part cover 4 as shown in FIG. 2(d). Furthermore, as
shown in FIGS. 3(a) and 3(b), an annular groove 5 may be formed on
the surface 12a of the bristle base 12 around the tufts 3. This
groove 5 prevents molding material of the brush main body 10 from
running off from the bristled surface 12a around the tufts 3 when
manufacturing the toothbrush 1 by an in-mold process described
later.
[0067] The toothbrush 1 related to the present invention is able to
reduce the thickness of the bristle base 12 by shallowing the
embedding depth of bristles in the bristle base 12 because the
toothbrush 1 is formed by thermally fixing bristles to the bristle
base 12 of the brush main body 10 without using anchor. Excessively
small thickness of the bristle base 12 poses problems from the
aspect of the strength; for example, at 2.0 mm or less, the
strength becomes insufficient but there is no limitation other than
that, and the thickness is preferably less than 5.0 mm, and more
suitably 4.0 mm or less, and still more preferably, 3.75 mm or
less. By achieving this kind of thickness, a toothbrush which
provides increased ease of use in the oral cavity as well as which
is preferable from the viewpoint of attractive appearance can be
manufactured. There is no limitation to the plane shape of the
bristle base 12 and others.
[0068] As a method to fuse the base end portion 3b of tufts 3 to
form the thick portions 31, a method by heating, method by
ultrasonic vibrations, method by solvent, etc. may be mentioned,
but since the tufts 3 are formed by bristles made of thermoplastic
resin filaments, the method by heating is preferable because it is
easy and reliable. Examples of fusing method by heating include a
method by flame, a method of spraying heated gas, for example,
inert gas, a method for bringing a heated plate in
pressure-contact, etc.
[0069] FIG. 4(a) shows one embodiment of bristles 2 used for a
toothbrush related to the present invention and is an example of
tapered bristles that have split free ends (split bristle 21) which
have been tapered beforehand. The bristles (tapered bristles) 2
which have split bristles 21 at the free end have cross-sectional
shapes with a plurality of unit cross-sectional elements 22 of
various kinds of shapes such as circle, ellipse, triangle, hexagon,
etc. as shown in FIGS. 4(b) to 4(h). In addition, the
cross-sectional shape may be a multi-lobe type cross-section with
single or a plurality of lobe portions with cross sectional areas
different from that of a specific robe portion connected to the
circumference of the lobe portion via a bond portion with a wall
thickness thinner than the minimum cross-sectional size of a lobe
portion with a minimum cross sectional area. In such event, the
number of lobe portions may be preferably 2 to 5 pieces from the
practical viewpoint, but the present invention shall not be limited
to the quantity of lobe portions but the quantity of lobe portions
shall be determined in accord with the intended use. By immersing
the synthetic resin filament F in a caustic soda (NaOH) or other
chemical solutions and pulling it out, a plurality of tapered split
bristles 21 are formed at the free end as shown in FIG. 4(a). In
such event, the shape and the length of the split bristle 21 can be
optionally adjusted by the concentration of the chemical solutions,
immersing time, pulling out speed from the chemical solutions, etc.
As a material of synthetic resin filament F which composes bristles
2, nylon, aramid, and other polyamide resins, polybutylene
terephthalate (PBT), polypropylene terephthalate (polytrimethylene
terephthalate, PPT or PTT), or polyethylene terephthalate (PET),
and other polyester resins, polypropylene (PP), polyethylene (PE)
and other polyolefin resins, and other publicly known synthetic
resins can be used for bristles of a toothbrush.
[0070] The bristles 2 with the tapered split bristle 21 formed have
the length from the split point to the free end to be 1/2 or less,
preferably 1/3 or less, of the brush height (that is, bristle
length) in the implanted state. In addition, the cross-sectional
area on the base end side from the split point, that is, a portion
(bristle base) to which no melting treatment is provided varies in
accord with the cross-sectional shapes, etc., but should be
generally between 0.001 and 0.5 mm.sup.2, and more suitably between
0.01 and 0.2 mm.sup.2. In the event that the cross sectional area
of the bristle base is less than 0.001 mm.sup.2, weak bristle
elasticity results and the bristle lacks necessary rigidity for
polishing and cleaning teeth, and in the event that the cross
sectional area of the bristle base exceeds 0.5 mm.sup.2, the thick
bristle results and inferior insertion into narrow portions occur.
Consequently, with related elements such as cross-sectional shape,
material, etc. taken into account, the cross sectional area shall
be appropriately decided with this lower limit and the upper limit
used as a reference. In the case of bristles with two kinds of
split bristles of different lengths, it is preferable that the
length of shorter split bristle is within a range of 1/10 to 2/3 of
the length of the longer split bristle. In the event that the
length of shorter split bristle is shorter than 1/10 of the length
of longer split bristle, polishing and cleaning effects by shorter
split bristles are small while in the event that it is longer than
2/3, the effects of having nonuniform lengths of split bristles are
unable to be thoroughly exhibited.
[0071] Furthermore, FIGS. 5(a) and 5(b) show another embodiment of
tapered bristles 2 with split free ends, but the bristles 2 is
composed with synthetic resin filaments F which have a
cross-sectional shape having a core-sheath structure or islands in
a sea structure, and have, in the illustrated example, three core
bristles 24 protrudably formed from a sheath portion 23. The
bristles 2 with split free ends with the plurality of core bristles
24 protruded from the free ends of the sheath portion 23 composing
the outer surface of bristles 2 can be manufactured as shown in
FIGS. 5(a) and 5(b) by immersing the composite synthetic resin
monofilament F (hereinafter called the composite monofilament)
having a core portion 26 composed with material with, for example,
nylon, aramid, and other polyamide resins used as main components
and having the sheath portion composed with material with, for
example, polybutylene terephthalate and other polyester resins used
as main components, that is, for example as shown in FIGS. 5(c) to
5(e), the composite filament F having a islands in a sea structure
with the polyester resins used for a sea portion 25 and the nylon
resins used for an island portion 26, in a chemical solution such
as caustic soda (NaOH) and pulling them out to dissolve and remove
the sea portion 25 from the free end and thereby exposing the
island portion 26. In such event, it is possible to suitably adjust
the taper shape at the sheath portion 23 free end or exposed length
of the core bristles 24 by adjusting the concentration of chemical
solution, immersing time, pulling out speed from the chemical
solution, etc. Furthermore, as shown in FIG. 6(b), by immersing the
synthetic resin filament F having a cross-sectional shape with a
plurality of unit cross-sectional elements 22 connected and having
each unit cross sectional element 22 that has a core-sheath
structure or islands in a sea structure in a chemical solution such
as caustic soda (NaOH), etc. and pulling them out, bristles 2 with
core bristles 24 protrudably formed from each free end of a
plurality of tapered split bristles 21 as shown in FIG. 6(a) can be
obtained, too.
[0072] The size of bristles with a plurality of core bristles 24
protrudably formed from the free end of the sheath portion 23 is
preferably between 0.150 and 0.300 mm for the diameter on the base
end side (core-sheath composite portion), between 0.03 and 0.07 mm
for the diameter of a core bristle 24, between 0.2 and 4.0 mm for
the core bristle exposed length, and furthermore, between 0.5 and
4.0 mm for the core bristle exposed length. In addition, the length
from the bristle base portion to the free end is preferably between
7 and 11 mm. Furthermore, when the diameter of the base end portion
is assumed to be 100%, with the boundary between the exposed core
bristle 24 and the composite portion set as a base point, it is
preferable that taper-processing is provided to the end portion of
the composite portion so that the diameter is 70.+-.15% at the
location 1 mm closer to the composite portion side from this base
point, 89.+-.8% at the location 3 mm closer, and 93.+-.7% at the
location 5 mm closer. When the diameter of the composite portion is
between 0.150 and 0.300 mm, the diameter of the core bristle 24 is
between 0.03 and 0.07 mm, and the exposed length of core bristle 24
is between 0.2 and 4.0 mm, then, the suitability for bristle
insertion into subtle points inside the oral cavity, attainment
level to the depth in the subtle points inside the oral cavity, and
dental plaque removal action by reached core bristles 24 become
still more preferable, and furthermore, in the event that the
exposed length of the core bristle 24 is between 0.5 and 4.0 mm,
the suitability for bristle insertion into subtle points inside the
oral cavity, attainment level to the depth in the subtle points
inside the oral cavity, and dental plaque removal action by reached
core bristles 24 become all the more preferable. When the length
from the bristled base portion of the implanted islands in a sea
type composite fiber to the free end is within the range from 7 to
11 mm, satisfactory elasticity in obtaining cleaning effects can be
obtained and at the same time, excellent suitability for bristle
insertion into the gaps between neighboring teeth can be obtained,
and excellent ease of use can be achieved, too.
[0073] FIG. 7 shows another embodiment of bristles used for the
present invention, which is an example of tapered bristle that has
a cross-sectional shape having a core-sheath structure or islands
in a sea structure, and is preferably formed in a taper in which a
sheath portion or sea portion composed with material preferably
with polyester resin as a main component becomes thinner towards
the free end, and single core bristle 24 composed with material
preferably with polyamide resin as a main component exposed at the
free end. Specifically, as shown in FIG. 7(b), on the free end side
of the composite monofilament F which has a cross sectional shape
of core-sheath structure with the sheath portion (sea portion) 25
disposed around one core portion (island portion) 26, the core
portion 26 is exposed and the core bristle 24 is protruded at the
free end as shown in FIG. 7(a). In the case of composite
monofilament F of the core-sheath structure, of the cross sectional
area, that is, the cross-sectional area of the whole composite
monofilament F containing the core portion 26 and the sheath
portion 25, the cross sectional area of the core portion 26 is
preferably between 15 and 80% and more suitably between 40 and 80%.
By this, in the thermal-fixing operation to the bristle base 12, it
is possible to prevent the free end from being bent or becoming
nonuniform, while suitable elasticity is being maintained on the
bristle base end side, and superb subtle portion cleaning
capabilities are being exhibited without damaging the gums by the
core bristle 24 with 15-80% cross-sectional area exposed on the
free end side.
[0074] The method for exposing a core portion is the same as that
to expose a plurality of core portions shown in FIGS. 5 and 6, but
in the event that a single core portion 26 is exposed, a means for
removing a sheath portion by a mechanical method is adopted in
addition to the chemical method. In the case of a method of
chemical removal, for example, the free end side of a composite
monofilament F in which polyamide resin is adopted for the core
portion 26 and polyester resin adopted for the sheath portion 25 is
immersed in an alkaline chemical solution, etc. to expose the core
portion 26 and bristles 2 with the core bristle 24 protruded at the
free end can be configured.
[0075] At the free-end side edge of the sheath portion 23 (25)
dissolved as above, a taper portion 27 that continues to the core
bristle 24 is inevitably formed, but the taper angle, etc. can be
easily adjusted by controlling the immersing time, etc. Forming the
taper portion 27 can improve suitability for bristle insertion into
and accessibility to narrow portions of the oral cavity.
[0076] The cross sectional shapes of the composite monofilament F
and its core portion 26 shown in FIG. 7(b) are nearly circular,
respectively, and the outside diameter b2 of the composite
monofilament F is set to 0.16 mm to 0.25 mm, and the outside
diameter b1 of the core portion 26 is set to 40-90% of the outside
diameter of the composite monofilament F, and more preferably to
60-80%. The bristle length from the bristled base portion to the
free end of implanted bristles 2 is preferably between 6 and 12 mm.
Excessively long bristles degrade the brush operability in the
mouth and at the same time, bristle elasticity is lost and
satisfactory cleaning effects are unable to be obtained. On the
other hand, excessively short bristles decreases bristle
flexibility during brushing and poor use sensation results and at
the same time, the suitability for bristle insertion into the gaps
between neighboring teeth is degraded. In addition, the exposure
length of the core bristle 24 is set to 5-50% of the bristle length
and more suitably to 10-50%, and specifically to a suitable range
between 0.5 and 4.0 mm. In the event that the exposure length of
the core bristle 24 is less than 5% of the bristle length, the
toothbrush is inadequate to allow bristles to reach the gaps
between neighboring teeth, tooth necks, pits and fissures and the
like. Furthermore, the longer bristles 24 with the core portion 26
exposed, the higher are the cleaning effects on the narrow and deep
portions, while the durability lowers. The length of bristles 24
that can maintain practical durability is 50% or less of the
bristle length, and specifically, about 4.0 mm or less.
[0077] The free-end shape of exposed bristles 24 is optional, and
can be processed into a suitable shape such as semisphere, etc. In
the present embodiment, polyamide resin is used for the material of
the core portion 26 and the core bristles 24 exposed from the
sheath portion 23 are stretched straight cylindrically. By this, it
is possible to prevent the free end from being bent during the
thermal fixing operation to the bristle base 12.
[0078] FIG. 8 shows an example with a cross-sectional shape of a
core portion 26 as well as a core bristle 24 in which the core
portion 26 is exposed from a sheath portion 25 is nearly polygonal,
FIG. 9 shows an example with a plurality of protruded row portions
28 extending in the axial direction on the outer circumferential
surface of the core portion 26, and FIG. 10 shows an example with a
plurality of recessed grooves 29 extending in the axial direction
on the outer circumferential surface of the core portion 26 and the
core bristle 24.
[0079] As shown in FIG. 8, if the cross-sectional shape of the core
portion 26 is an approximate polygon with acute angle sections,
forming a cut-in portion in such a manner that the sheath portion
end portion remains as if it cuts into a recessed portion formed in
the core portion 26 can prevent the sheath portion from peeling off
from the core-portion exposed base end by the use and can increase
the durability in the core portion exposed base end. In the case of
FIG. 9 and FIG. 10, as is the case of the approximate polygon as
described above, a cut-in portion is formed in such a manner that
the sheath portion 23 end portion cuts into a protruded portion 28
or a recessed groove 29 and by the cut-in portion, peeling of the
sheath portion 25 end portion can be prevented.
[0080] FIGS. 11(a) and 11(b) respectively show a composite
monofilament F with an adhesive layer A interposed between the core
portion 26 and the sheath portion 25 for bonding the two portions
25, 26 and with this, peeling of the above-mentioned sheath portion
end portion can be definitely prevented. In addition, FIG. 11(c)
shows the composite monofilament F cross-sectional shape made
nearly analogous to the cross-sectional shape of the core portion
26, and by this, the thickness of the sheath portion 25 becomes
nearly uniform along the circumferential direction and the sheath
portion 25 is difficult to be peeled off from the core portion
26.
[0081] In bristles with core bristle 24 exposed at the free end as
shown in FIGS. 5 to 11, making the cross sectional shape of the
core bristle 24 nearly same throughout the full length in the axial
direction can achieve the bristles with elasticity at the free ends
and with excellent cleaning capabilities of narrow portions such as
tooth necks and the gaps between neighboring teeth. The bristles
with the core bristles 24 exposed at the free ends having a nearly
same shape throughout the full length in the axial direction can be
obtained by using a filament having a core-sheath structure or
islands in a sea structure with the core portion or the island
portion composed with the material consisting primarily of
polyamide resin with high chemical resistance such as nylon,
aramid, and with the sheath portion or the sea portion composed
with the material consisting primarily of polyester resin such as
polybutylene terephthalate, polyethylene terephthalate,
polytrimethylene terephthalate, etc., immersing in a chemical
solution such as alkali, etc., and removing the material of the
sheath portion or the sea portion at the free end portion by
melting.
[0082] By the way, all the bristles 2 which compose the bristled
part 11 may not always be tapered bristles but part only, for
example, the free end portion of the bristle base 12 only is made
into tapered bristles and the rest may be made into regular
round-ended bristles. For example, as shown in FIGS. 12(a) and
12(b), the above-mentioned tapered bristles may be implanted to at
least part of a free end portion 11A of the bristled part 11,
center portions 11B.sub.1 and 11B.sub.2, a rear end portion 110, a
right-side surface portion 11D, and a left-side surface portion
11E. In addition, as the tapered bristles, the free-end shape may
be varied in accord with each portion of the bristled portion 11 by
using various kinds of free-end shapes shown in FIGS. 4 to 11, and
at least two kinds of different specifications such as thickness,
cross-sectional shape, length, material, etc. may be used in
combination. Furthermore, in the event that bristles 2 other than
tapered bristles are included, those with different cross-sectional
shapes and materials may be combined. In addition, the arrangement
of bristles 2 (tufts 3) of the bristle base 12 is not particularly
limited and various arrangement forms can be adopted.
[0083] Because as described above, the toothbrush related to the
present invention is manufactured by a anchorless technique, the
bristle base is thin and excellent operability in the oral cavity
is achieved, accessibility of bristles to the risky portions of
contracting dental diseases and motion for removing dental plaque
at the relevant portions are enhanced, and the bristles 2 are
tapered bristles such as core-sheath bristles with tapered split
bristles 21 or core bristles 24 formed at the free ends, bristles 2
is easy to be inserted into narrow portions such as the gaps
between neighboring teeth and gaps between the teeth and the gums
and the thickness of the bristle base can be reduced by using no
anchor, and at the same time, the toothbrush related to the present
invention is not only highly effective in removing dental plaque
and cleaning the teeth but also the free-ends of bristles 2 that
compose the tufts 3 are not bent or the free ends are free from
misalignment at the time of fixing the tufts 3 to the bristle base
12 by bringing a plurality of split bristles 21 and core bristles
24 at the free ends in contact with the backplate surface when the
brush surface composed with free ends of tufts and bristles is
aligned to have a desired shape by bringing the free ends of
bristles into contact with the backplate, etc. when bristles 2 are
secured to the bristle base by the in-mold process or fused-in
process without using anchor. Consequently, it is possible to form
the free-end shapes of tufts or the brush surface configured by
bristles free ends into optional shapes by making the portion of
the backplate with which the free-ends of bristles 2 come in
contact into desired shapes. For example, as shown in FIGS. 13(a)
and 13(b), it is possible to form the brush surface f into a curved
shape where the center portion of the bristled part 11 is low
(short bristle length) and the bristled part 11 increases the
height (long bristle length) as it goes towards the circumferential
section. As shown in FIG. 14(a), in each of the tufts 3, the length
of bristles located at the center portion is made longer and the
length of bristles is made shorter as it moves toward the
circumference of the tufts 3, and thereby the brush surface f
composed with the free ends of bristles 2 have irregularities along
the length direction (axial direction of the toothbrush) of the
bristled part 11, and furthermore, as shown in FIG. 14(b), the
brush surface f also has irregularities in the width direction of
the bristled part (direction orthogonal to the axis of a
toothbrush), so that the brush surface f may have a
three-dimensional shape. Forming irregularities in the brush
surface f in this way can further improve the suitability for
bristle insertion into narrow portions, such as the gaps between
neighboring teeth and gaps between the teeth and the gums, and a
toothbrush with still greater dental plaque removing effects and
outstanding teeth cleaning capabilities can be obtained.
[0084] Next description will be made on methods for manufacturing
toothbrushes related to the present invention. For the toothbrushes
related to the present invention, any publicly known methods that
can thermally bond bristles 2 to a bristle base 12 of a brush main
body 10 are adopted without using anchor. However, since tapered
bristles with split bristles 21 or core bristles 24 formed in the
free ends beforehand are used as bristles 2 in the present
invention, the free ends of bristles 2 are unable to be processed
or cut after the bristles 2 are bonded to the bristle base 12.
Consequently, it is necessary to bring the free ends of the
bristles 2 in contact with a backplate, etc. and adjust the free
ends in advance at the time of bonding bristles to the bristle base
12 so that the desired brush surface f can be obtained.
[0085] First of all, FIG. 15 shows an example of a method of
bonding (implanting) bristles 2 to a bristle base 12 of a
toothbrush 1 by the insert process disclosed, for example, in
Examined Patent Publication (Kokoku) No. H6-16725 (Patent document
7). In the bristles 2 implanting method by this insert process, as
shown in FIG. 15(a), tufts 3 which bundle bristles cut into a
predetermined length in advance and having the free ends tapered
are inserted into tuft holes 101 pattern-arranged and formed in a
first mold member 100 from the base end side of the bristles by an
implanting machine not illustrated. The tuft holes 101 have
expanded opening portions 102 disposed in the vicinity of a front
surface 100a of the first mold member 100 to easily insert the
tufts 3. The thickness of the first mold member 100 is set to be
nearly equal to the length required for bristles 2 of a completed
toothbrush. The tufts 3 are inserted in the tuft holes 101 so that
they are protruded about 3 to 5 mm from a rear surface 100b of the
first mold member 100. Then, as shown in FIG. 15(b), a backplate
110 is pressed against the exposed portion of tufts 3 on the front
surface 100a side and is further brought in contact with the front
surface 100a to align free end portions 3a of each tuft 3 tapered
in advance, and after positioning the tufts 3 by the backplate 110,
heat is applied to base end portions 3b of the tufts 3 protruded
from the rear surface 100b of the first mold member 100 to melt the
tufts 3, and thick portions 31 are shaped. The above-mentioned
heating method shall not be particularly limited but a method for
spraying heated air or nitrogen, method for melting free of contact
by the use of radiation heat, etc., method for melting with burner
flames using gas such as natural gas, propane gas, or oxyacetylene,
etc., method for bringing a heated plate in contact, and other
various methods can be adopted. After forming the thick portions 31
by fusion-bonding the base end portion 3b of the tufts 3, the
backplate 110 is pulled away, and a clamp plate 120 and a second
mold member (brush forming mold) 130 are pressed against both sides
of the first mold member 100 as shown in FIG. 15(d). A mold is
composed with a part of the first mold member 100 that houses the
tufts 3 and forms one side of a mold cavity 140 and the second mold
member 130 that forms the other side of the cavity 140. The second
mold member (brush forming mold 130) has a separable cavity plate
131 and a core 132. In the cavity 140 formed as mentioned above, a
molding material M of the brush main body is injected from a
not-illustrated filling hole to fill the cavity, and the brush main
body 10 is molded. After molding, the cavity plate 131 and the core
132 are separated from the first mold member 110 to open the mold.
By this, the toothbrush 1 with brush surface f formed to be evenly
lined at the free ends of the bristles 2 (tufts 3) shown in FIG.
15(e) can be obtained.
[0086] FIG. 16 shows a toothbrush manufacturing method by the
insert process same as above, but this is a method stipulated in
Patent Publication No. 2732875 (Patent document 8). This method is
basically same as that of FIG. 15, but the tuft holes 101 of the
first mold member 100 which houses tufts 3 are extended in molding
cavity 140 by a sleeve 103. Tufts 3 are introduced in tuft holes
101 of the first mold member 110 until the base end portion passes
an opening of the sleeve 103 and runs into the molding cavity 140,
and the base end portion of tufts 3 is heated to fusion-bond and
thick portions 31 is formed. The thick portions 31 formed in this
way seals the opening of the sleeve 103 of the tuft holes 101 by
pulling, for example, the tufts 3. In such event, an undercut or a
recessed portion is formed between the back side of the thick
portions 31 and the opening edge of the sleeve 103, and then in
this recessed portion, material is injected to a closed injection
molding mold. By this, the thick portion 31 is embedded in a
bristle base 12 with a spacing left therebetween from the bristled
surface 12a of the brush main body 10 formed inside the cavity 140.
The sleeve 103 of the first mold member 100 forms a cylindrical
groove 5 between the bristle base 12 and tufts 3 after demolding
the mold. This groove 5 can be completely or sufficiently closed
before the molding material solidifies by early demolding of a
slidable sleeve 104 shown in FIG. 16(c). In such event, the molding
material enters the groove 5 by the action of pressure in the mold
but does not enter capillary spaces between individual bristles or
between bristles and tuft holes 101. In the embodiment shown in
FIG. 16(c), the tuft holes 101 are formed by a slidable sleeve 104,
and this sleeve 104 is guided in a throughhole 105 disposed in the
first mold member 100 densely and slidably on the outer
circumferential surface. The sleeve 104 has a cone-shaped tapered
portion at the free-end surface, and the thick portions 31 of the
base end portion of tufts 3 is formed toward this tapered portion.
Pulling back the tufts 3 before the molding cavity 140 is filled
with the molding material or before the material being filled is
solidified can seal the opening edge of the sleeve 104 by the thick
portions 31.
[0087] FIG. 17 shows a method stipulated in National Publication of
Translated Version No. H9-512724 (Patent document 9) of a
toothbrush manufacturing methods by the insert process same as
above. In this method, two porous plates 210 and 220 are disposed
with a spacing left mutually therebetween in a tuft cusset 200, and
between these porous plates 210 and 220, a tightening plate 230
which is movable in an arrow direction in the figure is disposed.
In this method, first of all, with the tightening plate 230 held
open, tufts 3 are guided into holes of porous plates 210 and 220 as
well as the hole of the tightening plate 230 until they protrude in
a predetermined volume from the porous plate 210 by being pressed
by a backplate 240. Then, as shown in FIG. 17(a), the tightening
plate 230 is closed a heating device 250 is moved to the protruded
end portion of the tufts 3, the base end portion 3b of the tufts 3
is heated with the heating device brought into contact or not
brought into contact, and melted to form the thick portions 31.
Then, as shown in FIG. 17(b), the tightening plate 230 is moved to
the opening position and at the same time the tufts 3 are further
pressed and positioned into a cavity not illustrated by the
backplate 240, the tightening plate is moved to the closed position
again, and the holes are filled with molding material. By this, as
shown in FIG. 17(c), the thick portions 31 is embedded in the
inside of the bristle base 12 with the groove 5 formed around the
tufts 3, and a toothbrush is obtained with the tufts 3 bonded to
the bristle base 12.
[0088] In addition, FIG. 18 shows a method stipulated in Japanese
Unexamined Patent Publication No. 2003-102552 (Patent document 11)
of a toothbrush manufacturing methods by the insert process as is
the case with the foregoing. In FIG. 18(a), reference numeral 300
denotes a first mold member which is one party of the injection
molding molds which have a pair of mold members that form a cavity
to form a brush main body 10 of a toothbrush, and recessed portions
302 for mounting a bristled part cover 4 is formed in the
cavity-side inner surface 301. In addition, to the recessed
portions 302 for mounting the bristled part cover, a plurality of
tufts holding holes 303 which correspond to the implanting
positions of a plurality of tufts 3 which bundle a large number of
bristles 2 are provided, and around the cavity-side opening section
of each tuft holding hole 303, tubular protrusions 304 are formed.
In addition, reference numeral 4 shows a bristled part cover
integrally secured to the surface of the bristle base 12 of the
toothbrush, which is formed by injection molding, etc. in advance
by molding material such as synthetic resin or thermoplastic
elastomer, etc. To the bristled part cover 4, a plurality of tuft
holes 41 that agree with the tuft holding holes 303 of the first
mold member 300 are formed, and to the opening edge of the surface
42 on the first mold member 1 side in each tuft hole 41, a tapered
annular recessed portion 43 which comes in close contact with the
tubular protrusion 302 formed around the tuft holding hole 303 of
the first mold member 300 is formed. And this tuft hole 41 of the
bristled part cover 4 is brought in line with the tuft holding hole
303 of the first mold member 300, the annular recessed portion 43
around the tuft hole 41 is concavoconvexly fitted to the tubular
protrusion 304 around the tuft holding hole 303 to mount the
bristled part cover 4 into the recessed portion 302 for mounting
the bristled part cover of the first mold member 300 in a nearly
close-contact state, and fixed to the cavity side of the bristled
part cover 4 with the cutting plate 320 mounted. To this cutting
plate 320, a plurality of tuft insertion holes 321 that agree with
the tuft holding hole 303 of the first mold member 300 and the tuft
hole 41 of the bristled part cover 4 are formed.
[0089] After the premolded bristled part cover 4 and the cutting
plate 320 are mounted and fixed to the cavity-side inner surface
301 of the first mold member 300 as described above, as shown in
FIG. 18(b), tufts 3 which have a large number of bristles 2 are
supplied from the tapered free-end side, and after inserting them
through tuft insertion holes 321 of the cutting plate 320,
implanting holes 41 of the bristled part cover 4, and the tuft
holding holes 303 of first mold member 300, the free-ends of tufts
3 are brought in contact with the backplate 330 to align the free
end portion 3a of the bristles 2, and after adjusting the brush
surface formed by the free-ends of bristles 2 to a predetermined
shape, each tuft 3 is cut by a cutter 340 along a cavity-side
surface 322 in the cutting plate 320 as shown in FIG. 18(c), and
the protrusion length of tufts 3 to the cavity side is aligned.
Thereafter, the cutting plate 320 is removed, and as shown in FIG.
18(d), the cavity-side protruded end portion (base end portion 3b)
of each of the tufts 3 is melted to form the thick portion 31. The
thick portion 31 is formed by heat-melting of synthetic resin
filament with contact or without contact by a heat source which has
heated the synthetic resin filament of bristles 2 that compose the
tufts 3 to a meltable temperature with the mold open or by
introducing air or inert gas heated to a temperature that can melt
the filament with the mold closed. The thick portion 31 is
preferably formed to be larger than the hole diameter of the tuft
hole 41 of the bristled part cover 4. In the case of melting the
filament without contact by the heat source or in the case of
melting the filament by heated air or inert gas, it is difficult to
adjust the thickness of the thick portions 31 as the molten
filament becomes a ball. On the other hand, in the case of forming
the thick portions 31 by thermally melting the filament F by
bringing the heat source in contact with the filament, it is
possible to reduce the thickness by pressing the heat source to the
molten mass, and it is also easy to adjust the thickness, and
therefore, the thickness of the whole bristled part in a toothbrush
can be reduced. After forming the thick portions 31 at the
cavity-side protruded end portion of tufts 3 as described above,
the second mold member 350 is adjusted to the first mold member 1
of the injection molding mold to form a cavity 360 to integrally
form the bristle base 12, the neck 13, and the block handle 14 of
the brush main body 10, the molten synthetic resin material as
molding material is injected and filled into the cavity 360 to
embed the base end portion of tufts 3 with the thick portions 31
formed in the molding material of the bristle base 12, and the
bristled part cover 4 is integrally secured to the molding material
of the bristle base 12. Thereafter, the first mold member 300 and
the second mold member 350 of the injection molding mold are opened
and at the same time, the tufts 3 are pulled out from the tuft
holding hole 303 of the first mold member 300, and a tooth brush 1
formed with the tapered free end aligned is taken out as shown in
FIG. 18(f).
[0090] According to the toothbrush manufacturing method as
described above, because the bristled part cover 4 is mounted to
the cavity-side inner surface 301 of the first mold member 300 with
the tuft holding holes 303 provided when filling the molding
material into the cavity 360, the thick portion 31 of the tufts 3
base end portion embedded to the bristle base 12 has at least the
implanted depth greater than the thickness of the bristled part
cover 4 secured and the uprightness is maintained. Furthermore, as
is the case with the above-mentioned embodiment, forming a tubular
protrusion 304 around the tuft holding hole 303 that is open to the
cavity-side inner surface 301 of the first mold member 300 and
providing an annular recessed portion 43 that comes in close
contact with the tubular protruded portion 304 around the tuft hole
41 of the bristled part cover 4 mounted to the cavity-side inner
surface 301 can prevent the leaked molding material from being
exposed directly to the surface of the bristled part cover 4
because the tuft holding hole 303 is open to the inside of the
bristled part cover 4 even if the molding material leaks to the
tuft holding hole 303 of the first mold member 300 via the tuft
hole 41 of the bristled part cover 4. In addition, by the
concavoconvex fitting between the tubular protruded part 304
provided in the first mold member 300 and the annular recessed
portion 42 provided in the bristled part cover 4, positioning of
the bristled part cover 4 becomes easy when the bristled part cover
4 is mounted to the cavity-side inner surface 301 of the first mold
member 300 and at the same time, the bristled part cover 4 can be
reliably mounted.
[0091] FIG. 19 shows a toothbrush manufacturing method by the
fuse-in process disclosed in Japanese Unexamined Patent Publication
No. H2-99002 (Patent document 12). In this method, tuft holes 6 are
formed in advance to a bristle base 12 of a brush main body 10. On
the other hand, the tufts 3 secured to the bristle base 12 are
inserted into housing holes 401 of the tuft holding member 400 from
the tapered free-end side, and with the tufts in contact with the
backplate 410 and the free ends of bristles 2 aligned, the base end
portion of the tufts 3 is heated and melted by various kinds of
heating method described above, and thick portions 31 is formed.
And while the thick portions 31 is in the molten state, as shown in
FIG. 19(b), tufts are press-fitted into a tuft hole formed in the
bristle base 12 of the brush main body 10. In such event, the
bristled surface 12a around the tuft hole 6 is softened by heat of
the thick portion 31 which is in the molten state by high
temperature and at the same time, rises by the pressure-fitting of
the thick portion 31 into the tuft hole 6, closing the opening edge
of the tuft hole 6. Thereafter, cooling and hardening of the thick
portion 31 inserted in the tuft hole 6 thermally fixes the tufts 3
including tapered bristles 2 to the thick portion 31 formed at the
base end portion as shown in FIG. 19(c).
[0092] FIG. 20 shows a toothbrush manufacturing method by the
fuse-in process same as that described above, and is a process
prescribed in Examined Patent Publication (Kokoku) No. H6-46962. In
this method, tufts 3 having a large number of bristles 2 are
allowed to pass tuft-holes 501 of a tuft holding body 500 with a
distance provided from a bristle base 12 of a brush main body 10,
the tapered free-end side 3a is brought in contact with a backplate
510 and the brush surface f formed with free-ends of bristles 2 is
aligned to a predetermined shape. Then, the bristled surface
(surface) 12a of the bristle base 12 and the base end portion 3b of
the tufts 3 are melted by a plate-form heater 520 disposed between
the both. The heater 520 moves between the bristle base 12 and the
tufts 3 and melts the base end portion of tufts 3 and the bristled
surface 12a of the bristle base 12, and then retracts. By melting
the base end portion 3b of the tufts 3, thick portions 31 are
formed. Under this condition, the tuft 3 and the bristle base 12
are brought closer, and the enlarged thick portions 31 are pressed
into the molten bristled surface 12a of the bristle base 12; then,
the molten portion flows into the back of the thick portions 31 as
if it surrounds this, and the tufts 3 are secured to the bristle
base 12. By this, as shown in FIG. 20(c), a toothbrush with the
tufts 3 thermally secured to the bristle base 12 with the brush
surface f formed at the free ends of bristles 2 adjusted to a
predetermined shape can be obtained.
[0093] FIG. 21 shows another embodiment of a toothbrush
manufacturing method by the fuse-in process. In such event, tuft
holes 6 are provided in advance to a bristled surface 12a of a
bristle base 12 or as shown in FIG. 21(a), a toothbrush is
manufactured by a heater 520 which has individual pin-shape heaters
521. In this method, when the bristled surface 12a of the bristle
base 12 is melted, the molten molding material is eliminated
towards the outside to an annular edge 12b protruded from the
bristled surface 12a of the bristle base 12 and at the same time,
the base end portion of tufts 3 is melted to form thick portions 31
in the same manner as described above. After the heater 510 is
retracted, the bristle base 12 is brought close to the tufts 3, and
a further shown in FIG. 21(b), the thick portions 31 are
press-fitted to the tuft holes 6. By this, the molten material of
the annular edge 12b flows into the back of the thick portions 31
as if it surrounds this, and as shown in FIG. 21(c), a toothbrush
with a swollen portion 12c formed around the relevant tufts 3 on
the bristled surface 12a of the bristle base 12 can be
obtained.
[0094] Because the toothbrush related to the present invention has
bristles 2 tapered in advance thermally secured to the bristle base
of the brush main body 10 with the free ends aligned by the insert
process, fuse-in process, etc., it is possible to form the brush
surface f formed by the bristles 2 into an optional shape. That is,
when the bristles 2 (tufts 3) are secured to the bristle base 12,
the brush surface f can be formed into an optional shape that
conforms to the shape of the backplate for aligning the free ends
of the bristles 2. For example, as shown in FIG. 13, in the event
that the brush surface f is formed into a curved shape in which the
bristles are high in the circumference of the bristled part 11 and
are low at the center, as shown in FIG. 22(a), the tufts 3 are
inserted into tuft holes 701 of a tuft holding member 700, and
using a backplate 710 whose front surface 711 in contact with the
free-end side of the tufts 3 is formed into a desired curved shape,
the shape of the bristled surface composed with bristles 2 is
adjusted; then, the base end portion side of the tufts 3 protruded
from the tuft holding member 700 is trimmed. In such event, a
cutting plate 720 is piled over the tuft holding member 700, the
free ends of the bristles 2 are brought in contact with the
backplate 710 and aligned; then, the base end portion of the tufts
3 is cut by a cutter 730 along a surface of the cutting plate 720,
and the tufts 3 which protrude from the tuft holding member 700 can
be easily trimmed. Thereafter, as shown in FIG. 22(b), by a
suitable means described above, the base end portion of the tufts 3
is heated and melted to form the thick portions 31, and the tufts 3
are secured to the bristle base 12 by the in-mold process, fuse-in
process, etc. By this, a toothbrush with the brush surface f formed
into an optional shape, such as a toothbrush with the brush surface
f curved as shown in FIG. 13, etc. can be manufactured.
[0095] With respect to the free-end shape of each tuft 3, for
example as shown in FIGS. 23(a) to 23(c), a contact surface 801 of
a backplate 800 that aligns the free ends of bristles 2 in contact
with tufts 3 may be formed into a conical shape, dish shape, etc.
and the free-end shape of the tuft 3 can be formed into any
optional shapes.
[0096] Description has been made on a manually operated toothbrush
1 which has a long block handle 14 but the toothbrush of the
present invention can be applied as a brush of electrically
operated toothbrushes, whose block handle is formed short and which
is mounted to a brush main body equipped with a drive means to
vibrate the bristled part 11.
EXAMPLES
[0097] The cleaning capabilities and strength were evaluated for
toothbrushes of various specifications as follows
(1) Toothbrush Specifications Used for Evaluation
[0098] The shape of the tuft hole is circular and whose diameter is
1.7 mm. Evaluations were made using a toothbrush which had a total
of 21 holes, with 3 rows of tuft holes located along an axis
parallel to the longitudinal axis direction of the block handle and
with 7 tuft holes provided in each row. The thickness of bristle
base, bristles, and bristles implanting method were chosen in
conformity to the numerical values shown in Table 1. In addition,
bristle length sometimes varied greatly but bristles were trimmed
to 10 mm as much as possible.
(2) Evaluation Method of Cleaning Efficacy
Test Method
[0099] Ten subjects were asked to brush teeth for 3 minutes with
each toothbrush, and the amount of plaque adhering to the second
molar before and after brushing was measured by the Suzuki Method
"Journal of Japanese Society of Dental Health, 20(3), 9 (1971)" and
the removal ratio (%) was calculated. The Suzuki Method is a method
to measure plaque adhering to the tooth surface by the distance
from the gum line.
Evaluation criteria
[0100] The cleaning capabilities were evaluated by following
evaluation criteria. Table 1 shows the results.
.circleincircle.: 90% or more .smallcircle.: 85% or more .DELTA.:
80% or more x: less than 80%
(3) Evaluation Method of Strength
Test Method
[0101] The portion where fingers came in contact with the
toothbrush was fixed, and 1 kg load was repeatedly applied from the
bristled part side to the bristled part center at 0.4 Hz
frequencies until the bristled part broke. The number of
repetitions was counted.
Evaluation Criteria
[0102] The strength was evaluated by the use of the following
evaluation criteria. Table 1 shows the results.
.circleincircle.: 50,000 times or more .smallcircle.: 30,000 times
or more and less than 50,000 times .DELTA.: 10,000 times or more to
less than 30,000 times x: less than 10,000 times
[Table 1]
TABLE-US-00001 [0103] TABLE 1 Evaluations of cleaning capabilities
and strength Bristles Number Bristle base of Implanting thickness
free-end Cleaning method (mm) Form splits FIG. capabilities
Strength Example 1 Anchorless 4.0 Core-sheath 3 FIG. 5
.smallcircle. .circleincircle. split Example 2 Anchorless 3.5
Core-sheath 3 FIG. 5 .circleincircle. .circleincircle. split
Example 3 Anchorless 3.0 Core-sheath 3 FIG. 5 .circleincircle.
.smallcircle. split Example 4 Anchorless 3.0 core-sheath 1 FIG. 7
.circleincircle. .smallcircle. Example 5 Anchorless 3.0
Single-layer 4 FIG. 4(e) .circleincircle. .smallcircle. tapered
split free-end Comparative Anchor 5.0 Core-sheath 3 FIG. 5 .DELTA.
.circleincircle. example 1 split Comparative Anchor 5.0 core-sheath
1 FIG. 7 .DELTA. .circleincircle. example 2 Comparative Anchor 5.0
Single-layer 4 FIG. 4(e) .DELTA. .circleincircle. example 3 tapered
split free-end Comparative Anchorless 3.0 Regular 1 -- x
.smallcircle. example 4 bristles (single layer) Comparative Anchor
5.0 Regular 1 -- x .circleincircle. example 5 bristles (single
layer) Comparative Anchorless 3.0 Single-layer 1 *1 .DELTA.
.smallcircle. example 6 tapered free-end Comparative Anchor 5.0
Single-layer 1 *1 .DELTA. .circleincircle. example 7 tapered
free-end *1: Japanese Unexamined Patent Publication No.
H6-141923
(4) Discussion
[0104] The results of examples 1 to 5 indicate that toothbrushes
which have bristles of FIGS. 4(e), 5 and 7 implanted without anchor
achieve remarkably high cleaning capabilities at the second molar
which is the risky portion subject to dental diseases and is
difficult to clean. On the other hand, the results of comparative
examples 4 to 7 indicate that in the event that bristles are
regular bristles (single layer) or single-layer free-end tapered
bristles, not satisfactory cleaning capabilities were observed at
each portion irrespective of anchorless implantation and anchor
implantation. Furthermore, as viewed in comparative examples 1 to
3, even if the bristles of FIGS. 4(e), 5, and 7 are used, it is
unable to reduce the thickness of the bristle base, and therefore,
with the second mortar where the accessibility and the operability
at the site have large influence on the effects, satisfactory
cleaning effects are unable to be obtained.
INDUSTRIAL APPLICABILITY
[0105] Because the toothbrush according to the present invention
has a thin bristle base with bristles implanted by an anchorless
implantation method, as compared to toothbrushes with bristles
implanted by the use of anchor, the toothbrush head can be freely
handled in the oral cavity. Consequently, the toothbrush head can
be smoothly moved to the position suited to clean the portion which
is likely to be left unbrushed and which is highly subject to risk
of dental diseases, and in the cleaning action at the position, the
toothbrush can achieve a high degree of operating freedom, and the
motion of bristles that remove dental plaque becomes effective, and
the plaque removing capabilities can be increased. In addition,
because in the present invention, tapered bristles are used for
toothbrush bristles, according to the present invention, a
toothbrush which has excellent suitability for bristle insertion
into narrow portions subject to high risk of dental diseases such
as the gaps between neighboring teeth and gaps between the teeth
and the gums, and which is highly effective in removing dental
plaque can be provided.
* * * * *