[0001] This invention relates to toothbrushes and, more particularly, to interdental brushes.
[0002] An interdental brush is one which fits into spaces between and around the teeth.
This kind of brush is generally used by people who have special brushing needs. For
example, some bridges are suspensions which run between adjoining teeth. The biting
surface is present, but there is nothing under that surface and above the gum line.
Therefore, there is a problem of how best to clean under the bridge and against adjacent
teeth. Of course, there are many other places where similar interdental brushing problems
may occur. Such brushes are shown, for example, in U.S. Patent Nos. 3,559,226; 4,222,143;
4,387,479, and others.
[0003] When traveling or away from home, it is often inconvenient to carry and use long
handled interdental brushes of the types shown in the above cited patents. Therefore,
small portable devices are available which fit easily into a pocket or purse. These
devices often have two parts which include a handle , a brush integral with the handle,
and a cover that slips over the brush. Usually, the brush and handle are about two-inches
long, with a twisted wire brush projecting out the end of the handle. One such product
is marketed by Denticator Company, Inc., of Brisbane, California, under the name "SPIREX
V" compact bridge and space brush.
[0004] The handle and brush of the prior art devices are generally a rigid unit; therefore,
use of the unit is similar to holding a pencil of a comparable length and projecting
it into the back of the mouth, while trying to fit the point into a gap under a bridge
or between adjacent teeth. This kind of rigidity may require an extension of the cheek
or the use of two hands.
[0005] Once the gap is found, the brushing must occur without a loss of gap orientation
unless one is willing to go through the process of finding the gap again. Also, if
one brushes too vigorously and loses the gap while doing so, he may jab himself in
the gum or tooth and also bend the wire stem brush. Thus, interdental cleaning may
be difficult to perform, especially where visual contact is not easy to achieve.
[0006] Accordingly, an object of the invention is to provide new and novel interdental brushes
and, more particularly, to provide small and portable units which may be carried in
pocket or purse.
[0007] Another object of the invention is to provide an interdental brush which may be guided
into a brushing position responsive to the user's sense of touch. Yet another object
is to provide such a brush which may be guided into position by a slight change in
the attitude of the tip of a finger. Here, an object is to provide a brush with a
handle which may be flexed at the tip end, especially so that it may be used more
easily in the back of the mouth and other hard to reach places in the mouth. In this
connection, an object is to provide a brush which is bendable to a proper angle during
use and which can be straightened when not in use.
[0008] A further object is to provide a brush where very small movements at the tip of the
finger may be used to brush in the interdental spaces, thereby reducing the possibility
of jabbing the gum responsive to a loss of brush-to-tooth contact.
[0009] In keeping with an aspect of the invention, these and other objects are accomplished
by providing an interdental brush having a handle with a selected amount of flexibility
in a neck region at a junction between the handle and brush, while being substantially
rigid in the handle. The dimensions of the brush and handle are such that a small
amount of finger pressure upon the neck region causes the tip of the brush to deflect,
bend or flex to a convenient brushing angle. After use, the neck may be straightened
from the deflected position. The brush may be repeatedly bent and straightened for
repeated use. Furthermore, it may be bent at different angles to afford access to
different areas of the mouth. Thus, during brushing, one side of the interdental space
may be brushed by slightly increasing the deflection responsive to an added finger
pressure and the other side of the space may be brushed responsive to decreasing the
deflection by reduced finger pressure. If need be, the brush may be rolled between
the fingers to enable the finger tip to help straighten or to change the angle of
the tip. Thus, the brushing itself may be accomplished by slight movements of the
finger tip and thumb.
[0010] A preferred embodiment of the invention is shown in the attached drawing in which:
Fig. 1 is a side elevation of the inventive brush and cap, as it might be viewed by
the user;
Fig. 2 is a side elevation, partly in cross section, showing the inventive brush and
cap;
Figs. 3 - 6 are end views taken along lines 3-3 to 6-6, respectively, of Fig. 2;
Fig. 7 is an assembled showing of the cap and brush, as they appear while the brush
is being carried in packet or purse, for example;
Fig. 8 shows the brush in operation, illustrating how the brush is deflected responsive
to finger pressure;
Fig. 9 shows an alternative embodiment of the invention shown in Figs. 1-7;
Fig. 10 is a side elevation of an embodiment of the invention, with the top partially
broken away to show internal grooves within the cap, with the cap closed over the
handle;
Fig. 11 is a side elevation also showing the embodiment of figure 10 with the cap
on the bottom of the handle extending the length thereof; and
Fig. 12 is a cross sectional view of the cap of figure 1 also showing an enlarged
portion showing internal longitudinal ribs.
[0011] The brush of Figs. 1 and 8 include a handle 20 and a cap 22. The cap 22 is a cylindrical
member, having one end 23 closed. The other end 24 is open and slips over the brush
handle 20 with friction fit (as best seen in Fig. 7). Optionally, one or more vents
21 may be provided in the cap to facilitate drying of the brush after use. A reduction
in internal diameter, such as annular stop 25, limits the distance which the cap 22
may be slipped over the end of handle 20 and, therefore, protects the brush 26 from
the cap being jammed downwardly internal ribs 29 (Fig. 12) run longitudinally within
the cap 22 to provide added friction for holding the cap in place on the handle 20.
The added holding forces occur because it is impossible to mold plastic with a completely
circular interior to close enough tolerances to always fit snuggly. With the longitudinal
ribs, the cover will stretch slightly between the ribs on undersized tolerances and
yet the unstretched cap still holds on oversized tolerances. This holding force is
especially important if it is necessary to cover the brush after use and while it
is still wet, when there could be a tendency for the cap to slip off the handle.
[0012] In the embodiment of Fig. 2 the internal diameter of the cap is uniform throughout
the distance from the step 24 to the closed end 23 to give a smooth internal wall.
It is desirable for the outside of the handle 20 and cap 22 to be serrated with longitudinal
ribs so that they may be better manipulated by a person with wet hands. These ribs
add friction, in the mold between the cap 22 and walls of the cavity in which it was
formed.
[0013] Therefore, when the male'member of the mold parts is opened, it often slipped out
of the cap 22 with the smooth internal wall, thus leaving the cap 22 trapped inside
the female member of the mold. This required a knock-out pin which would leave unslightly
marks on the cap. To avoid this problem the male mold part is given a plurality of
circumferential grooves to form a number of ribs 25a, inside the cap 22. When the
male part of the mold is open, these ribs and grooves are engaged to provide enough
holding forces to overcome the friction between the cap 22 and the female mold part.
Thereafter the cap 22 may be knocked off the male part since the depth of the grooves
(or the height of the ribs 25a) is very shallow. To help with the knock-off without
causing a blemish on the cap, a smooth surfaced flange 24a is provided for on the
bottom of the cap. This flange also provides a controlled amount of resistance to
a flaring of the open end (i.e. it acts somewhat as a rubberband would art to hold
the cap 22 in place).
[0014] Handle 20 has a twisted wire brush 26 of any suitable design projecting longitudinally
therefrom. The opposite end 27 of handle 20 is solid. When the cap 22 is in place
on the handle 20, the brush 26 is kept clean and sanitary. When the cap 22 is placed
on the opposite end of the handle 20, the handle is made longer. The internal ribs
29 help secure the cap 22 on the opposite end of the handle 20 so that, together,
they provide a more secured tool which may be gripped with greater ease within the
hand and braced against the palm at the fleshy fold 34 between the thumb and the index
finger. The stop 25 limits the distance that the end of the handle 20 extends into
the cap 22.
[0015] The handle 20 is a solid member which is approximately a quarter-inch in diameter,
for a distance A, which may be about one-inch. Beginning at shoulder 28, the diameter
of a tip end 30 gradually reduces over a distance, which may be about one-quarter
inch, to an outer tip 31, which is also approximately one-quarter inch in length and
an eighth-inch in diameter. The wire stem 32 is exposed over a distance between the
top of tip end 31 and the bottom of brush 26 which is about one-sixteenth of one-inch.
[0016] The wire stem 32 of brush 26 extends through and is embedded in the tip end and handle
of the molded part. This wire stem continues for a substantial distance into the full
diameter section of handle 20, as shown, for example in Fig. 2. Preferably, the brush
stem 32 is molded into the plastic of the handle at the time when the handle is made.
To aid in preventing the brush from being pulled out of the handle, the end of the
wire may be bent or crimped, as shown at 36 in Fig. 9.
[0017] Longitudinal ribs 38 are provided in the handle 20 and the cap 22. These ribs enhance
the esthetic appearance of the product and give the handle and cap a better feel to
the user. The ribs also aid in removal of the cap from the handle, particularly after
the brush has been used.
[0018] In order to achieve a desired flexing characteristic, the handle 20 is preferably
made from a mixture of a thermoplastic elastomer, polymer material and a polypropylene
of a general purpose homopolymer grade. More particularly, in one embodiment which
was constructed and found satisfactory, the handle was made of approximately 80% "C-Flex"
and 20% "Polypropylene #5820".
[0019] The "C-Flex" material is manufactured by Concept Polymer Technologies, Inc. of 12707
U.S. 19 South, Clearwater, Florida 33546. In its technical data sheets, the manufacturer
reports that "C-Flex" has the following properties:

[0020] polypropylene #5820 (12 melt) is manufactured by the Shell Chemical Company, having
an address at 1415 West 22 Street, Oak Brook, Illinis 60521. The manufacturer of this
product describes its physical properties as follows:

[0021] Shell further describes this product as being a high flow, general purpose material
suitable for injection molding of intricate parts where long flow paths are involved.
An antistat component reduces electrical charges during processing and subsequent
storage, thereby reducing dust pickup. The manufacturer claims that the product has
an excellent flex life, good chemical and solvent resistance, high strength-to-weight
ratio, and exceptional stress cracking resistance.
[0022] Both of these materials meet exacting Federal standards for bio-medical use and for
making direct contact with food.
[0023] To further control the amount of flexing which may occur in the neck region 30, 31,
the diameter of wire stem 32 may be either increased or decreased somewhat and the
diameter and length of the neck region 30, 31 may be modified. It is thought that
those who manufacture the inventive brush will determine the best diameters and lengths
for themselves and for their own particular needs. In general, the wire stem of a
conventional interdental brush may be increased in diameter in the approximate range
of 10-50%.
[0024] The method of using the inventive brush is shown in Fig. 8. The length of handle
20 is such that, when the tip end 30 is held between the thumb and index finger, the
opposite end of the handle is captured and stabilized along the length of the finger.
Or, if the cap is in place on the end of the brush, its end might be captured in or
near the palm of the hand, as in the fleshy fold 34, which is between the thumb and
index finger. By pressing the index finger against the tip end 30 while holding the
handle 20 by the thumb, it is possible to deflect, bend, or flex, the brush to point,
more or less, in line with the finger tip. If the user wishes to point the brush in
another direction, the handle may be rolled between the thumb and index finger or
a small amount of thumb pressure may be applied to the brush to straighten it or bend
it to the othe- position. Thus, the flexed angle of the brush may be varied, at the
will of the user.
[0025] It is relatively easy to point one's finger at an object since the sense of touch
tends to assist the pointer. This makes the invention easy to use. On the other hand,
it is more difficult to point an instrument with a relatively long handle since the
instrument may be held at almost any angle and since the user cannot always take advantage
of the sense of touch to tell the user where the tip end of the long handled brush
is located. Moreover, none of the existing long-handled or other interdental brushes
have flexible tip ends similar to the inventive brush so their tip ends cannot be
deflected as in the inventive brush. While the tip end is held and deflected, as seen
in Fig. 8, use of the instrument is much more like pointing a finger since the method
of bending inherently tends to align the brush with the finger. This is an important
advantage over the prior interdental brushes.
[0026] Another factor is that, when the brush is held in the hand as seen in Fig. 8, it
is much easier to place the brush in the space between the teeth in the back of the
mouth as compared to attempting to position it when the brush is straight, as seen
in Fig. 1, because the natural curvature of the hand in this position is most appropriate
to reaching into that back of the mouth space. An advantage is that the portion of
the wire brush encased in plastic is more resistant to breaking from repeated or excessive
bending than would be the case if the wire were exposed.
[0027] The claims are to be construed to cover all equivalent structures which fall within
the scope and of the invention.
1. An interdental toothbrush comprising a handle having a first portion at one end
with a flexing capability which may be controlled by being held between a thumb and
index finger, and a second portion-which is relatively rigid and of a length which
enables the opposite end of the handle to be captured and stabilized in the hand,
brushing means having a brush with a twisted wire stem embedded in at least said first
portion of the handle and projecting from said first portion in axial alignment with
the handle, said controlled flexing of said handle being such that when said first
portion is held between said thumb and index finger a small amount of thumb and finger
pressure flexes said first portion of the handle to project said brush from said handle
at an angle responsive to a manipulation of the thumb and index finger which enables
said brush to be inserted into hard to reach places.
2. The toothbrush of claim 1 wherein the length is such that said second portion of
said toothbrush handle is captured along the length of the finger when said first
portion is held by the thumb and index finger.
3. The toothbrush of claim 1 wherein the length is such that said second portion of
said toothbrush handle is captured in approximately the palm of the hand when said
first portion is held by the thumb and index finger.
4. The toothbrush cf claim 2 wherein said first portion is approximately one-half
inch long and tapers for approximately one-quarter inch diameter near said second
portion to about one-eighth inch diameter, and said first portion has a tip at the
outer end which is about one-eighth inch in diameter and approximately one-quarter
inch long.
5. The toothbrush of claim 4 wherein said twisted wire brush has a diameter which
is selected to provide said controlled flexibility.
6. The toothbrush of claim 5 and cap means for covering said first portion and said
twisted wire brush.
7. The toothbrush of claim 6 wherein the cap means includes at least one internal
longitudinal rib for adding friction to secure the cap when in place over the handle.
8. The toothbrush of claim 6 or 7 wherein the cap has at least one internal circumferential
rib.
9. The toothbrush of any one of claims 6 to 8 wherein said cap means are adapted to
receive the second portion of the handle when the cap is removed from the first portion
and means are provided in said cap means for limiting movement of first and second
portions when they are inserted in the cap.
10. The toothbrush of claim 7 wherein the second portion of the handle and the cap
are provided with external longitudinal ribs extending along a major portion of their
lengths.
11. The toothbrush of any one of claims 1 to 10 wherein said handle is made from a
composition of approximately 80% of a thermoplastic elastomer polymer and approximately
20% of a general purpose polypropylene.