JP2008154901A - Interdental brush - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an interdental brush with sufficiently high durability and pull-out strength in twisted wires, capable of efficiently removing remaining food in an interdental part and plaque. <P>SOLUTION: A brush part 5 is horizontally formed with respect to a handle part 1 in the interdental brush. The root part of the twisted wires 6 to be exposed outward from the base seat 4 of the handle part 1 is covered with a nozzle 8. The thickness d of the nozzle 8 is in the range of 0.1-0.5 mm and the length L is in the range of 1-5 mm. The nozzle 8 is formed of a soft resin where flexural modulus by JIS K 7171 is in the range of 300-450 MPa. Consequently, the soft resin is flexibly bent by following the bending of the twisted wires 6, thereby protecting the root part of the twisted wires 6 and increasing durability and pull-out strength in the twisted wires 6. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an interdental brush used for cleaning an interdental portion that is difficult to clean by brushing with a normal toothbrush.

An interdental brush is an intraoral cleaning tool for efficiently removing food residues and plaque sandwiched between interdental parts that are difficult to remove by brushing with a normal toothbrush. It is known that it is very effective in preventing periodontal disease when used in combination with a toothbrush.
In general, an interdental brush is composed of a brush part in which a filament is sandwiched between twist wires and a handle part connected to the brush part via a neck part, and the brush part is inserted and pushed between teeth. The plaque and tartar accumulated between the teeth can be entangled and removed by the filament of the brush part.
However, a large burden is applied to the brush part to push and pull the narrow part between the teeth, and the twist wire breaks at the base of the brush part, or the twist wire embedded in the resin falls out Has occurred. Therefore, the durability and pull-out strength of the twisted wire are one of the most important qualities in the interdental brush.

In order to improve such quality, conventionally, as described in Patent Documents 1 and 2, in order to improve the strength of the wire itself, the twisted wire forming material has been improved. However, although the strength of the improved wire is high, the cost is high, and it is difficult to use it for an interdental brush in a general price range.
Therefore, measures for improving the shape of the interdental brush, the forming material of the handle portion, and the like have been studied for improving the durability of the twisted wire and the quality of the pulling strength.

  As described in Patent Documents 3 to 5, the shape of the interdental brush is an I-shaped interdental brush in which the neck portion is linear and the brush portions are arranged substantially parallel to the longitudinal direction of the gripping portion. As described above, there is an L-shaped interdental brush in which the neck portion is L-shaped and the brush portions are arranged substantially perpendicular to the longitudinal direction of the grip portion of the handle portion. The I-shaped interdental brush is easy to clean the interdental part of the front teeth, but because the shape is substantially straight, it may be difficult to insert between the teeth of the back teeth, and the L-shaped interdental brush is between the teeth of the back teeth Since the brush part is located substantially parallel to the gap, the back teeth are easier to clean than the I-shaped interdental brush.

In the case of an I-shaped interdental brush, the handle portion is often formed of a soft resin as a material for forming the interdental brush so that the brush portion can be easily bent. This is because if the handle part is hard, it is easy to bend at the boundary between the twisted wire and the resin, stress is concentrated on that part and the wire is easily broken, and the bending elastic modulus is applied to the handle part where the twisted wire is embedded. The purpose is to disperse stress and prevent breakage of the wire by bending the entire resin that wraps the twisted wire at the time of use using a soft resin having a low thickness. Furthermore, various improvements have been made to the shape and forming material of the handle portion in order to improve the durability and pulling strength of the twisted wire.
For example, in the technique described in Patent Document 3, the I-shaped interdental brush is formed so as to be elastic so that the neck bends with the force of a finger, and when the force is removed, the original state is restored.
Moreover, in the technique of patent document 4, in order to prevent breakage of a twist wire in an I-shaped interdental brush, the base end part of the twist wire is embedded in the neck part via the coil spring.
Further, in the technique described in Patent Document 5, in order to improve operability in the I-shaped interdental brush, the handle portion is formed so that the grip portion has an elliptical cross section and becomes tapered toward the neck. A twisted wire reinforcement is provided at the tip.

On the other hand, in the case of an L-shaped interdental brush, a relatively hard resin is generally used for the handle portion. This is because the L-shaped interdental brush is structurally shorter in the twisted wire embedment than the I-shaped interdental brush, the hooked portion of the twisted wire is small, and the pull-out strength is difficult to obtain. In addition, since force is applied in the vertical direction with respect to the vertical direction of the handle part and the neck part, if a soft resin with a low bending elastic modulus is used, it is easy to bend and the intraoral operability is deteriorated. is there.
Japanese Patent No. 2538533 Japanese Patent No. 3458627 No. 6-33853 Japanese Patent Laid-Open No. 9-56471 JP 2001-204549 A JP 2003-31830 A

  As described above, since the L-shaped interdental brush is different from the I-shaped interdental brush in terms of structure and operability, for the purpose of improving the durability of the twisted wire and the pulling strength, It has been difficult to apply the technique used for the I-shaped interdental brush as it is.

  In the technique described in Patent Document 6, in the L-shaped interdental brush, a hard resin is used for the handle portion, and the root portion of the twist wire that is exposed to the outside from the buried portion of the twist wire is made of the same hard resin as the handle portion. The protective body is covered, and the protective body is thinned so that the twisted wire and the protective body can be easily bent to distribute the stress. However, the durability of the twisted wire is often insufficient only by making the protective body thin, and a high-priced twisted wire with a special composition is sometimes used, leading to an increase in cost.

  The present invention has been made in view of the above circumstances, and can efficiently remove food residues and plaque sandwiched between the interdental parts that are difficult to remove by brushing with a normal toothbrush, and the torsion wire has sufficient durability and pull-out strength. An object of the present invention is to provide an interdental brush that is high and has good operability in the oral cavity.

  In order to solve the above problems, according to the interdental brush of the present invention, a brush part in which a plurality of filaments are sandwiched between two twisted wires, and the brush part and the grip part are connected via a neck part. An interdental brush in which the brush portion and the handle portion are integrated by providing a horizontal pedestal at the distal end of the neck portion and embedding a proximal end portion of the twisting wire in the pedestal. The base portion of the twisted wire exposed to the outside from the pedestal is covered with a nozzle, the thickness of the nozzle is in the range of 0.1 to 0.5 mm, the length is in the range of 1 to 5 mm, and the formation of the nozzle An interdental brush is characterized in that the material is formed of a resin having a flexural modulus in the range of 300 to 450 MPa according to JIS K 7171.

The interdental brush of the present invention may be characterized in that, in the handle portion, the minimum cross-sectional area of the neck portion is in a range of 10 to 40 mm ² .

  The interdental brush of the present invention is characterized in that at the base end portion of the twisted wire, at least one bent portion that does not align with the brush portion is provided, and the bent portion is embedded in the pedestal of the handle portion. be able to.

  The interdental brush according to the present invention may be characterized in that the shape of the bent portion is processed into a substantially V-shape.

  The interdental brush of the present invention may be characterized in that the bent portion is embedded in the pedestal so that the direction of the bent portion is convex toward the grip portion of the handle portion.

  According to the interdental brush of the present invention, in the interdental brush in which the brush portion is formed sideways with respect to the handle portion, the root portion of the twist wire exposed to the outside from the pedestal of the handle portion is covered by the nozzle, The nozzle is made of a soft resin having a thickness in a range of 0.1 to 0.5 mm and a length in a range of 1 to 5 mm, and a bending elastic modulus according to JIS K 7171 in a range of 300 to 450 MPa. Since it is formed, the soft resin can flex flexibly following the bending of the twisting wire, and the base portion of the twisting wire is protected, and the durability and the pulling strength of the twisting wire are improved.

Moreover, in the said handle | steering-wheel part, favorable intraoral operativity can be ensured, ensuring the intensity | strength of this neck part by making the minimum cross-sectional area of a neck part into the range of 10-40 mm < ² >.

  Further, at the base end portion of the twisted wire, at least one bent portion that does not align with the brush portion is provided, and the bent portion has any shape such as a substantially V shape, a substantially U shape, and a square shape. The bent portion is embedded in the pedestal of the handle portion, so that even if the twisted wire is pulled during interdental cleaning, the bent portion becomes a resistance, and the twisted wire tends to be lowered with a soft resin. The pulling strength of is improved.

  Further, by processing the bent portion into a substantially V shape, the twisted wire can be easily processed, and sufficient pulling strength of the twisted wire can be obtained.

  Further, the brush part and the handle part are integrally molded with an injection resin by embedding the bent part in the pedestal so that the direction of the bent part is convex toward the grip part of the handle part. In this case, even if the twisted wire is caused to flow by the injection pressure of the resin and the proximal end portion of the twisted wire is inclined toward the distal end of the neck portion, the bent portion hardly protrudes from the distal end of the neck portion. Can be prevented.

Hereinafter, embodiments of an interdental brush according to the present invention will be described with reference to the drawings.
FIG. 1 shows a first embodiment of an interdental brush according to the present invention. (A) is a side view which shows the whole shape of an interdental brush, (b) is an enlarged view of the embedded part of a twist wire, (c) is an expanded sectional view of the embedded part of (b).
In the interdental brush according to the present invention, the handle portion 1 has a grip portion 2 and a neck portion 3 which are bent and integrated slightly as shown in FIG. 1A, and are connected to the grip portion 2 at the tip of the neck portion 3. A pedestal 4 is provided sideways, and a brush portion 5 is attached to the pedestal 4.
By forming the neck portion 3 and the pedestal 4 in this way, the handle portion 1 is substantially L-shaped, and the brush portion 5 can be easily inserted into the interproximal portion near the back teeth, which is relatively difficult to clean.

The brush portion 5 has a filament 7 sandwiched between two twisted wires 6, and the entire shape of the filament 7 is cut into a conical shape, and the base of the twist wire 6 with the filament 7 sandwiched is formed. The end 6a is embedded in the pedestal 4, and the nozzle 8 is provided so as to cover the base portion of the twisted wire 6 exposed from the pedestal 4 to the outside when the base end 6a of the twisted wire 6 is embedded.
Further, a bent portion 9 formed by bending the twisted wire 6 into a V shape is formed on the proximal end side of the proximal end portion 6a of the twisted wire 6.

  The nozzle 8 is formed of a cylindrical soft resin having a thickness d and a length L, covers the root portion of the twist wire 6, and applies a bending force acting on the root portion of the twist wire 6 during interdental cleaning. It can be absorbed by the nozzle 8 and relaxed. For this reason, it becomes difficult for the twist wire 6 to bend at the base portion as compared with the conventional case, and the break of the twist wire 6 can be eliminated.

  The thickness d of the nozzle 8 is in the range of 0.1 to 0.5 mm, preferably in the range of 0.2 to 0.4 mm. When the thickness d is less than 0.1 mm, the nozzle 8 cannot obtain sufficient strength, and the twisted wire 6 is easily exposed during molding. On the other hand, if it exceeds 0.5 mm, the twist wire 6 and the nozzle 8 are difficult to bend together, and stress concentration occurs.

  The length L of the nozzle 8 is in the range of 1 to 5 mm, preferably in the range of 2 to 4 mm. When the length L is less than 1 mm, the twisted wire 6 and the nozzle 8 are difficult to bend together and stress concentration occurs, and the durability improvement rate of the twisted wire 6 is lowered. On the other hand, if it exceeds 5 mm, the nozzle 8 is too long, which hinders interdental cleaning and lowers the intraoral operation.

The forming material of the nozzle 8 may be a resin having a bending elastic modulus according to JIS K 7171 in the range of 300 to 450 MPa.
If the flexural modulus is less than 300 MPa, the pullout strength of the twisted wire 6 may be reduced, and the twisted wire 6 may come off. On the other hand, if it exceeds 450 MPa, the twisted wire 6 and the nozzle 8 are difficult to bend together, and stress concentration occurs, and the durability improvement rate of the twisted wire 6 is lowered.
Specifically, for example, polyethylene, polypropylene, polystyrene, ethylene-α olefin copolymer, ethylene-vinyl acetate copolymer, ionomer resin, polyamide (for example, 6 nylon, 6-6 nylon, 6-10 nylon, 6-12 nylon), polyester (for example, polyethylene terephthalate, polypropylene terephthalate, polybutylene terephthalate, etc.), modified polyolefins with improved adhesion to metals and plastics by introducing functional groups into polyethylene or polypropylene, styrenic thermoplastic elastomers Olefin-based thermoplastic elastomers, polyester-based thermoplastic elastomers, urethane-based thermoplastic elastomers, polyamide-based thermoplastic elastomers, and the like can be used.
From the viewpoint of easy adjustment of the flexural modulus, it is easy to adjust the flexural modulus when low density polyethylene (LDPE) and high density polyethylene (HDPE) are mixed.

  As the cross-sectional shape of the nozzle 8, various cross-sectional shapes such as a circle, an ellipse, a polygon such as a quadrangle and a hexagon, and a star shape can be adopted, and it may be substantially cylindrical. Further, the side surface shape of the substantially cylindrical nozzle 8 is not limited to a column shape having the same diameter as a whole, but may be another side shape such as a conical shape that narrows toward the tip side.

  As described above, in the interdental brush of the present invention, in the interdental brush formed so that the brush portion 5 and the handle portion 1 are substantially L-shaped, the twist wire 6 exposed to the outside from the base 4 of the handle portion 1. The base portion of the nozzle 8 is covered by the nozzle 8, the thickness d of the nozzle 8 is 0.1 to 0.5 mm, the length L is 1 to 5 mm, and the forming material of the nozzle 8 is a bending elastic modulus according to JIS K 7171. Is formed of a soft resin in the range of 300 to 450 MPa, the soft resin can flex flexibly following the bending of the twisted wire 6, protecting the root portion of the twisted wire 6, and the twisted wire 6. Durability and pull-out strength are improved.

The shape of the neck portion 3 is not limited as long as the brush portion 5 and the grip portion 2 can be connected in a substantially L shape. However, the neck portion 3 has a gentle slope in the opposite direction to the brush portion 1 from the grip portion 2 toward the distal end. However, it is preferable to be tapered.
In this case, the minimum cross-sectional area of the neck 3 is preferably in the range of 10 to 40 mm ^2, more preferably 11-15 mm ^2. If the minimum cross-sectional area of the neck 3 is less than 10 mm ² , the strength of the neck 3 is not sufficiently obtained. If the neck 3 is pulled strongly, the shape of the handle 1 is distorted and the force applied to the brush 5 escapes, and sufficient teeth Cleaning is not possible. On the other hand, if it exceeds 40 mm ² , the neck 3 strongly hits the lips and other parts in the oral cavity during interdental cleaning, and the intraoral operability decreases.

As the cross-sectional shape of the neck portion 3, various cross-sectional shapes such as a circle, an ellipse, a polygon such as a quadrangle and a hexagon, and a star shape can be adopted.
As described above, in the interdental brush of the present invention, in the handle portion 1, the minimum cross-sectional area of the neck portion 3 is in the range of 10 to 40 mm ² , so that good oral operability is ensured while ensuring the strength of the neck portion 3. Can be secured.

The shape of the pedestal 4 may be any shape as long as the base end portion of the twisting wire 6 can be embedded, but is preferably a conical shape that narrows and narrows toward the nozzle 8 side so that the neck 3 and the nozzle 8 can be smoothly connected. The maximum width is preferably the same as or smaller than the width of the tip of the neck 3, and the minimum width is preferably larger than the width of the base portion of the nozzle 8.
As the cross-sectional shape of the pedestal 4, various shapes such as a circle, an ellipse, a polygon such as a quadrangle and a hexagon, and a star can be adopted.

The forming material of the handle portion 1 may be a thermoplastic resin, and the grip portion 2, the neck portion 3, and the pedestal 4 can be made of a resin different from the nozzle 8, but if the same resin is used, Since the nozzle 8 and the handle portion 1 can be integrally formed, the bending strength of the twisted wire 6 can be improved by an inexpensive manufacturing method.
Specifically, for example, polyethylene, polypropylene, polystyrene, ethylene-α olefin copolymer, ethylene-vinyl acetate copolymer, ionomer resin, polyamide (for example, 6 nylon, 6-6 nylon, 6-10 nylon, 6- 12 nylon, etc.), polyester (eg, polyethylene terephthalate, polypropylene terephthalate, polybutylene terephthalate, etc.), modified polyolefins with improved adhesion to metals and plastics by introducing functional groups into polyethylene or polypropylene, styrenic thermoplastic elastomers, olefins A thermoplastic thermoplastic elastomer, a polyester thermoplastic elastomer, a urethane thermoplastic elastomer, a polyamide thermoplastic elastomer, or the like is used.
Preferred are polyolefin resins such as polyethylene, polypropylene, ethylene-α olefin copolymer, modified polyolefin, and olefinic thermoplastic elastomer, and polyethylene and polypropylene are more preferred in terms of moldability and cost. For the purpose of preventing slipping, the handle portion 1 can be further provided with a thermoplastic elastomer portion.

  As described above, in the L-shaped interdental brush, when a soft resin having a bending elastic modulus in the range of 300 to 450 MPa is used for the handle portion 1, in order to improve the pulling strength of the twisted wire 6, It is preferable that at least one bent portion 9 that does not align with the brush portion 5 is provided at the end portion, and this bent portion 9 is embedded in the pedestal 4.

The shape of the bent portion 9 may be substantially V-shaped as shown in FIG. 2A, or may be a shape consisting of a curve like a semicircle as shown in FIG. Alternatively, as shown in FIG. 2 (c), the shape may be a straight line such as a quadrangle, or may be a combination of these curves and straight lines, or a three-dimensional object with a twist. It may be a shape.
Moreover, as shown in FIG.2 (d), the bending part 9 may exist in multiple places, and when the bending part 9 exists in multiple places, they may be adjacent and may be separated.

  As described above, in the interdental brush of the present invention, at least one bent portion 9 that does not align with the brush portion 1 is provided at the proximal end portion 6a of the twisting wire 6, and this bent portion 9 is provided as the handle portion 1. By embedding in the pedestal 4, even when the twisted wire 6 is pulled during interdental cleaning, the bent portion 9 becomes a resistance, and the pulling strength of the twisted wire 6 that tends to be lowered by the soft resin is improved.

  Further, in terms of ease of shape processing of the twisted wire 6, the shape of the bent portion 9 is preferably substantially V-shaped, and the shape of the twisted wire 6 is formed by processing the shape of the bent portion 9 into a substantially V-shape. Processing is easy and sufficient pulling strength of the twisted wire 6 can be obtained.

A method of integrally forming the brush portion 5 and the handle portion 1 uses a mold 10 as shown in FIG. In the center of the mold 10, a recess 11 that matches the shape of the filament 7 of the brush portion 5, a brush fixing portion 12 that abuts the tip of the brush portion 5, and a groove portion 13 that matches the shape of the nozzle 8 and the pedestal 4, In the groove portion 13, the base end portion 6 a of the twist wire 6 is disposed. When providing the bending part 9 in the base end part 6a of the twist wire 6, the brush part 5 is arrange | positioned to the metal mold | die 10 after forming the bending part 9 previously.
When the brush part 5 is placed on the mold 10, an upper mold (not shown) is covered, and the mold 10 and the upper mold are integrated by the mold fixing parts 14 on both sides of the recess 11, as shown in FIG. It is installed together with the resin injection part 16 of the interdental brush forming apparatus 15. When the resin forming the handle 1 of the interdental brush is inserted into the resin injection portion 16, the resin is injected as it is into the groove portion 13 of the mold 10, and the resin flow stops at the tip 17 of the groove portion 13. When the resin is cooled and solidified, the interdental brush of the present invention is obtained by removing the mold 10 and the upper mold.

At this time, since the resin pressure F is applied substantially perpendicular to the insertion direction of the twisting wire 6, in order to prevent the proximal end portion 6a of the twisting wire 6 from flowing during molding, as shown in FIG. The base end portion 6a of the twisting wire 6 is preferably formed so as to be accommodated in the pedestal 4, and when the bent portion 9 is provided, it is preferably formed so as to be accommodated in the pedestal 4 including the bent portion 9. .
When the base end portion 6a of the twisting wire 6 does not fit in the pedestal 4 and protrudes into the resin path of the neck portion 3, the twisting wire 6 is inclined and formed obliquely, particularly when the twisting wire 6 is thin and weak in strength. It becomes easy.
Therefore, the bending portion 9 is embedded in the pedestal 4 so that the bending portion 9 is convex toward the grip portion 2 of the handle portion 1 as shown in FIGS. It is preferable.
As shown in FIG. 5, if the direction of the bent portion 9 is convex toward the tip of the handle portion 1, the twisted wire is flowed by the resin pressure F as shown in FIG. When 6 is formed diagonally, the tip of the bent portion 9 may protrude from the tip of the handle portion 1.

  As described above, according to the interdental brush of the present invention, the bent portion 9 is embedded in the pedestal 4 so that the direction of the bent portion 9 becomes convex toward the grip portion 2 of the handle portion 1. Even when the brush portion 5 and the handle portion 1 are integrally formed, even if the twisting wire 6 is caused to flow by the injection pressure of the resin and the proximal end portion 6a of the twisting wire 6 is inclined toward the tip of the neck portion 3, the neck portion 3 Since the tip of the bent portion 9 does not protrude from the tip of the wire, wire protrusion can be prevented.

  The twisting wire 6 is usually made of a stainless steel wire having a diameter of about 0.25 to 0.35 mm. The bundle is twisted between the twisting wires 6 to provide a hair transplant portion. After this, the brush part 5 can be manufactured by cutting the whole filament 7 into a fixed length with a cutter. Moreover, you may round off the front-end | tip part of the filament 7 with a grinder as needed.

Specifically, the material for forming the twisted wire 6 is, for example, 18-8 stainless steel having a composition of Fe-18Cr-8Ni, stainless steel described in JP-A-11-346831, or JP-A-7-227315. Co alloy etc. which are described in the gazette are used.
In addition, the cross-sectional shape of the wire is usually circular, but may be oval, square, rectangular, or hexagonal. Furthermore, you may coat | cover a wire with a polyamide, a polyurethane, a fluororesin, etc. as needed.

The filament 7 is a monofilament made of polyamide (eg, 6-10 nylon, 6-12 nylon) or polyester (eg, polyethylene terephthalate, polypropylene terephthalate, polybutylene terephthalate) having a diameter of about 0.0635 to 0.1016 mm. About 250 to 400 filaments 7 are sandwiched between the twisted wires 6. Usually, the entire filament 7 is cut into a cylindrical shape or a conical shape.
The cross-sectional shape of the filament 7 is usually circular, but may be oval, square, hexagonal, star-shaped, or the like.

  The interdental brush as in the present invention is usually characterized by the filament diameter, the number of filaments, and the shape and size of the entire filament bundle, and is indicated by the symbols SS, S, M, and L. They are classified into sizes and are used properly according to the size of the user's interdental part.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples, but the present invention is not limited to these Examples.
"Examples 1-3, Comparative Examples 1-3"
As Examples 1 to 3 and Comparative Examples 1 to 3, an interdental brush as shown in FIG. 1 has a nozzle 8 having a thickness d of 0.3 mm, a length L of 2.5 mm, and a minimum cross-sectional area of the neck 3. Is 12 mm ² , a stainless steel wire having a diameter of 0.25 mm is used for the twisting wire 6, the filament 7 is made of 2.5 mil nylon, and the hair-cut shape is a conical shape having a tip of 2.3 mm and a rear end of 2.6 mm. The length of the flocked portion was 10 mm, and the nozzle 8 and the handle portion 1 were produced using a polyethylene resin having a flexural modulus of 240 to 850 MPa.
The interdental brush thus obtained was tested for “twisted wire durability” and “twisted wire pullout strength” and evaluated as shown below.
The results are shown in Table 1.

"Durability of twisted wire"
<Experiment method>
The base 4 of the interdental brush is fixed with a jig, and a weight of 100 g is suspended from the tip of the twisting wire 6, and when the twisting wire 6 is broken by 90 ° left and right at 90 °, totaling 180 °, until the twisting wire 6 is broken. The number of times was measured.

<Evaluation criteria>
The “durability improvement rate” is a value obtained by dividing the “number of times until the twisted wire 6 breaks when covered with the nozzle 8” by “the number of times until broken when not covered”. That is, it is obtained by the following equation (1).
“Durability improvement rate” = “Number of times until rupture when covered with nozzle 8” ÷ “Number of times until rupture when not covered” (1)
From the value of “durability improvement rate” obtained by equation (1), the determination was made by three-step evaluation as follows.
○ ... More than twice.
Δ: 1.5 times or more and less than 2 times.
X: Less than 1.5 times.

"Twisted wire pullout strength"
<Experiment method>
The base 4 of the interdental brush was fixed with a jig, a force was applied so that the brush part 5 was pulled out, and the force when the twisted wire 6 was pulled out of the base 4 was measured by an autograph at 20 mm / min.

<Evaluation criteria>
From the value of the pulling force measured in this way, the determination was made by three-step evaluation as follows.
○ ... 25N or more.
Δ: 15N or more and less than 25N.
X: Less than 15N.

  From the results of Table 1, the forming material of the nozzle 8 may be a resin having a bending elastic modulus in the range of 300 to 450 MPa.

“Thickness d and length L of nozzle 8”
In the interdental brush of Example 2 having a flexural modulus of 380 MPa, the thickness d of the nozzle 8 is further changed to a range of 0.05 to 1.0 mm, and the length L is set to 0.5 to 7.0 mm. An interdental brush with a range changed was produced, a test was conducted on “twisted wire durability”, and evaluation was performed in the same manner as described above.
The results are shown in Table 2.

  From the results of Table 2, in terms of twisted wire durability, the thickness d of the nozzle 8 may be 0.5 mm or less, and is preferably in the range of 0.2 to 0.4 mm. The length L of the nozzle 8 may be 1.0 mm or more, and is preferably 2.0 mm or more.

"Formability"
In order to investigate the exposure of the twisted wire 6 due to the influence of the thickness d of the nozzle 8, the thickness d of the nozzle 8 was changed in the range of 0.02 to 1.0 mm with the same specifications as the interdental brush of Example 2. An interdental brush was prepared and tested for “formability” and evaluated as shown below.
The results are shown in Table 4.

<Evaluation criteria>
The presence or absence of exposure of the twist wire 6 on the side surface of the nozzle 8 was inspected, and the determination was made according to three stages as follows.
○ ・ ・ ・ Very good. (The twisted wire 6 is not exposed at all.)
Δ: Somewhat good. (There is a slight exposure of the twisting wire 6.)
X ... not good. (There is exposure of twisted wire 6.)

  From the results of Table 3, in terms of formability, the thickness of the nozzle 8 may be 0.1 mm or more, and preferably 0.2 mm or more.

"Oral operability"
First, in order to investigate the feeling of use due to the influence of the length L of the nozzle 8, the length L of the nozzle 8 was changed in the range of 0.2 to 7.0 mm with the same specifications as the interdental brush of Example 2. An interdental brush was prepared and tested for "intraoral operability" and evaluated as shown below.
The results are shown in Table 4.

<Evaluation criteria>
Thirty professional panelists used and were judged by three-step evaluation as follows.
○ ・ ・ ・ Very good.
Δ: Somewhat good.
X ... not good.

From the results in Table 4, the length L of the nozzle 8 may be 5.0 mm or less in terms of intraoral operability, and is preferably 4.0 mm or less.
Overall, the thickness d of the nozzle 8 may be in the range of 0.1 to 0.5 mm, and preferably in the range of 0.2 to 0.4 mm. The length L should just be the range of 1.0-5.0 mm, and the range of 2.0-4.0 mm is preferable.

Next, in order to examine the feeling of use due to the influence of the minimum cross-sectional area of the neck 3, the minimum cross-sectional area of the neck 3 is changed in the range of 5 to 50 mm ² with the same specifications as the interdental brush of Example 2. A brush was prepared and tested for “intraoral operability” and evaluated in the same manner as described above.
The results are shown in Table 5.

The results in Table 5, the minimum cross-sectional area of the neck 3 may be in the range of 10 to 40 mm ^2, the range of 11-15 mm ² is preferred.

"Comprehensive evaluation"
From the above results, the forming material of the nozzle 8 may be a resin having a bending elastic modulus in the range of 300 to 450 MPa. The thickness d of the nozzle 8 may be in the range of 0.1 to 0.5 mm, and preferably in the range of 0.2 to 0.4 mm. The length L should just be the range of 1.0-5.0 mm, and the range of 2.0-4.0 mm is preferable. The minimum cross-sectional area of the neck 3 may be in the range of 10 to 40 mm ^2, the range of 11-15 mm ² is preferred.

1A and 1B show a first embodiment of an interdental brush according to the present invention, wherein FIG. 1A is a side view showing the overall shape of the interdental brush, and FIG. 1B is an enlarged view of an embedded portion of a twisted wire. (C) is sectional drawing of the (b) part. FIG. 2 is a side view for explaining a bent portion, (a) is the shape used in the first embodiment, and (b) to (d) are modified examples. FIG. 3 is a perspective view in which the brush portion is arranged in a mold. FIG. 4 is a cross-sectional view in which a mold having a brush portion is installed in the apparatus. FIG. 5 is an example for explaining the reason for the position and orientation of the bent portion. (A) is a cross-sectional view in which the bent portion faces the tip side but is contained in the pedestal, and (b) It is sectional drawing in which a bending part faces the front end side, and is not stored in the base.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Handle part, 2 ... Holding part, 3 ... Neck part, 4 ... Base, 5 ... Brush part, 6 ... Twist wire, 6a ... Base end part, 7 ..Filaments, 8 ... nozzles, 9 ... bent parts

Claims (5)

A brush part in which a plurality of filaments are sandwiched between two twisted wires, and a handle part that connects the brush part and the grip part via a neck part,
In the interdental brush in which the brush portion and the handle portion are integrated by providing a lateral pedestal at the tip of the neck and burying the proximal end portion of the twist wire in the pedestal,
The base portion of the twisted wire exposed to the outside from the pedestal is covered by the nozzle,
The nozzle has a thickness in the range of 0.1 to 0.5 mm and a length in the range of 1 to 5 mm,
The interdental brush characterized in that the forming material of the nozzle is formed of a resin having a flexural modulus of 300 to 450 MPa according to JIS K 7171. ^2. The interdental brush according to claim 1, wherein a minimum cross-sectional area of the neck portion in the handle portion is in a range of 10 to 40 mm ² . In the base end portion of the twisted wire, at least one bent portion that does not align with the brush portion is provided,
The bent portion may have any shape such as a substantially V shape, a substantially U shape, and a quadrangle,
The interdental brush according to claim 1 or 2, wherein the bent portion is embedded in the pedestal.   The interdental brush according to claim 3, wherein the shape of the bent portion is processed into a substantially V shape. The interdental brush according to claim 3 or 4, wherein the bent portion is embedded in the pedestal so that the direction of the bent portion is convex toward the grip portion of the handle portion.

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