JP5083932B2 - Method for producing brushes such as interdental brushes - Google Patents

Description

  The present invention relates to a method of manufacturing a brush such as an interdental brush that includes a shaft portion and a brush portion formed in a loop shape radially from the shaft portion or outward from the shaft portion.

  Conventionally, as an interdental brush, a brush composed of a shaft portion made of a metal wire and a brush portion made of a short fiber that is screwed to the metal wire has been used. However, when the shaft portion is made of a metal wire, the metal wire may come into contact with teeth or gums, resulting in hypersensitivity or uncomfortable feeling. In addition, teeth and gums were sometimes damaged by rubbing metal wires. In addition, the interdental brush may become unclean due to the rust of the metal wire.

  For this reason, various proposals have been made for coating the surface of a metal wire with an organic substance such as a synthetic resin. For example, Patent Document 1 proposes coating the surface of a metal wire with nylon or polyurethane. Patent Document 2 proposes to coat the surface of a metal wire with various natural resins and / or synthetic resins, rubber, and the like. In Patent Document 3, it is proposed to coat the surface of a metal wire with a fluororesin.

  However, even if the surface of the metal wire is coated with an organic material, a shearing force is applied when the short fiber is twisted with the coated metal wire, and the coating of the organic material is cracked and the coating is peeled off. That happened. When cracks occur, the metal wire is exposed, causing defects such as the above-mentioned hypersensitivity and unpleasant discomfort. Moreover, when it used as an interdental brush in the peeled state, a peeling piece may remain in the mouth, or a residue of food may adhere to the peeling portion and become unclean.

No. 1-441304 (Scope of request for registration of utility model) JP-A-5-305007 (Claims) JP 2000-175842 A (Claims)

  For this reason, the present inventor has intensively studied to obtain a shaft portion of a brush such as an interdental brush without using a metal wire, and a shaft yarn is constituted by a core yarn and a holding yarn. A cut molding yarn in which flower yarns extend radially from the outer periphery of the yarn or a loop molding yarn in which the flower yarns extend outwardly from the axial yarn in the form of a loop and spirally turn as a whole. I came up with the idea that both morse yarn and loop morse yarn could be used together. As is well known, the molding yarn is made of natural fiber or synthetic fiber, and does not use a metal wire. Therefore, if this can be used as an interdental brush, it is possible to completely prevent various drawbacks such as the above-mentioned hypersensitivity. However, the molding yarn is characterized by a soft texture and bulkiness, and is widely used as a material for clothing for autumn and winter such as sweaters. Therefore, it is too flexible in the axial direction and cannot be used as an interdental brush as it is.

  Therefore, the present invention contains a heat-fusible fiber in at least one of the core yarn and the presser yarn, and fuses and solidifies the fiber to provide rigidity to the shaft yarn and use it as an interdental brush. It has been made possible. In particular, when the heat-fusible fiber is fused and solidified, it is tensioned in the axial direction to give the shaft yarn sufficient rigidity so that it can be used as an interdental brush.

That is, the present invention contains a heat-fusible fiber in at least one of the core yarn and the presser yarn when inserting a flower yarn between twists of the core yarn and the presser yarn to obtain a molding yarn. Then , after obtaining the molding yarn using the molding yarn manufacturing machine, heat-treating the molding yarn while being tensioned in the axial direction, and fusing the heat-fusible fiber, the core yarn, the presser yarn and The present invention relates to a method of manufacturing a brush, wherein the flower yarn is fixed, a shaft portion is formed by the core yarn and the presser yarn, and a brush portion is formed by the flower yarn.

  In the present invention, the molding yarn is prepared by a conventionally known method. First, the core yarn, presser yarn, and flower yarn used in manufacturing the molding yarn will be described. As the core yarn and the presser yarn, a yarn composed of a plurality of fibers is generally used. For example, a multifilament yarn composed of a plurality of filaments, a spun yarn composed of a plurality of short fibers, and the like are used. In general, one thread is used for each of the core yarn and the presser yarn. However, two or more core yarns and / or presser yarns may be used for fixing the flower yarns or reinforcing the core yarns and presser yarns. The thickness of the yarn used as the core yarn and presser yarn may be arbitrary. The thickness suitable for the interdental brush (the total thickness of the core yarn and the holding yarn) is about 2000 to 6000 decitex. Depending on the size of the user's teeth, the SSS size (size that passes through a hole of about 0.7 mm) is about 2000 to 3000 dtex, and the SS size (size that passes through a hole of about 0.8 mm) is about 3000 to 4000 dtex. The S size (size passing through a hole of about 1.0 mm) is preferably about 4000 to 5000 dtex, and the M size (size passing through a hole of about 1.2 mm) is preferably about 5000 to 6000 dtex. Organic fibers such as polyester, polyamide, and polyolefin are used as the types of fibers constituting the yarn. In particular, the polyester fiber is suitable for use as a core yarn and a presser yarn because of its high rigidity even after it has been fused or solidified. And the thickness of this fiber is generally about 7 to 13 dtex. The core yarn and the presser yarn may be the same yarn or different types of yarn. In general, it is preferable to use the same yarn to improve the balance.

  At least one of the core yarn and the presser yarn contains a heat-fusible fiber. That is, the core yarn may contain a heat-fusible fiber, the presser yarn may contain a heat-fusible fiber, or both yarns may contain a heat-fusible fiber. Good. The heat-fusible fiber is one that at least part of its surface is softened or melted by applying heat and can be fused with other fibers. Accordingly, as the heat-fusible fiber, a fiber whose at least a part of its surface is softened or melted at a temperature that does not deteriorate or damage other fibers constituting the flower yarn or the like is used. Specifically, a low-melting-point fiber consisting only of a low-melting-point component that is a heat-sealing component, a core-sheath type in which a low-melting-point component that is a heat-sealing component forms a sheath and a high-melting-point component forms a core For example, a composite fiber, a side-by-side composite fiber in which a high melting point component having a half-moon cross section and a low melting point component that is a heat fusion component are bonded together are used. In addition, it is preferable to use polyester having high rigidity as a material of the low melting point fiber or the low melting point component.

  In the core yarn and presser yarn, all the fibers constituting the core yarn may be heat-fusible fibers, or heat-fusible fibers and non-heat-fusible fibers are mixed. There may be. In the former case, as the heat-fusible fiber, it is preferable to use a core-sheath type or side-by-side type composite fiber composed of a low melting point component and a high melting point component. This is because the core yarn and the presser yarn are the shaft portion of the brush, and therefore it is preferable to leave the fiber-shaped portion made of the high melting point component in the shaft portion and to increase its strength. When a low melting point fiber composed only of a low melting point component having no high melting point component is used, the shaft portion tends to be easily broken. Needless to say, a core yarn and presser yarn in which all fibers are composed of heat-fusible fibers using a low-melting fiber together with the core-sheath type or side-by-side type composite fiber may be used. In the latter case (in the case of a mixture of heat-fusible fiber and non-heat-fusible fiber), the proportion of heat-fusible fiber is relatively large, for example, 50% by mass or more, preferably non-heat The proportion of the fusible fiber is preferably less than 50% by mass. This means that since the core yarn and the presser yarn are to be the shaft portion of the brush that requires high rigidity, it is better to fuse with a relatively large amount of heat-fusible fiber. Further, the distinction between the heat-fusible fiber and the non-heat-fusible fiber is that the non-heat-fusible fiber does not melt or soften at a temperature at which the surface of the heat-fusible fiber is softened or melted. That is, high melting point fibers are used as the non-heat-fusible fibers.

  Two types of heat-fusible fibers having different fusing temperatures may be used as the heat-fusible fibers contained in the core yarn and / or the holding yarn. That is, a low heat-fusible fiber that is fused at a relatively low temperature and a high heat-fusible fiber that is fused at a relatively high temperature may be used. As a method of including the low-fusible fiber and the high heat-fusible fiber in the core yarn and / or presser yarn, the low-fusible fiber and the high heat-fusible property are contained in one core yarn and / or presser yarn. The fibers may be mixed with each other. For example, two holding yarns are used, one holding yarn is a low heat-fusible fiber, and the other one holding yarn is a high heat-fusible fiber. You may make it contain. In these cases, as described above, the low heat-fusible fiber also functions as a heat-fusible fiber for improving the rigidity of the shaft portion. However, in the brush manufacturing stage, the flower yarn is used as a core yarn and a holding yarn. The function of temporary fixing is also demonstrated. That is, after manufacturing a molding thread, a brush may be manufactured through a washing process and a drying process as necessary, but the flower thread may fall off in this washing process and drying process. In particular, in the case of a cut molding yarn, the flower yarn is cut as compared with the loop molding yarn, and this dropping often occurs. In order to prevent this, after the molding yarn is manufactured, the molding yarn is subjected to a low heat treatment before the washing step, and the flower yarn is fused and fixed to the core yarn and / or the holding yarn with a low heat-fusible fiber. It is preferable.

  As the flower yarn, a monofilament yarn or a multifilament yarn composed of a plurality of fibers is used. In general, the thread used as the flower thread is thinner than the core thread or the presser thread. Specifically, in the case of monofilament yarn, it is about 10 to 50 dtex, and in the case of multifilament yarn, it is about 100 to 500 dtex. Moreover, the thickness of the fiber which comprises a multifilament yarn is generally about 10-50 dtex. Organic fibers such as polyester, polyamide, and polyolefin are used as the material of the yarn that becomes the flower yarn. In particular, polyamide (nylon) is preferable as a material because of its excellent elastic recovery rate. That is, in the case of loop molding yarn, when it is wound around a cone, the loop is crushed and becomes flat, but when polyamide is used, the crushed loop is restored to its original state during tension and heat treatment. It becomes easier to return. Moreover, it is preferable that the yarn used as the flower yarn does not deteriorate or be damaged at a temperature at which the heat-fusible fiber contained in the core yarn and / or the holding yarn is softened or melted. This is because if the yarn that becomes the flower yarn deteriorates or is damaged, it becomes difficult to use it as a brush portion of the brush. In addition, a small amount of heat-fusible fibers may be contained in part of the flower yarn. This is for improving the fusing property between the flower yarn, the core yarn, and the presser yarn in the shaft portion.

Using the core yarn, presser yarn and flower yarn prepared as described above, a molding yarn is obtained using a conventionally known molding yarn manufacturing machine. That is, the cut yarn is obtained by inserting the flower yarn between the twists of the core yarn and the presser yarn and winding it in a loop shape, and then cutting the apex of the loop. Further, it is possible to obtain a loop molding yarn in which this loop is spirally swung as a whole without inserting a flower yarn between the two yarns and winding it in a loop shape. Since the brush manufacturing method according to the present invention uses a conventionally known molding yarn manufacturing machine, the brush can be obtained easily (that is, rationally and efficiently).

  Since the core yarn and / or presser yarn constituting the molding yarn contains heat-fusible fiber, at least a part of the surface of the heat-fusible fiber is softened or melted. Heat treatment is performed. When the heat-fusible fiber is composed of a low heat-fusible fiber and a high heat-fusible fiber, heat treatment is performed at a temperature at which at least a part of the surface of the high heat-fusible fiber is softened or melted. In this case, it is obvious that the low heat-fusible fiber also softens or melts at the same time. By this heat treatment, the core yarn and presser yarn are fused and integrated to form a rigid brush shaft. The shaft portion of the brush is in a state like a plastic rod, but has various appearances depending on the ratio of the heat fusion component contained in the core yarn and / or the holding yarn. For example, if the proportion of the heat-sealing component is large, the amount that is melted or softened increases, and the surface of the shaft portion has a smooth appearance. That is, a high melting point component other than the heat fusion component is present in the matrix composed of the heat fusion component. Moreover, when the ratio of a heat-fusion component is small, it will be in the state in which the fiber which consists of a high melting-point component was stuck, and the shaft part surface will become the external appearance which the fiber form which runs to an axial direction appeared.

  In the case of cut molding yarn, the central portion of the flower yarn penetrates between the core yarn and the presser yarn in a direction perpendicular to the axial direction. The central portion of the flower yarn is fused by softening or melting the heat-fusible fiber contained in the core yarn and / or the holding yarn. Further, both ends of the flower yarn extend outward in a direction orthogonal to the axial direction of the core yarn and the presser yarn. Accordingly, the central portion of the flower yarn is fixed to the shaft portion formed of the core yarn and the presser yarn, and the portion of the flower yarn extending outward from the shaft portion becomes a brush portion. On the other hand, in the case of a loop molding yarn, the flower yarn penetrates between the core yarn and the presser yarn without being cut to form a loop. Therefore, in the part which the flower yarn has penetrated, it is fused and fixed by softening or melting the heat-fusible fiber contained in the core yarn and / or the holding yarn. This loop extends in a direction orthogonal to the axial direction, and is formed in a large number in the axial direction, and has a form that spirals around the axial yarn as a whole, and this flower yarn portion becomes a brush portion. It is.

  When the molding yarn is heat-treated to soften or melt the heat-fusible fiber, the molding yarn is strained in the axial direction. As a result, the shaft portion of the brush becomes a complete straight line, and the heat-fusible fibers and the like contained in the core yarn and presser yarn are integrated in a tightly adhered state. Part.

  In the brush according to the present invention, the shaft portion is formed by the core yarn and the presser yarn, and the brush portion is formed by the flower yarn. Since the flower yarn is inserted between the twist of the core yarn and the presser yarn, the density of the flower yarn can be appropriately determined by the number of twists of the core yarn and the presser yarn. That is, if the number of twists is increased, the density of the flower yarn is increased and the brush portion becomes denser. Conversely, if the number of twists is decreased, the density of the flower yarn is decreased and the density of the brush portion becomes rough. .

  In obtaining the molding yarn, the flower yarn may be inserted between all twists of the core yarn and the presser yarn. When heat treatment is performed using this molding yarn, a brush portion is formed over the entire length of the shaft portion. This is cut into a predetermined length to obtain a brush. If necessary, a separate handle may be provided. For example, a pipe can be used as a handle by inserting and brushing a brush into a styrene pipe. On the other hand, when obtaining a molding yarn, a portion where a flower yarn is inserted over a certain length and a portion where a flower yarn is not inserted over a certain length may be alternately provided. When the molding yarn thus obtained is heat-treated, the portion where the flower yarn is not inserted becomes only the shaft portion, and the portion where the flower yarn is inserted consists of the shaft portion and the brush portion. That is, those arranged in the longitudinal direction in the order of (shaft portion only-shaft portion and brush portion-shaft portion only-shaft portion and brush portion...) Are formed. Then, by cutting in units of (shaft only-shaft and brush part), a brush having one end only with the shaft part and the other end formed with the shaft part and the brush part can be obtained, and only the shaft part is obtained. Can be used as a handle. Also, if the unit is cut in units of (part of the shaft part only-part of the shaft part and brush part-part of the shaft part only), a brush formed by only the shaft part at both ends and the shaft part and the brush part at the center is obtained. Can be obtained. In this case, only one of the shaft portions can be used as a handle, and only the other shaft portion can be used as a portion that guides insertion between teeth, which is suitable as an interdental brush.

In the above, the case where the brush obtained by the method according to the present invention is mainly used as an interdental brush has been described. However, the brush obtained by the method according to the present invention is washed with a test tube other than the interdental brush. Also, it can be suitably used as a cleaning brush such as a brush for washing and a brush for washing cups.

As described above, the brush obtained by the method according to the present invention is obtained by improvement using a conventionally known molding yarn manufacturing method using a molding yarn manufacturing machine , and is composed of organic fibers. The core yarn, presser yarn and flower yarn are used as raw materials. Therefore, since a metal wire is not used, when used as an interdental brush, there is an effect that almost no hypersensitivity or unpleasant discomfort is caused, and damage to teeth and gums can be prevented. In addition, it is possible to obtain a brush by manufacturing a conventional molding yarn, and it is possible to obtain a brush rationally and efficiently.

  Further, the method according to the present invention includes heat-treating the Mole yarn while being tensioned in the axial direction, softening or melting the heat-fusible fiber contained in the core yarn and / or the holding yarn, Therefore, a shaft portion with relatively high rigidity can be obtained. Therefore, the brush obtained by the method according to the present invention has an effect that the shaft portion can be prevented from being bent or bent during use.

EXAMPLES Hereinafter, although this invention is demonstrated based on an Example, this invention is not limited to an Example. The characteristics of the present invention should be understood as being in that a brush such as an interdental brush is obtained by using a molding yarn obtained using a molding yarn manufacturing machine .

Example 1
The following core yarn, presser yarn and flower yarn were prepared.
[Core yarn]
192 core-sheath composite filaments (about 8.5 dtex) in which a low melting point polyester having a melting point of 160 ° C. forms a sheath part and a high melting point polyester having a melting point of 250 ° C. forms a core part are bundled. 1650 decitex / 192 filament multifilament yarn was prepared as a core yarn.
[Presser thread]
The same multifilament yarn as the core yarn was prepared as a presser yarn.
[Flower yarn]
A multifilament yarn having 330 dtex / 10 filaments, which is a bundle of 10 single-phase filaments (about 33 dtex) made of nylon having a melting point of 213 ° C., was prepared as a flower yarn.

  Using the core yarn, presser yarn, and flower yarn, a loop molding yarn was manufactured with a molding yarn manufacturing machine (manufactured by Koseki Manufacturing Co., Ltd.) and wound around a cone. The flower yarn was inserted between the twist of the core yarn and the presser yarn. Then, the loop molding yarn was unwound from the cone and heat-treated at 170 ° C. for 1 minute under tension in the axial direction of the loop molding yarn. By this heat treatment, the low melting point polyester in the core yarn and presser yarn was melted and solidified, and the core yarn and presser yarn were integrated. Accordingly, the core-sheath type composite filaments constituting the core yarn and the presser yarn are both functioning as heat-fusible fibers. On the other hand, the flower yarn was fusion-fixed at the portion passing through the core yarn and the holding yarn by this heat treatment, but each loop was not deteriorated or damaged at all. As described above, the shaft portion in which the core yarn and the presser yarn are integrated, and the brush composed of the flower yarn that spirals around the shaft portion as a whole, with many loops extending outward from the shaft portion. The thing provided with the part was obtained. This was cut into a length of 50 mm to obtain an SS size interdental brush.

Example 2
An SSS size interdental brush was obtained in the same manner as in Example 1 except that the multifilament yarns as the core yarn and the holding yarn were changed to the following.
[Core yarn]
96 core-sheath type composite filaments (about 11.5 dtex) in which a low melting point polyester having a melting point of 160 ° C. forms a sheath part and a high melting point polyester having a melting point of 250 ° C. forms a core part are bundled. A multifilament yarn of 1100 dtex / 96 filaments was prepared as a core yarn.
[Presser thread]
The same multifilament yarn as the core yarn was prepared as a presser yarn.

Example 3
An S-size interdental brush was obtained in the same manner as in Example 1 except that the multifilament yarns as the core yarn and the holding yarn were changed to the following.
[Core yarn]
2210 is formed by bundling 240 core-sheath composite filaments (about 9 dtex) in which a low melting point polyester having a melting point of 160 ° C. forms a sheath and a high melting point polyester having a melting point of 250 ° C. forms a core. A multifilament yarn of decitex / 240 filament was prepared as a core yarn.
[Presser thread]
The same multifilament yarn as the core yarn was prepared as a presser yarn.

Example 4
The same core yarn and presser yarn as used in Example 1 were prepared. Moreover, the following were prepared as a flower thread.
[Flower yarn]
A 110-dtex / 10-filament multifilament yarn formed by bundling 10 single-phase filaments (about 11 dtex) made of polyester having a melting point of 250 ° C. was prepared as a flower yarn.

  Using the core yarn, presser yarn and flower yarn, cut molding yarn was manufactured with a molding yarn manufacturing machine (manufactured by Koseki Manufacturing Co., Ltd.). The flower yarn was inserted between the twist of the core yarn and the presser yarn. The cut molding yarn was washed and dried, and then heat-treated at 180 ° C. for 1 minute under tension in the axial direction of the cutting molding yarn. By this heat treatment, the low melting point polyester in the core yarn and presser yarn was melted and solidified, and the core yarn and presser yarn were integrated. Accordingly, the core-sheath type composite filaments constituting the core yarn and the presser yarn are both functioning as heat-fusible fibers. On the other hand, the flower yarn was fused and fixed to the core yarn and presser yarn by this heat treatment, but both ends thereof were not deteriorated or damaged at all. As described above, a shaft provided with a shaft portion in which the core yarn and the presser yarn were integrated, and a brush portion made of flower yarn extending radially outward from the shaft portion was obtained. This was cut into a length of 50 mm to obtain an SS size interdental brush.

Example 5
An SSS size interdental brush was obtained in the same manner as in Example 4 except that the multifilament yarns that were the core yarn and presser yarn were changed to those used in Example 2.
[Core yarn]
96 core-sheath type composite filaments (about 11.5 dtex) in which a low melting point polyester having a melting point of 160 ° C. forms a sheath part and a high melting point polyester having a melting point of 250 ° C. forms a core part are bundled. A multifilament yarn of 1100 dtex / 96 filaments was prepared as a core yarn.
[Presser thread]
The same multifilament yarn as the core yarn was prepared as a presser yarn.

Example 6
An S-size interdental brush was obtained in the same manner as in Example 4 except that the multifilament yarns used as the core yarn and presser yarn were changed to those used in Example 3.

Example 7
The following core yarn, presser yarn 1, presser yarn 2, and flower yarn were prepared.
[Core yarn]
192 core-sheath composite filaments (about 8.5 dtex) in which a low melting point polyester having a melting point of 160 ° C. forms a sheath part and a high melting point polyester having a melting point of 250 ° C. forms a core part are bundled. 1650 decitex / 192 filament multifilament yarn was prepared as a core yarn.
[Presser thread 1]
The same multifilament yarn as the core yarn was prepared as a presser yarn 1.
[Presser thread 2]
A 110-decitex / 12-filament multifilament yarn comprising 12 low-melting filaments (about 9 dtex, manufactured by Unitika Fiber Co., Ltd., trade name “Flor M”) made of low-melting polyester having a melting point of 105 ° C. A presser thread 2 was prepared.
[Flower yarn]
An arrangement of 5 single-phase monofilaments of 22 dtex made of polyester having a melting point of 250 ° C. was prepared as a flower thread.

  Using the core yarn, presser yarn 1, presser yarn 2, and flower yarn, cut molding yarn was manufactured with a molding yarn manufacturing machine (manufactured by Koseki Manufacturing Co., Ltd.). The flower yarn was inserted between the twist of the core yarn and the presser yarn. The cut molding yarn was dry heat treated at 120 ° C. By this treatment, the presser yarn 2 was melted and solidified, and the flower yarn was temporarily fixed. Next, after washing and drying, heat treatment was performed at 180 ° C. for 1 minute under tension in the axial direction of the cut molding yarn. By this heat treatment, the low melting point polyester in the core yarn and the presser yarn 1 and further the presser yarn 2 were melted and solidified, and the core yarn and the presser yarns 1 and 2 were integrated. Therefore, the core-sheath type composite filament constituting the core yarn and the presser yarn 1 and the low melting point filament forming the presser yarn 2 both function as heat-fusible fibers. The presser thread 2 also functions as a heat-fusible fiber during temporary fixing. On the other hand, the flower yarn was fused and fixed to the core yarn and presser yarns 1 and 2 by dry heat treatment and heat treatment, but both ends thereof were not deteriorated or damaged at all. As described above, a shaft provided with a shaft portion in which the core yarn and presser yarns 1 and 2 were integrated and a brush portion made of flower yarn extending radially outward from the shaft portion was obtained. This was cut into a length of 50 mm to obtain an SS size interdental brush.

When the rigidity of the shaft part of the interdental brush obtained by the methods according to Examples 4 to 7 was measured by the measuring method of the bending characteristic B of the KES method, it was as follows. That is, the interdental brush obtained by the method according to Example 4 is 21.5 gf · cm ² / cm, that of Example 5 is 9.6 gf · cm ² / cm, and that of Example 6 is It was 50.3 gf · cm ² / cm, and that of Example 7 was 20.4 gf · cm ² / cm. As a result, when any of Examples 4 to 7 was used as an interdental brush, the shaft portion was not easily broken or bent. Moreover, since each axial part of the interdental brush obtained by the method which concerns on Examples 1-3 is respectively the same structure as each axial part of the interdental brush obtained by the method which concerns on Examples 4-6. When used as an interdental brush, the shaft portion was not easily broken or bent. Furthermore, since the interdental brush obtained by the method according to Examples 1 to 3 was obtained from a loop molding yarn in which the flower yarn was not cut, the brush portion was difficult to fall off, which was preferable.

Claims (9)

When a flower yarn is inserted between the strands of the core yarn and the presser yarn to obtain a molding yarn, at least one of the core yarn and the pressing yarn contains a heat-fusible fiber to produce a molding yarn After the molding yarn is obtained using a machine, the molding yarn is heat-treated while being tensioned in the axial direction, the heat-fusible fiber is fused, and the core yarn, the presser yarn and the flower yarn are fixed. A method for producing a brush, characterized in that a shaft portion is formed by the core yarn and the presser yarn, and a brush portion is formed by the flower yarn. Two types of heat-fusible fibers, low heat-fusible fiber and high heat-fusible fiber, are used to obtain a molding yarn, and then the low-heat fusible fiber is fused before heat treatment to temporarily fix the flower yarn. The manufacturing method of the brush of Claim 1 . The method for producing a brush according to claim 1 or 2 , wherein the brush is an interdental brush. As heat fusible fibers, the core portion at the sheath portion is a low-melting component is a high melting point component, any one of claims 1 to 3 using a core-sheath type composite fiber low melting component functions as heat sealing component The method for producing a brush according to one item. The method for manufacturing a brush according to any one of claims 1 to 4 , wherein the material of the core yarn and the holding yarn is polyester, and the material of the flower yarn is polyamide. The method for producing a brush according to any one of claims 1 to 5, wherein the molding yarn is a cut molding yarn. The method for manufacturing a brush according to any one of claims 1 to 5, wherein the molding yarn is a loop molding yarn. The manufacturing method of the brush as described in any one of Claims 1 thru | or 7 which inserts a flower thread | yarn between all the twists of a core thread | yarn and a holding thread | yarn, and obtains a molding thread | yarn. The method for producing a brush according to any one of claims 1 to 7, wherein a molding thread is obtained by providing a part for inserting a flower thread over a certain length and a part for not inserting a flower thread over a certain length. .