JP2002253341A - Cup-type rotary brush and its manufacturing process - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lightweight cup-type rotary brush which can be manufactured at a lower, offer less user fatigue in polishing, and take a load off the air and power tools. SOLUTION: This cup-type rotary brush is characterized by brush bundles 3 which are made of a chemical fiber, cut into a prescribed length, and continuously arranged in a cylindrical shape with their individual base ends 3b welded together into a disc-like base 2 that has been molded of a thermosetting resin.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cup-type rotary brush which is mounted on an electric tool, an air tool, etc., rotates at a high speed, and grinds a surface of a metal, a non-ferrous metal or the like, and a manufacturing method thereof.

[0002]

2. Description of the Related Art An excellent polishing ability and a good finished surface can be obtained as a tool for polishing and finishing a metal processing surface or a welded portion and polishing and removing burrs and rust generated on the metal surface. Many cup-type rotating brushes are used.

Generally, a spring steel wire is used as a wire forming a brush portion of a cup-type rotary brush. Also,
The outer bowl that holds and fixes the brush part, the inner bowl and the caulking ring that connects them, and the ring that further fixes the wire,
All are made of metal.

[0004]

Therefore, the weight of the rotary brush itself is large, and the operator is tired when polishing the metal surface by attaching the rotary brush to a spindle of an air tool or a power tool. There is a problem that the load on the air tool and the electric tool is large. In addition, the cup-type rotary brush also has a problem that the polishing ability is extremely reduced because the wire made of a spring steel wire that forms the brush portion by centrifugal force during rotation spreads and the side surface of the wire contacts the surface to be polished. is there.

Further, this kind of rotating brush is a consumable item, and when the brush is worn, it is discarded and replaced with a new one. In other words, the conventional rotating brush arranges a large number of wires by a plurality of wires, or folds the wires as they are, folds them in half, hooks them on a ring, radially arranges them, and interposes them between the outer bowl and the inner bowl. In this state, it is caulked and fixed by a caulking member such as a nut to be integrally formed.

Therefore, since the wire and the outer bowl or inner bowl cannot be disassembled, the entire rotating brush is discarded when the wire is worn, and the outer bowl or inner bowl without any damage even if the wire is worn. As a result, nuts are also discarded, which results in wasted resources and increased waste.

[0007] Further, in the case of using a synthetic fiber aggregate formed by extruding a material obtained by extruding a material obtained by mixing abrasive grains into a nylon filament or a polyamide or polyester molten synthetic resin for the brush portion, Since the outer bowl, inner bowl and nut are made of metal, even when the brush part is worn and discarded,
There is also a problem that the separation of dust is difficult because of the presence of the metal portion and the synthetic resin portion.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object to be able to be manufactured at a low cost and light weight, to reduce the fatigue of an operator during a polishing operation, and to provide an air tool or an electric tool. An object of the present invention is to provide a cup-type rotary brush and a method for manufacturing the same, which can reduce the load applied to the brush.

[0009]

SUMMARY OF THE INVENTION In order to achieve the above-mentioned object, the present invention is directed to a first aspect of the present invention in which a bundle of chemical fibers cut to a predetermined length is aligned in a cylindrical shape. A cup-shaped rotation, comprising: a brush bundle integrally formed by welding only an end portion; and a disc-shaped base formed of a thermosetting resin material and having a base end portion of the brush bundle embedded therein. In the brush.

A second aspect of the present invention is characterized in that the chemical fiber bundle according to the first aspect is an aggregate of chemical fibers formed into a fibrous shape by extruding a material obtained by mixing abrasive grains into a molten synthetic resin. .

A third aspect of the present invention is characterized in that the base of the first aspect has a mounting hole at a central portion thereof, the mounting hole being fixed to a spindle of an air tool or a power tool.

In a fourth aspect of the present invention, in a state where the bundle of chemical fibers cut to a predetermined length is aligned in a cylindrical shape, only a base end thereof is welded and integrally joined to form a brush bundle. And a second step of accommodating at least the base end of the brush bundle in a cavity of a mold, and injecting a thermosetting resin into the cavity of the mold and then curing the resin, thereby setting the base end of the brush bundle. And a third step of forming a base for embedding the above.

According to the above construction, since it is composed of two parts, the base of the thermosetting resin and the brush bundle of chemical fibers, it is structurally simple and lightweight. For example, a three-inch cup-type rotating brush will be described as an example. The rotating brush made of metal for the outer bowl, the inner bowl and the nut has an average weight of 302 g, whereas the rotating brush of the present invention has an average weight of 302 g. The weight is 74 g, which is as light as about 1/4, and the burden on the operator can be greatly reduced. Also, centrifugal force acts on the brush bundle during rotation of the rotating brush, but since the base end of the brush bundle is welded and embedded integrally in the base,
The brush bristles can be prevented from being removed, and the brush bundle does not come off the base, which is excellent in safety.

The rotating brush gradually wears out due to the polishing operation, and the brush bundle becomes short and unusable.
Since the rotating brush is a worn brush bundle with the base, even if it is discarded, the amount is small, so that waste of resources and waste can be reduced, and separation processing when discarding as garbage is easy. Becomes

[0015]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a cup-type rotating brush, in which (a)
2 is a side view, (b) is a longitudinal side view, (c) is a plan view, FIG.
FIG. 3 is a vertical sectional side view of a mold for manufacturing a cup-type rotary brush, and FIG. 3 is a vertical sectional side view of a state in which a brush bundle is stored in a mold and a thermosetting resin is injected.

As shown in FIG. 1, a cup-type rotating brush 1
Is a base 2 formed of a thermosetting resin material,
It is composed of two parts of a brush bundle 3 whose base end is fixed to the base 2. The base 2 has a disc shape, and a mounting hole 4 having a female screw 4a for screwing and fixing to a spindle of an air tool or an electric tool and a convex portion 5 having a hexagonal nut shape concentric with the mounting hole 4 are provided at the center. Is provided. In addition, the female screw 4 is not necessarily provided on the inner peripheral surface of the mounting hole 4 of the base 2.
It is not necessary to provide a, and when it is mounted on the air tool, it may be a simple hole.

The brush bundle 3 is an aggregate of brush bristles 3a made of chemical fibers formed into a fibrous shape by extruding a material obtained by extruding a material obtained by mixing abrasive grains into a molten synthetic resin of nylon filament or polyamide or polyester. The abrasive grains are mixed in the inside of each brush bristle 3a, and the abrasive grains are also exposed on the surface. A large number of the brush bristles 3a are aligned, cut to a predetermined length, and both ends are aligned.

Further, the base end 3b of the brush bundle 3 is heat-welded to prevent the bristles 3a from depilating and at the same time to prevent dispersion and scattering of the bristles during the manufacture of the brush.

The base end 3b of the brush bundle 3 is buried in the base 2 by a manufacturing method to be described later, and the base 2 and the brush bundle 3 are integrally formed to constitute the rotating brush 1.

The rotating brush 1 constructed as described above is lightweight because the base 2 is made of a synthetic resin material and the brush bundle 3 is also made of chemical fiber brush bristles containing abrasive grains, so that no metal is used at all. . The rotating brush 1 can be easily attached by screwing a spindle of an air tool or a power tool into a female screw 4 a of a mounting hole 4 of the base 2. Then, the rotating brush 1 is rotated at a high speed by an electric tool,
By bringing the tip or side of the brush bundle 3 into contact with the surface to be polished, the surface to be polished can be polished with chemical fiber brush bristles containing abrasive grains.

While the rotating brush 1 is rotating, centrifugal force acts on the brush bundle 3, but since the base end portion 3b of the brush bundle 3 is heat-welded and solidified integrally, the bristles 3a can be prevented from being depilated. Further, since the base end portion 3b of the brush bundle 3 is fixed while being buried in the base 2, the brush bundle 3 is
It does not fall out and is excellent in safety.

The rotating brush 1 gradually wears out due to the polishing operation, and the brush bundle 3 becomes short and unusable. However, since the rotating brush 1 is the worn brush bundle 3 with the base 2, it is discarded. However, the amount is small, and waste of resources and waste can be reduced.

The thermosetting resin material for forming the base 2 is as follows:
For example, a thermosetting polyurethane elastomer is used. That is, an isocyanate-terminated prepolymer (trade name: Coronate 437, manufactured by Nippon Polyurethane Industry Co., Ltd.)
0) and a glycol-based curing agent (trade name: Nipporan 4038, Nippon Polyurethane Industry Co., Ltd.).

An isocyanate-terminated prepolymer (C-4)
370) is the appearance: transparent liquid NCO content: 15.0% viscosity: 1600 mm ² / s (25 ° C.) The glycol-based curing agent (N-4038) is the appearance: transparent liquid, hydroxyl value: 1233 mgKOH / g, viscosity: 100 mPa · s (25 ° C.), and the molding conditions are as follows.

Compounding ratio: C-4370 / N-4038 =
100/15 (weight ratio) Liquid temperature: 25 ° C. Mold temperature: 80 ° C. Curing time: 80 ° C. × 20 minutes

Next, a mold manufactured by the cup-type rotary brush 1 will be described with reference to FIGS. The mold 11 is divided into a lower mold 12, an intermediate mold 13, and an upper mold 14. The lower mold 12 and the middle mold 13 are fitted and positioned by the fitting portion 12a, and the middle mold 13 and the upper mold 14 are fitted to the fitting portion 1a.
4a, the fitting position is determined.

A disc-shaped recess 15 is provided on the upper surface of the lower mold 12, and the central opening of the recess 15 is closed by the lower surface of a protrusion 16 projecting downward from the upper mold 14. I have. Further, a part of the outer peripheral opening of the concave portion 15 is
3 is closed by the inner peripheral portion. Therefore, the lower mold 12
And a first cavity 17 surrounded by the intermediate mold 13 and the upper mold 14. A second cavity 18 is formed by a hexagon nut-shaped recess at the bottom of the center of the recess 15.

A disk-shaped recess 19 is provided on the lower surface of the lower mold 12, and a core member 21 having a screw shaft core 20 is rotatably accommodated in the recess 19. The screw shaft core 20 of the core member 21 penetrates the center of the first and second cavities 17 and 18 and abuts on the projection 16 of the upper die 14.

Further, the outer peripheral surface of the convex portion 16 of the upper mold 14 is formed as a tapered surface 16a tapering downward, and the inner peripheral surface of the intermediate mold 13 is also tapered downward.
a, an inverted conical cylindrical gap portion 22 is provided between both tapered surfaces 16a and 13a. Further, a resin injection port 23 communicating with the first cavity 17 is provided in a part of the outer peripheral wall of the lower mold 12.

Next, a method of manufacturing the cup type rotary brush 1 using the mold 11 will be described. The upper mold 14 is removed, and the brush bundle 3 with the base end 3b thermally welded is set on the inner peripheral surface of the intermediate mold 13 with the brush bristles 3a facing upward. At this time, the base end 3b of the brush bundle 3
So that it is located at a substantially intermediate height of the cavity 17 of
An upward projection may be provided on the bottom surface of the cavity 17 of
A downward projection may be provided on the base end 3 b of the brush bundle 3.
Next, the protrusion 16 of the upper mold 12 is inserted into the brush bundle 3,
When the fitting portion 14a of the upper mold 14 and the intermediate mold 13 is fitted,
The brush bundle 3 is set in a state of being interposed in an inverted conical cylindrical gap portion 22 between the tapered surfaces 16a and 13a.

The mold 11 on which the brush bundle 3 is set is placed in a thermostat or the like, and the mold 11 is heated to about 80.degree. On the other hand, 100 g of isocyanate-terminated prepolymer (C-4370)
A thermosetting resin material comprising 15 g of a glycol-based curing agent (N-4038) and a glycol-based curing agent (N-4038) is charged into the cup, and is manually stirred for about 30 seconds. After stirring, the mixture is placed in a vacuum container to remove bubbles.

The thermosetting resin material having undergone the defoaming process is put into an injector or the like, and the thermosetting resin material is injected into the first and second cavities 17 and 18 from the resin injection port 23 of the mold 11.

The thermosetting resin material injected into the first and second cavities 17 and 18 is filled all over the corners of the first and second cavities 17 and 18 and is filled with the base end of the brush bundle 3. The gap between the brush bristles 3a near the portion 3b is also filled, and the base end 3b of the brush bundle 3 is embedded in the thermosetting resin material.

After the injection of the thermosetting resin material into the mold 11 is completed, the mold 11 is placed in a constant temperature bath or the like and heated for about 20 minutes.
The base end 3b of the brush bundle 3 is buried in the base 2.

When the lower mold 12 and the intermediate mold 13 are separated, the cup-shaped rotary brush 1 is exposed. Finally, when the screw shaft core 20 is removed from the base 2 while rotating the core member 21 having the screw shaft core 20, the base 2 is rotated. The mounting hole 4 having the female screw 4a is opened, and the base 2 is removed from the lower mold 12.

In the cup-shaped rotary brush 1 manufactured in this manner, since the base end 3b of the brush bundle 3 is heat-welded and solidified integrally, the bristles 3a can be prevented from being depilated, and the brush bristles can be prevented. Since the base end 3b of the bundle 3 is fixed while being buried in the base 2, the brush bundle 3 does not come off from the base 2, and the rotating brush 1 with high safety can be obtained. Moreover, the weight of the cup-type rotary brush 1 of the present invention is reduced to about one-fourth of that of the conventional metal cup-type rotary brush. The burden on air tools and power tools can also be reduced.

Furthermore, even if the brush bundle 3 is worn out and discarded, the amount is small, so that waste of resources and waste can be reduced, and the rotating brush 1 is entirely formed of a synthetic resin. Therefore, even when discarded as garbage, there is no loss of separating the garbage.

In the above embodiment, the isocyanate-terminated prepolymer (C-
4370) and a glycol-based curing agent (N-4038) were used, but the present invention is not limited to this embodiment, and can be changed as appropriate. Good. Further, the shape of the mold is only an example, is not limited, and can be appropriately changed.

[0040]

As described above, according to the present invention, since it is composed of two parts, a base made of a thermosetting resin material and a brush bundle made of a chemical fiber, it can be manufactured at a low cost and is lightweight. This has the effect of reducing the fatigue of the worker at the time of work and the burden on the air tool and the electric tool.

In addition, the centrifugal force acts on the brush bundle during rotation of the cup-type rotary brush to spread the brush bunch, and the brush bristles come into contact with not only the tip but also the side of the brush bristles, but abrasive grains are mixed into the entire bristles. As a result, the polishing ability is exhibited, and there is an operational effect that cannot be obtained with the conventional brush-type cup-shaped rotary brush made of wire.

Further, since the base end of the brush bundle is heat-welded and solidified integrally, even if centrifugal force acts on the brush bundle during rotation, the bristles of the brush bristles can be prevented. Since the base end portion is fixed while being buried in the base, the brush bundle does not come off from the base, and the safety is excellent.

The rotating brush gradually wears out due to the polishing operation, and the brush bundle becomes short and unusable.
Since the rotating brush is a bunch of worn brushes with a base, even if it is discarded, the amount is small, and waste of resources and waste can be reduced. Furthermore, since all the rotating brushes are formed of a synthetic resin, there is no loss in separating the dust when discarding the dust.

[Brief description of the drawings]

FIG. 1 shows a cup-type rotary brush according to a first embodiment of the present invention, wherein (a) is a side view, (b) is a longitudinal side view,
(C) is a plan view.

FIG. 2 is a vertical side view of a mold for manufacturing the cup-type rotary brush of the embodiment.

FIG. 3 is a vertical cross-sectional side view showing a state in which the brush bundle is housed in the mold of the embodiment and a thermosetting resin is injected.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Rotating brush 2 ... Base 3 ... Brush bundle 3b ... Base end

Claims (4)

[Claims] A brush bundle formed by welding only a base end of a bundle of chemical fibers cut into a predetermined length into a tubular shape, and forming the bundle with a thermosetting resin material. And a disc-shaped base in which a base end of the brush bundle is embedded. 2. The cup according to claim 1, wherein the chemical fiber bundle is an aggregate of chemical fibers formed into a fibrous shape by extruding a material obtained by mixing abrasive grains into a molten synthetic resin. Mold rotating brush. 3. The cup-type rotary brush according to claim 1, wherein the base has a mounting hole at a center portion thereof, the mounting hole being fixed to a spindle of an air tool or a power tool. 4. A first step of forming a brush bundle by welding only a base end portion of a chemical fiber bundle cut to a predetermined length in a tubular shape and joining them together. A second step of accommodating at least the base end of the brush bundle in a cavity of a mold; and injecting a thermosetting resin into the cavity of the mold and curing the resin to bury the base end of the brush bundle. And a third step of forming a base.