Method and apparatus for manufacturing individual brush unit of rotary toothbrush

Abstract

An apparatus for manufacturing an individual brush unit constituting a rotary brush by being stacked in multiple layers, includes an anvil having an insertion hole through which a filament group passes, a filament feeding unit which feeds the filament group from a feeder including a ring cutter on a tip and holds the filament group while a predetermined amount of the filament group protrudes outward from the insertion hole of the anvil, and an ultrasonic welder including a horn having a horn tip portion which pushes and radially expands a protruding tip of the filament group and welds a central part of the expanded filament group, to form the individual brush unit. A core of the welded central part is sandwiched between the ring cutter and the horn tip portion and is cut out, to simultaneously form a shaft hole and separate the individual brush unit from the filament group.

Claims

1. A method for manufacturing an individual brush unit that constitutes a rotary brush by being stacked in multiple layers, the method comprising the steps of: (i) feeding a filament group from a feeder of a filament feeding unit, and holding the filament group while a predetermined amount of the filament group protrudes outward from an insertion hole of an anvil, the filament group being a collection of multiple filaments in a bundle: (ii) pushing and radially expanding a protruding tip of the filament group by a horn tip portion of an ultrasonic welder; (iii) welding a central part of the expanded filament group by the horn tip portion, to form the individual brush unit; and (iv) sandwiching the welded central part between a ring cutter provided on a tip of the feeder and the horn tip portion, and cutting out a core of the welded central part using the ring cutter, to simultaneously form a shaft hole and separate the individual brush unit from the filament group, wherein the step (iv) includes cutting out the core of the welded central part after the horn stops welding the filament group.

2. The method for manufacturing an individual brush unit according to claim 1, wherein the step (iv) includes cutting out the core of the welded central part after the welded central part cools down.

3. A apparatus for manufacturing an individual brush unit that constitutes a rotary brush by being stacked in multiple layers, the apparatus comprising: an anvil having an insertion hole through which a filament group passes, the filament group being a collection of multiple filaments in a bundle; a filament feeding unit which includes a feeder including a ring cutter for cutting the filament group provided on a tip of the feeder, the filament feeding unit feeding the filament group from the feeder and holding the filament group while a predetermined amount of the filament group protrudes outward from the insertion hole of the anvil; and an ultrasonic welder including a horn having a horn tip portion, the horn pushing and radially expanding a protruding tip of the filament group, and welding a central part of the expanded filament group, to form the individual brush unit, wherein a core of the welded central part is sandwiched between the ring cutter and the horn tip portion and is cut out, to simultaneously form a shaft hole and separate the individual brush unit from the filament group, and the core of the welded central part is sandwiched between the ring cutter and the horn tip portion and is cut out, after the core of the welded central part cools down.

4. A apparatus for manufacturing an individual brush unit that constitutes a rotary brush by being stacked in multiple layers, the apparatus comprising: an anvil having an insertion hole through which a filament group passes, the filament group being a collection of multiple filaments in a bundle; a filament feeding unit which includes a feeder including a ring cutter for cutting the filament group provided on a tip of the feeder, the filament feeding unit feeding the filament group from the feeder and holding the filament group while a predetermined amount of the filament group protrudes outward from the insertion hole of the anvil; and an ultrasonic welder including a horn having a horn tip portion, the horn pushing and radially expanding a protruding tip of the filament group, and welding a central part of the expanded filament group, to form the individual brush unit, wherein a core of the welded central part is sandwiched between the ring cutter and the horn tip portion and is cut out, to simultaneously form a shaft hole and separate the individual brush unit from the filament group, and the core of the welded central part is sandwiched between the ring cutter and the horn tip portion and is cut out, after the horn stops welding the filament group.

5. The apparatus for manufacturing an individual brush unit according to claim 4, further comprising a sliding blade which is provided on a top surface of the anvil and cuts off and removes welding remains of the filament group cut using the ring cutter and the horn tip portion.

6. The apparatus for manufacturing an individual brush unit according to claim 5, further comprising an air blower for removing, from the anvil, the individual brush unit separated from the filament group, by air pressure.

7. The apparatus for manufacturing an individual brush unit according to claim 4, further comprising an air blower for removing, from the anvil, the individual brush unit separated from the filament group, by air pressure.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a cross-sectional view illustrating a configuration of a main part of an apparatus for manufacturing an individual brush unit according to an embodiment.

(2) FIG. 2 is a perspective view illustrating a configuration of a main part of an apparatus for manufacturing an individual brush unit according to an embodiment.

(3) FIG. 3 is a cross-sectional view illustrating a part of the step (i).

(4) FIG. 4 is a cross-sectional view illustrating a part of the step (i).

(5) FIG. 5 is a cross-sectional view illustrating a part of the step (ii).

(6) FIG. 6 is a cross-sectional view illustrating a part of the step (ii).

(7) FIG. 7 is a cross-sectional view illustrating a part of the step (iii).

(8) FIG. 8 is a cross-sectional view illustrating a part of the step (iv).

(9) FIG. 9 is a cross-sectional view illustrating a part of the step (iv).

(10) FIG. 10 is a cross-sectional view illustrating a part of the step (iv).

(11) FIG. 11 is a cross-sectional view illustrating a part of the step (iv).

(12) FIG. 12 is a cross-sectional view illustrating a part of the step (iv).

(13) FIG. 13 is a cross-sectional view illustrating a part of the step (iv).

NUMERICAL REFERENCES

(14) A air B bolt L1 to L3 distance between constituents M core N welding remains S individual brush unit 1 filament group 2 anvil unit 20 frame 21 anvil 21a anvil top surface 22 insertion hole 23 hollow space 3 filament feeding unit 4 chuck 40 casing 41 elastic member 42 supply and exhaust hole 43 compressor 5 feeder 50 shaft tube 51 feeding hole 51a ring cutter 6 ultrasonic welder 60 horn 60a horn end surface 61 oscillator 7 pressing member 70 through hole 7a pressing member bottom surface 8 sliding blade