CN108315872B - Tool and method for manufacturing wool ball - Google Patents

Abstract

The invention provides a hair ball manufacturing tool capable of easily manufacturing hair balls with different diameters. A ball manufacturing tool (1) is provided with: a base member (30) formed in a long shape; a1 st winding member (10) and a 2 nd winding member (20) which are formed in a long shape and intersect with the base member (30) and are provided on the base member (30) so as to face each other, the 1 st winding member (10) being formed so as to be able to approach and separate from the 2 nd winding member (20). Specifically, the 1 st winding member (10) is formed so as to be movable along the base member (30), and the 1 st winding member (10) and the 2 nd winding member (20) are provided with cutting tool insertion grooves (15a), (25a) for facilitating cutting of the wound yarn.

Description

Tool and method for manufacturing wool ball

Technical Field

The invention relates to a hair ball manufacturing tool and a hair ball manufacturing method.

Technical Field

It is known that a ball manufacturing tool uses a wire material such as a yarn to manufacture a ball as a ball ornament. For example, japanese patent application laid-open No. 2003-221769 discloses a ball forming tool including two plate-like winding bodies in which a yarn is wound in a coil shape. The end of the winding body is rotatably provided and connected to the connecting member. When a ball is made, a knotted string is threaded in advance through each of the stitches which are initially set in a straight line. Then, the yarns are wound around the respective yarn winding bodies. Then, the respective winding bodies are rotated while facing each other, and the knitting wool located at the outer side portion of each winding body is cut. Then, the knotted yarn is tied, and the cut yarn is finished to complete the production of the ball.

Disclosure of Invention

Problems to be solved by the invention

The hair ball can be used as a decorative member by being hung on a bag or a mobile phone for decoration, or by being decorated on a hair line cap or the like. Further, the user may request a ball having a size corresponding to the decorative object. For example, a small ball may be preferred for a ball decorated on a bag or a mobile phone, and a large ball may be preferred for a cap decorated with a wool. Further, in the conventional ball making tools, as disclosed in japanese patent laid-open No. 2003-221769, the diameter of the ball depends on the width of the winding body, and when it is desired to make balls having different diameters, it is necessary to prepare ball making tools having different widths of the winding body, which is very complicated.

The invention aims to provide a tool and a method for manufacturing a hair ball, which can easily manufacture hair balls with different diameters.

The tool for making the hair bulb of the invention is characterized in that: a base member formed in a long shape; and a1 st winding member and a 2 nd winding member which are formed in an elongated shape, intersect with the base member, and are provided on the base member so as to face each other, and either one of the 1 st winding member and the 2 nd winding member is capable of approaching to and separating from the other of the 1 st winding member and the 2 nd winding member.

The manufacturing method of the hair ball of the invention comprises the following steps: a1 st step of moving either a1 st winding member or a 2 nd winding member formed in a long shape, which are provided to intersect perpendicularly with a base member formed in a long shape and to face each other, with respect to the base member, to adjust a distance between the 1 st winding member or the 2 nd winding member; a 2 nd step of winding a wire between the 1 st winding member and the 2 nd winding member; a 3 rd step of temporarily knotting the center of the thread wound in the 2 nd step with a thread string; and a 4 th step of cutting the thread wound in the 2 nd step at a position opposite to a position where the 1 st thread winding member and the 2 nd thread winding member face each other.

The manufacturing method of the other hair ball of the invention comprises the following steps: a step 1 of threading a thread through a thread groove provided in a portion facing a1 st or 2 nd winding member formed in a long shape, the portion crossing a base member formed in a long shape and facing each other; a 2 nd step of winding the 1 st winding member and the 2 nd winding member, respectively; step 3, pulling the two ends of the rope to temporarily knot; and a 4 th step of cutting the thread wound in the 2 nd step at a position opposite to a position where the 1 st winding member and the 2 nd winding member face each other.

According to the present invention, it is possible to provide a ball manufacturing tool and a ball manufacturing method capable of manufacturing balls having different diameters.

Drawings

Fig. 1 is a perspective view of a hair ball producing tool according to an embodiment of the present invention, viewed from the front.

Fig. 2 is a perspective view of the hair ball producing tool according to the embodiment of the present invention, as viewed from the back side.

Fig. 3 is an exploded perspective view of the hair ball producing tool according to the embodiment of the present invention, as viewed from the front.

Fig. 4 is an exploded perspective view of the hair ball producing tool according to the embodiment of the present invention, as viewed from the back side.

Fig. 5 is a front view illustrating a method of using the hair ball producing tool according to the embodiment of the present invention.

Fig. 6 is a front view illustrating a method of using the hair ball producing tool according to the embodiment of the present invention.

Fig. 7 is a schematic view of a ball produced by the ball producing tool according to the embodiment of the present invention, wherein (a) is a schematic view showing a state before completion of the ball removed from the ball producing tool, and (b) is a schematic view showing a state after completion.

Fig. 8 is a rear view illustrating a method of using the hair ball producing tool according to the embodiment of the present invention.

Fig. 9 is a front view illustrating a method of using the hair bulb producing tool according to the embodiment of the present invention.

Fig. 10 is a front view illustrating a method of using the hair ball producing tool according to the embodiment of the present invention.

Fig. 11 is a front view illustrating a method of using the hair ball producing tool according to the embodiment of the present invention to produce tassels.

Fig. 12 is a schematic view illustrating tassels manufactured using the hair ball manufacturing tool according to the embodiment of the present invention.

Detailed Description

Hereinafter, embodiments of the present invention will be described with reference to the drawings. The ball manufacturing tool 1 shown in fig. 1 and 2 is a tool for manufacturing a so-called ball 2 as shown in fig. 7 (b). The ball manufacturing tool 1 includes: a base member 30 formed in a long flat plate shape; the first winding member 10 and the second winding member 20 are provided on the base member 30 so as to intersect perpendicularly with the base member 30 formed in a long flat plate shape and intersect therewith. In the following description, the winding member position scale 33 is a scale, the surface indicated by the intermediate position scale 34 is the front surface, and the opposite surface is the back surface.

As shown in the exploded perspective views of fig. 3 and 4, both end portions of the base member 30 of the tool 1 for producing a hair bulb are formed in arc shapes. A plurality of smooth concave-convex shaped engaging portions 31 are formed at equal intervals on the outer side of one side of the base member 30, that is, on the lower side edge portion in fig. 1 to 4. Two substantially rectangular recesses that are long in the longitudinal direction are provided in parallel on both side surfaces of the base member 30. Scales are applied to the 1 st recess 32a and the 2 nd recess 32b, which are recesses on the front surface side of the base member 30. The scale of the 1 st recess 32a is used as the winding member position scale 33, and the scale of the 2 nd recess 32b is used as the intermediate position scale 34. Further, on both side surfaces near one end of the base member 30, the turning shaft portions 35a, 35b project outward from the respective side surfaces. At one end of the base member 30, restricting recesses 36a and 36b are formed on the engaging portions 31 of the pivot shaft portions 35a and 35b, respectively. Further, restriction concave portions 37a and 37b are also formed on the other end sides of the base member 30 of the rotation shaft portions 35a and 35 b.

The 1 st wire winding member 10 has a sliding portion 11 formed at an end portion on the base member 30 side and having a substantially rectangular shape in a side view. The sliding portion 11 is formed in a square tube shape, and has a cross-sectional shape in the vertical direction in fig. three, which substantially matches the cross-sectional shape in the width direction of the portion where the 1 st concave portion 32a and the 2 nd concave portion 32b of the base member 30 are provided, and into which the base member 30 is inserted. Two shaft support portions 12a and 12b are formed to protrude from the lower side edge portion of the slide portion 11. The shaft support portions 12a and 12b are provided with shaft holes, respectively. Shafts 41a and 41b of an engaging member 40 described below are inserted into shaft holes of the shaft support portions 12a and 12 b. In addition, a triangular mark 13a having a top portion directed outward is provided near the edge portion on the other end side of the base member 30 on the front side surface of the slide portion 11. Further, the mark 13b is also provided on the front side surface of the front end of the 1 st wire winding member 10 in the same manner.

A coiled portion 14 extends from an upper edge portion of the slider 11 in a substantially long flat plate shape through a base end portion. The base end portion of the coiled portion 14 has substantially the same width as the sliding portion 11, and is extended by a slope portion 14a formed on the outside, that is, the other end side of the base member 30. The inclined portion 14a is formed with a semi-cylindrical projecting portion 14a1 having the width direction of the inclined portion 14a as the longitudinal direction. In the winding portion 14, groove-shaped cutting tool insertion grooves 15a and threading grooves 15b are formed on both side surface portions extending in the longitudinal direction. A pair of engaging portions 16 capable of engaging the thread at the center protrude in an L shape on the front and rear sides of the side edge portion of the winding portion 14 at the upper end of the threading groove 15b on the inner side, i.e., one end side of the base member 30.

A thread locking portion 17 is provided near a boundary between the winding portion 14 on the inner side edge of the back surface, which is the other side surface of the 1 st winding member 10, and the sliding portion 11. The wire anchoring portion 17 includes a notch 17a and a projection 17b that closes the notch 17a with a slight gap therebetween. Two longitudinal ribs 18a, 18b extending in the longitudinal direction are formed on the upper back surface of the proximal end portion of the winding portion 14 of the first winding member 10. Two bosses 19a, 19b protruding in parallel with the short side direction of the 1 st wire winding member 10 are formed above the vertical ribs 18a, 18 b. The pitch of the bosses 19a and 19b is the same as the pitch of the locking holes 65 of the deflection preventing member 60 described below. The bosses 19a and 19b are formed to have a diameter that can be inserted into the locking hole 65.

The engaging member 40 is provided rotatably on the sliding portion 11 of the 1 st winding member 10, is formed in a substantially square bar shape, and has engaging teeth 42 protruding toward the engaging portion 31 side, which is the base member 30, formed from one end of the shafts 41a and 41 b. The other end sides of the shafts 41a and 41b are formed with elastic portions 43 having a substantially U-shape in side view with a cut near the shafts 41a and 41 b. When the shafts 41a and 41b are inserted into the shaft holes of the shaft support portions 12a and 12b, the end portions of the elastic portions 43 abut against the side edge surfaces of the slide portion 11 and are sprung. Therefore, the engaging teeth 42 are biased toward the engaging portion 31, and the engagement between the engaging teeth 42 and the concave portion of the engaging portion 31 is maintained. When the elastic portion 43 is pressed by a finger against the biasing force of the elastic portion 43, the engagement between the engaging teeth 42 and the engaging portion 31 is released. Then, the 1 st winding part member 10 moves in the longitudinal direction of the base member 30.

In the 2 nd winding member 20, the base end portion on the base member 30 side is a turning support portion 21, and is formed in a plate shape divided into two parts, i.e., a front surface side and a back surface side, and shaft holes 21a and 21b are formed in the plate-shaped portions on the front surface side and the back surface side. The shaft holes 21a and 21b are rotatably inserted into the rotating shaft portions 35a and 35b of the base member 30. Therefore, the 2 nd wire winding member 20 is rotatably provided on the base member 30. The end of the rotation support 21 is semicircular in side view. Further, the semicircular top portions are formed with regulating projections 21c and 21d projecting oppositely. The restricting projections 21c, 21d can be fitted into the restricting concave portions 36a, 36b, 37a, 37b, respectively, by the relationship of the concave portions and the convex portions. Therefore, the rotation of the base member 30 around the rotation shaft portions 35a and 35b is restricted in the 2 nd cord winding member 20. The winding portion 24 extends in a long flat plate shape from an upper side edge portion of the rotation support portion 21. A groove-shaped thread cutting tool insertion groove 25a and a thread passing groove 25b are formed in both side edge portions of the winding portion 24 that are long in the longitudinal direction. The front end of the inner threading groove 25b is formed with a wire engaging portion 26 in the same manner as the first thread winding member 1. In addition, the proximal end portion of the winding portion 24 is similarly formed with an inclined portion 24 a. Further, on the back surface of the 2 nd winding member 20, similarly to the thread anchoring portion 17 of the 1 st winding member 10, a thread anchoring portion 27 including a notch portion 27a and a projection 27b is provided.

The 1 st winding member 10 and the 2 nd winding member 20 are provided with two substantially plate-shaped winding amount restricting members 50, respectively. The winding amount regulating member 50 is provided so that the plane thereof faces the longitudinal direction of the 1 st winding member 10 and the 2 nd winding member 20 and can regulate the amount of the thread wound around the winding parts 14 and 24. The thread take-up amount regulating member 50 has a slit 51 formed therein, which can lock and fix the thread. Further, hook-shaped portions 52a and 52b are formed on the opposite side of the slit 51 so as to be engaged with the cutting tool insertion grooves 15a and 25a and the threading grooves 15b and 25b, respectively, and the winding amount regulating member 50 is movably disposed in the longitudinal direction of the winding portions 14 and 24. The winding amount regulating member 50 can be inserted from the notches 14f and 24f formed at the distal ends and the proximal ends of the cutting tool insertion grooves 15a and 25a formed on the front surfaces of the winding portions 14 and 24.

Further, contact protruding plates 14g, 24g are formed at the tip ends of the winding parts 14, 24 of the 1 st winding member 10 and the 2 nd winding member 20, and the contact protruding plates 14g, 24g protrude in plate shapes facing each other on the front side plates of the threading grooves 15b, 25 b. The abutment of the abutment projection plates 14g and 24g restricts the approach of the 1 st winding member 10 and the 2 nd winding member 20, and the winding amount restriction member 50 can be moved with a gap formed at the inner edge portion, which is the opposite side of the winding portions 14 and 24. Therefore, the winding amount regulating members 50 of the 1 st winding member 10 and the 2 nd winding member 20 can be easily aligned with each other.

A deflection preventing member 60 is rotatably disposed on the rear surface side of the 2 nd winding member 20. The deflection preventing member 60 is formed in a substantially rectangular thin plate shape, and has a plurality of locking holes 65 formed therein. The deflection preventing member 60 is detachably press-fitted into the pin hole 24c at the tip of the winding part 24 of the 2 nd winding member 20, and has a pin 67 in the vicinity of the end thereof, and is rotatable about the pin 67. The rotation of the deflection preventing member 60 is regulated by the deflection preventing member 60 abutting against the longitudinal rib 28 formed on the outer edge of the second winding member 20 in the longitudinal direction of the winding portion 24. In addition, a protrusion 21e is formed to protrude from the vicinity of the shaft hole 21a of the rotation supporting portion 21 of the 2 nd wire winding member 20. As for the deflection preventing member 60, the deflection preventing member 60 can be fixed by inserting the protrusion 21e into the locking hole 65 when the ball making tool 1 is stored. Further, a winding member position scale 63 having the same scale as the winding member position scale 33 of the base member 30 is formed on the front surface side of the deflection preventing member 60.

< method for producing Hair bulb 1>

Next, a method of manufacturing the ball 2 by the ball manufacturing tool 1 will be described. First, a method for producing the size-adjustable hair bulb 2 will be described.

First, the interval between the 1 st winding member 10 and the 2 nd winding member 20 provided on the base members 30 facing each other is adjusted, that is, the 1 st step is performed. That is, the 1 st wire winding member 10 movably formed along the base member 30 is moved for adjustment. The interval between the 1 st winding member 10 and the 2 nd winding member 20 is the diameter of the hair bulb 2. At this time, the restricting projections 21c and 21d of the 2 nd wire winding member 20 are fitted into the restricting recesses 36a and 36b of the base member 30, respectively, to restrict the rotation of the 2 nd wire winding member 20. After the interval between the 1 st winding member 10 and the 2 nd winding member 20 is adjusted, the winding amount regulating member 50 is moved in accordance with the interval to adjust, i.e., regulate the winding amount. When the ball 2 with the high density of the knitting wool 2a is to be produced, the interval between the yarn-winding amount regulating members 50 may be increased. Further, by adjusting the interval between the winding amount regulating members 50 of the 1 st winding member 10 and the 2 nd winding member 20, the uniform ball 2 can be produced. Then, the deflection preventing member 60 is rotated, and the bosses 19a, 19b of the 1 st wire winding member 10 are inserted into the locking holes 65 of the deflection preventing member 60. Accordingly, when the winding is performed between the 1 st winding member 10 and the 2 nd winding member 20, the 1 st winding member 10 and the 2 nd winding member 20 can be prevented from being bent.

Next, the winding wire, i.e., the winding yarn 2a is wound between the 1 st winding member 10 and the 2 nd winding member 20, and the 2 nd step is performed. The winding wire is different according to the thickness, but the uniform hair ball 2 can be manufactured by winding about 80 to 100 turns. Fig. 5 shows the ball making tool 1 in this state. Both ends of the ball 2a are engaged with the slits 51 of the winding amount regulation member 50.

Next, the center of the yarn 2a, which is the wound yarn, is temporarily knotted with the string 2b, that is, the 3 rd step is performed. At this time, the position scale of the 1 st thread winding member 10 indicated by the marks 13a and 13b is read, and the center position of the yarn 2a as a wound thread can be easily grasped by using the position of the intermediate position scale 34 corresponding to the scale as a marker. In the example of fig. 5 and 6, the scale of the scale in which the marks 13a and 13b are marked with the wire winding member position scale 33/63 is "10". Therefore, the position of the mark "10" of the intermediate position mark 34, that is, the position indicated by the arrow P is the central position of the entangled knitting wool 2a, and the temporary knot tying of the string 2b is performed using the mark "10" of the intermediate position mark 34 as a mark.

Next, a thread cutting tool such as a blade of a scissors is inserted into the thread cutting tool insertion grooves 15a and 25a of the opposite side portions of the 1 st winding member 10 and the 2 nd winding member 20, and the knitting yarn 2a, which is a thread wound around the opposite side portions of the 1 st winding member 10 and the 2 nd winding member 20, is cut, and the 4 th step is performed. Since a thread cutting tool such as scissors can be inserted into the thread cutting tool insertion grooves 15a and 25a, the knitting wool 2b can be easily cut. After the yarn 2a is cut, the wound and cut yarn 2a is removed and tied with the string 2b, and as shown in fig. 7(a), a plurality of yarns 2a having substantially the same length are gathered into a bundle. Thereafter, the plurality of yarns 2a are unraveled and the shape is finished, and the ball 2 is completed.

Thus, according to the ball forming tool 1, the distance between the 1 st winding member 10 and the 2 nd winding member 20 can be adjusted by moving the 1 st winding member 10 to approach or separate from the 2 nd winding member along the base member 30, thereby forming balls 2 having various sizes, i.e., diameters. Then, the 1 st winding member 10 can be moved simply by pressing the elastic portion 43 of the engaging member 40, and if the engaging teeth are automatically engaged with the engaging portion 31 when the finger is separated from the elastic portion 43, the 1 st winding member 10 is fixed to the base member 30. Further, since the engaging portions 31 have a shape in which the protrusions and depressions are repeated at equal intervals, the distance between the 1 st winding member 10 and the 2 nd winding member 20 can be easily adjusted, and the operation is easy.

< method for producing Hair bulb 2>

Next, a method of manufacturing another ball 2 of the ball manufacturing tool 1 will be described. The method of manufacturing the hair bulb 2 described below is a method of manufacturing a minimum hair bulb by using the hair bulb manufacturing tool 1.

As a preliminary preparation, the 1 st winding member 10 and the 2 nd winding member 20 are brought close to each other, the abutment projection plates 14g and 24g are brought into abutment with each other, and then the 2 nd winding member 20 is rotated, the restriction projections 21c and 21d of the 2 nd winding member 20 are fitted into the restriction recesses 37a and 37b, and the 1 st winding member 10 and the 2 nd winding member 20 are formed into an L shape, see fig. 8.

Next, as shown in fig. 8, the first step 1 is performed by threading one string 2b through the threading grooves 15b, 25b of the 1 st winding member 10 and the 2 nd winding member 20 at the portions facing each other. At this time, the cord 2b from the 1 st winding member 10 to the 2 nd winding member 20 is locked to the cord locking portions 17, 27, and both end portions of the cord 2b are respectively locked to the cord locking portions 16, 26 provided at the tip ends of the 1 st winding member 10 and the 2 nd winding member 20.

Next, as shown in fig. 9, the knitting wool 2a is wound around the winding parts 14 and 24 of the 1 st winding member 10 and the 2 nd winding member 20, respectively, and the 2 nd step is performed. The 1 st winding member 10 and the 2 nd winding member 20 are formed in an L shape, and the 2 nd winding member 20 is restricted in rotation by the concave-convex fitting of the restricting projections 21c, 21d and the restricting recesses 37a, 37b, so that the knitting wool 2a is easily wound. In this case, it is preferable that the desired winding amount is set by adjusting the winding amount regulating member 50. The winding is performed about 70 to 100 times. Both ends of the wound yarn 2a are engaged with the slits 51 of the yarn winding amount regulating member 50.

Next, as shown in fig. 10, both ends of the string 2b are pulled to temporarily tie the ends of the string 2b, i.e., the 3 rd step is performed. When both ends of the cord 2b are pulled, the engagement of the restricting projections 21c and 21d and the restricting recesses 37a and 37b of the 2 nd spool member 20 is released, and the 2 nd spool member 20 approaches the 1 st spool member 10 and rotates around the rotation shaft portions 35a and 35 b. At this time, the wire 2b and the wire anchoring portions 17, 27, 16, and 26 are first released from the engagement.

Then, the cutting edge of scissors or the like is inserted into the cutting tool insertion grooves 15a and 25a, and the knitting wool 2a on the opposite side portion to the portion facing each other of the 1 st winding member 10 and the 2 nd winding member 20 is cut, that is, the 4 th step is performed. Then, the string 2b is tied up to the shape shown in fig. 7(a), and the ball 2 shown in fig. 7(b) is completed in the same manner as described above.

In this way, the threading grooves 15b and 25b are provided in the mutually facing portions of the 1 st winding member 10 and the 2 nd winding member 20, and the cord 2b is threaded in advance through the threading grooves 15b and 25b, whereby the yarn 2a is wound around each of the 1 st winding member 10 and the 2 nd winding member 20, and a small ball 2 can be produced.

< preparation method of tassel >

Next, a method for producing tassel 6 will be described as shown in fig. 12. The method for producing tassel 6 is almost the same as the process of the above-described < method for producing a hair bulb 1 >. Therefore, only the different steps will be described. Similarly, when the tassel 6 is produced, the length of the knitting wool can be changed by moving the first thread winding member 10. As shown in fig. 11, the tassel 6 is preferably formed such that the amount of the thread wound around the 1 st winding member 10 and the 2 nd winding member 20 is approximately 20 turns. In addition, when the tassel 6 is manufactured, a hanging string 6b in which a string is knotted to form a loop is manufactured in advance. Then, the knot portion 6b1 of the knot of the suspension cord 6b is embedded in the wound yarn 6 a. In the production of the tassel 6, the string 6c knotted at the center of the twisted yarn 6a is firmly fixed.

In this way, similarly to the < ball making method 1>, the cutting edge of the scissors is inserted into the cutting tool insertion grooves 15a and 25a to cut the knitting wool 6 a. Then, the upper knitting yarn 6a on the side of the hanging cord 6b is fastened with the fastening yarn 6 d. Then, the length and shape of the hair 6a are adjusted with scissors or the like, and the tassel 6 is completed.

Although the embodiments of the present invention have been described above, the present invention is not limited to the embodiments. Various modifications can be applied to the implementation. For example, the base member 30, the 1 st winding member 10, and the 2 nd winding member 20 may be formed in a long flat plate shape, or may be formed in other long shapes such as a round bar shape or a square bar shape. The deflection preventing member 60 may be provided between the 1 st winding member 10 and the 2 nd winding member 20, or may be attached to the 1 st winding member 10, contrary to the embodiment. The 1 st winding member 10 and the 2 nd winding member 20 are provided so as to perpendicularly intersect with the base member 20, but the installation angle and the like can be variously changed. Either the 1 st winding member 10 or the 2 nd winding member 20 may be movable along the base member 30, or both may be movable on the base member 30. That is, the 1 st winding member 10 and the 2 nd winding member 20 may be formed to be movable close to and away from each other, and the distance between the two may be adjustable.

Industrial applicability of the invention

The invention provides a tool and a method for manufacturing a hair ball, which can easily manufacture hair balls with different diameters.

Description of the symbols

1 … tool for making hair ball 2 … hair ball

2a … wool 2b … string

6 … fringe 6a … knitting wool

6b … hanging rope 6b1 … knot part

6c … cord 6d … fastening line

10 … sliding part of the 1 st winding member 11 …

12a … axle support 12b … axle support

13a … marker 13b … marker

14 … turnup 14a … inclined part

14a1 … convex 14f … notch

14g … abutting against the projection plate 15a … for inserting the wire cutting tool into the slot

15b … threading groove 16 … thread stop portion

17 … line stop 17a … notch

17b … protrusion 18a … longitudinal rib

18b … longitudinal rib 19a … projection

19b … boss 20 … No. 2 cord reel member

21 … rotation support

21a … axle hole 21b … axle hole

21c … regulating protrusion 21d … regulating protrusion

21e … boss 24 … coil winding part

24a … inclined portion 24c … pin hole

24f … notch 24g … abuts the tab plate

25a … tangent line tool insertion slot 25b … threading slot

26 … line stop

27 … ply-yarn stop 28 … longitudinal rib

30 … base member 31b … engaging part

32a … 1 st recess 32b … nd 2 nd recess

33 … line reeling member position index 34 … middle position index

35a … rotating shaft portion 35b … rotating shaft portion

36a … limiting recess 36b … limiting recess

37a … limiting recess 37b … limiting recess

40 … Snap Member 41a … Axis

41b … axle 42 … engaging tooth

43 … elastic part 50 … coiling amount limiting member

51 … slit 52a … hook

52b … hook 60 … anti-flexing member

63 … line coiling member position scale 65 … stop hole

67 … pin

Claims (7)

1. A hair bulb manufacturing tool, comprising:

a base member formed in an elongated shape;

a1 st winding member and a 2 nd winding member which are formed in an elongated shape, intersect with the base member, and are formed on the base member so as to face each other,

either one of the 1 st wire winding member or the 2 nd wire winding member is formed to be capable of approaching or separating from either the other one of the 1 st wire winding member or the 2 nd wire winding member so as to move along the base member,

a strip-shaped deflection preventing member provided rotatably on the back surface side of either the 1 st or 2 nd winding member, the deflection preventing member being provided between the 1 st and 2 nd winding members by inserting a boss formed on the back surface side of either the 1 st or 2 nd winding member into the locking hole of the deflection preventing member,

the other of the 1 st winding member and the 2 nd winding member is rotatably provided on the base member, and the rotation is restricted to be L-shaped by the 1 st winding member and the 2 nd winding member by fitting the other of the 1 st winding member and the 2 nd winding member into the convex portion or the concave portion of the base member.

2. The wool ball making tool of claim 1,

a cutting tool insertion groove is formed in a portion of the 1 st winding member and the 2 nd winding member opposite to the portion of the 1 st winding member and the 2 nd winding member facing each other in the longitudinal direction of the 1 st winding member and the 2 nd winding member.

3. The wool ball making tool of claim 1 or 2,

a threading groove is formed in a portion of the 1 st winding member and the 2 nd winding member facing each other in a longitudinal direction of the 1 st winding member and the 2 nd winding member.

4. The wool ball making tool of claim 1 or 2,

the base member has a wire winding member position scale and a middle position scale,

the winding member position scale marks the position of any one of the 1 st winding member or the 2 nd winding member moving along the base member;

the intermediate position indicia corresponding to the position marked by the wire winding member position indicia mark an intermediate position between the 1 st wire winding member and the 2 nd wire winding member.

5. The wool ball making tool of claim 1 or 2,

a winding amount limiting member for limiting the amount of winding is provided on one or both of the 1 st winding member and the 2 nd winding member.

6. The wool ball making tool of claim 5,

the thread amount regulating member is provided with a slit for holding an end of the thread.

7. The wool ball making tool of claim 1 or 2,

an engaging portion having a concave-convex shape is formed on a side edge portion of the base member,

an engaging member that is capable of engaging with the engaging portion and applies a force to the base member is provided on either the 1 st or 2 nd winding member that is formed movably along the base member.

Images