The present invention relates to an apparatus for whipping a button sewing thread, and more particularly, to an apparatus for whipping a button sewing thread, capable of ensuring the operational convenience, reliability and durability by simplifying main elements of the apparatus.
In cases of typical clothes, buttons are sewed onto the clothes with a sewing thread (called a “root”) to be spaced apart from each other by a predetermined distance so that the buttons easily enter buttonholes of the cloths. To improve the support strength of such a root, a plurality of knots is formed around peripheries of the buttons by using another sewing thread. Similarly to other industrial fields, various automatic machines have been developed in the field of a button sewing machine in order to improve productivity by saving labor force required for whipping a button sewing thread. The related arts have been disclosed in Korean Utility Model Registration No. 20-0322717 and Korean Patent No. 10-0532713.
According to the former related art, a plurality of guide bars for guiding a hemming thread in zigzag are provided and are instantly moved up in the late period of a hemming process to prevent the hemming thread from being released. When an air pressure for driving a latch piece of a button latch part is removed, the operation of the hemming device is automatically stopped to prevent the hamming thread from being tangled around the latch piece or the button base. Thus, it is expected to improve the efficiency of works related to the process of hemming the button base.
However, according to the above related art, the guide bars for guiding a hemming thread in zigzag may serve as main elements, so the knots are unstable and weak when the knots are formed at a high-speed operation, so that there may be a limitation in maintaining the stable hemming state.
According to the later related art, there is provided an apparatus for wrapping and knotting a thread to the side of a sewing button of a cloth. The apparatus includes a base, a button holder mounted on the base for supporting the button on the base, a knot guider for hooking the thread to the side surface of the button supported by the button holder to form a knot, a slider movable forward and rearward on the base, and a winding member having a winding arm for winding the thread around the side surface of the button. Thus, the thread may form a strong knot at the side surface of the sewing thread of the button so that the thread is not untied.
However, since the mechanical configuration of the knot guider for reciprocating and retracting motions to form a knot is complex, a malfunction may be caused due to abrasion and it is difficult to manage and maintain the knot guider, so that the durability may be deteriorated. In addition, when the thread is cut, the passage formed by the first and second tube members communicating with each other is complex so that it is inconvenient to resupply the thread.
Accordingly, it is an object of the present invention to provide an apparatus for whipping a button sewing thread, capable of ensuring the operational convenience, convenient maintenance, reliability and durability by simplifying main elements of the apparatus.
According to the present invention, there is provided an apparatus for whipping a button sewing thread with a thread. The apparatus includes a body including a holder for holding a sewed button; a tension control unit provided with a plurality of tensioners and a thread hook on a passage of the thread; a thread guide unit adjacent to the tension control unit to guide the thread toward the holder; a winding unit including a rotational arm for winding the thread around a sliding support linearly moving toward the holder; and a knotting unit including a separating arm linearly moving toward the holder in order to form a thread knot.
According to the present invention, the thread hook of the tension control unit has a hole adjacent to a downstream tensioner, and performs a thread hooking operation in cooperation with an air cylinder.
According to the present invention, the thread guide unit is formed with a through hole extending to an end of the rotational arm and includes an air nozzle at an upstream end of the through hole to convey the thread.
According to the present invention, the sliding support of the winding unit includes a spline shaft and is installed to a motor support such that the sliding support is linearly movable through the spline shaft, and the rotational arm receives a torque through a driving motor and the motor support.
According to the present invention, the knotting unit includes an air cylinder for moving the separating arm back and forth and a convey motor for moving the rotational arm back and forth.
As described above, according to the present invention, the main elements of the apparatus and the transferring passage of the thread can be simplified so that the operational convenience and the maintenance can be improved. In addition, the reliability in the operation of wrapping the button sewing thread and durability can be achieved.
Hereinafter, the embodiments of the present invention will be described with reference to the accompanying drawings.
As shown in
As shown in
In this case, the holder 12 of the body 10 includes a straight groove 14, a V-shaped groove 15, and a concave groove 16. The straight groove 14 is formed by incising the holder 12 in the longitudinal direction such that the sewing thread of the button B is held while passing through the straight groove 14. The V-shaped groove 15 is incised toward an upper side of the straight groove 14 such that the separating arm 51 described later is rested therein. The concave groove 16 is formed on a rear surface of the holder 12 in an arc shape to knot the thread T in a figure “8” shape.
A tension control unit 20 according to the present invention includes tensioners 21, 22 and 23 and a thread hook 25 on a passage of the thread T. The thread T is provided to the holder 12 from a rear side end through a tensioner 21 positioned upstream, a middle tensioner 22 and a tensioner 23 positioned downstream. A thread hook 25 is disposed between the tensioners 21 to 23 to maintain the tension necessary when the thread T is wound and knotted.
The thread hook 25 of the tension control unit 20 has a hole 26 formed adjacent to the tensioner 23 positioned downstream and the tension control unit 20 performs the thread hooking operation in cooperation with an air cylinder 24. The thread hook 25 provides a tension to the thread T which passes intermittently through the hole 26 in an up-and-down motion to help the thread T to be wound and knotted. When the hole 26 is adjacent to the tensioner 23 positioned downstream), the relaxation of the thread T is reduced so that there are advantages of always providing a suitable tension. A hinge is installed at an opposite side to the hole 26 of the thread hook 25 such that the intermittent movement of the hinge toward the air cylinder 24 in an up-and-down motion is induced. Thus, the configuration for the operation of the thread hook 25 is simple and it is easy to adjust the tension through the air pressure control.
Further, according to the present invention, a thread guide unit 30 is installed adjacent to the tension control unit 20 to guide the movement of the thread T toward the holder 12. The thread guide unit 30 allows the thread T passing through the thread hook 25 and the tensioner 23 of the tension control unit 20 to move smoothly through a rotational arm 41 described below and to be installed quickly and conveniently at a first work stage and during working. The detailed configuration of the thread guide unit 30 will be described below.
According to the present invention, the winding unit 40 includes the rotational arm 41 for allowing the thread T to be wound around a sliding support 44 linearly moving in the direction of the holder 12. The winding unit 40 performs the function of winding the thread T along a periphery of a sewing line of the button B by using the holder 12 and the rotational arm 41. The separating arm 51 has a shape of a bending tube and is eccentrically fixed onto the sliding support 44. The sliding support 44 is installed on the upper surface of the body 10 such that the sliding support 44 may linearly move back and forth with respect to the holder 12.
The sliding support 44 is installed to a motor support 42 such that the sliding support 44 can linearly move through the spline shaft 43 interposed between the sliding support 44 and the motor support 42. The rotational arm 41 receives a torque through a driving motor 46 and the motor support 42. The torque of the driving motor 46 is transferred to the spline shaft 43 through the motor support 42. The motor support 42 includes a gear and a timing belt and is fixed to the body 10 while being received in a housing. The sliding support 44 is connected to the spline shaft 43 in a rear direction and is provided with the rotational arm 41 in a front direction. Thus, when the thread T is wound and knotted, the torque of the driving motor 46 may be continuously provided to the rotational arm 41 while the sliding support 44 is linearly moving.
In addition, according to the present invention, a knotting unit 50 linearly moves toward the holder 12 and includes the separating arm 51 for forming a knot of the thread T. The knotting unit 50 knots the thread T which is wound around the periphery of the button B by using the holder 12 and the separating arm 51. A guide rail is provided to an upper end of the motor support 42 such that the separating arm 51 is coupled to the guide rail to be movable in a linear motion.
The knotting unit 50 includes an air cylinder 54 for allowing the separating arm 51 to move back and forth and a convey motor 56 for allowing the rotational arm 41 to move back and forth. The air cylinder 54 is fixed to the upper end of the motor support 42 such that the air cylinder 54 is connected to the guide rail. As shown in
Referring to
The thread guide unit 30 has a through-hole extending to the end of the rotational arm 41 and includes an air nozzle 35 for transferring the thread T from an upstream end of the through-hole. After the thread T has passed through the thread hook 25 and the tensioner 23, the thread T passes through the upstream through-hole 31 and the downstream through-hole 32 and then is supplied to the holder 12. The upper side through-hole 31 includes a hollow formed in the spline shaft 43 and the lower side through-hole 32 includes a hollow formed in the rotational arm 41. Since the through-holes 31 and 32 are integrally formed and the air nozzle 35 is provided at the end of the through-hole 31, the thread T can be quickly and conveniently introduced in the early stage of operation or during the operation.
The operations of the apparatus according to the present invention may be widely divided into the winding operation of
In
In
In addition, the sequential operations of
Although an exemplary embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition to variations and modifications in the component parts and/or arrangements, alternative uses will also be apparent to those skilled in the art.
Number | Date | Country | Kind |
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10-2013-0095344 | Aug 2013 | KR | national |
Number | Name | Date | Kind |
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4426942 | Nestenius | Jan 1984 | A |
5082151 | Schaerer | Jan 1992 | A |
6029867 | Lee | Feb 2000 | A |
6199727 | Suh | Mar 2001 | B1 |
7488011 | Seo | Feb 2009 | B2 |
Number | Date | Country |
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20-0322717 | Aug 2003 | KR |
10-0532713 | Dec 2005 | KR |
Number | Date | Country | |
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20150040809 A1 | Feb 2015 | US |