JP7185991B2 - Threading device - Google Patents

Description

The present invention relates to a threading device.

In the threading device for a sewing machine disclosed in Patent Document 1, a thread guide member and a threading hook are rotated in opposite directions by a rotating mechanism. The needle thread guided by the thread guiding member is caught by a threading hook inserted through the needle hole, and the needle thread is threaded through the needle hole.

Patent No. 4139843

However, the threading device described in Patent Document 1 has room for improvement in the following points. That is, in the above-described threading device, the upper thread is caught by the threading hook, and the threading hook pulls the caught upper thread while pulling it out of the needle hole of the needle. At this time, a predetermined tension is acting on the needle thread, and when the needle threading hook pulls the captured needle thread, the tension may not be fully resisted and the needle thread may come off the threading hook. . Also, at this time, the amount of needle thread pulled from the needle hole is reduced, and the needle thread may come off the needle hole. As a result, the threading performance of the threading device may deteriorate.

In view of the above facts, an object of the present invention is to provide a threading device capable of improving threading performance.

A first form for solving the above-described problem is provided at the lower end of the needle bar whose axial direction is the vertical direction, and is arranged parallel to the needle bar and on which the needle thread pulled out from the thread spool is hooked. a threading shaft supported movably in its own axial direction between an initial position and a threading position and rotatable about its own axis; A first thread holding hook and a second thread holding hook which are connected to the lower end side of the threading shaft so as to be rotatable around the threading shaft and hold the tip side of the upper thread hooked on the thread hooking portion. and rotates about the threading shaft from the retracted position to the guided position to dispose the needle between the first and second thread holding hooks, and a thread guiding member that guides the upper thread held by the thread holding portion to a position close to the needle hole of the needle; The threading hook is rotated from the standby position to the insertion position about the threading shaft, so that the threading hook passes through the needle hole to pass the upper thread close to the needle hole of the needle. a rotating mechanism for rotating the threading member and the thread guiding member in opposite directions about the threading shaft; At the time of rotation from the retracted position to the guiding position, the upper thread captured by coming into contact with and separating from the needle as viewed in the axial direction of the threading shaft is pulled out from the thread holding section side to the thread hooking section side. and an upper thread pulling-out section that releases the upper thread from the catching state when the upper thread is rotated from the guiding position to the retracted position.

In a second mode for solving the above-described problem, the upper thread drawing portion is formed with a recess into which the upper thread can be inserted, and the movement of the threading shaft from the initial position to the threading position is performed. The threading device is characterized in that the upper thread is sometimes inserted into the recess, and the upper thread drawing portion catches the upper thread.

A third mode for solving the above-described problem is that, at the initial position, the needle thread drawing portion is arranged above the needle thread between the thread hooking portion and the thread holding portion, and the threading The threading device is characterized in that the concave portion is arranged so as to overlap the needle thread when viewed from the axial direction of the shaft.

A fourth form for solving the above problem is the threading device, wherein the upper thread drawing portion is arranged radially inside of the threading shaft with respect to the thread holding portion.

In a fifth aspect for solving the above-described problems, the rotation mechanism includes a first shaft provided on the threading shaft and protruding radially outward of the threading shaft, and a shaft provided on the thread guide member. a second shaft whose direction coincides with the radial direction of the threading shaft; a guide member connected to the threading shaft so as to be movable relative to the shaft downward, wherein the first shaft is movably inserted into the guide member; The threading device is characterized in that a cam hole and a second cam hole into which the second shaft is movably inserted are formed.

In a sixth aspect for solving the above problem, a positioning member is fixed to the needle bar, and the positioning member abuts against the first shaft when the threading shaft is lowered to the threading position. and a restricting groove into which the first shaft is inserted when the threading member is rotated toward the insertion position to restrict movement of the threading shaft in the vertical direction. It is a threading device that is used.

According to the threading device configured as described above, the threading performance can be improved.

1 is a perspective view showing a threading device according to an embodiment; FIG. 2 is a perspective view showing the left end of the sewing machine to which the threading device shown in FIG. 1 is applied; FIG. It is the front view seen from the front side which shows the threading device shown by FIG. FIG. 4 is a rear view showing an enlarged upper portion of the threading device shown in FIG. 3 as seen from the rear side; FIG. 4 is a side view showing the threading shaft shown in FIG. 3; Figure 4 is a side view of the guide member shown in Figure 3; FIG. 2 is an enlarged perspective view showing the thread guiding member shown in FIG. 1; (A) is a front view showing a state in which the threading shaft of the threading device is arranged at the initial position; (B) is a front view showing a state in which the threading shaft is lowered from the initial position; C) is a front view showing a state in which the threading shaft is lowered to the threading position. (A) is a front view showing a state in which the guide member has relatively moved downward with respect to the threading shaft from the state shown in FIG. FIG. 8C is a front view showing a state in which the guide member has further moved downward relative to the threading shaft, and (C) is an operation in which the guide member has moved further downward relative to the threading shaft from the state of (B). It is a front view which shows the state arrange|positioned at the completion position. (A) is a front view showing a state in which the guide member has relatively moved upward with respect to the threading shaft from the state of (C) in FIG. (C) is a front view showing a state in which the guide member has moved further upward with respect to the threading shaft from the state (B) and has returned to the initial position. . FIG. 11 is an explanatory view seen from below for explaining the operation of the thread guiding member and the threading position shown in FIGS. 8 to 10, (A) is a description corresponding to FIG. B) is a description corresponding to FIG. 8(B), and (C) is a description corresponding to FIG. 8(C). (D) is a description corresponding to FIG. 9A, (E) is a description corresponding to FIG. 9B, and (F) is a description corresponding to FIG. 9C . (G) is a description corresponding to FIG. 10(A), (H) is a description corresponding to FIG. 10(B), and (I) is a description corresponding to FIG. 10(C). .

The threading device 10 according to this embodiment will be described below with reference to the drawings. The threading device 10 is configured as a device for threading the needle thread T through the needle hole 32A of the needle 32 of the sewing machine 1. As shown in FIG. In the drawings, an arrow UP, an arrow FR, and an arrow RH indicated as appropriate indicate the upper side, the front side, and the right side of the threading device 10, respectively. The upper, front, and right sides of the threading device 10 and the upper, front, and right sides of the sewing machine 1 are aligned with each other. Furthermore, in the following description, when the up/down, front/rear, and left/right directions are used, the upper/lower, front/rear, and left/right directions of the threading device 10 are indicated unless otherwise specified.

As shown in FIG. 2 , the threading device 10 is provided at the left end of the sewing machine 1 and most of the threading device 10 is covered by the cover 2 of the sewing machine 1 . As shown in FIGS. 1 and 3, the threading device 10 includes a needle bar support 20, a needle bar 30, a base member 40, a threading shaft 50, a rotating mechanism 60, and a threading member 70. , and the yarn guiding member 80. Each configuration of the threading device 10 will be described below.

(Regarding needle bar support 20)
Needle bar support 20 is formed in a substantially rectangular columnar shape extending in the vertical direction, and is supported at the left end of sewing machine 1 by a sewing machine body (not shown). Needle bar support 20 is provided with a pair of upper and lower needle bar support portions 20A for supporting needle bar 30, which will be described later. Needle bar support portion 20A is formed in a substantially cylindrical shape with an axial direction extending in the vertical direction, and protrudes from needle bar support body 20 to the right.

(Regarding needle bar 30)
Needle bar 30 is formed in a substantially columnar shape with an axis extending in the vertical direction. Needle bar 30 is inserted into a pair of upper and lower needle bar support portions 20A of needle bar support 20, and supported by needle bar support portions 20A so as to be vertically movable. As a result, needle bar 30 is arranged close to the right side of needle bar support 20 .

A thread hooking portion 31 is provided at the lower end of the needle bar 30 . Thread hooking portion 31 is formed in the shape of a plate having a predetermined shape and is fixed to the lower end portion of needle bar 30 by screws. The thread hooking portion 31 is configured as a member for hooking the upper thread T pulled out from a thread spool (not shown) and passed through a thread take-up (not shown) of the sewing machine 1 .

A needle 32 is fixed to the lower end of needle bar 30 . Specifically, the upper end of needle 32 is fixed to the lower end of needle bar 30 by screw S1, and needle 32 extends downward from needle bar 30. As shown in FIG. Further, the needle 32 is attached to the needle bar 30 so that the needle hole 32A at the lower end of the needle 32 penetrates in the front-rear direction.

Further, a positioning plate 33 as a “positioning member” is fixed to the axially intermediate portion of the needle bar 30 . As shown in FIG. 4, the positioning plate 33 is formed in a substantially crank-shaped plate shape extending leftward and downward from the needle bar 30 when viewed from the rear, with the front-rear direction being the plate thickness direction. there is At the lower end of the positioning plate 33, a stopper piece 33A is formed as a "contact portion" projecting leftward. Further, the lower end of the positioning plate 33 is formed with a regulation groove 33B opening leftward above the stopper piece 33A.

(Regarding the base member 40)
As shown in FIGS. 1 and 3, the base member 40 is formed in a substantially elongated plate shape with the thickness direction in the front-rear direction and the longitudinal direction in the vertical direction. are arranged as follows. A fixing piece 41 extending rightward is formed at the lower end of the base member 40 . Fixed piece 41 is arranged on the front side of needle bar support 20 and fastened and fixed to needle bar support 20 with screw S2. A pair of front and rear engaging portions 42 are formed at the upper end portion of the base member 40, and the engaging portions 42 protrude from the base member 40 to the right. A pair of front and rear engaging portions 42 engage needle bar support 20 while holding the upper portion of needle bar support 20 in the front-rear direction. Thus, base member 40 is fixed to needle bar support 20 .

An upper wall 43 bent rearward is formed at the upper end of the base member 40 . The upper wall 43 is formed with an upper shaft support portion 44 for supporting a threading shaft 50 which will be described later. The upper shaft support portion 44 is formed in a substantially cylindrical shape whose axial direction is the vertical direction, and extends upward from the upper wall 43 . A lower end portion of the upper shaft support portion 44 is opened downward.

On the other hand, the lower end portion of the base member 40 is integrally formed with a lower shaft support portion 45 for supporting a threading shaft 50 which will be described later. The lower shaft support portion 45 is formed in a substantially cylindrical shape whose axial direction is the vertical direction, and is arranged coaxially with the upper shaft support portion 44 . A pair of front and rear guide pieces 46 extending leftward are integrally formed on the outer peripheral portion of the lower shaft support portion 45. The guide pieces 46 have a substantially rectangular plate shape with the front and rear direction as the plate thickness direction. formed.

A base cam hole 47 forming a rotation mechanism 60 (to be described later) is formed through the lower portion of the base member 40 . The base cam hole 47 is formed in a slit shape extending in the vertical direction. Specifically, the base cam hole 47 includes a first base cam hole portion 47A forming an upper portion of the base cam hole 47 and a second base cam hole portion 47B forming a lower end portion of the base cam hole 47. .

The upper portion of the first base cam hole portion 47A extends linearly in the vertical direction, and the lower portion of the first base cam hole portion 47A is slightly inclined to the left as it goes downward.
On the other hand, in the second base cam hole portion 47B, the widthwise dimension of the second base cam hole portion 47B is set larger than the widthwise dimension of the first base cam hole portion 47A. Specifically, the lower end portion of the first base cam hole portion 47A is connected to the right portion of the upper end of the second base cam hole portion 47B, and the left portion of the second base cam hole portion 47B is connected to the upper end portion of the second base cam hole portion 47B. are arranged to protrude to the left.

(Regarding the threading shaft 50)
As shown in FIGS. 1 and 3 to 5, the threading shaft 50 is formed in a substantially columnar shape with the vertical direction as the axial direction. The threading shaft 50 is inserted into the upper shaft support portion 44 and the lower shaft support portion 45 of the base member 40 and supported by the upper shaft support portion 44 and the lower shaft support portion 45 so as to be relatively movable. As a result, the threading shaft 50 is arranged on the left side of the needle 32 in plan view and is supported by the base member 40 so as to be movable in its axial direction and rotatable around its own axis. there is Specifically, the threading shaft 50 is positioned between an initial position (the position shown in FIG. 8A) and a threading position below the initial position (the position shown in FIG. 8C). configured to be movable between In the non-operating state of the threading device 10, the threading shaft 50 is arranged at the initial position. Hereinafter, the non-operating state of the threading device 10 will be described.

A first pin 51 as a "first shaft" that constitutes a rotation mechanism 60, which will be described later, is provided at an intermediate portion in the vertical direction of the threading shaft 50. As shown in FIG. The first pin 51 is arranged with its axial direction being the radial direction of the threading shaft 50 , and both ends of the first pin 51 in the axial direction protrude from the threading shaft 50 to the outside in the radial direction of the threading shaft 50 . there is Also, the diameter of the first pin 51 is set slightly smaller than the width dimension of the first base cam hole portion 47A of the base cam hole 47 . One end of the first pin 51 is inserted into the base cam hole 47 so as to be relatively movable and is arranged at the upper end of the base cam hole 47 .

Further, the other end of the first pin 51 is spaced above the stopper piece 33A of the positioning plate 33 (see FIG. 4). When the threading shaft 50 descends from the initial position and moves to the threading position, the other end of the first pin 51 abuts against the stopper piece 33A, and is positioned below the threading shaft 50 at the threading position. (See the first pin 51 indicated by the two-dot chain line in FIG. 4). At the threading position, the threading shaft 50 is rotated in one direction (direction of arrow A in FIG. 1) around the shaft by the rotation mechanism 60, which will be described later, so that the other end of the first pin 51 is positioned in the regulation groove 33B. It is designed to be inserted inside. As a result, the first pin 51 (that is, the threading shaft 50) is held at the threading position.

(Regarding the rotating mechanism 60)
The rotating mechanism 60 is configured as a mechanism for rotating a threading member 70 and a thread guiding member 80, which will be described later, about the threading shaft 50 in opposite directions.

As shown in FIGS. 1, 3, 4, and 6, the rotation mechanism 60 is mainly composed of a guide member 61. The guide member 61 includes a guide member main body 62, an operating lever 68, and an operating lever 68. , is composed of In addition, in drawings other than FIG. 6, the operation lever 68 is omitted from the guide member 61 for convenience.

The guide member main body 62 is formed in a rectangular columnar shape extending in the vertical direction and is arranged on the left side of the threading shaft 50 . Specifically, the guide member main body 62 is arranged between a pair of front and rear guide pieces 46 of the base member 40 and supported by the guide pieces 46 so as to be vertically movable. A support cylinder portion 63 is provided integrally with the upper end portion of the guide member main body 62 . projecting to the right from the The threading shaft 50 is inserted into the support cylinder portion 63 so as to be relatively movable. The support cylinder portion 63 is arranged above the first pin 51 of the threading shaft 50 with a space therebetween, and is arranged adjacent to the lower side of the upper wall 43 of the base member 40 (see FIG. 4). ).

Here, as shown in FIG. 4 , a compression coil spring 52 is attached to the threading shaft 50 described above at a position between the support cylinder portion 63 and the first pin 51 , and the lower end of the compression coil spring 52 is attached to the threading shaft 50 . The upper end portion of the compression coil spring 52 is engaged with the support cylinder portion 63 . Further, an upward biasing force is applied to the guide member 61 by a spring (not shown). A compression coil spring 52 is arranged between the guide member 61 and the first pin 51 . As a result, between the initial position of the threading shaft 50 and the threading position, the guide member 61 and the threading shaft 50 are configured to move together in the vertical direction (indicated by the chain double-dashed line in FIG. 4). see guide member 61 and threader shaft 50 shown).

Further, as described above, at the threading position, the first pin 51 contacts the stopper piece 33A of the positioning plate 33, thereby restricting downward movement of the threading shaft 50. As shown in FIG. Therefore, at the threading position of the threading shaft 50 , the guide member 61 is pushed down against the urging force of the compression coil spring 52 , and the compression coil spring 52 is compressed and deformed so that the guide member 61 moves relative to the threading shaft 50 . relative movement to the lower side. Specifically, the guide member 61 is configured to be movable to the operation completion position shown in FIG. 9(C). That is, between the initial position and the threading position of the threading shaft 50, the guide member 61 moves integrally with the threading shaft 50, and at the threading position of the threading shaft 50, the guide member 61 moves to It is configured to be movable relative to the lower side.

As shown in FIGS. 1, 3, and 6, a cam piece 64 is provided on the upper end of the guide member main body 62 at a position on the front side with respect to the support tube portion 63. As shown in FIGS. The cam piece 64 is formed in a substantially rectangular plate shape whose plate thickness direction is the front-rear direction and whose longitudinal direction is the vertical direction. placed adjacent to each other.

A first guide cam hole 65 as a "first cam hole" is formed through the cam piece 64 . The first guide cam hole 65 extends vertically, and the upper portion of the first guide cam hole 65 is inclined upward and to the left. Specifically, the first guide cam hole 65 extends from the lower cam hole 65L, which constitutes the lower portion of the first guide cam hole 65 and extends in the vertical direction, and the upper end portion of the lower cam hole 65L. and an inclined cam hole 65U inclined leftward as it goes upward. Also, the width dimension of the first guide cam hole 65 is set larger than the diameter dimension of the first pin 51 of the threading shaft 50 . One end of the first pin 51 is movably inserted into the first guide cam hole 65 and arranged at the lower end of the first guide cam hole 65 .

Further, when the threading shaft 50 descends (rises) between the initial position and the threading position together with the guide member 61, the first pin 51 descends (rises) along the first base cam hole portion 47A of the base cam hole 47. do. As described above, the lower portion of the first base cam hole portion 47A in the base cam hole 47 is slightly inclined leftward as it goes downward. Therefore, when the threading shaft 50 descends (rises) between the initial position and the threading position together with the guide member 61, the first pin 51 (threading shaft 50) is moved by the first base cam hole portion 47A for threading. It rotates to one side around the axis of the shaft 50 (the other side around the axis).
Further, when the guide member 61 moves downward (rises) relative to the threading shaft 50 between the threading position and the operation completion position, the first pin 51 is moved to the inclined cam hole 65U of the guide member 61. The threading shaft 50 is pressed by the inner peripheral surface of the threading shaft 50 to rotate to one side of the axis (the other side of the axis).
That is, the threading shaft 50 rotates around the shaft as the guide member 61 moves between the initial position and the operation completion position.

A cam tube portion 66 is integrally formed at the lower end portion of the guide member main body 62 . The cam cylinder portion 66 is formed in a substantially cylindrical shape whose axial direction is the vertical direction, and a part of the outer peripheral portion of the cam cylinder portion 66 is radially open. The cam tube portion 66 is arranged coaxially with the threading shaft 50 , and the lower end portion of the threading shaft 50 is arranged inside the cam tube portion 66 .

A second guide cam hole 67 as a "second cam hole" is formed through the outer peripheral portion of the cam tube portion 66 . The second guide cam hole 67 extends in the circumferential direction of the cam tube portion 66 and is located on the other side (see FIG. 1 toward the direction of the arrow B).

As shown in FIG. 6 , the operating lever 68 is formed in a substantially rectangular columnar shape with an axial direction extending in the vertical direction, and is arranged on the left side of the guide member main body 62 . The upper end of the operating lever 68 is connected to the upper end of the guide member main body 62 . A lower end portion of the operating lever 68 is formed with a lever portion 68A projecting leftward. When the user grips the lever portion 68A and operates the operation lever 68, the guide member 61 moves between the initial position and the operation completion position.

(Regarding the threading member 70)
As shown in FIGS. 1, 3, 5, and 11, the threading member 70 is provided at the lower end of the threading shaft 50. As shown in FIGS. The threading member 70 has a substantially cylindrical fixing portion 71 , and the lower end of the threading shaft 50 is fitted into the fixing portion 71 to fix the threading member 70 to the threading shaft 50 . ing. Thereby, the threading member 70 is configured to be movable integrally with the threading shaft 50 . That is, along with the vertical movement of the guide member 61, the threading member 70 is moved from the standby position (see FIG. 11A) to the insertion position on one side of the axis of the threading shaft 50 with respect to the standby position ( (see FIG. 11(F)). In the non-operating state of the threading device 10, the threading member 70 is arranged at the standby position.

In addition, an arm 72 extending outward is formed in the fixed portion 71 , and the arm 72 is inclined rearward toward the right side as viewed from the axial direction of the threading shaft 50 . A pair of threading guides 73 are provided at the tip of the arm 72 , and the threading guides 73 extend from the tip of the arm 72 in parallel with the extension direction of the arm 72 . Further, the tip of the threading guide 73 is bent forward at approximately 90 degrees. Furthermore, as shown in FIG. 11, a threading hook 74 is provided between the pair of threading guides 73 . The threading hook 74 extends from the distal end of the arm 72 in parallel with the direction in which the arm 72 extends, and the distal end portion of the guide piece 46 is bent forward at approximately 90 degrees.

Also, although not shown, the threading hook 74 has a hook portion for catching the upper thread T at the tip portion thereof, and the hook portion is configured to be able to be inserted into the needle hole 32A of the needle 32. ing. At the insertion position of the threading member 70, the hook portion of the threading hook 74 is inserted through the needle hole 32A of the needle 32 from the rear side.

(Regarding thread guide member 80)
As shown in FIGS. 1, 3, and 7, the thread guide member 80 is connected to the lower end side portion of the threading shaft 50, and is arranged on the left side of the thread hooking portion 31 as viewed from the front. It is The thread guide member 80 includes a connecting tube portion 81, a guide plate 83, a thread holding portion 84, and a thread drawing hook 85 as an "upper thread drawing portion."

The connecting tube portion 81 is formed in a cylindrical shape with an axis extending in the vertical direction. The connecting tube portion 81 is arranged coaxially with the threading shaft 50 inside the cam tube portion 66 of the guide member 61 . Further, the connecting tube portion 81 is connected to the lower end side portion of the threading shaft 50 so as to be rotatable around the axis of the threading shaft 50 and integrally movable in the vertical direction. Therefore, the thread guide member 80 moves integrally with the threading shaft 50 between the initial position and the threading position.

A second pin 82 as a “second shaft” that constitutes the rotating mechanism 60 described above is provided on the connecting tube portion 81 . The second pin 82 is formed in a substantially columnar shape whose axial direction is the radial direction of the connecting tube portion 81 (that is, the threading shaft 50). It protrudes radially outward.

The tip of the second pin 82 is inserted into the second guide cam hole 67 of the guide member 61 so as to be relatively movable, and is arranged at the lower end of the second guide cam hole 67 . As a result, when the guide member 61 moves downward relative to the threading shaft 50 at the threading position, the second guide cam hole 67 moves downward relative to the second pin 82 . A pin 82 is displaced along the second guide cam hole 67 from the lower end toward the upper end. Therefore, the thread guide member 80 is configured to rotate to the other side around the threading shaft 50 . Specifically, the thread guiding member 80 has a retracted position (see FIG. 11A), a guidance position on the other side of the threading shaft 50 relative to the retracted position (see FIG. 11F), It rotates between In the non-operating state of the threading device 10, the thread guiding member 80 is arranged at the retracted position.

The guide plate 83 is formed in a substantially rectangular plate shape whose plate thickness direction is the vertical direction. As a result, the guide plate 83 extends radially outward of the threading shaft 50 from the connecting tube portion 81 . More specifically, the guiding plate 83 is arranged so as to incline leftward as it goes forward when viewed from the axial direction of the threading shaft 50 .

The thread holding portion 84 is provided at the other end of the guide plate 83 . The thread holding portion 84 has a first thread holding hook 84A and a second thread holding hook 84B. are spaced apart. Then, the tip portion of the upper thread T that is hooked on the thread hooking portion 31 is looped around the first thread holding hook 84A and the second thread holding hook 84B from below, and is held by the thread holding portion 84. It's like Further, in the following description, a portion of the needle thread T between the thread hooking portion 31 and the thread holding portion 84 is referred to as a needle thread intermediate portion TC (see FIG. 8A).

When the thread guiding member 80 rotates to the guiding position, the upper thread T between the first thread holding hook 84A and the second thread holding hook 84B approaches the needle hole 32A of the needle 32 and passes through the needle hole 32A. It is arranged on the front side.

The thread drawing hook 85 is provided on one end side portion of the guide plate 83 . That is, the thread drawing hook 85 is arranged radially inside the threading shaft 50 relative to the thread holding portion 84 . The thread drawing hook 85 projects upward from the guide plate 83 and is formed in an inverted L shape bent toward the needle 32 when viewed from the tip side of the guide plate 83 . Specifically, the thread pull-out hook 85 includes a main body portion 85A that extends upward from the guide plate 83, and a main body portion 85A that extends toward the needle 32 from the upper end of the main body portion 85A when viewed from the tip side of the guide plate 83. and a hook portion 85B.

A groove portion 85C as a “recess” is formed in the hook portion 85B, and the groove portion 85C is located on the other side (the guidance position side) of the threading shaft 50 when viewed from the axial direction of the threading shaft 50. It is formed in a substantially U-shaped groove opening to the outside. Furthermore, the thread pull-out hook 85 is arranged above the upper thread intermediate portion TC, and when the threading shaft 50 is in its initial position, the upper thread intermediate portion TC is positioned at the groove portion 85C when viewed from the axial direction of the threading shaft 50. (see FIG. 11(A)). When the threading shaft 50 (that is, the thread guide member 80) is lowered from the initial position to the threading position, the upper thread intermediate portion TC is inserted into the groove portion 85C, and the thread pull-out hook 85 is pulled out of the upper thread intermediate portion TC. is captured (see FIG. 8(C)).

Further, although the details will be described later, when the thread guiding member 80 rotates from the retracted position to the guiding position, the needle thread intermediate portion TC captured by the thread drawing hook 85 is moved from the thread holding portion 84 to the thread hooking portion by the thread drawing hook 85 . The length of the upper thread intermediate portion TC is lengthened by pulling it out to the 31 side (base end side of the upper thread T). On the other hand, when the thread guiding member 80 rotates from the guiding position to the retracted position, the thread drawing hook 85 is released from the needle thread middle portion TC.

(Action and effect)
Next, while describing the operation of the threading device 10, the action and effect of the present embodiment will be described. In the following description, the operation of the threading device 10 will be described by classifying the operation states of the threading device 10 into states 1 to 9 in chronological order.

(State 1)
As shown in FIGS. 8(A) and 11(A), state 1 is the non-operating state of the threading device 10. In this state 1, the threading shaft 50 and the guide member 61 are arranged at their initial positions. It is In this state 1, the needle thread T pulled out from the spool is hooked on the thread hooking portion 31 by the operator. Further, the thread holding portion 84 of the thread guiding member 80 holds the tip portion of the needle thread T that has been hooked on the thread hooking portion 31 . As a result, the upper thread intermediate portion TC is held by the thread hooking portion 31 and the thread holding portion 84 while being extended leftward from the thread hooking portion 31 . Further, the tip portion of the upper thread T held by the thread holding portion 84 is cut by the thread cutting portion 3 (see FIG. 2) provided on the cover 2 of the sewing machine 1 .

In state 1, the threading shaft 50 is located at the initial position, so the threading member 70 is located at the standby position. Specifically, the tip of the threading hook 74 of the threading member 70 is arranged obliquely rearward to the left with respect to the needle 32 when viewed from the axial direction of the threading shaft 50 .

Furthermore, in State 1, the threading shaft 50 is arranged at the initial position, so the thread guiding member 80 is arranged at the retracted position. Specifically, when viewed from the axial direction of the threading shaft 50 , the thread holding portion 84 and the thread pull-out hook 85 of the thread guiding member 80 are arranged diagonally forward to the left with respect to the needle 32 . Also, in this state, when viewed from the axial direction of the threading shaft 50, a portion of the upper thread intermediate portion TC is arranged so as to overlap the groove portion 85C of the thread drawing hook 85. As shown in FIG.

(State 2)
As shown in FIGS. 8B and 11B, in State 2, the operator holds the lever portion 68A of the operating lever 68 and pushes down the guide member 61 from the initial position. . As a result, the threading shaft 50 is lowered together with the guide member 61 from the initial position.

When the threading shaft 50 descends from the initial position, the first pin 51 of the threading shaft 50 moves from the upper end of the base cam hole 47 (first base cam hole portion 47A) of the base member 40 along the first base cam hole portion 47A. down. The lower portion of the first base cam hole portion 47A is slightly inclined to the left as it goes downward. Therefore, the first pin 51 (that is, the threading shaft 50) rotates slightly to one side around the threading shaft 50 from the state 1. As a result, the threading member 70 fixed to the threading shaft 50 rotates from the standby position to the insertion position side (one side around the axis of the threading shaft 50, the direction of arrow A in FIG. 11B). Then, the tip of the threading hook 74 of the threading member 70 approaches the needle 32 from the rear side.

Further, the thread guide member 80 is configured to be vertically movable integrally with the threading shaft 50 . Therefore, when the threading shaft 50 descends from the initial position, the thread guiding member 80 also descends together with the threading shaft 50 . Then, in State 2, the needle thread intermediate portion TC is inserted into the groove portion 85C of the thread pull-out hook 85 of the thread guide member 80, and the thread pull-out hook 85 catches the needle thread intermediate portion TC.
In state 2, the thread guide member 80 is maintained at the retracted position.

Furthermore, in state 2, the thread guide member 80 descends together with the threading shaft 50, so the length of the upper thread intermediate portion TC becomes longer than in state 1. That is, by lowering the thread guide member 80, the upper thread intermediate portion TC is pulled out from the thread holding portion 84 side to the thread hooking portion 31 side (that is, the base end side of the needle thread T) (see FIG. 8B). arrow).

(State 3)
8(C) and 11(C), in state 3, the threading shaft 50 is further lowered together with the guide member 61 with respect to state 2, and the first pin of the threading shaft 50 is 51 is in contact with the stopper piece 33A of the positioning plate 33. As shown in FIG. As a result, the downward movement of the threading shaft 50 is restricted, and the threading shaft 50 is arranged at the threading position.

At the threading position, the downward movement of the threading shaft 50 (that is, the first pin 51) is stopped by the positioning plate 33, so the rotation of the threading shaft 50 to one side around the axis is also stopped. As a result, the tip portion of the threading hook 74 of the threading member 70 is arranged at a position closer to the needle 32 from the rear side, and the rotation of the threading member 70 toward the insertion position side is stopped.

On the other hand, in state 3, since the guide member 61 is arranged at the threading position, the thread guiding member 80 is still arranged at the retracted position.
Further, when the threading shaft 50 descends from the state 2 to the threading position, the thread guide member 80 is pulled out of the threading shaft while maintaining the state in which the thread pull-out hook 85 of the thread guide member 80 captures the upper thread intermediate portion TC. Descending with 50. Therefore, the length of the needle thread intermediate portion TC becomes longer than in state 2. As a result, the upper thread intermediate portion TC is further pulled out from the thread holding portion 84 side to the thread hooking portion 31 side due to the downward movement of the thread guiding member 80 .

(State 4)
As shown in FIGS. 9A and 11D, in State 4, the operator pushes down the operating lever 68 further against State 3 against the biasing force of the compression coil spring 52. It's becoming That is, in state 4, the guide member 61 is moved downward relative to the threading shaft 50 while the threading shaft 50 is located at the threading position.

In state 4, since the guide member 61 moves downward relative to the threading shaft 50 (that is, the first pin 51), the first guide cam hole 65 of the guide member 61 moves relative to the first pin 51. relative displacement downward. Specifically, the first pin 51 is arranged at the upper end portion of the lower cam hole 65L in the first guide cam hole 65 . Therefore, the threading shaft 50 does not rotate around the shaft, and the rotation stop state of the threading member 70 is maintained.

On the other hand, the thread guiding member 80 is provided so as to be rotatable relative to the threading shaft 50 and to be vertically movable integrally therewith. That is, the vertical position of the thread guiding member 80 in State 4 does not change from that in State 3. Therefore, from State 3 to State 4, the cam tube portion 66 of the guide member 61 moves downward relative to the thread guide member 80 . That is, the second guide cam hole 67 of the guide member 61 moves downward relative to the second pin 82 of the thread guide member 80 . The second guide cam hole 67 is inclined upward toward the other side around the threading shaft 50 when viewed from the radial direction of the cam tube portion 66 . Therefore, the second pin 82 is displaced from the lower end portion of the second guide cam hole 67 to the upper end side along the second guide cam hole 67 . As a result, the thread guide member 80 rotates from the retracted position to the guide position side (the other side around the threading shaft 50, the arrow B direction side in FIG. 11(D)), and the thread guide member 80 holds the thread. Portion 84 rotates closer to the front side of needle 32 .

At this time, the thread pull-out hook 85 of the thread guide member 80 rotates to the other side around the axis of the threading shaft 50 while catching the upper thread intermediate portion TC, so that when viewed from the axial direction of the threading shaft 50 , and is arranged obliquely rearward to the left with respect to the needle 32 .

(State 5)
As shown in FIGS. 9(B) and 11(E), in state 5, the guide member 61 is further lowered than in the state 4 position. As a result, the first guide cam hole 65 of the guide member 61 is displaced further downward relative to the first pin 51 of the threading shaft 50 . Specifically, the inner peripheral surface of the inclined cam hole 65U in the first guide cam hole 65 contacts the first pin 51 and presses the first pin 51 from above. As a result, the first pin 51 is displaced leftward along the inner peripheral surface of the inclined cam hole 65U. As a result, the threading shaft 50 rotates to one side (arrow A direction side in FIG. 11(E)) around the shaft. That is, the rotation of the threading member 70 toward the insertion position is resumed, and the threading hook 74 of the threading member 70 approaches the needle 32 from the rear side.

On the other hand, in the yarn guiding member 80, the lowering of the guiding member 61 displaces the second pin 82 further to the upper end side of the second guide cam hole 67, and the yarn guiding member 80 moves to the guiding position side (Fig. 11(E)). Further rotate in the direction of arrow B). As a result, the thread holding portion 84 of the thread guiding member 80 approaches the needle 32 from the front side. Specifically, the needle 32 is arranged between the first thread holding hook 84A and the second thread holding hook 84B of the thread holding portion 84, and the upper thread intermediate portion TC held by the thread holding portion 84 is placed on the needle 32. is arranged substantially in front of the needle hole 32A.

Further, the thread pull-out hook 85 of the thread guide member 80 further rotates to the other side around the threading shaft 50 while catching the needle thread intermediate portion TC. Specifically, the thread pull-out hook 85 is arranged obliquely rearward to the left with respect to the needle 32 , and is arranged at a position further away from the needle 32 than in the state 4 .

(State 6)
As shown in FIGS. 9(C) and 11(F), in state 6, the guide member 61 is further lowered than the position in state 5 and is positioned at the operation completion position. Then, in State 6, the first pin 51 of the threading shaft 50 is pressed by the inner peripheral surface of the inclined cam hole 65U and further displaced to the left compared to State 5. As shown in FIG. As a result, the threading shaft 50 is further rotated to one side around the shaft, and the threading member 70 is arranged at the insertion position. Therefore, the tip of the threading hook 74 of the threading member 70 is inserted into the needle hole 32A of the needle 32 from the rear side.

On the other hand, in the thread guiding member 80, the second pin 82 is arranged at the upper end portion of the second guide cam hole 67, and the thread guiding member 80 rotates to the guiding position. Specifically, the thread holding portion 84 of the thread guiding member 80 is brought closer to the needle 32, and the upper thread middle portion TC held by the thread holding portion 84 is arranged in front of the needle hole 32A of the needle 32. . Then, the threading hook 74 of the threading member 70 catches the upper thread intermediate portion TC arranged on the front side of the needle hole 32A.

Further, the thread pull-out hook 85 of the thread guide member 80 further rotates to the other side around the threading shaft 50 while catching the upper thread intermediate portion TC. Specifically, the thread pull-out hook 85 is arranged obliquely rearward to the left with respect to the needle 32 , and is arranged at a position further away from the needle 32 than in the state 5 .

Here, when the thread guiding member 80 rotates from the retracted position to the guiding position, the thread drawing hook 85 once approaches the needle 32 in states 3 and 4 when viewed from the axial direction of the threading shaft 50, In states 4 to 6, the threading shaft 50 rotates to the other side so as to separate from the needle 32 . Therefore, in state 6, the length of the upper thread intermediate portion TC is longer than in state 3. That is, when the thread guiding member 80 rotates from the retracted position to the guiding position for the upper thread T that has passed through the thread holding portion 84 from the thread spool (not shown) and is cut by the thread cutting portion 3, the thread drawing hook 85 is pulled out. , the captured needle thread intermediate portion TC is further pulled out from the thread holding portion 84 side (ie, the tip end side of the needle thread T) to the thread hooking portion 31 side (ie, the base end side of the needle thread T), and the needle thread intermediate portion The length of TC increases. Then, in state 6, the drawing of the upper thread intermediate portion TC by the thread drawing hook 85 is completed.

(State 7)
As shown in FIGS. 10(A) and 11(G), in state 7, the operator pulls up the operating lever 68 from the operation completion position to raise the guide member 61 . Specifically, the guide member 61 is raised to the same position as in state 4, and the threading shaft 50 is arranged at the threading position.

At this time, the first guide cam hole 65 of the guide member 61 is relatively displaced upward with respect to the first pin 51 of the threading shaft 50 compared to the state 6 . Specifically, the inner peripheral surface of the inclined cam hole 65U in the first guide cam hole 65 comes into contact with the first pin 51 and presses the first pin 51 from below. 1 guide cam hole 65 at the upper end portion of the lower cam hole 65L. As a result, the first pin 51 (that is, the threading shaft 50) rotates to the other side around the threading shaft 50 with respect to State 6. As a result, the threading member 70 rotates from the insertion position toward the standby position (direction of arrow B in FIG. 11(G)). At this time, the threading hook 74 pulls out of the needle hole 32A of the needle 32 rearward while catching the upper thread intermediate portion TC. As a result, the needle thread T (the needle thread intermediate portion TC) is passed through the needle hole 32A of the needle 32 .

Further, in State 7, the threading shaft 50 is arranged at the threading position, so the vertical position of the thread guide member 80 does not change from that in State 6. As a result, the cam tube portion 66 of the guide member 61 is relatively displaced upward with respect to the second pin 82 of the thread guide member 80 , and the second pin 82 of the thread guide member 80 is pushed into the second guide cam hole 67 . It displaces from the upper end portion of the second guide cam hole 67 to the lower end portion side along. As a result, the thread guiding member 80 rotates from the guiding position toward the retracted position (arrow A direction in FIG. 11(G)).

Further, when the thread guiding member 80 rotates from the guiding position to the retracted position, the intermediate thread portion TC is released from the groove 85C of the thread drawing hook 85, and the intermediate thread portion TC is captured by the thread drawing hook 85. is released. That is, the portion of the upper thread intermediate portion TC between the needle hole 32A of the needle 32 and the thread hooking portion 31 becomes loose. Therefore, when threading hook 74 catches upper thread middle portion TC and pulls out rearward from needle hole 32A of needle 32, threading hook 74 moves slack upper thread middle portion TC to needle 32. through the needle hole 32A. In state 7, the upper thread intermediate portion TC is removed from the thread holding portion 84 of the thread guiding member 80. As shown in FIG.

(State 8)
As shown in FIGS. 10(B) and 11(H), in state 8, the operating lever 68 is further pulled up by the operator's operation to raise the guide member 61 . Specifically, the guide member 61 is raised to the same position as in state 2, and the threading shaft 50 is arranged at a position higher than the threading position.

As a result, the threading member 70 moves upward with respect to the state 7, so that the threading hook 74 of the threading member 70 absorbs the slack in the captured upper thread T (intermediate upper thread portion TC). while moving upwards. Further, the threading member 70 is arranged at a position rotated further toward the standby position side (the arrow B direction side in FIG. 11(H)) with respect to the state 7 . As a result, the needle thread T is pulled out from the needle hole 32A, and the length of the portion of the needle thread T on the tip side from the needle hole 32A of the needle 32 is gradually shortened.

On the other hand, in state 8, since the threading shaft 50 is arranged at the same position as in state 2, the thread guiding member 80 moves toward the retracted position side (direction of arrow A in FIG. 11(H)) with respect to state 7. It rotates further and is placed in the retracted position.

(state 9)
As shown in FIGS. 10(C) and 11(I), in state 9, the operating lever 68 is further pulled up by the operator's operation to return the guide member 61 and the threading shaft 50 to their initial positions. It has become. As a result, the threading member 70 is returned to the standby position, and the thread guiding member 80 is arranged at the retracted position. In addition, between state 8 and state 9, the needle thread T caught by the threading hook 74 of the threading member 70 is released. Thus, threading of the needle thread T through the needle hole 32A of the needle 32 is completed.

Here, according to the threading device 10 , the thread guide member 80 is provided with the thread pull-out hook 85 , and the thread pull-out hook 85 is positioned above the needle thread T between the thread hooking portion 31 and the thread holding portion 84 . It captures the yarn middle portion TC. As described above, when the thread drawing hook 85 rotates together with the thread guiding member 80 from the retracted position to the guiding position, the thread drawing hook 85 moves the captured upper thread intermediate portion TC from the thread holding portion 84 side to the thread hooking portion. 31 side (base end side of upper thread T). Therefore, the length of the needle thread intermediate portion TC is increased.
Also, at this time, the needle thread intermediate portion TC held by the thread holding portion 84 approaches the needle hole 32A of the needle 32 due to the rotation of the thread guiding member 80 to the guiding position.
Further, at this time, the threading member 70 rotates to the insertion position, and the threading hook 74 of the threading member 70 passes through the needle hole 32A of the needle 32, and the upper thread intermediate portion approaches the needle hole 32A. Capture TC.

On the other hand, when the thread draw-out hook 85 rotates from the guiding position to the retracted position, the thread draw-out hook 85 is released from the upper thread intermediate portion TC. Therefore, as described above, the upper thread intermediate portion TC is in a slackened state.
At this time, the threading member 70 rotates from the insertion position to the standby position while the threading hook 74 captures the upper thread intermediate portion TC. That is, the threading hook 74 pulls the upper thread intermediate portion TC, which has been released from the thread pull-out hook 85 and is in a slack state, through the needle hole 32A of the needle 32 while pulling it rearward. Thereafter, when the threading shaft 50 returns to the initial position, the threading hook 74 rises while retaining the upper thread intermediate portion TC. At this time, since there is slack in the needle thread intermediate portion TC, when the needle thread T is pulled by the threading hook 74, the needle thread T cannot be pulled toward the thread hooking portion 31 (that is, the base end side of the needle thread T). Almost no tension occurs. As a result, it is possible to prevent the needle thread T from coming off the threading hook 74 without being able to withstand the tension. As described above, the threading performance of the threading device 10 can be improved.

Further, the thread pull-out hook 85 is formed with a groove portion 85C into which the needle thread T (the needle thread intermediate portion TC) can be inserted. Further, at the initial position of the threading shaft 50, the groove portion 85C is arranged so as to partially overlap the needle thread intermediate portion TC when viewed from the axial direction of the threading shaft 50. As shown in FIG. Therefore, when the threading shaft 50 descends from the initial position to the threading position, the upper thread intermediate portion TC is inserted into the groove portion 85C, and the thread pull-out hook 85 catches the upper thread intermediate portion TC. As a result, by rotating the thread guiding member 80 from the retracted position to the guiding position while the needle thread intermediate portion TC is inserted into the groove portion 85C, the captured needle thread intermediate portion TC can be threaded from the thread holding portion 84 side. It can be satisfactorily pulled out to the part 31 side.

Further, the groove portion 85C is configured as a groove that opens toward the guide position side. Therefore, when the thread guide member 80 (thread pull-out hook 85) rotates from the guidance position to the retracted position, the thread pull-out hook 85 can easily release the upper thread intermediate portion TC from being caught.

Furthermore, the thread drawing hook 85 is arranged radially inside the threading shaft 50 with respect to the thread holding portion 84 . Therefore, the thread drawing hook 85 can be provided on the thread guiding member 80 while suppressing an increase in the size of the thread guiding member 80 .

In addition, since the thread pull-out hook 85 is provided on the thread guide member 80, the thread guide member 80 that brings the needle thread intermediate portion TC closer to the needle hole 32A of the needle 32 can be used to extend the length of the needle thread intermediate portion TC. can be lengthened to make the upper thread intermediate portion TC in a slack state. Therefore, the threading performance of the threading device 10 can be improved while suppressing an increase in the number of parts.

Further, in the rotation mechanism 60, the guide member 61 moves integrally with the threading shaft 50 between the initial position and the threading position of the threading shaft 50, and at the threading position of the threading shaft 50, the guide member 61 is configured to be movable downward relative to the threading shaft 50 . Further, the guide member 61 has a first guide cam hole 65 and a second guide cam hole 67, and the first pin 51 of the threading shaft 50 is movably inserted into the first guide cam hole 65, A second pin 82 of the thread guiding member 80 is movably inserted into the second guide cam hole 67 . That is, the rotating mechanism 60 is configured by a so-called cam mechanism, and rotates the threading member 70 and the thread guiding member 80 about the threading shaft 50 in opposite directions. Therefore, the threading member 70 and the thread guiding member 80 can be rotated in opposite directions about the threading shaft 50 with a simple structure.

A positioning plate 33 is fixed to the needle bar 30 . When the threading shaft 50 descends from the initial position to the threading position, the first pin of the threading shaft 50 comes into contact with the stopper piece 33A of the positioning plate 33, preventing the threading shaft 50 from moving downward. Limited. At the threading position, when the threading shaft 50 rotates to one side around the axis and the threading member 70 rotates to the insertion position side, the first pin is arranged in the regulation groove 33B of the positioning plate 33. As a result, the vertical movement of the first pin 51 (that is, the threading shaft 50) is restricted. Therefore, the threading shaft 50 can be held at the threading position by the restricting groove 33B. As a result, the workability for the operator when threading the upper thread T through the needle hole 32A of the needle 32 by the threading device 10 can be improved.

In the threading device 10 of the present embodiment, the groove portion 85C of the thread guide member 80 is opened to the other side (the guidance position side) around the threading shaft 50 when viewed from the axial direction of the threading shaft 50. However, the shape of the groove portion 85C is not limited to this. For example, the groove portion 85C of the thread guiding member 80 may be formed in a substantially V-shaped groove opening to the other side (the guidance position side) around the threading shaft 50 when viewed from the axial direction of the threading shaft 50. good.

Further, in the threading device 10 of the present embodiment, when the threading shaft 50 descends from the initial position to the threading position, the upper thread intermediate portion TC is inserted into the groove portion 85C, and the thread pull-out hook 85 is pulled out of the upper thread. Although the intermediate portion TC is captured, the timing at which the thread drawing hook 85 captures the upper thread intermediate portion TC is not limited to this. For example, when the thread guiding member 80 rotates from the retracted position to the guiding position, the needle thread intermediate portion TC may be caught by the thread drawing hook 85 .

Further, although the operation lever 68 is formed integrally with the guide member 61 in this embodiment, the guide member 61 and the operation lever 68 may be configured separately. In this case, for example, the operating lever 68 is supported by the sewing machine body so as to be vertically movable, and when the operating lever 68 is lowered, the operating lever 68 engages with the guide member 61 to push the guide member 61 downward. You may

1 sewing machine 2 cover 3 thread cutter 10 threading device 20 needle bar support 20A needle bar support 30 needle bar 31 thread hook 32 needle 32A needle hole 33 positioning plate (positioning member)
33A stopper piece (contact portion)
33B Regulating groove 40 Base member 41 Fixed piece 42 Engagement portion 43 Upper wall 44 Upper shaft support portion 45 Lower shaft support portion 46 Guide piece 47 Base cam hole 47A First base cam hole 47B Second base cam hole 50 Threading shaft 51 First Pin (first axis)
52 compression coil spring 60 rotation mechanism 61 guide member 62 guide member main body 63 support tube portion 64 cam piece 65 first guide cam hole (first cam hole)
65L Lower cam hole 65U Inclined cam hole 66 Cam tube portion 67 Second guide cam hole (second cam hole)
68 Operation lever 68A Lever portion 70 Threading member 71 Fixing portion 72 Arm 73 Threading guide 74 Threading hook 80 Thread guide member 81 Connecting tube portion 82 Second pin (second shaft)
83 guide plate 84 thread holding portion 84A first thread holding hook 84B second thread holding hook 85 thread drawing hook (needle thread drawing portion)
85A Body portion 85B Hook portion 85C Groove portion (recess)
S1 Screw S2 Screw T Needle thread TC Middle part of needle thread

Claims (6)

a thread hooking portion provided at the lower end of the needle bar whose axial direction is the vertical direction and on which the upper thread pulled out from the thread spool is hooked;
a threading shaft arranged parallel to the needle bar and supported movably in its axial direction between an initial position and a threading position and rotatable about its own axis;
It is connected to the lower end side of the threading shaft so as to be integrally movable in the axial direction of the threading shaft and to be rotatable around the axis of the threading shaft, and the tip end side of the upper thread hooked on the thread hooking portion is connected to the threading shaft. It has a thread holding part including a first thread holding hook and a second thread holding hook , and rotates about the threading shaft from the retracted position to the guiding position, thereby rotating the first thread holding hook and the second thread holding hook. 2 a thread guiding member for arranging the needle between the thread holding hook and guiding the needle thread held by the thread holding portion to a position close to the needle hole of the needle;
It has a threading hook that is fixed to the lower end of the threading shaft and configured to be able to be inserted into the needle hole of the needle. a threading member whose threading hook passes through the needle hole and catches the needle thread approaching the needle hole of the needle;
a rotating mechanism for rotating the threading member and the thread guiding member in opposite directions about the threading shaft;
Provided on the thread guiding member, it catches the needle thread and moves the needle thread caught in contact with and away from the needle as viewed from the axial direction of the threading shaft when the needle thread is rotated from the retracted position to the guiding position. an upper thread pull-out section that pulls out from the thread holding section side to the thread hooking section side and releases the captured state of the upper thread when rotating from the guiding position to the retracted position;
Threading device with. The upper thread pull-out portion is formed with a recess into which the upper thread can be inserted,
2. The method according to claim 1, wherein the upper thread is inserted into the recess when the threading shaft is moved from the initial position to the threading position, and the upper thread pulling-out portion catches the upper thread. threading device. In the initial position, the upper thread drawing portion is arranged above the upper thread between the thread hooking portion and the thread holding portion, and the concave portion is positioned at the upper side of the threading shaft when viewed from the axial direction of the threading shaft. 3. The threading device according to claim 2, wherein the needle thread is overlapped with the upper thread. The threading device according to any one of claims 1 to 3, wherein the upper thread pull-out portion is arranged radially inward of the threading shaft with respect to the thread holding portion. . The rotating mechanism is
a first shaft provided on the threading shaft and protruding radially outward of the threading shaft;
a second shaft provided on the thread guide member, the axial direction of which coincides with the radial direction of the threading shaft;
A guide connected to the threading shaft so as to be movable integrally with the threading shaft between the initial position and the threading position and relatively movable downwardly with respect to the threading shaft at the threading position. a member;
is composed of
A first cam hole into which the first shaft is movably inserted and a second cam hole into which the second shaft is movably inserted are formed in the guide member. The threading device according to any one of claims 1 to 4. A positioning member is fixed to the needle bar,
The positioning member is
a contact portion with which the first shaft abuts when the threading shaft is lowered to the threading position;
a regulating groove into which the first shaft is inserted when the threading member rotates toward the insertion position, and which restricts movement of the threading shaft in the vertical direction;
The threading device according to claim 5, comprising:

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