DE102007004550A1 - Sewing machine portal frame shaped to serves as a winding yoke for the bobbin winding process - Google Patents

Abstract

A sewing machine has a thread tensioning mechanism (3) with a base supporting a main column and a portal frame that terminates in the sewing head. The sewing machine portal frame (2) that is so shaped that it also serves as a winding yoke for the bobbin winding process. The thread tensioning device (3) stator supports a thread bobbin and has a bearing that turns the bobbin core. The bobbin has a matched form-fit core aperture.

Description

AREA OF INVENTION

The The present invention relates to a thread tensioner of a sewing machine.

RELATED STAND OF THE TECHNIQUE

A sewing machine is provided with a thread tensioner to create a suitable Tension on a thread to prevent slack in the thread.

As in 7 shown is a thread tensioner 100 on a front side (the right side in 7 ) of a sewing machine head frame 101 arranged. A thread picker 102 for attracting the thread by a vertical movement is at the front of the sewing machine head frame 101 intended. The thread, which is supplied from a thread supply source to a needle down any, is through the Fadenaufnehmer 102 inserted and then between a pair of thread tension discs 103 . 104 of the thread tensioner 101 placed so that a suitable tension is applied to the thread. An electromagnet 105 as a drive source for driving the thread tensioning disk 103 is at a back of the sewing machine head frame 101 intended. The thread tensioner 100 jumps from the front and back sides of the sewing machine head frame 101 in front. Inside the sewing machine head frame 101 are an eccentric cam 106 which is provided on a main shaft, and a needle bar 107 which moves in accordance with a rotation of the main shaft in a vertical direction arranged.

As in 8th shown, may be in the thread tensioner 100 the thread tension disc 103 on the thread tensioning disc 104 move to or from this, and a disc pusher 108 that of the electromagnet 105 is driven, presses the thread tensioning disc 103 to the thread tensioning disc 104 out, leaving the thread between the thread tensioning discs 103 . 104 can be held. The disc pusher 108 is with a drive rod 109 provided in the axial direction of the thread tension discs 103 . 104 extends, and one end of the drive rod 109 is in accordance with a drive operation of an output axis 105a of the electromagnet 105 driven, leaving the disc pusher 108 can be driven (see, for example, JP-A-2003-181182).

As in 9 is shown in a thread tensioner 120 another type a pair of thread tension discs 123 . 124 on a base member 122 attached, which via a movable pin 125 on an electromagnet 121 is attached. In the thread tensioner 120 can be the power of a pestle 130 of the electromagnet 121 that the moving pen 125 to the side of the electromagnet 121 pulls, be adjusted by regulating a current, which by the electromagnet 121 flows, which regulates a tension on the between the thread tension discs 123 and 124 held thread acts.

As in 10 shown is in the electromagnet 121 a frame 127 for a coil inside a housing 126 provided, which is formed of ferromagnetic material, and in the frame 127 is a winding 128 intended. The pestle 130 , the magnetic member attached to it 129 is also in the housing 126 intended. The pestle 130 is movable in its axial direction and on bearings 131 . 132 supported so that it does not twist. That on the pestle 130 attached magnetic member 129 is formed in a cylindrical shape, and a step portion 129a with an enlarged diameter is at the magnetic member 129 formed (see, for example, JP-A-2000-202183).

11 is a view showing the structure of a voice coil motor 140 which is used in a thread tensioner as a drive source.

In the voice coil motor 140 is a cylindrical winding yoke 143 inside a mounting recess 142 provided on a sewing machine head frame 141 is formed so that it is tight in the interior of the mounting recess 142 of the sewing machine head frame 141 is fitted. A cylindrical coil core 145 around which a winding 144 is wound around, is on an inner side of the winding yoke 143 intended. A drive axle 147 around which a permanent magnet 146 is attached inside the spool core 145 intended. The drive axle 147 is through a warehouse 148 held, which at the winding yoke 143 and at the spool core 145 is attached.

From the permanent magnet 146 that is attached to the drive axle 147 attached, becomes a magnetic flux 150 generated so that in the voice coil motor 140 a thrust force for moving a thread tensioning disc in the axial direction of the drive axle 147 is generated when through the winding 144 Electricity is passed.

However, in the driving source of the thread tensioner, for example, the electromagnet or the voice coil motor described above, a yoke assuming a complicated shape is required for forming a magnetic circuit, so that the cost of the components is increased. In addition, in some cases, the number of components that are in the transmission path of the driving force from the drive source to the yarn tensioner large, whereby the sensitivity of the drive source depending on a tolerance or a finishing roughness in an assembly between the respective components is greatly changed.

Farther are in the small sewing machine head frame, where the space is limited is a mechanism for driving a needle and a thread takeup arranged, and as the number of items increases, increases also the weight, so that the sensitivity deteriorates and a size reduction limited becomes. As a result, it becomes difficult for the individual components within accommodate the frame in a suitable manner.

SUMMARY THE INVENTION

It It is an object of the invention to provide a thread tensioner of a sewing machine to provide, in which the number of components is reduced, a Assembly work of the items can be easily carried out, its sensitivity is improved and in which the size as well as the costs are reduced.

According to a first aspect of the invention, a thread tensioner of a sewing machine comprises:
a first thread tension disc ( 31 ) and a second thread tensioning disk ( 32 ) holding a thread between them and both outside a sewing machine head frame ( 2 ) formed of a ferromagnetic material are arranged;
a disc pusher ( 33 ) movable to abut the first yarn tensioning disk such that the first yarn tensioning disk moves toward or away from the second yarn tensioning disk;
a drive mechanism ( 4 ) which drives the disk pusher so that the first yarn tensioning disk moves towards the second yarn tensioning disk;
a drive source ( 5 ) driving the drive mechanism, the drive source being provided inside the sewing machine head frame,
wherein the drive source is a drive ( 6 ) including a permanent magnet ( 52 . 53 ) and a stator ( 7 ) including a winding ( 55 ) wrapped around the permanent magnet at a predetermined distance with respect to the permanent magnet.

Of the Thread tensioner is characterized in that the sewing machine head frame is suitable to serve as a winding yoke for the winding.

The ferromagnetic material is a material commonly referred to as a ferromagnetic is called, for example iron, cobalt or nickel. If according to the first Aspect of the invention, the drive mechanism from the drive source driven, the drive mechanism drives the disc pusher, and the first thread tensioning disc moves to the second thread tensioning disc to hold the thread.

The Winding is provided on the stator, and the sewing machine head frame is suitable for serving as the winding yoke for the winding. Therefore it is not necessary, the winding yoke for the winding separately from the sewing machine head frame as provided in the prior art.

Consequently Is it possible, reduce the number of components of the drive source. Farther although the drive source is provided inside the sewing machine head frame is reduced, the number of components, so that the work to Installing the drive source in the sewing machine head frame slightly accomplished can be. As continues to reduce the number of items can be the size of the drive source be reduced so that it is possible is to perform a weight reduction. As a result, it is possible to reduce the sensitivity to improve the drive source.

There Furthermore, the number of components can be reduced is it is possible reduce the manufacturing cost of the drive source.

According to a second aspect of the invention, in the thread tensioner of the sewing machine according to the first aspect of the invention, the stator further includes a bobbin ( 54 ), around which the winding is wound, and a bearing ( 65 ) for the drive is provided in the coil core.

According to the second Aspect of the invention need only consider two tolerances to become when the drive is assembled, that is, one Tolerance in the assembly of the sewing machine head frame and the bobbin and a tolerance in the assembly of the bobbin and the bearing. Consequently there is in comparison with the case in which the winding yoke as provided in the prior art, a smaller impact tolerance during assembly.

Therefore Is it possible, the precision to improve in the drive operation of the drive source.

According to one Third aspect of the invention are in the thread tensioner of a sewing machine according to the second Aspect of the invention of the bobbin and the bearing in a one-piece Construction trained.

There according to the third Aspect of the invention of the bobbin and the warehouse in a one-piece construction are trained, it is possible to further reduce the number of components of the drive source. It is also possible the precision continue to improve in the drive operation of the drive source.

According to one fourth aspect of the invention is in the thread tensioner of a sewing machine according to the second Aspect of the invention of the bobbin with a passport opening formed and the bearing is from the inside of the bobbin ago in the passport opening fitted.

According to the fourth Aspect of the invention, the assembly can be made easier.

SHORT DESCRIPTION OF THE DRAWINGS

1 Fig. 15 is a view showing a state in which a thread tensioner is provided in a sewing machine.

2A is a front view showing a part of the sewing machine, which includes the thread tensioner.

2 B is a sectional view taken along the line AA in 2A ,

3 is an exploded perspective view showing a thread tensioner.

4 is an exploded perspective view showing a voice coil motor.

5A is a view showing the shape of a permanent magnet.

5B is a view showing a polarization direction of a permanent magnet.

5C is a view showing a polarization direction of the other permanent magnet.

6 FIG. 12 is a sectional view showing an internal structure of the voice coil motor. FIG.

7 Fig. 10 is a view showing a state in which a thread tensioner is provided in a sewing machine according to the prior art.

8th is a view showing a structure of the thread tensioner in FIG 7 ,

9 is a view showing a thread tensioner according to another prior art.

10 is a sectional view showing the internal structure of an electromagnet in 9 ,

11 FIG. 10 is a sectional view showing an internal structure of a voice coil motor according to the prior art. FIG.

DETAILED DESCRIPTION

One embodiment The invention will be explained in more detail below with reference to the drawings described.

As in 1 . 2A and 2 B shown, is a thread tensioner 1 a sewing machine in a sewing machine head frame 2 provided, which is a main shaft 11 which is to be driven by a sewing machine motor (not shown), a needle bar 13 passing through a link to one on the main shaft 11 provided eccentric cam is coupled and in the vertical direction in synchronism with a rotation of the main shaft 11 is moved, and a thread picker 14 for tensioning a thread by an upward movement during a sewing operation and which is formed of a ferromagnetic material.

The ferromagnetic material is a material commonly referred to as a ferromagnetic is called, for example iron, cobalt or nickel.

The thread tensioner 1 is provided so as to be from a front side to a rear side in the vicinity of a clamper part of the sewing machine head frame 2 penetrates and receives a thread between them by the Fadenaufnehmer 14 at the front of the sewing machine head frame 2 is used.

The thread tensioner 1 comprises: a thread tensioning unit 3 for applying a tension to a thread, a drive rod 4 as a drive mechanism for driving a disk pusher 33 such that there is a thread tensioning disc 31 to a thread tensioning disc 32 and a voice coil motor 5 as a drive source for applying a driving force to the thread tensioning unit 3 , The thread tensioning unit 3 stands from the sewing machine head frame 2 on a front side of the sewing machine head frame 2 (a page opposite to a user in sewing). The voice coil motor 5 is together with the main shaft 11 and the needle bar 13 near machine-head frame 2 provided and can not be visually recognized with respect to its visibility. Only a conductor wire 28 for supplying a current to the voice coil motor 5 stands from the back of the sewing machine head frame 2 from.

As in 3 shown comprises the thread tensioning unit 3 a pair of thread-tensioning discs 31 . 32 for the interposition of a thread and a disk pusher 33 which is movable to the thread tensioning disc 31 (a first thread tensioning disc) to the thread tensioning disc 32 (a second thread tensioning disk) towards or away from it.

The thread clamping discs 31 . 32 are formed in disc-like shape and in the direction of movement of the thread tensioning disc 31 at the front of the sewing machine head frame 2 arranged. The disc pusher 33 for pressing the thread tensioning disc 31 is on one side of the thread tensioning disc 31 provided which of the thread tensioning disc 32 opposite, so the thread tensioning disc 31 towards the thread tension disc 32 to move.

The disc pusher 33 may be a plate member with three snap parts 33a be and will be in a disk holder 34 held to an axial rotation of the disc pusher 33 to prevent. Furthermore, the disc pusher 33 through a positioning sleeve 35 for positioning the drive rod 4 through a screw 35a positioned. The disk brake holder 34 is with a screw 34a on the drive rod 4 attached.

The disc pusher 33 and the disc-holder holder 34 are with a protective cover 36 covered, and the protective cover 36 is with a screw 36a at the disk holder holder 34 attached.

A thread tension rod 37 is at one of the ends of the drive rod 34 with a thread tension rod plate 38 and a screw 38a attached. A thread take-up spring 39 is on the thread tension rod 37 and the thread tension rod plate 38 intended. The thread take-up spring 39 is a torsion coil spring as a whole.

The drive rod 4 Couples the thread tensioning unit 3 to the voice coil motor 5 and transmits the driving process of the voice coil motor 5 on the thread tensioning unit 3 , causing the thread tensioning disc 31 is driven.

As in 4 to 6 shown, the voice coil motor closes 5 a drive axle 51 through which the drive rod passes 4 is inserted, which is formed of a ferromagnetic material, such as iron, and which as drive axle 6 of the voice coil motor 5 works. permanent magnets 52 . 53 are in the axial direction of the drive axle 51 around the drive axle 51 arranged around and fixed with an adhesive. The permanent magnets 52 . 53 are formed by a rare earth material, such as a neodymium magnet or a samarium cobalt magnet, and they have, as in 5A shown a cylindrical shape. Thus, the drive closes 6 of the voice coil motor 5 the drive axle 51 and the permanent magnets 52 . 53 one. the on the drive axle 51 are provided.

The permanent magnet 52 is polarized from an inner peripheral surface to an outer peripheral surface in the radial direction, as in 5B shown, and the permanent magnet 53 is polarized from an outer peripheral surface to an inner peripheral surface in the radial direction as in FIG 5C shown.

A cylindrical bobbin 54 which is formed of a plastic material for the purpose of insulation is with a small gap from the outer peripheral surfaces of the permanent magnets 52 . 53 around the axes of the permanent magnets 52 . 53 provided around. A winding 55 for applying a control current for a drive pulse of the voice coil motor 5 is axially around the bobbin 54 wrapped around. More in detail is the winding 55 at a predetermined distance from the permanent magnets 52 . 53 through the bobbin 54 arranged.

Every winding 55 is formed by a single turn and is wound at a position that the outer peripheral surface of the permanent magnet 52 is opposite and is also wound in a position that the outer peripheral surface of the permanent magnet 53 such that a winding direction about the permanent magnet 52 around to the one around the permanent magnet 53 around is reversed. Thus, a stator closes 7 of the voice coil motor 5 the bobbin 54 and those around the bobbin 54 wound around it 55 one.

According to such a construction, in the voice coil motor 5 a magnetic circuit formed, for. B. magnetic field lines 8th , in the 6 are shown. In this case, the sewing machine head frame 2 formed of a ferromagnetic material. As a result, a magnetic resistance is small, so that a magnetic flux can be prevented from being attenuated. Thus, the sewing machine head frame 2 magnetically the same magnetic function as that of the housing 126 (please refer 11 ) of her conventional voice coil motor (see 11 ).

The bobbin 54 is fixed to an inside of a mounting hole 2a for the voice coil motor 5 glued. The mounting hole 2a is on the sewing machine head frame 2 educated. In the sewing machine head frame 2 is a through hole 2 B formed from the front to the back of the sewing machine head frame 2 goes through, so that they are with the mounting hole 2a communicates. The drive rod 4 is in the through hole 2 B arranged. As a result, the drive rod connects 4 the thread tensioning unit 3 at the front of the sewing machine head frame 2 is arranged with the voice coil motor 5 which is arranged on the back. Furthermore, a snap ring 59 , which is formed so that it assumes approximately C-shape, near the one end of the bobbin 54 in the vicinity of an opening of the mounting hole 2a arranged, and the bobbin 54 is positioned in this way. The bobbin 54 with the winding applied around it 55 is directly in the mounting hole 2a attached to the sewing machine head frame 2 is trained. Namely, a special winding yoke is not provided separately, and instead the sewing machine head frame functions 2 as a winding yoke.

The other end of the drive rod 4 is with a warehouse 56 provided, which is formed of a non-magnetic material, such as austenitic stainless steel. The warehouse 56 is from an inside of the bobbin 54 housed and fitted. The warehouse 56 serves to move in the axial direction of the drive rod 4 respectively. The warehouse 56 is designed so that it fits into a fitting hole on the bobbin 54 is provided, is fitted. After fixing the bearing 56 is the drive rod 4 prevented from being displaced in its radial direction.

A wire 58 that electrically connects to one end of the winding winding 55 is connected, is from one of the ends of the bobbin 54 pulled out, and a current can be applied from the outside.

When the power from a voltage source to the winding 55 through the wire 58 is applied, a thrust force in the axial direction of the drive axle 51 (an S direction in 6 ) in accordance with Fleming's right-hand rule, by the influence of the current flowing to the winding 55 flows, and a magnetic field of the permanent magnets 52 . 53 on the drive axle 51 are provided as in 6 shown. By generating the thrust on the drive axle 51 becomes the drive axle 51 in the axial direction (the S direction of 6 ), and the drive rod 4 connected to the drive axle 51 coupled, is also in the same direction as the drive axle 51 along with the movement of the drive axle 51 emotional. By the movement of the drive rod 4 becomes the positioning sleeve 35 attached to the drive rod 4 coupled, moved. When the moving positioning sleeve 35 at the disk pusher 33 is applied, the disc pusher 33 emotional. By the movement of the disc pusher 33 becomes the thread tension disc 31 to the thread tensioning disc 32 moved. By the movement of the thread tensioning disc 32 , lies the thread tension disc 32 at the thread tensioning disc 31 at. As a result, the thread can be interposed. If an amount of current flowing to the winding 55 is applied, is also changed, the thrust, in the axial direction of the drive axle 51 is generated, changed. As a result, it is possible to apply a pressure for interposing the thread between the thread tensioning discs 31 . 32 to vary. By regulating a force for the interposition of the thread between the thread tensioning discs 31 . 32 When the thread is unwound from a thread supply source during a sewing operation, it is possible to produce a thread tension desired by a user.

In the voice coil motor 5 standing in the mounting hole 2a is provided, which on the machine head frame 2 is formed, are the permanent magnets 52 . 53 on the side of the drive 6 arranged, and the winding 55 is on the side of the stator 7 intended. Also in the case in which the current to the winding 55 is applied, so that the thrust force is generated, therefore, only the drive axle 51 moved and the winding 45 is fixed to the bobbin 54 held. For this reason, separation can be prevented.

The winding 55 which is the side of the stator 7 is in the mounting hole 2a in a state of winding around the bobbin 54 attached and supported on the sewing machine head frame 2 from. As a result, heat generated by the winding by the application of the current, directly from the winding 55 and the bobbin 54 to the sewing machine head frame 2 transfer. Thus, it is possible to control the radiation property of the voice coil motor 5 to improve.

Furthermore, the drive rod extends 4 from the front to the back of the sewing machine head frame 2 and is through the camp 56 and the thread tension rod 37 held. Even if the length of the drive rod 4 is reduced, therefore, a holding interval itself is not greatly reduced, and the influence of displacement of an axial center is reduced. As a result, coaxial precision can be easily achieved, and the gap between the permanent magnets 52 . 53 and the bobbin 54 Can be reduced, so the thrust of the voice coil motor 5 can be improved. Furthermore, the warehouse 56 in the bobbin 54 fitted. That's why the camp can 56 be prevented from moving in the radial direction of the drive axle 51 to move, so that a tolerance in the attachment can be comparatively reduced. Furthermore, a fitting part of the drive rod 4 to the camp 56 Reduced, a cumulative tolerance between the respective components is reduced, the precision in an axial center of the drive rod 4 and the camp 56 can be improved, and friction with the bearing 56 is in the movement of the drive rod 4 reduced, so that a hysteresis of a thread tension can be reduced. Also in a handling of a gap between the outer circumference of the permanent magnets 52 . 53 on the drive axle 51 are provided, and the inner circumference of the bobbin 54 , beyond that, is just the warehouse 56 as a component through the drive rod 4 and the bobbin 54 intended. As a result, it is possible to relatively reduce a tolerance in a fixture that is generated when each of the components is fixed. Thus, it is possible to influence the cumulative tolerance in the voice coil motor 5 In the voice coil motor 5 Furthermore, the winding yoke is not provided separately, but the sewing machine head frame 2 is used instead. For this reason, it is possible the winding 55 excessively around the bobbin 54 to wind around according to a thickness of the winding yoke. As a result, it is possible to reduce the thrust of the voice coil motor 5 can be given to increase. In the case where the voice coil motor 5 is reduced for the output of the same thrust force, accordingly, the size of the voice coil motor 5 be reduced more according to the embodiment. By reducing in size, it is possible to perform weight reduction and the sensitivity of the voice coil motor 5 to improve. By reducing the size of the voice coil motor 5 it is still possible to use the voice coil motor 5 in the sewing machine head frame 2 provided. Therefore, it is possible to reduce the size of the sewing machine. Further, it is possible to take an action for the provision of the voice coil motor 5 outside the sewing machine (for example, installing a protective cover to prevent an operator from moving the voice coil motor 5 , which generates heat, touches). As a result, it is possible to reduce costs.

In addition, the sewing machine head frame becomes 2 used instead of the winding yoke. As a result, it is possible to reduce the number of the individual components. Thus, it is possible to reduce the cost of producing the voice coil motor 5 to reduce.

Furthermore, the winding generates 55 the heat by applying the current. Since the winding yoke is not provided, however, the heat is correspondingly fast on the sewing machine head frame 2 transferred and the sewing machine head frame 2 touches the outside air. Therefore, the heat thus transferred can be released to the outside air and the sewing machine head frame 2 can be cooled immediately. Therefore, it is possible to improve the radiation efficiency of the voice coil motor 5 to improve.

In addition, the voice coil motor 5 in the sewing machine head frame 2 intended. However, the number of the individual components is reduced, so that the work for installing the voice coil motor 5 in the sewing machine head frame 2 can be easily performed.

Further, it is possible the space between the thread tensioning unit 3 and the voice coil motor 5 reduce, and the associated drive rod 4 is through the warehouse 56 held. That's why it's possible to have a load on the drive rod 4 acts to mitigate and prevent a deterioration in sensitivity due to a curvature or bending of the drive rod 4 and a reduction in the accuracy of movement is caused.

The scope of the invention is not limited to the embodiment. For example, it is also possible to use the bobbin 54 and the camp 56 in a one-piece structure. In such a case, it is possible to further reduce the number of the individual components and to reduce the cost and to perform the work easily. Furthermore, the number of permanent magnets 52 and the number of turns of the winding 55 optional and can be chosen freely.

In addition, can the design can be changed freely within the scope of the invention.

Claims (4)

A thread tensioner of a sewing machine, comprising: a first thread tensioning disk ( 31 ) and a second thread tensioning disk ( 32 ) holding a thread between them and both outside a sewing machine head frame ( 2 ) formed of a ferromagnetic material are arranged; a disc pusher ( 33 ) movable to abut the first yarn tensioning disk such that the first yarn tensioning disk moves toward or away from the second yarn tensioning disk; a drive mechanism ( 4 ) which drives the disk pusher so that the first yarn tensioning disk moves towards the second yarn tensioning disk; and a drive source ( 5 ) which drives the drive mechanism, wherein the drive source is provided inside the sewing machine head frame, wherein the drive source is a drive ( 6 ) including a permanent magnet ( 52 . 53 ) and a stator ( 7 ) including a winding ( 55 ) wrapped around the permanent magnet at a predetermined distance with respect to the permanent magnet, characterized in that the sewing machine head frame is adapted to serve as a winding yoke for the winding. The thread tensioner of a sewing machine according to claim 1, wherein the stator further comprises a bobbin ( 54 ), around which the winding is wound, and a bearing ( 56 ) is provided for driving the spool core. The thread tensioner of a sewing machine according to claim 2, the coil core and the bearing in a one-piece construction are formed. The thread tensioner of a sewing machine according to claim 2, the bobbin with a passport opening is formed and the bearing from an inner side of the bobbin ago fitted into the fitting opening is.