KR20090015372A

KR20090015372A - A apparatus of supplying sequin embroidery machine

Info

Publication number: KR20090015372A
Application number: KR1020070079655A
Authority: KR
Inventors: 조경태
Original assignee: 썬스타 특수정밀 주식회사
Priority date: 2007-08-08
Filing date: 2007-08-08
Publication date: 2009-02-12
Also published as: JP2009039538A; DE102008035378A1; KR100973558B1; CN101363178B; CN101363178A; JP4857318B2

Abstract

An apparatus for supplying a sequin in an embroidery machine is provided to decrease size of a sequin supplying apparatus, volume, the manufacturing cost, and the manufacturing time. An apparatus for supplying a sequin in an embroidery machine includes a base part, a sequin reel part, and a supplying part. The base part is fixed on one side of a head and can be attached or detached from the one side of the head. The sequin reel part is fixed on the upper side of the base part, and receiving a plurality of connector sequins. The supplying part includes a body portion, a motor unit, a hanger, a first arm unit, and a second arm unit. The hanger is fixed on a driving shaft of the motor unit and delivers the rotation power of left and right.

Description

Sequin feeder of embroidery machine {A APPARATUS OF SUPPLYING SEQUIN EMBROIDERY MACHINE}

1 is a state diagram showing a sequin supply apparatus according to an example of the prior art,

2 is a side view of a sequin supply apparatus according to an example of the prior art,

3 is another side view of a sequin supply apparatus according to an example of the prior art;

Figure 4 is a diagram showing the configuration of the sequin supply apparatus of the embroidery machine according to one embodiment of the present invention,

5 is an exploded perspective view of a sequin supply device according to an embodiment of the present invention;

6 is an explanatory view of an operation state of a supply unit of the sequin supply apparatus according to an example of the present invention;

** Description of the symbols for the main parts of the drawings **

200: sequin device 210: sequin reel unit

220: base portion 230: supply portion

300: body portion 310: motor portion

320: first auxiliary axis 330: second auxiliary axis

340: first bullet part 345: first fixing part

350: second bullet part 355: second fixing part

360: rocking rock 370: the first cancer means

372: First swing lever 374: First lower lever

376: first push rod 378: first pin

380: second arm means 382: second swing lever

384: 2nd lower lever 386: 2nd push rod

388: second pin 390: scalpel

The present invention is to supply two sequins (SEQUIN) of different colors and shapes in the embroidery machine, and more particularly, to a sequin supply device of the embroidery machine for supplying any one sequin selected from the two sequins using one driving motor. .

Among such embroidery machines, sequins are sequined using sequins. The sequins are called sequins, and sequins are also called sequins. They are sewn and sewn on fabrics to indicate ornaments of various colors, sizes and shapes. The sequin device is attached to the embroidery machine as an option and is simultaneously driven in the SYNCHRONOUS (SYNC) state according to the driving state of the embroidery machine.

Since the sequin supply device is configured to sew a sequin of one color, shape or size with a single needle on a fabric, a sequin supply device is required for each color, shape, and size of the sequin sewn on the fabric.

In addition, when describing a general embroidery machine, the selected color thread on the fabric is sewn on the needle, the fabric is fixed and held in a constant shape using the frame, and the frame is moved while the needle of the sewing machine moves up and down. Is embroidered. Such a frame is freely transported in the two-dimensional plane by the X-axis and the Y-axis driven by punched data, and a predetermined pattern is automatically embroidered.

Referring to the sequin device or the sequin supply device 10 according to an example of the prior art with reference to Figure 1, the base portion 30 is fixed to one side of the embroidery machine head portion 20, integrally by the control signal The provided motor is driven to transfer power to the supply unit 50, and the sequins connected to the sequin roll 60 are wound in line by the driving of the supplied supply unit 50, and the supply unit 50 is supplied. The sequins supplied by the cutting function scalpel are integrally cut one by one and the cut sequins are supplied onto the fabric. Reference numeral 40 is a main shaft for providing power for driving the needle bar of the embroidery machine.

At this time, the needle 25, which is driven in a synchronous (SYNC) state with the sequin supply device 10, and is attached to the lower end of the needle bar of the embroidery machine head part 20 driven by the main shaft 40, is supplied to the sewing thread or the corresponding color thread. The sequins are sewn onto the fabric, so they are sealed or attached.

Since the sequin supply apparatus 10 of the related art is supplied with one kind of sequin from the sequin roll 60, the sequin supply apparatus 10 when a more colorful decoration is desired by using a plurality of sequins having different shapes, colors, and sizes. Replace or move the fabric to the embroidery machine equipped with a sequin supply device 10 is supplied with a different type of sequins and there was a complicated and difficult problem to embroider sequins by exactly matching the corresponding X, Y coordinate values of the fabric.

Some improvements to this prior art problem include a sequin feeder having two different sequins in one sequin feeder and optionally supplying them.

2 is a side view of a sequin supply device according to an example of the prior art, and FIG. 3 is another side view of a sequin supply device according to an example of the prior art.

Referring to the configuration of the sequin supply apparatus 100 according to the prior art with reference to Figures 2 and 3, the sequin reel portion 120 which is supplied with a first sequin and a second sequin respectively mounted on the upper portion of the base portion 110; Is provided. The middle portion of the base 110 is provided with a first motor 130 for providing power to supply the first sequin and a second motor 140 for providing power to the second sequin.

The lower part of the base part 110 is provided with a supply part 150 to receive the first and second sequins and to be cut and provided one by one. The supply unit 150 is provided with power from the first motor 130 and the first arm means 160 to supply the first sequins one by one, and the power from the second motor 140 to supply the second sequins one by one. The second arm means 170 is provided.

Referring to the configuration of the sequin supply apparatus according to the prior art in detail, the first motor 130 and the second motor 140 is controlled by a signal applied from the control unit of the embroidery machine and the operating state is monitored.

For example, if you want to sew the first sequin at the designated position of the fabric by the operator of the sewing machine or the corresponding application for sewing the sequin, the control unit of the sewing machine drives the first motor 130 to supply the first sequin. And the first motor 130 is driven by the control of the controller, thereby moving the first arm means 160, and the first arm means 160 keeps the supplied first sequin pressed.

Since the first arm means 160 pushes the first sequin forward by a predetermined pitch, the first arm means 160 is advanced by a predetermined number of lengths of the first sequin and is cut and supplied to the fabric by the operation of the cutting function. At this time, the needle of the embroidery machine sew the first sequin on the fabric.

In addition, when sewing the second sequin by the operator or the application program, the control unit applies a driving control signal to the second motor 140, the second motor is driven to move the second arm means 170 The second arm means 170 is pushed forward by a predetermined pitch while the second sequin is pressed, and thus advances by a predetermined number of lengths of the second sequin and is cut and supplied to the fabric by the operation of the cutting function. At this time, the needle of the embroidery machine sew the second sequin on the fabric.

Therefore, the prior art of the above configuration has the advantage of selectively supplying the first sequin and the second sequin because the first motor 130 and the second motor 140 are driven under the control of the controller.

However, since the first motor 130 and the second motor 140 are required in the related art, there is a problem in that the volume and weight of the sequin device are increased and manufacturing cost is high.

In addition, in the prior art, since the power providing function is divided into the first motor and the second motor, respectively, the possibility of failure increases, and there is a problem in that maintenance time and cost for normal operation are high.

The present invention selectively supplies a sequin selected using one motor in a sequin supply device of the embroidery machine, and in particular, a sequin supply of a embroidery machine selectively supplying a first sequin and a second sequin using one bidirectional control motor. It is an object to provide a device.

In addition, since a plurality of sequins are selectively supplied to a single drive motor, the purpose of the present invention is to provide a sequin supply apparatus for embroidery machines that reduces the size, volume and manufacturing cost of the sequin supply device, and shortens the production time.

In addition, the use of only one drive motor to provide power reduces the power consumption to reduce the operating cost, the object of the failure is to provide a sequin supply device of the embroidery machine that takes less maintenance time and costs.

In order to achieve the above object, the present invention is a sequin supply apparatus for supplying a sequin attached to the head of the embroidery machine, the base portion fixed to the detachable state on one side of the head; A sequin reel unit provided at an upper end of the base unit to receive a plurality of connector sequins, respectively; And a supply part provided at a lower end of the base part and supplying any one sequin selected from the sequin reel part by a power source at a predetermined pitch. Present a configuration that includes.

In addition, the present invention devised to achieve the above object, in the embroidery machine for supplying any one selected from the first and second sequins by a predetermined pitch, fixed to the head of the embroidery machine, power is controlled by the control of the embroidery machine controller A motor unit which generates and selectively drives the drive shaft in left and right directions; A first fixing part and a second fixing part are provided to fix the motor part in a state in which the driving shaft protrudes, fix the first auxiliary axis and the second auxiliary axis in a rotational state, and one end of the first and second finger parts. Body portion; A rocking arm fixed to a drive shaft of the motor unit to transmit power in left and right directions; First arm means configured to be integral with the auxiliary shaft fixed to the body in a rotational state and to supply the first sequin by a predetermined pitch by driving the rocking arm; A second arm means which is integrally formed with the auxiliary shaft fixed to the body portion and is supplied with the second sequin by a predetermined pitch by driving the rocking arm; This presents the included configuration.

Hereinafter, according to the present invention of the configuration as described above, the sequin supply device of the embroidery machine will be described in detail with reference to the accompanying drawings.

4 is an explanatory view showing the configuration of a sequin supply apparatus of the embroidery machine according to an example of the present invention, and FIG. 5 is an exploded perspective view of the sequin supply apparatus according to an example of the present invention. Is an illustration of the operation state of the supply unit of the sequin supply apparatus according to an example of the present invention.

In describing an example of the present invention, drawings and descriptions which are not directly related to the present invention and well-known technical contents are omitted from the drawings, so that the gist of the present invention is clearly transmitted without obscuring the gist of the present invention.

4 and 5, according to an example of the present invention, a state of the sequin supply apparatus of the embroidery machine is described. The base portion 220 is fixed to one side of the head by supplying the sequin to the head of the embroidery machine. ; A sequin reel unit 210 for receiving a plurality of connector sequins, respectively; A supply unit 230 supplying any one selected sequin to a predetermined pitch; This configuration is included.

In addition, referring to the configuration of the sequin supply apparatus of the embroidery machine according to one embodiment of the present invention, in the embroidery machine for supplying any one selected from the first and second sequins fixed to the head of the embroidery machine by a predetermined pitch, A motor unit 310 generating power and selectively rotating the drive shaft in left and right directions; The motor shaft is fixed with the driving shaft protruding, and the first auxiliary shaft 320 and the second auxiliary shaft 330 are fixed in a rotational state, and one end of the first and second carbon parts 340 and 350 is provided. A body part 300 having a first fixing part 345 and a second fixing part 355 fixed thereto; A rocking arm 360 which is fixed to a drive shaft of the motor unit and transmits power in left and right directions; First arm means 370 which is integrally formed with the first auxiliary shaft fixed to the body part and supplies the first sequin by a predetermined pitch by driving the rocking arm; A second arm means 380 integrally formed with the second auxiliary shaft fixed to the body part and supplying the second sequin by a predetermined pitch by driving the rocking arm; This is a configuration that includes.

In addition, the motor unit 310 is characterized by the configuration of rotating the swing arm 360, which is integrally fixed to the drive shaft 315 by the control of the embroidery machine control unit in the selected direction of the left and right.

In addition, the first arm means 370, the first auxiliary shaft 320 is fixed to the body portion 300 in a rotational state; A first swing lever 372 fixed to the first auxiliary shaft 320 and receiving a driving force of the swing arm 360; A first lower lever 374 fixed to the first auxiliary shaft and transmitting power applied to the first swing lever; A first push rod 376 fixed to the first lower lever in a rotational state and moving the first sequin by a predetermined pitch by the transmitted power; And a first pin 378 for fixing the first push rod in rotation with the first lower lever. A first fingering part 340 fixed to the first auxiliary shaft in a state of rotation and having one end fixed to the first fixing part 345 of the body part 300 to apply a finger force to the first rocking lever 372; Characterized in that the configuration is included.

In addition, the second arm means 380, the second auxiliary shaft 330 is fixed to the body portion 300 in a rotational state; A second swing lever 382 fixed to the second auxiliary shaft 330 and receiving a driving force of the swing arm 360; A second lower lever 384 fixed to the second auxiliary shaft and transmitting power applied to the second swing lever; A second push rod 386 fixed to the second lower lever and moving the second sequin by a predetermined pitch by the transmitted power; And a second pin 388 for fixing the second push rod to the second lower lever in a rotational state. A second tangent part 350 fixed to the second auxiliary shaft in a rotatable state and having one end fixed to the second fixing part 355 of the body part 300 to apply a finger force to the second swing lever 382; Characterized in that the configuration is included.

Two long holes are formed at the lower side of the body part 300, and the first stopper 347 and the second stopper 357 are inserted, respectively, and are screwed and fixed at the rear side.

Hereinafter, with reference to the accompanying drawings will be described in detail the sequin supply apparatus of the embroidery machine by one embodiment of the present invention.

In order to supply two sequin rolls (DOUBLE or DUAL) and to supply the selected sequins to the fabric, two sequin rolls must be provided with two motors to drive each sequin at a predetermined pitch. There are problems such as high price, high failure rate, high maintenance cost and time. It is a technique of the present invention to solve this problem and to supply one sequin selected by one motor.

In the sequin reel 210 according to the present invention of FIG. 4, the first arm means 370 and the first sequin may be formed by a functional unit that provides the respective rolls and paths of the first and second sequins respectively wound in a line-connected state. It is supplied to the lower end part of the 2 arm means 380, respectively. That is, each of the sequins supplied by the sequin reel unit 210 is the first arm means 370 and the second arm means of the supply unit 230 through a path PATH formed by the guide devices provided in the base unit 220. 380 is supplied to each.

The motor 310 is driven by the control and monitoring of the control unit provided in the embroidery machine, and rotates the drive shaft 315 by a certain angle in the right or right direction and at the same time in a left or left direction. The motor unit 310 is integrally fixed and fastened to the body 300 of the supply unit 230 by using a screw or the like in a protruding state.

Referring to FIG. 5, a configuration in which the motor 310 is integrally fixed to the body 300 and the driving shaft 315 protrudes through the through hole is illustrated in detail. The rocking arm 360 is inserted and fixed to the drive shaft 315. In addition, the first auxiliary shaft 320 and the second auxiliary shaft 330 are fixed to the rotating state by using a bearing or the like on the left and right sides of the driving shaft 315 of the body 300.

A first fixing part 345 is formed next to the first auxiliary shaft 320 of the body part 300 to fix one end of the first fingering part 340, and the first fingering part 340 is the first auxiliary part. Since the force applied to the first swing lever 372 in the state wound around the shaft, the first swing lever is driven downward. A second fixing part 355 is formed next to the second auxiliary shaft 330 to fix one end of the second fingering part 350, and the second fingering part 350 is wound around the second auxiliary shaft 330. In the state, since the force applied to the second swing lever 382, the second swing lever is driven upward.

The first swing lever 372 is inserted and fixed to the first auxiliary shaft 320 and is elastically downward by the first fingering part 340. In addition, a first lower lever 374 is inserted and fixed to the first auxiliary shaft 320, and the first push rod 376 is rotated at the end of the first lower lever 374 by the first pin 378. It is fixed. Although not shown in the figure between the first lower lever 374 and the first push rod 376, the spring SPRING is interpolated so that the first push rod 376 burns downward, so that the first sequin supplied is pressed. The first push rod 376 stops by the first stopper 347, thereby limiting the holding force applied from the first fingering part 340.

At the same time, the second swing lever 382 is inserted into and fixed to the second auxiliary shaft 330 and is elastically upward by the second stopper part 350. In addition, a second lower lever 384 is inserted into and fixed to the second auxiliary shaft 330, and the second push rod 386 is rotated at the end of the second lower lever 384 by the second pin 388. It is fixed. Although not shown in the figure between the second lower lever 384 and the second pusher 376, the spring is interpolated so that the second pusher 386 can be burnt downward, so that the second sequin supplied is pressed. In addition, since the second push rod 386 is stopped by the second stopper 357, the force applied from the second stopper portion 350 is limited.

That is, the first swing lever 372 fixed to the first auxiliary shaft 320 by the first stopper part 340 is held down, and the first insertion shaft is fixed around the first auxiliary shaft 320. Since the lower lever 374 receives elasticity in the right direction, the first push rod 376 pushes the first sequin pressed in the lower side to the right in the drawing, that is, moves the first sequin forward by a predetermined pitch. In the fixed state, the range pushed forward by the first stopper 347 is limited. The first stopper 347 is inserted into a long hole formed in the body portion and one side bent in a maneuver shape is screwed to the screw hole formed on the back is fixed, the adjustment of the position where the first push rod is to stop or stop, that is, the pitch If it is necessary to adjust the position changes along the long hole is fixed.

In addition, a second swing lever 382 fixed to the second auxiliary shaft 320 by the second fingering part 350 may be supported in an upward direction, and may be inserted and fixed around the second auxiliary shaft 330. Since the lower lever 384 receives elasticity in the right direction, the second push rod 386 pushes the second sequin pressed in the lower side to the right side in the drawing, that is, moves the second sequin forward by a predetermined pitch. And the range pushed forward by the second stopper 357 is limited. When the second stopper 357 is inserted into the long hole formed in the body portion 300 and is screwed and fixed through the threaded hole formed on the back side, and the position where the second push rod is to be stopped or stopped, that is, the pitch needs to be adjusted Is repositioned and fixed along the long hole.

In this state, when the motor unit 310 receiving the control signal from the control unit of the embroidery machine generates a driving force to rotate to the right (right) or generates a driving force to rotate to the left (left), the motor unit 310 The rocking arm 360 inserted into and fixed to the drive shaft 315 which transmits the generated driving force to the outside pushes the first rocking lever 372 to the right or pushes the second rocking lever 372 to the left.

For example, when the rocking arm 360 fixed to the drive shaft 315 by the driving of the motor unit 310 rotates in the right direction in the drawing, the first rocking lever 372 moves to the right, but the first lower side Since the lever 374 moves to the left, the first push rod 376 moves backward by a predetermined pitch of the first sequin. In this state, when the driving of the motor 310 is stopped and the rocking arm 360 returns to its original position, the first rocking lever 372 moves to the left in the drawing due to the elasticity of the first fingering portion 340. In addition, the first lower lever 374 moves to the right in the drawing. At this time, the first sequin in which the first push rod 376 fixed to the end of the first lower lever 374 in a rotational state is pressed is moved forward in the right direction in the drawing by a predetermined pitch. At this time, the first sequin supplied by the mes 390 (MESS) 390 which does not describe the action relationship by the driving in detail is cut by a predetermined number set by the mes 390 driven in conjunction with the needle bar, and the designated X of the fabric, Supplied at the Y position. The driving and action relationships of the scalpel 390 are not specifically illustrated in the drawings and are not described in order to simplify the description of the present invention so that confusion of main parts does not occur.

As another example, the case in which the rocking arm 360 fixed to the drive shaft 315 by the driving of the motor 310 rotates in the left direction in the drawing, the second rocking lever 382 moves to the left Since the second lower lever 384 moves to the right, the second push rod 386 moves backward by a predetermined predetermined pitch of the second sequin, and in this state, the driving of the motor 310 is stopped and the rocking arm 360 is stopped. ) Returns to its original position, the second swing lever 382 moves in the right direction in the drawing and the second lower lever 384 moves in the left direction in the drawing due to the elasticity of the second finger portion 350. At this time, the second sequin in which the second push rod 386 fixed to the end of the second lower lever 384 in a rotational state is pressed is moved forward in the right direction in the drawing by a predetermined pitch. The set number of second sequins fed by the scalpel 390 is cut and fed at the designated X, Y positions of the fabric. The scalpel 390 is driven in an interlocked state by driving a needle bar.

6 illustrates an operation state of the supply unit 230 of the sequin supply apparatus as an example. In detail, the swing arm 360 is fixed at an intermediate position in the standby state, and the motor unit 310 is controlled by the sewing machine controller. ) Is driven so that the rocking arm 360 drives the first arm means 370, the first push rod 376 moves in the left direction in the drawing, and the rocking arm 360 moves to the intermediate position. The state in which the first push rod 376 is supplied in the order of the first sequins by a predetermined pitch while moving in the right direction is shown. In addition, when the rocking arm 360 drives the second arm means 380 by the driving of the motor unit 310, the second push rod 386 moves in the left direction in the drawing, and the rocking arm 360 In the case of moving to the intermediate position, the state in which the second push rod 386 is moved in the right direction and the second sequin is supplied by the predetermined predetermined pitch is shown in order.

The present invention having the above configuration has a sequin supply device for supplying any one selected from two kinds of first and second sequins to the embroidery machine, comprising only one motor unit providing power and controlling the driving direction of the motor. The configuration of selecting one sequin has advantages such as reduced size, volume and manufacturing cost, less production time, higher competitiveness, and fewer driving elements, thereby reducing maintenance time and cost.

Although the present invention has been described as an example, the present invention is not necessarily limited to this example, and various modifications can be made without departing from the spirit of the present invention. Therefore, one example disclosed in the present invention is not intended to limit the technical spirit of the present invention but to explain, and the scope of the technical spirit of the present invention is not limited by the one example. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

The present invention of the configuration as described above in the sequin supply apparatus for sewing any one sequin selected from a plurality of sequins provided on the embroidery machine, by using a drive motor to reduce the size and volume and manufacturing cost of the sequin device In addition, there is an industrial use effect to increase the competitiveness by reducing the production time.

In addition, the sequin supply device uses only one driving motor to provide power, so it consumes less power and costs less to operate and maintain, and less trouble occurs. have.

In addition, in the sequin supply apparatus, since a single drive motor is used, it is possible to produce a compact and low-cost type that reduces the size and volume, thereby increasing the user's preference.

Claims

In the sequin feeder for supplying a sequin attached to the head of the embroidery machine,

A base portion fixed to one side of the head in a detachable state;

A sequin reel unit provided at an upper end of the base unit to receive a plurality of connector sequins, respectively; And

A supply part provided at the lower end of the base part and supplying any one sequin selected from the sequin reel part by a power source at a predetermined pitch; Sequin supply device of the embroidery machine consisting of a configuration.

The method of claim 1, wherein the supply unit,

A body part fixed to the lower end of the base part;

A motor part fixed to the body part to selectively rotate the drive shaft in left and right directions by the control;

A rocking arm fixed to a drive shaft of the motor unit to transmit rotational power in a left and right direction;

First arm means which is integrally formed with a first auxiliary shaft fixed to the body part in a rotational state and supplies a first sequin by a predetermined pitch by the power of the rocking arm; And

Second arm means which is integrally formed with a second auxiliary shaft fixed to the body part in a rotational state and supplies a second sequin by a predetermined pitch by the power of the rocking arm; Sequin supply device of the embroidery machine comprising a.

The method of claim 2, wherein the first arm means,

A first auxiliary shaft fixed to the body in a rotation state;

A first rocking lever fixed to the first auxiliary shaft and receiving power of the rocking arm;

A first lower lever fixed to the first auxiliary shaft and transmitting power applied to the first swing lever;

A first push rod that is fixed to the first lower lever in a rotational state and moves the first sequin by a predetermined pitch by power transmitted; And

A first pin for fixing the first push rod to the first lower lever in a rotational state; Sequin supply device of the embroidery machine comprising a.

The method of claim 3, wherein

Sequin supply of the embroidery machine characterized in that the rotation is fixed to the first auxiliary shaft and the one end is fixed to the first fixing portion of the body portion to apply a force to the first rocking lever further comprises Device.

The method of claim 2, wherein the second arm means,

A second auxiliary shaft fixed to the body in a rotation state;

A second swing lever fixed to the second auxiliary shaft and receiving power of the swing arm;

A second lower lever fixed to the second auxiliary shaft and transmitting power applied to the second swing lever;

A second push rod which is fixed to the second lower lever in a rotational state and moves the second sequin by a predetermined pitch by power transmitted; And

A second pin that fixes the second push rod to the second lower lever in a rotational state; Sequin supply device of the embroidery machine comprising a.

The method of claim 5, wherein

Sequin supply of the embroidery machine characterized in that the rotation is fixed to the second auxiliary shaft and the one end is fixed to the second fixing portion of the body portion to apply a force to the second rocking lever further comprises a sedan Device.

In the embroidery machine for supplying any one selected from the first and second sequins fixed to the head of the embroidery machine by a predetermined pitch,

A motor unit which generates power by the control of the embroidery machine control unit and selectively rotates the drive shaft in left and right directions;

A first fixing part and a second fixing part for fixing the motor part in a state in which the driving shaft protrudes, fixing the first auxiliary shaft and the second auxiliary axis in a rotating state, and one end of the first and second carbon parts are fixed. Body part being;

A rocking arm fixed to a drive shaft of the motor unit to transmit power in left and right directions;

First arm means which is integrally formed with a first auxiliary shaft fixed to the body part in a rotational state and supplies a first sequin by a predetermined pitch by driving of the rocking arm;

Second arm means which is integrally formed with a second auxiliary shaft fixed to the body part in a rotational state and supplies a second sequin by a predetermined pitch by driving the rocking arm; The sequin feeder of the embroidery machine is included.