KR20130010269A - The bobbin evangelist device that speed adjustment is possible - Google Patents

Abstract

The present invention relates to a winding device capable of adjusting the speed according to the thickness of the thread when the yarn thread is wound on the bobbin, and more particularly, the speed of the thread wound on the bobbin provided with a cam driving motor separately from the main motor. The present invention relates to a winding device that can be adjusted. When winding yarns to bobbins using commonly used winding devices, if the thickness of the thread is different, the thickness of the thread increases and the winding speed increases to the bobbin. The present invention relates to a bobbin winding device capable of adjusting the speed of winding the bobbin when the thickness of the thread is different, thereby increasing the speed of the work, thereby increasing the efficiency of the work.

Description

The bobbin evangelist device that speed adjustment is possible}

The present invention relates to a winding device capable of adjusting the speed according to the thickness of the thread when the yarn thread is wound on the bobbin, and more particularly, the speed of the thread wound on the bobbin provided with a cam driving motor separately from the main motor. The present invention relates to an adjustable winding device.

In general, the winding technology of textile devices is a field where endless research is being conducted in Europe, Japan, and Korea, or because of various difficulties of thread, the thread collapses or entangles when the thread is unwound. Easy to occur

In addition, in the production of synthetic yarns, there is a growing tendency that a plurality of yarns from the polymer melt are simultaneously parallel, in turn radiated at the wound position, and wound into bobbins. Therefore, a method of spinning 10, 12, 16 or more yarns in parallel and winding them simultaneously is known. In this case, the thread winding takes place in a bobbin-winding machine, in which the bobbin is fixedly wound on the bobbin spindle. In the case of a relatively poor bobbin width and a large number of yarns, this type of bobbin winder requires a correspondingly long bobbin spindle. Therefore, a new concept has been developed in which threads are wound simultaneously on two bobbin spindles arranged parallel to each other.

Looking at the device used to complement the thread winding technology,

Application No. '1019970023098' relates to a fun winder control system capable of four-speed adjustment, and a plurality of yarns are installed at the bottom and a plurality of bobbins for rewinding are supplied from the yarns, and a plurality of bobbins are installed from the yarns to the bobbins. A four-speed control spindle motor connected to a fun winder with a plurality of guiders for guiding the thread to be wound and a belt for transmitting power to rotate the bobbin, and a belt for moving the position of the guider. Positioning servo motor and position connected to the encoder and the means for inputting a command by the user, the encoder for detecting the rotational speed of the firing speed control spindle motor and the spindle speed for the four speed control spindle motor according to the command inputted from the input means. Input from the above encoder while controlling the servo motor for movement It includes a control means for controlling the firing speed using a signal and a display unit for displaying the operating state and working status of the fun winder on the screen.The speed of the spindle motor and the servo motor is detected by detecting the firing speed using the encoder. It shows a fun winder control system that can adjust the firing speed to control the firing speed by adjusting the firing speed at high speed.

Application number '1020067018934' relates to a method and apparatus for winding a plurality of threads, wherein the bobbin is held on two adjacent and parallel bobbin spindles and is driven in the opposite direction while the yarn is wound at a predetermined surface speed. During the process, each of the two press rollers rotatably mounted and of a height opposite the circumference of the bobbin operates in conjunction with the bobbin spindle. Rotation of one of the press rollers to control the surface speed of the bobbin and adjust the drive speed of the two bobbin spindles together in accordance with the measured rotation speed, in order to keep the two bobbins at the same speed as possible during the winding of the thread on the two bobbin spindles. It measures the speed, which describes how to keep the rotational speed of the sensed pressure roller essentially constant.

Another device is described with reference to FIG. 1 by moving the rotary motor 3 and the guide 4, which rotate the bobbin 2, to the left and right to wind the thread released from the yarn 1 in a predetermined pattern. Stepping motor 9 and rotary motor 3 for moving the sensors 7 and 8 installed with the maximum width of the bobbin 2 under the servo motor 5 and the screw 6 of the servo motor 5 to be wound. ), A control unit 14 including an inverter 10, a servo motor driver 11, a stepping motor driver 12, a relay sequence circuit, and a power supply unit 13.

Looking at the operation of the conventional winding device configured as described above are as follows.

That is, the real position guide 4 is moved left and right by the screw 6 by the forward and reverse drive of the servomotor 5. At this time, the forward and reverse driving of the servomotor 5 is converted by the proximity sensors 7 and 8, when the servomotor 5 is driven in the right direction and moved to the position of the sensor 7 in the direction of the sensor ( It receives the signal of 7) and drives it to the left. In addition, when the servomotor 5 drives to the left side and receives a signal from the sensor 8 in the direction, the servomotor 5 drives to the right side again.

When the reciprocating operation of the guide 4 is completed by receiving the signals of the left and right sensors 7 and 8 as described above, the stepping motor continuously moves the sensor 7 and 8 by a predetermined pitch by the stepping motor. To wind the trapezoidal thread. However, in the conventional winding apparatus as described above, since the control unit 14 controls the servomotor 5 and the stepping motor 9 by the relay sequence method, the failure of the sensors 7 and 8 and the relay frequently causes mechanical failure and product defect rate. There are many drawbacks to this.

In addition, when winding various types of yarns, the user needs to adjust the decreasing width of the sensors (7, 8) and the speed of the servomotor (5) by using a variable resistor in one round trip according to the type and thickness of the yarn. Not only was it difficult to make accurate adjustments, but there were also defects such as high product defect rate due to incorrect adjustment and a long time for adjustment.

In the present invention, as invented to solve this problem,

If the thickness of the yarn is different when the yarn is wound on the bobbin by using a winding device that is generally used, the winding speed of the bobbin increases as the thickness of the thread decreases. The object of the present invention is to provide a device that can increase the speed of work by adjusting the winding speed of the bobbin, thereby increasing the efficiency of the work.

In order to achieve the above object, the main motor is configured to be connected to the control unit and is connected to the drive and the drive motor, the bobbin shaft and the bobbin shaft and the drive member are sequentially connected and rotated to the main motor and the drive member. In the winding device consisting of a box box, the main body is connected to the control unit is driven, but the cam drive motor for operating the box box is configured, characterized in that the main motor and the cam drive motor can be driven separately. do.

An inverter is configured between the cam drive motor and the control unit to adjust the speed of the cam drive motor under the control of the control unit.

According to the present invention, even though the thickness of the conventional thread is changed, the bobbin shaft rotates uniformly, so that the longer the thread is wound, the longer the winding time is on the bobbin. The speed of bobbin adjustment can be adjusted to increase the efficiency of the work, which increases the speed of work, and can be variously adjusted according to the thickness of the thread to maximize the merchandise of the wound product. It is an invention.

Figure 1 is a side view showing the configuration of a conventional winding device
2 is a perspective view of the present invention preferably
3 is a block diagram showing the operation of the present invention
4 is a front view showing the present invention preferably
5 is a plan view showing the present invention preferably
6 is a plan view showing the preferred operation of the present invention.
7 is a front view showing an embodiment of the present invention
8 is a plan view showing an embodiment in which the thread wound on the bobbin according to the present invention
9 is a plan view showing another embodiment of winding the bobbin bobbin according to the present invention

In the present invention, the main motor 210 and the cam drive motor 220 are respectively configured in the main body 200 in the winding device 100 that winds the yarn of the yarn 500 on the bobbin 213. By adjusting the operating speed of the cam drive shaft 222 configured in the) to be able to adjust the speed of the reciprocating movement of the thread wound on the bobbin 213 mounted on the bobbin shaft 212 in detail with reference to FIGS. To explain,

The main motor 210, which is configured in the main body 200 and connected to the control unit 300, is connected to the main motor 210 and the driving member 400, and is sequentially rotated to drive the shaft 211, beam. In the winding device (100) consisting of a bin shaft (212), a bobbin shaft (212) and a compartment box (221) which is connected to and operated by the driving member (400), the main body (200) has a control unit (300) and The cam drive motor 220 is connected and driven but operates the compartment box 221 so that the main motor 210 and the cam drive motor 220 can be configured to be driven separately.

Referring to FIG. 3, an inverter 310 is configured between the cam driving motor 220 and the controller 300 to adjust the speed of the cam driving motor 220 under the control of the controller 300. It is possible to adjust the operation of the box 221, and thereby to adjust the winding speed on the bobbin 213 according to the thickness of the thread.

Referring to Figures 2, 4, 5, the component that is configured in the winding device 100 includes a drive member 400 for operation, which is a drive member 400 such as a belt, a chain is the main motor It is to be connected to the components required for driving such as 210, the cam drive motor 220, the drive shaft 211, the bobbin shaft 212 and the like.

The main motor 210 is connected to the drive shaft 211 by the drive member 400, the drive shaft 211 is connected to the bobbin shaft 212 by the drive member 400 to drive.

In addition, the box box 221 connected to the cam driving motor 220 to drive may be connected to the driving member 400 to operate, or may be driven by the gear meshing.

In the configuration of the winding device 100, the bobbin shaft 212 and the cam drive shaft 222 may be configured to use a plurality according to the use.

When described in detail with reference to Figs.

Referring to FIGS. 6 and 7, first, the yarn 500 wound on the bobbin 213 mounted on the bobbin shaft 212 of the winding device 100 is positioned below the bobbin 213 and then the bobbin 213. To be wound around.

When the yarn 500 is prepared, the main motor 210 and the cam driving motor 220 are operated by supplying power through the control unit 300. As a result, the driving shaft 211 connected to the main motor 210 and the driving member 400 rotates, and the bobbin shaft 212 connected to the driving shaft 211 and the driving member 400 rotates.

In addition, referring to FIG. 7, a box box 221 connected to the driving member 400 by a cam driving motor 220 and operated back and forth on a plane is operated, and to the box box 221. The configured cam drive shaft 222 is also to operate back and forth together. This is to allow the yarn of the yarn 500 wound on the bobbin 213 to be wound in accordance with the width of the bobbin 213.

Rotation of the main motor 210 and the cam driving motor 220 operated by applying power through the control unit 300 is driven in the same manner.

Here, the operating speed of the cam driving motor 220 may be adjusted due to the inverter 310 configured in the controller 300, which is a compartment box 221 and a cam driving shaft 222 which are operated by the cam driving motor 220. The speed of is also controlled.

Referring to Figure 9, the speed of the cam drive motor 220 can be adjusted according to the thickness of the thread wound from the yarn 500 to the bobbin 213, the speed of the cam drive motor 220 is yarn When the thickness of the thread wound from the 500 to the bobbin 213 is thick, it operates quickly, and when the thickness of the thread is thin, it operates slowly.

When the operating speed is adjusted according to the thread thickness of the yarn 500 as described above, when the thickness of the thread is different, the operation of the cam drive shaft 222 can be adjusted accordingly so that the winding speed of the bobbin 213 can be adjusted. As the efficiency of the work is increased, the working speed can be increased, and it can be variously adjusted according to the thickness of the thread, thereby maximizing the merchandise of the wound product.

100: winding device 200: main body
210: main motor 211: drive shaft 212: bobbin shaft
220: Cam drive motor 221: Can box 222: Cam drive shaft
300: control unit 310: inverter
400: driving member 500: yarn

Claims (3)

The main motor 210 is configured in the main body 200 and connected to the control unit 300 to drive, the drive shaft 211, bobbin shaft that is connected to the main motor 210 and the driving member 400 in order to rotate In the winding device 100 consisting of a 212, the box box 221 connected to the bobbin shaft 212 and the drive member 400 to operate,
The main body unit 200 is connected to the control unit 300 to drive the cam drive motor 220 to operate the compartment box 221, the main motor 210 and the cam drive motor 220 are respectively Adjustable speed bobbin winding device, characterized in that it can be driven separately
The method of claim 1,
Inverter 310 is configured between the cam drive motor 220 and the control unit 300, the speed control, characterized in that to control the speed of the cam drive motor 220 under the control of the control unit 300 Bobbin winding device
3. The method according to claim 1 or 2,
The bobbin shaft 212 and the cam drive shaft 222 in the winding device 100 can be used by configuring a plurality of bobbin winding device, characterized in that can be used in combination

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