KR102021582B1 - Wraping machine and wraping method - Google Patents

Abstract

The present invention relates to a warping machine capable of working continuously without interruption, and a warping method thereof. The present invention includes: a plurality of bobbin units wound with yarns; a plurality of auxiliary bobbin units wound with auxiliary yarns; a holding unit holding the bobbin units and the auxiliary bobbin units therein to rotate; a beam unit formed to have a predetermined interval from the holding unit and to wind yarns wound on the bobbin units and auxiliary yarns wound on the auxiliary bobbin units; a driving motor unit coupled to the beam unit and transmitting a rotational force to the beam unit; and a spray lead unit formed between the holding unit and the beam unit and guiding the yarns wound on the bobbin units and the auxiliary yarns wound on the auxiliary bobbin units to the beam unit. An end point of the yarns wound on the bobbin units is connected to a starting point of the yarns wound on the auxiliary bobbin units.

Description

Wraping machine and wrapping method

TECHNICAL FIELD The present invention relates to a warp warfare and a warp method, and more particularly, to a warp warp and a warp method that can be continued without interrupting work.

In general, the canoning operation is to arrange and wind the yarns according to the length of the fabric designed to prepare the weaving process, and according to the type of yarn and the plant size, beam canon, partial canon and ball canon method. Proceeds to.

The beam squeegee used in the beam squeeze operation can take out multiple strands of yarn from a plurality of yarn bobbins and wind them around the circumferential surface of the winding beam with a constant tension and width.

Korean Patent Registration No. 10-0743230 (registered July 20, 2007) is described with respect to a beam scavenger, and according to the disclosed technology, a scavenger body; A driving drum which is located at one side of the main raceway main body and receives a power from a motor to rotate and rotate about a central axis; A winding beam having a winding for winding several strands of yarn and having a rotational axis parallel to the central axis of the driving drum; The locking unit is hinged to the main raceway main body and is provided with a locking groove opened to allow the rotary shaft to be hooked in the up and down direction so that the rotary shaft is removably inserted in the groove while the winding portion is in contact with the outer circumferential surface of the driving drum. An arm for mounting the winding beam to receive the outer circumferential frictional force when the drum is driven in a closed state; It characterized in that it comprises an elastic member connected to the arm side such that the winding portion has a constant tension toward the outer circumferential surface of the drive drum by the elastic tension force to be in contact.

Korean Utility Model Registration No. 20-0210208 (registered on November 3, 2000) describes a beam matchmaker. According to the disclosed technology, a beam for winding the yarn from a krill portion provided with a plurality of yarn bobbins, a rotating shaft penetrating the center of the beam to transmit a rotational force, a drive motor for driving the rotating shaft, and supporting the rotating shaft In a beam fixture comprising a beam hanger, a sensing unit for detecting whether the yarn is cut off, and a control unit for controlling the driving motor, a pair of rotating shafts is provided, and a separate driving motor for individually rotating the rotating shafts on the respective rotating shafts. Is installed, a pair of brackets are installed on both sides of the beam hanger to be supported while rotating each of the rotating shaft, characterized in that the beam is inserted and fixed to the pair of rotating shaft, respectively.

As described above, the conventional warp should be replaced with a new bobbin when all the yarns wound up in the bobbin are exhausted. The work efficiency was reduced because it had to be replaced, and there was the inconvenience that the operator had to constantly monitor the bobbin.

Korea Patent Registration No. 10-0743230 Korean Utility Model Registration No. 20-0210208

The technical problem to be achieved by the present invention is to solve the problems as described above, and provides a warp machine and a warp method capable of continuing work without interrupting the work.

In order to solve this problem, according to an aspect of the present invention, a plurality of bobbin winding the yarn; A plurality of auxiliary bobbins winding auxiliary yarns; A mounting part for mounting the bobbin part and the auxiliary bobbin part to be rotatable; A beam unit which is formed at a predetermined interval with the mounting unit and winds the yarn wound around the bobbin part and the auxiliary yarn wound around the auxiliary bobbin part; A driving motor unit coupled to the beam unit and transmitting a rotational force to the beam unit; And an injection lead portion formed between the mounting portion and the beam portion to guide the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion to the beam portion, and the yarn wound on the bobbin portion. It provides a match between the end point and the starting point of the yarn wound around the secondary bobbin.

In one embodiment, it is formed between the injection lead portion and the beam portion, characterized in that it further comprises a tension holding portion for maintaining a constant tension of the yarn and the auxiliary yarn guided from the injection lead portion.

In one embodiment, the tension maintaining portion, the body member; A guide member for aligning the yarn guided from the jetting lead portion and the auxiliary yarn at regular intervals; A first roller member rotatably formed on an upper portion of the main body member to receive a yarn and an auxiliary yarn from the guide member; And a second roller member rotatably formed in the lower direction of the first roller member, and configured to transfer the yarn and the auxiliary yarn transferred from the first roller member to the beam unit.

In one embodiment, it is coupled to the second roller member, characterized in that it further comprises a speed adjusting unit for adjusting the rotational speed of the second roller member, or to stop the rotation of the second roller member.

In one embodiment, it is coupled to the mounting portion, characterized in that it further comprises a tension control unit for adjusting the tension of the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion.

According to another feature of the invention, the connecting step of connecting the end of the yarn wound on the bobbin portion and the starting point of the yarn wound on the auxiliary bobbin; A guide step of guiding the yarn and the auxiliary yarn through an injection lead portion; And a winding step of connecting the yarn guided through the injection lead unit and the auxiliary yarn to the beam unit rotating by the driving motor unit, and winding the yarn and the auxiliary yarn according to the rotation of the beam unit.

According to the present invention, the end point of the yarn wound on the bobbin portion and the starting point of the yarn wound on the secondary bobbin are connected to supply the yarn, thereby minimizing the replacement of the bobbin, and stops the canon operation during the replacement of the bobbin The ability to continue to work on the canon without doing so has the effect of significantly improving work efficiency.

1 is a view for explaining a game game according to a first embodiment of the present invention.
2 is a view for explaining a game game according to a second embodiment of the present invention.
3 is a view for explaining the tension maintaining part and the speed adjusting part in FIG. 2.
4 is a view for explaining a game game according to a third embodiment of the present invention.
5 is a view for explaining a canon method according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments may be variously modified and may have various forms, and thus, the scope of the present invention should be understood to include equivalents for realizing the technical idea. In addition, the objects or effects presented in the present invention does not mean that a specific embodiment should include all or only such effects, the scope of the present invention should not be understood as being limited thereby.

On the other hand, the meaning of the terms described in the present invention will be understood as follows.

Terms such as "first" and "second" are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is referred to as being "connected" to another component, it should be understood that there may be other components in between, although it may be directly connected to the other component. On the other hand, when a component is said to be "directly connected" to another component, it should be understood that there is no other component in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring to", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "include" or "have" refer to features, numbers, steps, operations, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present and does not exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Generally, the terms defined in the dictionary used are to be interpreted as being consistent with the meanings in the context of the related art, and should not be interpreted as having ideal or excessively formal meanings unless clearly defined in the present invention.

Now with reference to the drawings with respect to the game according to an embodiment of the present invention will be described in detail.

1 is a view for explaining a game game according to a first embodiment of the present invention.

Referring to FIG. 1, the warp machine includes a bobbin part 100, an auxiliary bobbin part 200, a mounting part 300, a beam part 400, a driving motor part 500, and an injection lead part 600. .

The bobbin part 100 is installed in a plurality of rotatable parts 300 so as to be rotatable, and wound yarns.

The auxiliary bobbin part 200 is installed to be rotatable in the mounting part 300 at a predetermined interval (for example, 5 to 30 cm) from the bobbin part 100 and winds the auxiliary yarn.

In one embodiment, the auxiliary bobbin unit 200 may be installed to correspond to each of the plurality of bobbin units 100.

The mounting part 300 mounts so that the bobbin part 100 and the auxiliary bobbin part 200 can rotate.

In one embodiment, the mounting portion 300 may be formed to form a plurality of layers in a plurality of frames, the size may be determined according to the width of the beam portion 400.

The beam part 400 is formed at a predetermined interval with the mounting part 300, and is wound around the yarn and the auxiliary bobbin part 200 wound on the bobbin part 100 while being rotated by receiving a rotational force from the driving motor part 500. Wind up the auxiliary yarn.

In one embodiment, the beam unit 400 may be formed in a cylindrical shape of a synthetic resin or metal material excellent in durability and wear resistance.

The drive motor unit 500 is coupled to the rotating shaft of the beam unit 400 to transmit the rotational force to the beam unit 400.

The injection lead unit 600 is formed between the mounting unit 300 and the beam unit 400, and the yarn wound around the bobbin unit 100 and the auxiliary yarn wound around the auxiliary bobbin unit 200 as the beam unit 400. Guide.

In one embodiment, the injection lead portion 600 may be provided with a plurality of through-holes for penetrating the yarn wound on the bobbin portion 100 and the auxiliary yarn wound on the auxiliary bobbin portion 200.

The warp device having the configuration as described above may further include a separator 410.

The separator 410 is formed between the beam part 400 and the jetting lead part 600 to finally rotate and align the yarn guided from the jetting lead part 600 and the auxiliary yarn at regular intervals to rotate. Guide.

The warp machine having the configuration as described above is connected to the end point of the yarn wound on the bobbin part 100 and the starting point of the yarn wound on the auxiliary bobbin part 200 to supply yarn to minimize replacement work of the bobbin. Can be.

In addition, when all of the yarn wound on the bobbin part 100 is exhausted, the auxiliary yarn of the auxiliary bobbin part 200 connected to the end point of the yarn wound on the bobbin part 100 is supplied, and at this time, the yarn is exhausted. Since 100 can be removed and replaced with a new one, the work efficiency can be greatly improved as the work can be continuously performed without stopping the work during the work.

After replacing the bobbin part 100 with a new one, the end point of the auxiliary yarn wound on the auxiliary bobbin part 200 and the starting point of the yarn wound on the new bobbin part 100 are reconnected, and the auxiliary bobbin part 200 Even if the auxiliary yarn wound around is exhausted and replaced with a new one, the same yarn can be connected.

2 is a view for explaining a game game according to a second embodiment of the present invention.

Referring to FIG. 2, the warp machine includes a bobbin part 100, an auxiliary bobbin part 200, a mounting part 300, a beam part 400, a driving motor part 500, a jetting lead part 600, and tension maintenance. The unit 700 and the speed adjusting unit 800 are included. Here, the bobbin part 100, the auxiliary bobbin part 200, the mounting part 300, the beam part 400, the driving motor part 500, and the injection lead part 600 are similar to the components of FIG. Are omitted and only the other parts are described below.

The tension maintaining part 700 is formed between the injection lead part 600 and the beam part 400 to keep the tension of the yarn guided from the injection lead part 600 and the auxiliary yarn constant.

In one embodiment, the tension maintaining unit 700, the distance to the beam unit 400 in accordance with the position of the plurality of bobbin portion 100 and the plurality of auxiliary bobbin portion 200 mounted on the mounting portion 300 Since the deviation of tension occurs because it is different, it is possible to remove the deviation of the tension and to transfer the yarn and the auxiliary yarn having a constant tension to the beam unit 400.

The speed adjusting unit 800 is coupled to the second roller member 740 of the tension maintaining unit 700 to be described later, and adjusts the rotational speed of the second roller member 740 or the second roller member 740. Stop the rotation For example, if the rotational speed of the second roller member 740 is adjusted faster than the rotational speed of the beam unit 400 through the speed adjusting unit 800, the tension of the yarn and the auxiliary yarn may be weakened. When the rotational speed of the member 740 is adjusted to be slower than the rotational speed of the beam unit 400, the tension of the yarn and the auxiliary yarn can be increased.

In addition, the conventional warp machine has been inconvenient to pull out the yarn wound on the beam by rotating the beam reversely when an error such as agglomeration or twisting of the yarn occurs during the work, but according to the present invention, the yarn And when an error occurs, such as twisting or bunching of auxiliary yarns, since the second roller member 740 is rotated through the speed adjusting unit 800 to immediately correct the operation, the beam unit 400 like a conventional warp machine. Rotate in the opposite direction, without having to pull out the yarn and auxiliary yarn, can improve the work efficiency.

When the speed adjusting unit 800 stops the rotation of the second roller member 740, the driving of the driving motor unit 500 may be stopped, thereby preventing the yarn and the auxiliary yarn from being cut off.

3 is a view for explaining the tension maintaining part and the speed adjusting part in FIG. 2.

Referring to FIG. 3, the tension maintaining part 700 includes a body member 710, a guide member 720, a first roller member 730, and a second roller member 740, and a speed adjusting part 800. Includes a motor 810 and a belt 820.

Body member 710 is composed of a plurality of frames, the guide member 720, the first roller member 730, the second roller member 740, the motor 810 is installed.

The guide member 720 is formed in front of the first roller member 730 to align the yarns guided from the injection lead unit 600 and the auxiliary yarns at regular intervals and transmit them to the first roller member 730.

The first roller member 730 is rotatably formed on the upper portion of the body member 710, and receives the yarn and the auxiliary yarn from the guide member 720.

In one embodiment, the first roller member 730 may be rotated according to the yarn and the auxiliary yarn to move by the rotation of the second roller member 740.

The second roller member 740 is rotatably formed in the main body member 710 corresponding to the lower direction of the first roller member 720, the beam unit and the auxiliary yarn transferred from the first roller member 730 Forward to 400.

At this time, the yarn and the auxiliary yarn is moved between the first roller member 730 and the second roller member 730 through the 'S' shape can be moved to the beam unit 400 in a state where the tension is constantly adjusted.

The motor 810 is formed below the main body member 710 and transmits a driving force to the second roller member 720 through the belt 820.

The belt 820 is engaged between the rotating shaft of the motor 810 and the rotating shaft of the second roller member 740, and adjusts the rotational speed of the second roller member 740 by the driving force of the motor 810, or 2 The rotation of the roller member 740 is stopped.

4 is a view for explaining a game game according to a third embodiment of the present invention.

Referring to FIG. 4, the warp machine includes a bobbin part 100, an auxiliary bobbin part 200, a mounting part 300, a beam part 400, a driving motor part 500, an injection lead part 600, and tension control. The unit 900 is included. Here, the bobbin part 100, the auxiliary bobbin part 200, the mounting part 300, the beam part 400, the driving motor part 500, and the injection lead part 600 are similar to the components of FIG. Are omitted and only the other parts are described below.

The tension adjusting unit 900 is coupled to the mounting part 300 to adjust the tension of the yarn wound on the bobbin portion 100 and the auxiliary yarn wound on the auxiliary bobbin portion 200.

In one embodiment, the tension adjusting unit 900, the coupling means 910, the connecting means 920, the inlet 930, the outlet 940, the passage 950, the adjustment weight 960, the guide rod ( 970), the adjustment rod 980 may be made.

Coupling means 910, one side is coupled to the mounting portion 300, the other side is formed with a connecting means 920.

In one embodiment, the coupling means 910 is formed to have a 'U' shaped groove, it can be fixed by inserting a bolt after positioning the groove in the frame of the mounting portion (300).

The connecting means 920 is formed in a '-' shape, and is connected to the other side of the coupling means 910.

The inlet 930 is formed at one side of the connecting means 920 to receive the yarn wound on the bobbin portion 100 and the auxiliary yarn wound on the auxiliary bobbin portion 200.

Discharge port 940 is formed on the other side of the connecting means 920, and discharges the yarn and auxiliary yarn whose tension is adjusted by the adjustment weight 960 and the adjusting rod 980.

The passage hole 950 is formed at the center portion of the connecting means 920 to allow the yarn and the auxiliary yarn introduced from the inlet 930 to pass therethrough.

The adjusting weight 960 is formed between the inlet 930 and the passage opening 950 to pressurize the yarn and the auxiliary yarn from the upper side to the lower side to primarily adjust the tension.

In one embodiment, the adjustment weight 960 may be formed in a plurality, it is possible to adjust the tension in accordance with the weight.

The guide rod 970 is formed between the passageway 950 and the discharge port 940 to guide the yarn with the tension adjusted and the auxiliary yarn toward the discharge port 940.

The adjusting rod 980 is rotatably formed in the connecting means 920 corresponding to the passageway 950 and the guide rod 970 to adjust the tension of the yarn and the auxiliary yarn secondaryly while rotating.

In one embodiment, the adjusting rod 980, the larger the angle of rotation can adjust the tension of the yarn and the auxiliary yarn larger.

At this time, the yarn and the auxiliary yarn is introduced through the inlet 930 and inserted between the adjustment weight 960 and then passed through the passageway 950, the outlet through the adjustment rod 980 and the guide rod 970 940 is discharged.

In one embodiment, the tension adjusting unit 900 may further include a pressing means 990.

The pressing means 990 is formed with a through hole in the center portion, the through hole is inserted from the top to the lower direction so as to penetrate the guide rod 970, and prevents the yarn and the auxiliary yarn from being separated.

In one embodiment, the pressing means 990 maintains the positions of the yarns and the auxiliary yarns to be discharged while maintaining the tension of the yarns and the auxiliary yarns evenly.

5 is a view for explaining a canon method according to an embodiment of the present invention.

Referring to FIG. 5, first, an end point of the yarn wound around the bobbin part 100 and a start point of the yarn wound around the auxiliary bobbin part 200 are connected (S100).

In the above-described step S100, the bobbin portion 100, a plurality of the rotatable portion 300 is installed to be rotatable, may be wound yarn.

In the above-described step S200, the auxiliary bobbin part 200 is installed to be rotatable in the mounting part 300 at a predetermined interval (for example, 5 to 30 cm) from the bobbin part 100 and winds the auxiliary yarn. There may be.

In step S200 described above, the auxiliary bobbin unit 200 may be installed to correspond to each of the plurality of bobbin units 100.

In step S100, the yarn and the auxiliary yarn connected to the end point and the starting point are guided to the beam part 400 by passing through the injection lead part 600 (S200).

In the above-described step S200, the injection lead portion 600 is formed between the mounting portion 300 and the beam portion 400, the auxiliary wound around the yarn and the auxiliary bobbin portion 200 wound on the bobbin portion 100 The yarn may be guided to the beam unit 400.

In the above-described step S200, the injection lead portion 600 may be provided with a plurality of through-holes for penetrating the yarn wound on the bobbin portion 100 and the auxiliary yarn wound on the auxiliary bobbin portion 200.

In step S200, the yarn and the auxiliary yarn guided through the injection lead unit 600 are connected to the beam unit 400 rotated by the driving motor unit 500, and the yarn and the subsidiary yarns are rotated according to the rotation of the beam unit 400. Winding up the yarn (S300).

In the above-described step S300, the beam unit 400 is formed at a predetermined interval with the mounting unit 300, the yarn and the auxiliary coil wound on the bobbin unit 100 while being rotated by receiving the rotational force from the drive motor unit 500 The auxiliary yarn wound around the bobbin portion 200 may be wound up.

In the above-described step S300, the beam unit 400 may be formed in a cylindrical shape of a synthetic resin or metal material excellent in durability and wear resistance.

In the above-described step S300, the drive motor unit 500 is coupled to the rotating shaft of the beam unit 400, it can transmit a rotational force to the beam unit 400.

The canonical method having the above-described steps may further include a tension adjusting step S400, a tension maintaining step S500, and a speed adjusting step S600.

In the tension adjusting step (S400), before the step S200 described above, the yarn and the auxiliary yarn connected to each other by the end point and the starting point are passed through the tension adjusting unit 900 to adjust the tension of the yarn and the auxiliary yarn.

In the above-described step S400, the tension adjusting unit 900, the coupling means 910, the connecting means 920, the inlet 930, the outlet 940, the passage 950, the adjustment weight 960, the guide Rod 970, the adjustment rod 980 may be made.

In one embodiment, the coupling means 910, one side is coupled to the mounting portion 300, the other side is formed with a connecting means 920.

In one embodiment, the coupling means 910 is formed to have a 'U' shaped groove, it can be fixed by inserting a bolt after positioning the groove in the frame of the mounting portion (300).

In one embodiment, the connecting means 920 is made of a '-' shape, it may be connected to the other side of the coupling means 910.

In one embodiment, the inlet 930 is formed on one side of the connecting means 920, receives the yarn wound on the bobbin portion 100 and the auxiliary yarn wound on the auxiliary bobbin 200.

In one embodiment, the outlet 940 is formed on the other side of the connecting means 920, and discharges the yarn and auxiliary yarn whose tension is adjusted by the adjustment weight 960 and the adjusting rod 980.

In one embodiment, the passageway 950 is formed in the central portion of the connecting means 920 to pass through the yarn and the auxiliary yarn introduced from the inlet 930.

In one embodiment, the adjustment weight 960 is formed between the inlet 930 and the passageway 950, by pressing the yarn and the auxiliary yarn from the top to the bottom to adjust the tension primarily.

In one embodiment, the adjustment weight 960 may be formed in a plurality, it is possible to adjust the tension in accordance with the weight.

In one embodiment, the guide rod 970 is formed between the passageway 950 and the outlet 940 to guide the tension-controlled yarn and the auxiliary yarn toward the outlet 940.

In one embodiment, the adjusting rod 980 is formed to be rotatable in the connecting means 920 corresponding to the passageway 950 and the guide rod 970, while rotating the secondary tension of the yarn and the auxiliary yarn Adjust with

In one embodiment, the adjusting rod 980, the larger the angle of rotation can adjust the tension of the yarn and the auxiliary yarn larger.

At this time, the yarn and the auxiliary yarn is introduced through the inlet 930 and inserted between the adjusting weight 960 and then passed through the passageway 950, the outlet through the adjusting rod 980 and the guide rod 970 940 is discharged.

In one embodiment, the tension adjusting unit 900 may further include a pressing means 990.

In one embodiment, the pressing means 990, a through hole is formed in the center portion, the through hole is installed from the top to the lower direction so as to penetrate the guide rod 970, the yarn and the auxiliary yarn is separated Prevent it.

In one embodiment, the pressing means 990 maintains the positions of the yarns and the auxiliary yarns to be discharged while maintaining the tension of the yarns and the auxiliary yarns evenly.

In the tension maintaining step S500, the yarn and the auxiliary yarn guided from the injection lead unit 600 are passed through the tension maintaining unit 700 in step S200 to maintain a constant tension.

In the above-described step S500, the tension maintaining unit 700, the distance to the beam unit 400 according to the position of the plurality of bobbin portion 100 and the plurality of auxiliary bobbin portion 200 mounted on the mounting portion 300 Since all of the differences in tension occurs, it is possible to remove the deviation of the tension and to transfer the yarn and the auxiliary yarn having a constant tension to the beam unit 400.

In step S500 described above, the tension maintaining part 700 may include a main body member 710, a guide member 720, a first roller member 730, and a second roller member 740.

In one embodiment, the body member 710 is composed of a plurality of frames, the guide member 720, the first roller member 730, the second roller member 740, the motor 810 is installed.

In one embodiment, the guide member 720 is formed in front of the first roller member 730, the first roller member 730 by aligning the yarn and the auxiliary yarn guided from the injection lead portion 600 at regular intervals To pass).

In one embodiment, the first roller member 730 is rotatably formed on the upper portion of the body member 710, and receives the yarn and the auxiliary yarn from the guide member 720.

In one embodiment, the first roller member 730 may be rotated according to the yarn and the auxiliary yarn to move by the rotation of the second roller member 740.

The second roller member 740 is rotatably formed in the main body member 710 corresponding to the lower direction of the first roller member 720, the beam unit and the auxiliary yarn transferred from the first roller member 730 Forward to 400.

At this time, the yarn and the auxiliary yarn is moved between the first roller member 730 and the second roller member 730 through the 'S' shape can be moved to the beam unit 400 in a state where the tension is constantly adjusted.

Speed control step (S600), in the above-described step S500 to adjust the rotational speed of the second roller member 740 through the speed adjusting unit 800 is coupled to the second roller member 740 of the tension holding unit 700 Or, the rotation of the second roller member 740 is stopped. For example, if the rotational speed of the second roller member 740 is adjusted faster than the rotational speed of the beam unit 400 through the speed adjusting unit 800, the tension of the yarn and the auxiliary yarn may be weakened. When the rotational speed of the member 740 is adjusted to be slower than the rotational speed of the beam unit 400, the tension of the yarn and the auxiliary yarn can be increased.

In step S600 described above, the speed adjusting unit 800 may be coupled to the second roller member to adjust the rotational speed of the second roller member or to stop the rotation of the second roller member.

In step S600 described above, the speed adjusting unit 800 may include a motor 810, a belt 820.

In one embodiment, the motor 810 is formed under the body member 710, and may transmit a driving force to the second roller member 720 through the belt 820.

In one embodiment, the belt 820 is engaged between the rotating shaft of the motor 810 and the rotating shaft of the second roller member 740, the rotational speed of the second roller member 740 by the driving force of the motor 810. To adjust or stop the rotation of the second roller member 740.

As described above, the embodiment of the present invention is not implemented only through the above-described apparatus and / or operation method, but through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded, and the like. The implementation may be easily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

100: bobbin part
200: auxiliary bobbin
300: holder
400: beam portion
410 separator
500: drive motor unit
600: injection lead portion
700: tension holder
710: body member
720: guide member
730: first roller member
740: second roller member
800: speed control unit
810: motor
820: Belt
900: tension control unit
910: coupling means
920: connection means
930: inlet
940: outlet
950: passageway
960 adjustment weight
970 guide rod
980: adjusting rod
990: pressing means

Claims (5)

A plurality of bobbins wound around yarns;
A plurality of auxiliary bobbins winding auxiliary yarns;
A mounting part for mounting the bobbin part and the auxiliary bobbin part to be rotatable;
A beam unit which is formed at a predetermined interval with the mounting unit and winds the yarn wound around the bobbin part and the auxiliary yarn wound around the auxiliary bobbin part;
A driving motor unit coupled to the beam unit and transmitting a rotational force to the beam unit; And
Is formed between the mounting portion and the beam portion, comprising a spraying lead for guiding the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion to the beam portion,
An end point of the yarn wound on the bobbin portion and a starting point of the yarn wound on the auxiliary bobbin portion are connected,
A tension holding part formed between the injection lead part and the beam part to maintain a constant tension of the yarn guided from the injection lead part and the auxiliary yarn; And
It is coupled to the mounting portion, further comprises a tension control unit for adjusting the tension of the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion,
The tension control unit,
Coupling means that one side is coupled to the mounting portion;
Connection means made of a '-' shape, connected to the other side of the coupling means;
An inlet formed on one side of the connecting means to receive the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion;
Is formed on the other side of the connecting means, the discharge port for discharging the yarn and the auxiliary yarn;
Is formed in the center portion of the connecting means, the passage hole for passing the yarn and the auxiliary yarn introduced from the inlet;
An adjustment weight formed between the inlet port and the passage port, for adjusting the tension primarily by pressing the yarn and the auxiliary yarn from the top to the bottom;
A guide rod formed between the passageway and the outlet, for guiding the yarn with the tension adjusted and the auxiliary yarn toward the outlet;
A control rod rotatably formed at a connection means corresponding to the passageway and the guide rod, and configured to adjust the tension of the yarn and the auxiliary yarn secondaryly while rotating; And
The through hole is formed in the center portion, the through hole is inserted from the top to the lower direction so as to penetrate the guide rod, characterized in that it comprises a pressing means for preventing the yarn and the auxiliary yarn from being separated game.
delete The method of claim 1, wherein the tension maintaining unit,
Body member;
A guide member for aligning the yarn guided from the jetting lead portion and the auxiliary yarn at regular intervals;
A first roller member rotatably formed on an upper portion of the main body member to receive a yarn and an auxiliary yarn from the guide member; And
And a second roller member rotatably formed in a lower direction of the first roller member, and configured to transfer yarn and auxiliary yarns transmitted from the first roller member to the beam unit.
The method of claim 3,
And a speed adjusting unit coupled to the second roller member to adjust the rotational speed of the second roller member or stop the rotation of the second roller member.
Connecting the end point of the yarn wound on the bobbin portion and the starting point of the yarn wound on the auxiliary bobbin portion;
A guide step of guiding the yarn and the auxiliary yarn through an injection lead portion; And
And a winding step of connecting the yarn guided by the injection lead and the auxiliary yarn to the beam unit rotating by the driving motor unit, and winding the yarn and the auxiliary yarn according to the rotation of the beam unit.
Before the guide step, the tension adjusting step for adjusting the tension of the yarn and the auxiliary yarn by passing through the tension adjusting unit the yarn and the auxiliary point connected to each other; And
Before the winding step, the tension holding step for maintaining a constant tension by passing the yarn and the auxiliary yarn through the tension maintaining portion,
The bobbin portion and the auxiliary bobbin portion is mounted to the rotatable portion,
The tension control unit,
Coupling means that one side is coupled to the mounting portion;
Connection means made of a '-' shape, connected to the other side of the coupling means;
An inlet formed on one side of the connecting means to receive the yarn wound on the bobbin portion and the auxiliary yarn wound on the auxiliary bobbin portion;
Is formed on the other side of the connecting means, the discharge port for discharging the yarn and the auxiliary yarn;
Is formed in the center portion of the connecting means, the passage hole for passing the yarn and the auxiliary yarn introduced from the inlet;
An adjustment weight formed between the inlet port and the passage port, for adjusting the tension primarily by pressing the yarn and the auxiliary yarn from the top to the bottom;
A guide rod formed between the passageway and the outlet, for guiding the yarn with the tension adjusted and the auxiliary yarn toward the outlet;
A control rod rotatably formed at a connection means corresponding to the passageway and the guide rod, and configured to adjust the tension of the yarn and the auxiliary yarn secondaryly while rotating; And
The through hole is formed in the center portion, the through hole is inserted from the top to the lower direction so as to penetrate the guide rod, the scene characterized in that it comprises a pressing means for preventing the yarn and the auxiliary yarn from being separated Way.

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