KR101692467B1 - Surgical Suture And Manufacture Method And Apparatus Of That - Google Patents

Abstract

The present invention relates to a surgical thread having an embossed shape, a manufacturing method and an apparatus for manufacturing the same, and the thread is formed by a press-in method to form toothed portions at regular intervals according to the length of the thread, The manufacturing method includes a step of setting the thread, a step of driving the apparatus, a step of winding and loosening the thread, a step of embossing the thread, and a step of winding the thread, And a thread wound on the other side of the threaded portion to be wound around the threaded portion is wound around the threaded portion of the threaded portion, A spiral wound portion wound around the winding yarns, and a spiral wound portion wound around the threaded portion formed in the interval between the unwinding portion and the spiral portion, Provided is an embossing treatment chamber which can obtain a lifting effect of the skin without cutting incisions of the thread by including an embossing work to which an embossing shape is applied, a manufacturing method thereof, and a manufacturing apparatus.

Description

Technical Field [0001] The present invention relates to a surgical thread having an embossed shape,

More particularly, the present invention relates to an embossing chamber having embossed shape, and more particularly, to a method of manufacturing an embossing chamber having an embossed shape, And a manufacturing method and a manufacturing apparatus for the same.

In general, it is known that skin aging is caused by cell mutation, active oxygen radicals, accumulation of toxic substances and deformation of the skin gap constituent protein, and despite numerous studies on its precise cause, Whether or not to form wrinkles has not been fully elucidated. As a result of aging, skin wrinkles, reduced elasticity, and spot formation occur.

In addition, due to a decrease in the ability of the collagen to form, which is closely related to healthy skin, and an abnormal tangling phenomenon of these collagen fibers, the elasticity of the skin is remarkably lowered, and the hyaluronic acid which is responsible for skin moisturization and the glycosaminoglycan The production amount is remarkably lowered.

To date, numerous substances have been used to inhibit skin aging. Vitamin C, SOD, alpha-tocopherol (beta-carotene), and beta-carotene, which have been used for a long time, Is known to alleviate skin aging through its antioxidant effect, thereby improving wrinkles and promoting skin elasticity.

Recently, a lot of natural materials have been attracting attention due to the flow of herbal cosmetics. However, it has been known that such methods do not yet achieve satisfactory results in a short time in relation to the skin regeneration and wrinkle removing effect.

On the other hand, in order to solve conventional wrinkling and skin sagging, the problem of wrinkles and skin sagging is solved by the effect of lifting the skin by using a visibility line having a visible shape on the surface of the thread.

That is, for example, in the case where a visibility line is inserted into a skin of a patient suffering from skin sagging, the thorns formed on the surface of the skin are hung in the skin, so that the lifting effect of the skin is exhibited, It is possible to experience a characteristic that wrinkles and skin deflection are alleviated.

In order to have a visible shape on the surface of the yarn, the surface of the yarn is cut with a sharp knife. By this cutting operation, the cut portion of the yarn is widened to have a visible shape, So that the lifting effect of the skin is realized.

However, the process of cutting with a sharp knife on the surface of the seal requires precision, the process of the work is very complicated, and it takes a considerable amount of time, which is inconvenient to manufacture the cutting line of the cutting method.

In addition, although the viscous shape is implemented on the surface of the seal by the cutting method, there is a possibility that the seal is completely fallen or cut off as the cutting portion of the seal surface is completely broken while being strongly lifted in the state of being inserted into the skin. do.

Furthermore, when a thread of a viscous shape cut by a sharp knife or a thread of an embossed shape is inserted into the skin, a strong lifting effect of the skin can not be expected. That is, since the visible portion of the cutting shape is a part cut in the yarn itself, it is difficult to realize a strong jig in the skin, and the visible portion of the embossed shape has a vertical cross shape along the length of the yarn itself This is because it is difficult to realize a strong jam in the skin.

On the other hand, the techniques related to such a fishing line are disclosed in Published Unexamined Patent Applications No. 10-2011-0003532, No. 10-1132841, No. 10-2012-0117609, No. 10-2013-0091662, 10-1200396, etc. have been disclosed.

Published Japanese Patent Application No. 10-2011-0003532, Patent No. 10-1132841, Open No. 10-2012-0117609, Published Japanese Patent Application No. 10-2013-0091662, Patent No. 10-1200396.

The present invention for solving the above-mentioned problems provides a treatment chamber having an embossed shape for realizing a visible shape without performing incision on a treatment chamber for improving skin sagging or wrinkles, a method for manufacturing the same, and an apparatus for manufacturing the same. .

In order to achieve the above-mentioned object, the present invention is characterized in that, prior to the operation of the apparatus, the yarn is set in a manner suitable for the components of the unwinding portion, the branch portion, the embossing portion, the tension adjusting portion, the winding direction adjusting portion, A winding step of winding the yarn through the unwinding part and winding the yarn through the unwinding part; a winding step of winding the yarn through the unwinding part; A step of embossing a yarn to form a concave-convex emboss on the surface of the yarn through embossing of the components; winding of the yarn wound from the winding part after completion of unwinding of the yarn to be loosened from the loosening part, And a winding completion stage of the yarn to be completed.

delete

delete

delete

The setting of the thread includes a winding thread insertion step of inserting and threading a thread wound around each unwinding roller of the unwinding part, a step of loosening the threads wound on each of the unwinding rollers by a predetermined length and fixing them to the respective winding rollers of the winding part There is another feature of the embossed method for manufacturing a surgical thread, which further comprises a step of unwinding the wound thread.

The yarn is branched between the vertical pins of the branch portion and the branched yarns are inserted between the helical gear and the guide rollers of the emboss work and the yarn tension is adjusted by adjusting the rotation angle of the tension adjusting portion of the tension adjusting portion according to the thickness of the yarn. And a process of adjusting the winding direction adjusting block so that the yarns branching to the respective winding rollers of the winding portion can be wound evenly are further performed.

A winding part formed on one side of the support plate and wound without embossing, the winding part being wound on the other side with respect to the supporting plate to be wound on the loosened part from the loosening part, And a embossing portion which is constructed in a section between the unwinding portion and the winding portion to press the chambers to be unwound from the unwinding portion to apply an embossed emboss shape, And a tension regulating part for regulating the tension according to the thickness of the thread in the interval between the emboss work and the winding part, And a winding direction adjusting unit which moves to the left and right sides of the support plate and adjusts the winding direction of the yarn for even winding of the yarn wound on the winding unit, The embroidery sewing thread manufacturing apparatus according to the present invention has another feature.

delete

Wherein the unwinding portion and the winding portion are constituted by a release roller and a winding roller provided at a plurality of side surfaces of the side plate rising on the support plate while the winding roller is rotated by the driving motor, There is another feature of the example.

The embossing work includes a helical gear which is installed on a supporting plate together with a motor and presses a passing thread while being rotated by a motor to apply a embossing embossing shape to the surface of the thread, And a guide roller which is provided with a plurality of branch grooves which are installed to receive a part of the gear of the helical gear and serve as a conveying path of the branched chambers, is another exemplary feature of the embossed procedure thread manufacturing apparatus.

The branching unit includes a plurality of vertical pins arranged vertically with a predetermined gap maintained on the column plate and dividing the chambers, branching chambers hinged on the column plate at the rear of the vertical pins and passing through the vertical pins, Wherein the tension adjusting unit comprises a tension adjusting base having a plurality of bases and a gap for adjusting the radius of rotation of the bottom plate on the side of the base plate, A tension regulating roller connected to the tension adjusting bar in a hinged state to divide the chambers in the branching state and regulating the tension of the yarn, a plurality of branching rings fixed to the lateral rear of the tension adjusting band, The embroidery thread manufacturing apparatus of the embossed shape further includes another feature.

The winding direction regulating unit includes a rail installed between the left and right side wall blocks, a winding direction adjusting block moving in the left and right direction by being caught by the rail and adjusting the winding direction of the yarn, And a motor connected to the motor for providing power to the left and right movement of the winding direction adjusting block and being constructed between the left and right side wall blocks and being rotatably driven by the motor power in the winding direction adjusting block, The embroidery sewing thread manufacturing apparatus further includes an axis rod for guiding the left and right movement of the winding direction adjusting block.

INDUSTRIAL APPLICABILITY As described above, the embroidery chamber having embossed shape according to the present invention, and the manufacturing method and apparatus for manufacturing the embossed embroidery shape according to the present invention can be used not only in the effect of lifting wrinkled or stiff skin, , The necessity of performing the thread cutting process to obtain the spiral shape in the thread disappears, and the embossing of the thread can be facilitated.

In addition, the embroidering chamber having the embossed shape, the manufacturing apparatus and the manufacturing method thereof according to the present invention can emboss the embossed shape of the thread without the incision process, so that the embossing of the thread can be automated to maximize the productivity, As a result, labor costs can be reduced to lower the unit cost of production products, securing superior competitiveness than products launched in the same industry.

In addition, the embroidering chamber having an embossed shape, the manufacturing apparatus and the manufacturing method thereof according to the present invention automatically emboss the shape of the thread by press-fitting the helical gear so that the incision portion of the thread disappears, It is possible to prevent the problem that the portion is separated or separated.

1 is a perspective view showing a procedure room having an embossed shape according to the present invention,
Fig. 2 is a plan view of Fig. 1,
Fig. 3 is a perspective view showing a manufacturing apparatus for manufacturing a procedure room having an embossed shape according to the present invention,
Fig. 4 is a perspective view showing an enlarged view of the portion "A" shown in Fig. 3 of the present invention,
Fig. 5 is a perspective view showing an enlarged portion of the portion "B" shown in Fig. 3 of the present invention,
6 is an enlarged perspective view of a portion of the tension regulating portion 40 shown in Fig. 3 of the present invention,
Fig. 7 is a side view showing the helical gear (reference symbol HG) shown in Fig. 4 of the present invention and the pressing state of the yarn interposed between the guide rollers; Fig.
Fig. 8 is a first modification of the embodying chamber having an embossed shape according to the present invention,
Fig. 9 is a second modification of the embodying chamber having an embossed shape according to the present invention,
10 is a view showing a third modified form of the practicing chamber having the embossed shape of the present invention.
11 is a plan view showing an arrangement different from that of the tooth arrangement of FIG. 2 showing the tooth arrangement arrangement for the chamber of FIG.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And it should be interpreted based on the technical ideas throughout the specification taking into consideration that various modifications are made.

In addition, the present invention should not be construed as being limited to the embodiments described below, but should be construed as a scope of scope including an extended scope interpreted based on the technical content described in the specification.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embroidery chamber and a manufacturing method according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the treatment chamber S according to the present invention maintains a constant gap in the longitudinal direction and forms a plurality of convex portions Sa, and a plurality of Thereby forming a concave portion Sb.

The convex portion Sa and the concave portion Sb are inclined along the longitudinal direction of the thread S. The convex portion Sa and the concave portion S, The skin can be strongly lifted due to the convex portion Sa and the concave portions Sb formed in the thread S when the skin is slackened or wrinkled.

That is, when the thread S is inserted into the patient's skin together with the needle, the convex portion Sa formed in the longitudinal direction of the thread S strongly lifts the sagging skin due to the retaining shape in the cell layer in the skin. The conventional viscous yarn has a drawback that the lifting effect is weak due to the crossing of the vertical direction in the longitudinal direction of the yarn.

As described above, the plurality of convex portions Sa and the concave portions Sb, which are formed uniformly along the longitudinal direction of the thread S, are compared with the visible thread of the cut shape of the conventional product or the degree of lifting of the skin from the embossed viscous thread Showing a considerable difference.

The surgical chamber S according to the present invention is not limited to a viscous shape by performing a cutting process such as a conventional thread in forming the convex portion Sa and the concave portion Sb along the length, (Sa, Sb) composed of a convex portion (Sa) and a concave portion (Sb) inclined in the longitudinal direction of the seal (S) itself by forming a helper station such as an embossed shape by exerting pressure on the concave portion The teeth Sa and Sb perform a strong jigging action in the skin, and thus can exhibit a strong lifting effect of the skin.

Therefore, since the embroidery chamber S of the present invention forms embossed convex portions and concave portions along the longitudinal direction, there is no need for a thread cutting process required for a conventional visible shape, And also prevents the problem that the yarn is completely separated and separated from the yarn.

Of course, at this time, a predetermined process may be further added in consideration of the use purpose of the procedure or the skin condition of the recipient on the basis of the teeth Sa and Sb formed according to the length of the thread S by the helical gear, It is possible to have a feature that can be formed.

8 to 10, the tip of the convex portion Sa of the teeth Sa and Sb, which is a reference of the helical gear described above in FIG. 8, Since the deformation shape Sa1 extending at a steeper slope than the tilted direction is provided, stronger skin fastening is achieved than the teeth Sa and Sb which are the reference of the above-mentioned helical gear, have.

In the case of Fig. 9, since the helical gears Sa and Sb serving as the reference of the above-described helical gear have the deformed shape Sa2 in which a part of the end of the convex portion Sa is chamfered, The skin is caught more weakly than the toothed portions Sa and Sb, so that a weaker skin lifting can be realized.

In addition, in the case of Fig. 10, since the teeth Sa and Sb serving as the reference of the above-described helical gear have the deformed shape Sa3 which is chamfered in such a manner that the height difference with respect to the end of the convex portion Sa is set, Which is a reference of a helical gear, Sa and Sb, can be secured by double-locking the multi-step engagement of the skin.

As described above, the deformed shapes Sa1, Sa2 and Sa3 of the end portions with respect to the teeth Sa and Sb are variously defined on the basis of the thread S having the teeth Sa and Sb serving as the reference of the helical gear Accordingly, the recipient can consult the practitioner to select a thread S that matches his or her skin condition, and the side effect of the procedure can be minimized as the procedure S is performed using the selected thread S as described above.

Alternatively, as shown in Fig. 2, it may be of a purely arranged type which is formed only in inclined shapes along the longitudinal direction of the thread S in the arrangement of the teeth Sa and Sb, A combination arrangement type in which the inclined shape and the vertical shape are alternately formed alternately along the length direction of the thread S may be used.

Particularly, when the arrangement of the teeth Sa and Sb is a combined arrangement type of a slant and a vertical shape, the problem of the stuck-at-once engagement in the inclined arrangement region of the teeth during the engagement in both directions in the skin, So that the entire engagement direction can be stabilized.

For example, in the case where the engagement of the thread S in the skin is performed in one direction, there is a problem in that the thread is caught in only one end portion of both ends of the teeth Sa and Sb in the inclined array portion of the teeth At this time, both ends of the teeth Sa and Sb of the vertically arranged sections of the teeth Sa and Sb can be stabilized with respect to the direction in which the entire thread S is hooked as the threading engagement phenomenon is reduced. Of course, even if the engagement of the thread S in the skin is applied in the other direction, it is possible to reduce the engagement problem of the tilting method for the same reason as described above.

A manufacturing method for the embossed treatment chamber S of the present invention is described below.

The method for manufacturing embossed yarn S according to the present invention will now be described with reference to the apparatus drawings of Figs. 3 to 7, including the steps of setting the yarn, driving the device, winding and unwinding the yarn, And a thread winding completion step.

a. Setting the Thread

The setting step of the thread includes a step of setting the thread before the operation of the apparatus and including a step of mounting the wound thread and a step of unwinding the wound thread, (UR1, UR2, UR3) of the winding rollers (UR1, UR2, UR3) of the winding rollers (10) The yarns S are loosened by a predetermined length and secured to the respective winding rollers WR1, WR2 and WR3 of the spool part 60 provided on the other side of the apparatus.

The yarn S according to the present invention may include a branched portion 20, an embossing portion 30, a tension adjusting portion 40, and a tension adjusting portion 40, which are disposed between the unwinding portion 10 and the spooling portion 60, The winding direction adjusting unit 50 is properly set.

That is, in the branching unit 20, the yarn S is branched into the branched grooves 23a, 23b, and 23c formed in the branching roller 23, So that the branching operation of the yarn S is performed between the vertical pins 22.

In the embossing work 30, the yarn S carries out the work for interposing the branched yarns S between the helical gear HG and the guide roller 32.

The tension adjusting unit 40 adjusts the tension of the yarn S by adjusting the rotation angle of the tension adjuster 43 by adjusting the tension of the yarn S according to the thickness of the yarn S,

In the winding direction adjusting unit 50, the winding direction adjusting block 54 is adjusted and moved to the left and right sides so that the yarn S can be evenly wound on the winding unit 60.

b. Device driving step,

The device driving step is a step of applying the operation to the constituent units configured in the apparatus and includes a step of controlling the motor M of the embroidery work 30, the driving motor 53 of the winding direction adjusting unit 50, Thereby applying drive to the drive motor 62. [

c. Step of unwinding and loosening thread

Each of the unloading rollers UR1, UR2 and UR3 of the unloading portion 10 constructed on one side of the apparatus is rotated by the rotational force of the respective take-up rollers WR1, WR2 and WR3 of the spool 60 built on the other side, The winding of the yarn S is started and the yarn S is wound around the respective winding rollers WR1, WR2 and WR3 of the spool part 60. [ Of course, at this time, the respective winding rollers WR1, WR2, WR3 of the spindle unit 60 obtain rotational power by driving the motor 62. [

d. Embo forming step of thread

The thread S is inserted between the helical gear HG and the guide roller 32 of the embossment worker 30 constructed behind the unloading portion 10 of the apparatus and the gear of the helical gear HG is pressed, As the surface of the yarn S to be charged is subjected to the pressure, the marks of the teeth Sa and Sb are formed on the surface of the yarn S,

f. Step of wrapping thread

The yarns S forming the marks of the teeth Sa and Sb are wound on the respective take-up rollers WR1, WR2 and WR3 of the spool 60 built on the other side of the apparatus, The winding of the yarn S of the respective winding rollers WR1, WR2 and WR3 after the completion of unwinding of the yarn S from each of the unwinding rollers UR1, UR2 and UR3 of the unloading portion 10 is completed.

On the other hand, a manufacturing apparatus for manufacturing the embossed yarn S of the present invention will be described in detail below with reference to Figs. 3 to 7.

A spool part 60 is formed on the other side of the unloading part 10 on one side and a sprung part 60 is formed on the other side of the unrolling part 10 and the spool part 60 based on the support plate SB. The embossing work 30, the tension adjusting portion 40, and the winding direction adjusting portion 50, as shown in FIG.

The unloading portion 10 is provided with a plurality of first, second and third unloading rollers UR1, UR2 and UR3 on the side plate 11 installed on the support plate SB with a predetermined clearance. The number of rollers (UR) can be increased or decreased.

The spool part 60 is also provided on the side plate 61 provided on the support plate SB in such a manner that the first, second and third release rollers UR1, UR2 and UR3, The winding rollers WR1, WR2 and WR3 are provided with a constant gap and the number of the rollers can be increased or decreased. The first, second and third winding rollers WR1, WR2 and WR3 may be rotated by individual driving motors 62 so as to be individually rotatable.

The branching section 20 is a component constructed behind the unloading section 10 and includes a plurality of vertical fins 22 vertically disposed on the column plate 21 and a plurality of vertical fins 22 disposed rearwardly of the vertical fins, (23) is installed in a hinged state.

The plurality of vertical fins 22 are vertically installed while maintaining a constant clearance. The reason why the vertical fins 22 are spaced apart from each other is for the branching of the yarn S, The reason for forming the plurality of branch grooves 23a, 23b, and 23c with a predetermined clearance is to guide the branched seals S, respectively.

The embossing work 30 is a component constructed behind the branching section 20 and includes a motor M provided on the support plate 31 and a helical gear 32 connected to the shaft of the motor M. [ And a guide roller 32 installed on the side of the support plate 31 below the helical gear HG.

The helical gear HG is double geared in FIG. 4, but can be increased or decreased in triple, quadrature or single. 32b and 32c are formed on the surface of the guide roller 32 positioned below the helical gear HG while maintaining a constant clearance therebetween. This guide path can also be increased or decreased on the surface of the guide roller 32. [

Each gear of the helical gear HG is rotated in such a manner that it is partly accommodated in each of the guide paths 32a, 32b and 32c of the guide roller 32. The gears of the helical gear HG, The surface of the yarn S is pressed by the gear of the helical gear HG.

The tension adjuster 40 is a component constructed behind the embossment 30 and constitutes a tension adjuster 43 that is installed on the side surface of the column plate 41, 43b and 43c and the gaps G1 and G2 formed between the stands 43a and 43b and 43c and the protrusions and bends projected perpendicularly from the rear of the stands 43a, 43b and 43c, A tension adjusting roller 44 formed with a plurality of branch grooves 44a, 44b and 44c forwardly and hinged to each other and fixed to the rear ends of the belts 43a, 43b and 43c, And rings (QG1, QG2, QG3).

The tension adjuster 43 is coupled to a shaft rod 42 provided on each of the projections 43d so as to rotate the tail plate 43 on the side surface of the column plate 41 so as to adjust the rotation radius, ) Can be adjusted.

The winding direction adjusting unit 50 is constructed as a component behind the tension adjusting unit 40. The winding direction adjusting unit 50 is configured to wind the left and right rollers RL mounted on the left and right side wall blocks 51, The winding direction adjusting block 54 has a hollow H formed at the center thereof so that the shaft rod 53a extending between the left and right side wall blocks 51 and 52 can be penetrated, And includes a plurality of rings 54a, 54b, and 54c at regular intervals in the upper tail.

The rings 54a, 54b and 54c are for penetrating the branched chambers S, respectively, so as to maintain the branch state of the chambers S, respectively.

Of course, the winding direction adjusting block 54 is slid to the left and right by the rotation of the shaft rod 53a, which is rotated by the power of the driving motor 62 constituting the other block of the left and right side wall blocks 51 and 52 So that the winding of the branched yarn S is made even.

Hereinafter, the functional relationship with the production apparatus of the present invention will be described.

The respective winding rollers WR1, WR2 and WR3 of the spindle 60 are rotated by the separate drive motor 62 and the respective unloading rollers UR1, UR2 and UR3 of the unwinding portion 10 are rotated by this rotational force The threads (S) are unwound.

The loosened threads S are split between the vertical pins 22 of the branching section 20 before they are wound on the respective take-up rollers WR1, WR2 and WR3 of the spool part 60, S are conveyed under the guidance of the respective branch grooves 23a, 23b, 23c of the branching rollers 23 located behind the vertical pins 22.

Namely, the individual branching chambers S, which enter between the gears of the helical gear HG of the embossing gear 30 and the guide paths 32a, 32b and 32c of the guide roller 32, The embossed shape of the concavo-convex (Sa, Sb) type is obtained by the press-fitting of the gear of the pin.

The helical gear HG is rotated by the rotation of the shaft by the drive of the motor M, and the guide roller 32 can be interlocked and maintained in a stopped state.

The individual branching chambers S having the embossed embossed shape immediately enter the tension adjusting section 40 and the tension of the yarn is adjusted by controlling the rotation of the tension adjusting table 43 of the tension adjusting section 40 according to the thickness of the yarn. Adjustable.

That is, the individual branch chambers S are moved along the branch grooves 44a, 44b, 44c of the tension adjusting roller 44 hinged to the forward side of the tension adjusting table 43, And pass through the fixed branch rings QG1, QG2, and QG3, respectively. The branch rings QG1, QG2 and QG3 serve to maintain the branching state for the individual chambers S, respectively.

The tension adjuster 43 rotated together with the shaft rod 42 controls the bending portion of the loosened threads S from the unwinding portion 10 to the winding portion 60 according to the rotation radius, To adjust the tension.

For example, when the tension adjuster 43 rotates clockwise in the drawing, as the moving path position of the yarn S increases, the bending portion of the yarn largely disappears and the curvature of the yarn becomes smooth. On the other hand, when the tension adjuster 43 is rotated in the counterclockwise direction, as the moving path position of the yarn S is lowered, the bending portion of the yarn is increased and the curvature is sharpened. The tension can be enhanced. In other words, the tension of the yarn can be adjusted while varying the radius of rotation of the tension adjuster 43 according to the thickness of the yarn.

The individual chambers S which enter the winding direction adjusting part 50 are moved through the plurality of rings 54a, 54b and 54c fixed to the upper part of the winding direction adjusting block 54. In this process, The direction adjusting block 54 slides leftward and rightward while being held by the rail RL by the rotation of the shaft rod 53a which is rotated by the driving of the drive motor 53. [

That is, the shaft rod 53a has a screw shape, and the winding direction adjusting block 54 can slide in the left or right direction according to the forward rotation of the shaft rod 53a.

The individual chambers S passing through the rings 54a, 54b and 54c by the slide movement of the winding direction adjusting block 54 in the left or right direction are connected to the respective winding rollers WR1, WR2 and WR3 of the winding portion 60 The winding can control the winding of the threads (S) evenly. For example, when the winding direction adjusting block 54 does not slide in the left or right direction, the yarns wound on the winding rollers WR1, WR2 and WR3 are wound in a biased state so that the winding state can be maintained I will not. That is, the left and right movement of the winding direction adjusting block 54 is required for even alignment of the winding.

SB: support plate, S: room
10: unloading portion, 11: side plate
UR1, UR2, UR3: Release roller
20: branch portion, 22: vertical pin,
23: branching roller, 23a, 23b, 23c: branching groove
30: embroidering, HG: helical gear
32: guide roller, 32a, 32b, 32c:
40: tension adjusting part 42: shaft rod,
43: tension adjusting table, 43a, 43b, 43c:
43d:
44: tension adjusting roller, 44a, 44b, 44c:
QG1, QG2, QG3: branch ring,
50: Winding direction adjusting portion 53a: Axis
RL: Rail, 54: Winding direction adjusting block,
54a, 54b, 54c:
60: spool part, WR1, WR2, WR3: take-up roller

Claims (12)

delete delete delete A thread setting step of setting the yarn before the driving of the apparatus to suit the components of the unwinding part, the branching part, the embossing part, the tension adjusting part, the winding direction adjusting part, and the winding part;
A device driving step of applying driving of the components configured in the device;
Winding and unwinding the yarn in which winding of the yarn is started through the winding portion of the components and winding of the yarn is started through the unwinding portion;
An embossing step of a yarn forming a concave-convex emboss on the surface of the yarn through the embossing of the components;
A winding completion step of winding the yarn wound from the winding part after winding of the yarn to be unwound from the unwinding part is completed;
The method of claim 1, further comprising: 5. The method of claim 4,
Wherein the setting of the thread includes a step of inserting and winding a thread wound on each of the release rollers of the unloading portion;
A winding step of loosening the yarns wound on the respective unwinding rollers by a predetermined length and fixing them to the respective winding rollers of the winding unit;
Wherein the embossing method further comprises the steps of: The method according to claim 4 or 5,
Branching the yarn between the vertical fins of the bifurcation;
The embossed yarns are inserted and interposed between the helical gears of the work and the guide rollers;
Adjust the tension of the yarn tensioner by adjusting the rotation angle of the tensioner of the tensioner according to the thickness of the yarn;
Wherein the step of adjusting the winding direction adjusting block is performed so that the yarns branching to the respective winding rollers of the winding part can be evenly wound. delete A loosening portion which is formed on one side of the support plate and is wound in a state without embossing, the loosening portion being inserted and fastened more than one time, A spiral winding part wound around the embossed yarns wound on the other side with respect to the support plate and being unwound from the unwinding part; And an embossment construction constructed in a section between the unloading portion and the winding portion to press the chambers to be unloaded from the unloading portion to apply an embossing embossing shape; Lt; / RTI >
A branching portion for branching the plurality of threads mounted on the unloading portion into a plurality of strands in a section between the unloading portion and the embossing portion;
A tension regulating unit for regulating the tension in accordance with the thickness of the yarn between the emboss work and the winding unit; And
A winding direction adjusting unit moving to the left and right sides of the support plate to adjust the winding direction of the yarn for even winding of the yarn wound on the winding unit;
And an embossing step of attaching the embossing unit to the processing chamber. 9. The method of claim 8,
Wherein the unwinding portion and the winding portion are constituted by a release roller and a take-up roller provided on a side surface of the side plate rising on the support plate, and the take-up roller is rotated by the rotation of the drive motor (2). 9. The method of claim 8,
In the emboss work,
A helical gear which is installed on the support plate together with the motor and presses the passing thread while being rotated by the motor driving to apply a concave-convex emboss shape to the seal surface;
A guide roller provided on a side of the receiving plate at a lower side of the helical gear to receive a part of the gear of the helical gear and to form a plurality of branched grooves as a conveying path of the branched chamber;
And an embossing step of disposing the embroidery yarn on the embroidery yarn. 9. The method of claim 8,
The bifurcated portion includes a plurality of vertical fins vertically installed to maintain a predetermined gap on the column plate and to divide the chambers;
Further comprising a branching roller formed in the rear of the vertical pin and having a plurality of branching grooves connected to the column plate by being hingedly connected to the branching chambers,
Wherein the tension adjuster includes a tension adjuster having a plurality of shafts and gaps for adjusting the radius of rotation of the shaft,
A tension regulating roller connected in a hinged state in front of the tension regulating block to form a plurality of branch grooves for branching the chambers in the branch state and controlling the tension of the yarn;
Further comprising a plurality of branch rings fixed to the lateral rear end of the tension adjusting bases to penetrate the chambers in the branched state, respectively. 9. The method of claim 8,
The winding direction adjuster includes:
A rail installed between the left and right side wall blocks;
A winding direction adjusting block moving to the left and right sides by being caught by the rails and adjusting the winding direction of the yarn;
A plurality of rings vertically installed at predetermined intervals on the winding direction adjusting block to penetrate the yarns in the branched state, respectively; And
A winding shaft connected to the motor for providing power for the left and right movement of the winding direction adjusting block and being constructed between the left and right side wall blocks and rotating in the winding direction adjusting block to be driven by the motor power, ;
Further comprising: an embossing unit for attaching the embossing unit to the embossing unit.

Images