KR101753682B1 - Auto Laminating Apparatus of Upper of Shoes without Sewing - Google Patents

Abstract

The automatic laminating apparatus of the present invention is characterized in that a base fabric (4) for a shoe upper is mounted on an upper portion and supplied to an upper portion of a base fabric (4) for a mounted shoe upper, and a base fabric (4) (10) on which a pattern material (3) composed of a hot melt film (2) is placed under the pattern fabric (1); A transfer unit installed on the upper portion of the base 10 to move back and forth and right and left; Conveying means for conveying the conveying portion in the front, rear, left and right direction along the pattern shape; A laser beam irradiating unit for irradiating a laser beam directly under the central portion of the main body 21 to cut the pattern material 3 so as to form a shoe pattern; The hot melt film 2 located on the outer side of the shoe pattern cut by the residual heat generated when the pattern material 3 is cut by laser beam irradiation is sandwiched between the lower portion of the pattern fabric 1 and the shoe upper A laser 20 for attaching the upper portion of the base fabric 4 to each other; And a control unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic laminating apparatus,

The present invention relates to an automatic laminating apparatus for a non-sewn shoe upper, and more particularly, to a method of automatically cutting a pattern attached to a shoe upper without cutting the shoe upper by laser cutting and attaching a pattern fabric to the shoe upper by residual heat The present invention relates to an automatic laminating apparatus for a non-sewn shoe upper.

Generally, in order to allow the shoe to have various patterns on the shoe upper, a pattern such as character or animal shape is cut, and this pattern is sewn or attached to the shoe upper body. In the case of sewing, there is a problem that defects occur and the cost of the product increases due to the increase of the material cost and the labor cost, and the pattern is attached to the body of the shoe upper without sewing.

As a pattern manufacturing apparatus for attaching a pattern to a main body of a shoe upper by conventional seamless sewing, Korean Utility Model Registration No. 20-0465271 filed by the applicant of the present invention and entitled " Device) has been disclosed, which is shown in Fig.

The apparatus for manufacturing a shoe pattern for non-sewing adhering includes a feeding means 210 for feeding the adhesive sheet 100 having the release paper 140 attached thereto to the hot melt adhesive film 120 downward and feeding the raw material 200 to the upper portion; A hopper cutting means provided on the upper side of the raw fabric 200 fed by the feeding means 210 to cut and combine the shoe pattern to be cut and cut only the raw material 200 and the hot melt adhesive film 100 130); A die 146 provided with a heater 142 at an upper portion thereof for heating and supporting the adhesive sheet 100 and the fabric 200; And a recovery means 150 for separately recovering the residual fabric 200 ', the residual hot-melt adhesive film 120', and the release paper 140 obtained by cutting the shredded paper 140 by the shredding cutting means 130 . The hopper cutting means 130 includes a press 132 and a foaming cutting edge 134 provided at a lower portion of the press 132 and having a shoe pattern shape to be cut, The pressing plate 136 presses the fabric 200 and the adhesive sheet 100 together by the lowering of the press 132 and presses the foaming cutting edge 134, Is characterized in that only the fabric 200 and the hot-melt adhesive film 120 are cut to form a shoe pattern.

The footwear manufacturing apparatus for seamless sewing has a complicated structure because it includes a press 132, a foot cutting edge 134 and a presser plate 136 and a heater 142. The press 132, There is a problem in that a safety accident is likely to occur because the blade 134 is turned off. In addition, since the raw material 200 is heated by the heater 142 in order to bond the hot melt adhesive film 100 to the raw material 200, there is a problem of high power consumption and high risk of safety accidents.

In addition, since the footwear patterning apparatus for sewing and sewing without attaching must produce patterns having different sizes according to the shoe size, a plurality of hair-cutting blades 134 corresponding to the size must be provided, which increases the initial cost.

Further, in order to adhere the shoe pattern for non-sewing adherence produced by the apparatus for producing a shoe pattern for non-sewing adherence to the shoe upper, the shoe pattern 140 is removed and the shoe pattern having the shoe- And then the shoe pattern is manually heated by using the pharynx so that the shoe pattern is adhered to the shoe upper.

In order to adhere the shoe pattern to the shoe upper as described above, since the shoes are adhered by using the pharyngoscope, it takes a lot of manpower and time and there is a fear of burning due to the pharynx.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems described above, and it is an object of the present invention to provide an automatic laminating method of a seamless stitching footwear which is simple in structure, facilitates adhesion between a pattern fabric and a shoe upper, Device.

Another object of the present invention is to cut a pattern fabric and a hot melt film to form a pattern to be attached to a shoe upper and to attach a cut fabric to a shoe upper so that the shoe pattern is directly sewn on a shoe upper And to provide an automatic laminating apparatus of a non-sewing shoe upper which enables the shoe to be stitched.

The automatic laminating apparatus for a footless upper according to the present invention is characterized in that a base fabric (4) for a shoe upper is mounted on an upper portion and supplied to an upper portion of a base fabric (4) for a mounted shoe upper, and a base fabric (10) on which a pattern material (3) composed of a hot melt film (2) is placed under the pattern fabric (1); A transfer unit installed on the upper portion of the base 10 to move back and forth and right and left; Conveying means for conveying the conveying portion in the front, rear, left and right direction along the pattern shape; A laser beam irradiating unit for irradiating a laser beam directly under the central portion of the main body 21 to cut the pattern material 3 so as to form a shoe pattern; The hot melt film 2 located on the outer side of the shoe pattern cut by the residual heat generated when the pattern material 3 is cut by laser beam irradiation is sandwiched between the lower portion of the pattern fabric 1 and the shoe upper A laser 20 for attaching the upper portion of the base fabric 4 to each other; And a control unit.

The laser beam irradiating unit 22 is provided at the lower end of the main body 21 of the laser 20 and is located at the outer periphery of the laser beam irradiating unit 22 and injects compressed air in the same direction as the irradiation direction of the laser beam irradiating unit 22, The hot melt film 2 located on the outer side of the shoe pattern to be cut by pressing the hot melt film 2 to cut the pattern fabric 1 is pressed against the lower portion of the pattern fabric 1 and the base fabric And a compressed air spraying part (30) for attaching the upper part of the compressed air spraying part (4) to each other.

The compressed air injecting section 30 is provided at one side of the lower end of the main body 21 of the laser 20 and includes an air inflow section 31 through which the compressed air flows, An air receiving portion 32 located inside the laser beam irradiating portion 22 and communicating with the air inflow portion 31 to receive the introduced air and having an annular shape is provided, The laser beam irradiating part 22 is disposed at a lower end of the main body 21 of the laser 20 and communicates with the air receiving part 32, And an air discharging portion (33) for discharging air in the same direction as the irradiation direction of the laser beam irradiating portion (22).

The hot melt film 2 is further supplied to the upper portion of the base fabric 4 for the shoe upper and the supply means 40 for supplying the pattern fabric 1 to the upper portion of the hot melt film 2 .

The supply means 40 includes a hot melt film supply roller 41 for supplying the pattern fabric 1 to the upper portion of the base 10 on which the base fabric 4 for the shoe upper is mounted, And a pattern material feeding roller 42 provided on the roller 41 to feed the pattern material 1 to the upper portion of the hot melt film 2. [

The hot melt film supply roller 41 and the pattern material supply roller 42 are disposed downstream of the hot melt film feed roller 41 so that the hot melt film 2 is supplied to the base 10 in a state where the hot melt film 2 is superimposed on the lower portion of the pattern material 1. [ And a feeding roller 43 is further provided.

A recovery means (50) for separately recovering the remaining pattern material (1) and the remaining hot melt film (2) that have been cut by the laser (20); Is further provided.

The recovery means 50 includes a pattern material recovery roller 51 for recovering the remaining pattern material 1 that has been cut by the laser 20 and a residual material removing roller 51 that is cut by the laser 20, And a hot melt film collecting roller (52) for recovering the hot melt film (2).

The apparatus further includes a separating unit 60 disposed at a front end of the collecting means 50 and separating the remaining hot-melt film 2 from the remaining pattern fabric 1 cut by the laser 20. do.

The present invention is characterized in that a pattern fabric positioned at the outer portion of a shoe pattern and a base fabric for a shoe upper are adhered to each other by a hot-melt film due to residual heat generated when cutting a pattern material using the laser 20, Since the base fabric for the shoe upper is attached to each other, it is possible to manufacture a pattern that can be attached without sewing on the shoe upper, and the pattern can be easily manufactured even if the pattern is complicated. In addition, since the shoe pattern is cut by the laser and the pattern fabric and the base fabric for the shoe upper are attached to each other by the hot-melt film due to the residual heat generated at the cutting, the cutting blade as in the prior art, There is a merit that the structure is simple, the operation is easy, and the power consumption is small because no separate heating means is required. In addition, since the cutting is not performed by the falling of the cutting blade as in the conventional case, safety accidents can be prevented.

Further, in order to produce patterns having different sizes according to the shoe size as in the prior art, a plurality of cutting blades should be provided according to their sizes. On the other hand, since the present invention uses a laser to cut the blades, There is an effect that the cost can be greatly reduced.

Unlike the conventional method of attaching the shoe pattern to the base fabric of the shoe upper, the pattern fabric and the base fabric for the shoe upper are made of hot melt film by the residual heat caused by cutting the shoe pattern of the laser It is possible to reduce waste of manpower and time, and there is no fear of burn due to pharynx, safety accidents can be prevented.

1 is a view showing an automatic laminating apparatus of a conventional non-sewn shoe upper.
FIG. 2 is a view showing an automatic laminating apparatus of a non-sewn shoe upper according to the present invention.
FIG. 3 is a view showing an operating state of the automatic laminating apparatus of a non-sewn shoe upper according to the present invention at the time of laser cutting.
4 is a cross-sectional view of a shoe upper with a laser cut and a pattern fabric attached thereto.
FIG. 5 is a view showing an automatic laminating apparatus of a non-sewn shoe upper provided with a feeding means and a collecting means according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an automatic laminating apparatus for a non-sewn shoe upper according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a view showing an automatic laminating apparatus of a non-sewing shoe upper according to the present invention, FIG. 3 is a view showing an operating state at the time of cutting an automatic laminating apparatus of a non- Fig. 5 is a view showing an automatic laminating apparatus of a non-sewn shoe upper provided with a supply means and a recovery means according to the invention.

An automatic laminating apparatus for a non-sewn shoe upper according to the present invention roughly comprises a base (10), a conveying portion, a conveying means and a laser (20).

As shown in FIG. 5, the base 10 has a base fabric 4 for a shoe upper to which a shoe pattern is to be attached. The top of the base 10 on which the base fabric 4 for the shoe upper is mounted is supplied to the upper part of the base cloth 4 for the mounted shoe upper and is attached to the base fabric 4 for the shoe upper A pattern material 3 formed of a hot-melt film 2 is mounted on a lower portion of the pattern fabric 1 and a pattern fabric 1 to be patterned.

The base 10 is provided with a base fabric insertion frame 11 for a shoe upper for fixing a base end 4 of a shoe upper to a base 10 at a predetermined position on an upper portion of the base 10 . The base fabric insertion frame 11 for the shoe upper can be variously provided according to the shape of the base fabric 4 for the shoe upper.

The transfer part (not shown) is spaced apart from the upper part of the base 10 and is known to move back and forth, right and left.

The transfer means (not shown) is known to transfer the transfer portion along the outer periphery of the pattern in the front, rear, left, and right directions.

The conveying means may be constituted by the forward / backward conveying means and the left / right conveying means disclosed in Korean Patent Registration No. 10-0645772 (entitled: CO2 laser apparatus for light guide plate processing).

The front and rear conveying means may include a lead screw provided at both ends of the lower portion of the guide rail in the front-rear direction, a driving motor for rotating the lead screw, and a coupling portion coupled to the lead screw.

A belt provided on the guide rail and having a gear formed on the inner side thereof, a pulley having gears meshed with gears of the belt, and a belt driving motor for rotating the pulley.

The conveying means may adopt other known configurations for allowing the conveying portion to be conveyed forward, backward, leftward and rightward.

The laser 20 is fixed to the transfer unit, and the transfer unit moves the laser 20 fixed by the transfer unit back and forth.

The laser 20 is coupled to the transfer unit and transferred to the front, back, right, and left sides by the transfer unit along the pattern shape.

As shown in Fig. 3, the laser 20 is provided with a main body 21 and a laser beam irradiating portion 22. [

The main body 21 is coupled to the conveyance unit and is conveyed forward, backward, leftward and rightward.

The laser beam irradiating part 22 irradiates a laser beam directly below the central part of the main body 21 to cut the pattern material 3.

The laser 20 is arranged such that the hot melt film 2 located on the outer periphery of the shoe pattern cut by the residual heat generated when the pattern material 3 is cut by the laser beam irradiation is applied to the lower portion of the pattern fabric 1, And serves to attach the upper portion of the base base fabric 4 to each other. At this time, it is important that the output of the laser 20 cuts only the pattern fabric 1 and the hot melt film 2, and that the base fabric 4 for the shoe upper is not cut. The output of the laser 20 varies depending on the pattern material 1 and the type of the hot melt film 2.

Fig. 4 is a cross-sectional view showing a base fabric 4 for a shoe upper with a laser-cut pattern fabric 1 attached thereto.

The pattern fabric 1 and the hot melt film 2 are cut and the base fabric 4 for the shoe upper is not cut and the pattern fabric 1 is cut by the hot melt film 2, And is attached to the base fabric 4 for the shoe upper.

As described above, according to the present invention, the pattern fabric 1 positioned at the outer portion of the shoe pattern and the base fabric 4 for the shoe upper due to the residual heat generated when the pattern material 3 is cut by using the laser 20, 2, so that the pattern fabric 1 and the base fabric 4 for the shoe upper are attached to each other at the same time as the pattern cutting, so that it is possible to manufacture a pattern that can be attached without sewing on the shoe upper, It is easy to produce a pattern. In addition, since the shoe pattern is cut by the laser 20 and the pattern fabric 1 and the base fabric 4 for the shoe upper are attached to each other by the hot-melt film 2 due to the residual heat generated during cutting, There is no need for separate heating means for attaching the blade, the pattern fabric and the hot melt film to each other, so that the structure is simple, the operation is easy, and the power consumption is low. In addition, since the cutting is not performed by the falling of the cutting blade as in the conventional case, safety accidents can be prevented.

Further, in order to produce patterns having different sizes according to the shoe size as in the prior art, a plurality of cutting blades should be provided according to their sizes. On the other hand, since the present invention uses a laser to cut the blades, There is an effect that the cost can be greatly reduced.

In contrast to the conventional method in which the shoe pattern is attached to the shoe upper by the use of the soldering iron, the pattern fabric 1 and the shoe upper fabric 4 are separated by the residual heat caused by cutting the shoe pattern of the laser. Since the hot melt film 2 is attached to each other, waste of manpower and time can be reduced, and safety accidents can be prevented because there is no fear of burns due to pharynx.

The pattern fabric 1 and the base fabric 4 for the shoe upper are adhered to each other by the hot melt film 2 due to the residual heat when the pattern material 3 is cut by the laser 20, The adhesion force between the upper base fabric 4 and the pattern fabric 1 may not be large. Accordingly, a compressed air spraying unit 30 is further provided to improve the adhesion between the base fabric 4 for the shoe upper and the pattern fabric 1.

The compressed air injecting section 30 is installed at a lower end of the main body 21 of the laser 20 and is positioned at the outer periphery of the laser beam irradiating section 22 and has the same direction as the irradiation direction of the laser beam irradiating section 22 (1) is cut by pressing the hot melt film (2) to cut the hot melt film (2), the hot melt film (2) located on the outer side of the shoe pattern to be cut is pressed against the lower And the upper portion of the base fabric 4 for the shoe upper.

2, the compressed air injecting section 30 is provided with an air inlet 31, an air receiver 32 and an air outlet 33.

The air inlet 31 is installed on one side of the lower end portion of the main body 21 of the laser 20, and compressed air flows in. The compressed air is generated by a compressor (not shown), and an air inlet pipe 34 connected to the compressor is connected to the air inlet 31 so that compressed air is introduced.

The air receiving part 32 is located inside the main body 21 of the laser 20 and is located outside the laser beam irradiating part 22 and communicates with the air inflow part 31 to receive the inflow air And it becomes an annular shape. And the accommodated air is discharged to the air discharge portion 33.

The air discharge unit 33 is positioned at a lower end of the main body 21 of the laser 20 and communicates with the air receiving unit 32 and radially arranged at a predetermined interval on the outer surface of the laser beam irradiating unit 22 And discharges air stored in the air receiving portion 32 in the same direction as the irradiation direction of the laser beam irradiating portion 22. [

The compressed air is introduced into the air inflow portion 31 through the air inflow pipe 34 and the air introduced into the air inflow portion 31 is accommodated in the air accommodating portion 32 having an annular shape The air accommodated in the air receiving portion 32 is discharged in the same direction as the irradiation direction of the laser beam irradiating portion 22 through the air discharging portion 33 communicated with the air receiving portion 32.

As described above, according to the present invention, the pattern fabric 1 cut by the compressed air and the hot melt film 2 are pressed against the base fabric 4 for the shoe upper which is mounted on the lower part of the hot melt film 2, ) Can be doubled in adhesion to the pattern fabric 1 and the base fabric 4 for the shoe upper.

FIG. 3 is a schematic view showing a state in which compressed air is jetted to the outer periphery of the laser beam by the air discharging portion 33 of the compressed air jetting portion 30 when the laser beam is irradiated by the laser beam irradiating portion 22, The hot melt film 2 presses the base fabric 4 for the shoe upper so that the pattern fabric 1 and the base fabric 4 for the shoe upper are attached by the hot melt film 2.

5, the supply of the hot melt film 2 to the upper portion of the base fabric 4 for the shoe upper and the supply of the pattern fabric 1 to the upper portion of the hot melt film 2, Is further preferable.

The supply means 40 includes a hot melt film supply roller 41 for supplying the pattern fabric 1 to the upper portion of the base 10 on which the base fabric 4 for the shoe upper is mounted, And a feed roller 42 provided on the upper portion of the hot melt film 2 for feeding the pattern raw material 1 to the upper side of the hot melt film 2.

5, the hot melt film supply roller 41 and the pattern material supply roller 42 are disposed downstream of the hot melt film feeding roller 42, It is preferable to further include a feeding roller 43 for feeding the toner to the base 10.

As described above, the present invention can automatically feed the pattern fabric 1 and the hot melt film 2 to the base 10 by using the feeding means 40 and the feeding roller 43.

The present invention also includes a recovery means 50 for separately recovering the residual pattern material 1 and the remaining hot melt film 2 that have been cut by the laser 20 as shown in FIG. 5; Is further preferable.

The recovery means 50 includes a pattern material recovery roller 51 for recovering the remaining pattern material 1 that has been cut by the laser 20 and a residual material removing roller 51 which is cut by the laser 20 to remove the residual hot- And a hot-melt film collecting roller 52 for collecting the hot-melt film.

It is possible to recycle the residual pattern raw material 1 and the residual hot melt film 2 by the recovery means 50. [

In the present invention, since the residual pattern fabric 1 and the remaining hot melt film 2 cut by the laser 20 are attached to each other at the time of laser cutting, .

5, the separator 60 separates the remaining pattern material 1 and the remaining hot-melt film 2, which are provided at the front end of the collecting means 50 and are cut by the laser 20, So that the remaining raw material 1 and the remaining hot melt film 2 are separated and collected by the collecting means 50.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1: Pattern fabric 2: Hot melt film
3: Pattern material 4: Base fabric for shoe upper
10: Base 20: Laser
21: main body 22: laser beam irradiation part
30: Compressed air spraying part 31: Air inflow part
32: air receiving portion 33: air discharging portion
34: air inlet pipe 40: supply means
41: pattern fabric feed roller 42: hot melt film feed roller
43: feeding roller 50:
51: pattern fabric recovery roller 52: hot melt film collection roller
60:

Claims (9)

A base cloth 4 for a shoe upper is mounted on the upper part and a pattern fabric 1 to be supplied to an upper part of the base cloth 4 for the mounted shoe upper and to form a pattern to be attached to the base fabric 4 for the shoe upper, A base 10 on which a pattern material 3 made of a hot-melt film 2 is placed under the pattern fabric 1;
A transfer unit installed on the upper portion of the base 10 to move back and forth and right and left;
Conveying means for conveying the conveying portion in the front, rear, left and right direction along the pattern shape;
A laser beam irradiating unit for irradiating a laser beam directly under the central portion of the main body 21 to cut the pattern material 3 so as to form a shoe pattern; The hot melt film 2 located on the outer side of the shoe pattern cut by the residual heat generated when the pattern material 3 is cut by laser beam irradiation is sandwiched between the lower portion of the pattern fabric 1 and the shoe upper And a laser (20) for attaching the upper part of the base base fabric (4) to each other,
A supply means (40) for supplying the hot melt film (2) to an upper portion of a base fabric (4) for a shoe upper and supplying the pattern fabric (1) to an upper portion of the hot melt film (2); And a recovery means (50) for separately recovering the remaining pattern material (1) and the remaining hot melt film (2) that have been cut by the laser (20); Wherein the step of attaching the upper part of the footwear to the upper part of the upper part of the upper part of the upper part of the upper part is performed. The method according to claim 1,
The laser beam irradiating unit 22 is disposed at a lower end of the main body 21 of the laser 20 and is located at the outer periphery of the laser beam irradiating unit 22 and injects compressed air in the same direction as the irradiation direction of the laser beam irradiating unit 22, The hot melt film 2 located on the outer side of the shoe pattern to be cut by pressing the hot melt film 2 to cut the pattern fabric 1 is pressed against the lower portion of the pattern fabric 1 and the base fabric 4 (30) for attaching the upper portion of the footwear (30) to each other. The air conditioner according to claim 2, wherein the compressed air injector (30)
An air inflow part 31 installed at one side of the lower end of the main body 21 of the laser 20 and through which compressed air flows,
And an air receiving portion which is located inside the main body 21 of the laser 20 and is located outside the laser beam irradiating portion 22 and communicates with the air inflow portion 31 to receive the inflow air, 32,
The laser beam irradiating unit 22 is disposed at a lower end of the main body 21 of the laser 20 and communicates with the air receiving unit 32 and is radially disposed at a predetermined interval on the outer periphery of the laser beam irradiating unit 22, And an air discharging part (33) for discharging the accommodated air in the same direction as the irradiation direction of the laser beam irradiating part (22). delete delete delete delete delete The method of claim 3,
Characterized by further comprising a separating portion (60) provided at a front end of the collecting means (50) for separating the remaining hot pattern (2) from the remaining pattern fabric (1) cut by the laser (20) Automatic laminating device of sewing shoe upper.

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