KR101774270B1 - Apparatus for partially colorring of slide fastener - Google Patents

Abstract

The present invention relates to a partial coloring apparatus for a slide fastener, and a partial coloring apparatus for a slide fastener according to an embodiment of the present invention includes a fixing unit for exposing a part of a surface while fixing a slide fastener, A heating unit positioned at an upper portion of the slide fastener to heat the heating unit to a predetermined temperature and a pressing unit for vertically moving the heating unit such that the transfer film is pressed onto a part of the surface of the slide fastener, A separator for separating the transfer film from the slide fastener after the transfer film is thermocompression-bonded to a part of the surface of the slide fastener by the pressing portion, and a separator for separating the transfer film from the slide fastener, And the pressurizing portion presses the transfer film against the slide fastener table After a crimp on a control unit for controlling to drive the separation unit.
Thus, the transfer film can be transferred to a part of the surface of the slide fastener for coloring.

Description

[0001] APPARATUS FOR PARTIALLY COLORING OF SLIDE FASTENER [0002]

TECHNICAL FIELD [0001] The present invention relates to a partial coloring apparatus for a slide fastener, and more particularly, to a technique for partially coloring a transfer film on a slide fastener by partially pressing the transfer film.

A slide fastener, called a zipper, is a locking device widely used in apparel, goods and the like. Slide fasteners are provided with serrated teeth arranged side by side on a cloth tape arranged side by side. When the sliders are pulled so that the teeth on both sides engage and engage with each other, pulling the center knob of the slider causes the teeth of both sides to pass through the slider When the slider is moved downward in the opposite direction, the slider moves between the teeth that are engaged with each other to release the engaged state of the teeth of the both sides, and the openings are opened while being separated from each other.

Among the conventional techniques related to the coloring method of the slide fastener, Korean Patent Registration No. 10-1193325 (published on October 19, 2012) discloses a method of directly applying a liquid polyurethane resin to a back side of a zipper, To a waterproof zipper coating method and apparatus and a coating head apparatus of a direct coating type which impart waterproofness to a supporting tape surface of a zipper by dry coating processing.

However, in the conventional technique, there is a limitation that the upper part of the zipper is coated so that the color of the tooth part of the zipper can not be colored or a part thereof can not be colored.

It is an object of the present invention to provide a method of transferring a transfer film for coloring to a surface of a slide fastener at a low temperature by transferring a transfer film onto a part of the surface of the slide fastener, And it is an object of the present invention to provide a partial coloring apparatus for a slide fastener which can prevent deformation when a transfer film is transferred onto a surface thereof and can improve ozone treatment on the surface thereof,

A partial coloring apparatus for a slide fastener according to an embodiment of the present invention includes a fixing unit for exposing a part of a surface while fixing a slide fastener, a transferring unit for transferring the transferring film to an upper portion of the slide fastener, A pressing portion for vertically moving the heating portion so that the transfer film is pressed onto a part of the surface of the slide fastener; and a pressing portion for pressing the transfer film by the pressing portion, A separator for separating the transfer film from the slide fastener after thermocompression bonding to a part of the surface of the slide fastener; and a controller for controlling the surface temperature of the heating part to a predetermined temperature, And a control unit for controlling to drive the separating unit after pressing on the surface of the fastener .

In addition, the pressing portion is formed of a cylindrical roller so that the transfer film and the slide fastener are pulled and pressed along the outer peripheral surface of the roller so that the transfer film can be pressed onto a part of the surface of the slide fastener.

The slide fastener is formed by injecting a PCTG injection material at 285 캜 at an injection pressure of 80 to 100 bar, cooling the glass material for 3 seconds, and heating the surface to 110 캜 or more and less than 130 캜.

Further, the slide fastener may further include a preheating unit for preheating the slide fastener to 60 to 70 占 폚 using a halogen lamp.

The apparatus may further include an ozone treatment unit for spraying ozone onto the upper portion of the slide fastener.

Thus, the transfer film can be transferred to a part of the surface of the slide fastener for coloring. Further, the transfer film for coloring can be transferred to the surface of the slide fastener at a low temperature. Further, deformation can be prevented at the time of transferring the transfer film to the surface of the slide fastener at a high temperature. Further, the surface of the film can be treated with ozone to improve the adhesion of the transfer film.

1 is a structural view of a partial coloring apparatus for a slide fastener according to an embodiment of the present invention;
Fig. 2 is an exemplary view for explaining the movement of the pressing portion of the partial coloring apparatus of the slide fastener according to Fig. 1,
3 is an exemplary view for explaining the driving of the fixing portion and the separating portion of the partial coloring apparatus of the slide fastener of FIG.
Fig. 4 is an exemplary view for explaining a slide fastener and a transfer film by the partial coloring apparatus of the slide fastener shown in Fig. 1; Fig.
5 is a configuration diagram of a partial coloring apparatus for a slide fastener according to another embodiment of the present invention,
6 is a configuration diagram of a partial coloring apparatus for a slide fastener having a roller-shaped pressing section according to another embodiment of the present invention,
7 is an exemplary view for explaining a comparative washing experiment for a colored portion of a slide fastener according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of the functions in the embodiments, and the meaning of the terms may vary depending on the user, the intention or the precedent of the operator, and the like. Therefore, the meaning of the terms used in the following embodiments is defined according to the definition when specifically defined in this specification, and unless otherwise defined, it should be interpreted in a sense generally recognized by those skilled in the art.

FIG. 1 is a structural view of a partial coloring apparatus for a slide fastener according to an embodiment of the present invention, and FIG. 2 is an exemplary view for explaining the movement of the pressing section of the partial coloring apparatus of the slide fastener of FIG.

1 and 2, a partial coloring apparatus 100 of a slide fastener according to an embodiment of the present invention includes a fixing unit 110, a transfer unit 120, a heating unit 130, a pressing unit 140, A separation unit 150 and a control unit 160. [

The fixing part 110 fixes the slide fastener 10 and exposes a part of the surface. The fixing part 110 is formed on the base 111 with a plurality of fixing plates 112 being spaced apart from each other. The transferring film 20 is formed only on the spaced apart portion of the fixing portion 110 when the transferring film 20 is pressed by the heating portion 130 after the transferring film 20 is formed on the fixing portion 110, To be thermally compressed. In this case, the slide fastener 10 is formed of PCTG (Polycyclohexylene Dimethyl Terephthalate Glycol) material, and is preferably capable of being transferred to the surface even at a low temperature and not being easily deformed even at a high temperature. Further, it is preferable that the slide fastener 10 is formed by injecting a PCTG injection material at 285 캜 at an injection pressure of 80 to 100 bar, and then cooling it for 3 seconds.

The transfer unit 120 transfers the transfer film 20 to the upper portion of the slide fastener 10. The transfer unit 120 is constituted by a plurality of rollers and serves to transfer the transfer film 20 with a preset pressing force. In this case, the transfer unit 120 preferably aligns the transfer film 20 to a position corresponding to the teeth of the slide fastener 10. The rollers constituting the transfer unit 120 may be formed in a plurality of rollers, and may be changed according to user settings. In addition, the rotational speed and the rotational direction of the rollers constituting the transfer unit 120 may vary depending on the user's setting.

The heating unit 130 is located above the slide fastener 10 and heats it to a predetermined temperature. The heating unit 130 moves up and down vertically by a pressing unit 140 described later. For example, the heating portion 130 may be heated to a surface temperature of 110 ° C or more and less than 130 ° C or less. This is to ensure that the transfer film 20 is transferred to the surface of the slide fastener 10 even at a low temperature. The transfer film 20 is composed of a release paper 21 and a transfer paper 22 and the transfer paper 22 is bonded onto the release paper 21. [ In this case, the transfer film 20 to be transferred to the slide fastener 10 of PCTG material preferably has a melting point of 110 ° C or more and less than 130 ° C.

Further, the surface temperature of the heating unit 130 may be more than 160 DEG C but not more than 170 DEG C. The heating unit 130 can generate heat with electricity or gas as a heat source and the surface temperature of the heating unit 130 can be set differently depending on the type of the transfer film 20. [ For example, the heating unit 130 may be heated by setting the surface temperature of the heating unit 130 to 110 ° C. or more and less than 130 ° C. when the transfer film 20 is low temperature, The surface temperature of the heating unit 130 may be set to be higher than 160 ° C and lower than 170 ° C.

The pressing portion 140 vertically moves the heating portion 130 so that the transfer film 20 is pressed on a part of the surface of the slide fastener 10. For example, the pressing portion 140 may operate in a pneumatic or hydraulic manner. The pressing portion 140 can press the transfer film 20 against the surface of the slide fastener 10 with a pressing force of 3 to 4 kg / cm2. The pressurizing unit 140 stops the heating unit 130 for a predetermined period of time and then vertically moves up and down to return to its original position. The exposed portion of the slide fastener 10 is thermocompression-bonded while the pressing portion 140 presses the heating portion 130 toward the transfer film 20 side. 2 shows that the pressing portion 140 lowers the heating portion 130 and thermally compresses the transfer film 20 on a part of the surface of the slide fastener 10.

The separation unit 150 has a function of separating the transfer film 20 from the slide fastener 10 after the transfer film 20 is pressed on a part of the surface of the slide fastener 10 by the pressing unit 140 do. For example, the separator 150 may be formed as a '-' shaped bar so that the slide fastener 10 and the transfer film 20 can be separated while moving in the horizontal direction. The separating unit 150 operates when the heating unit 130 is lowered by the pressing unit 140 to thermally press the transfer film 20 thereon and thereafter ascends and descends. The separator 150 may be configured to reciprocate at a predetermined speed in the horizontal direction, but is not limited thereto.

The control unit 160 controls the surface temperature of the heating unit 130 to a predetermined temperature. For example, the control unit 160 may set the surface temperature of the heating unit 130 to 110 ° C. or more and less than 130 ° C., or 160 ° C. to less than 170 ° C. The control unit 160 can control the pressing force of the pressing unit 140 to be vertically lowered to 3 to 4 kg / cm 2. The control unit 160 controls the pressing unit 140 to drive the separating unit 150 after thermocompression bonding the transferring film 20 to the surface of the slide fastener 10. The control unit 160 may control the heating unit 130, the pressing unit 140 and the separating unit 150 to operate manually by driving the control switch 161. [ In this case, the control switch 161 can be implemented in the same manner as the pedal.

Fig. 3 is an exemplary view for explaining driving of the fixing unit and the separating unit in the partial coloring apparatus of the slide fastener according to Fig. 1;

Referring to FIG. 3, the slide fastener 10 is fixed by the fixing portion 110 so that a part of the surface is exposed. In this case, the surface of the slide fastener 10 exposed by the fixing portion 110 can be set differently in size depending on the setting by the user. When the transfer film 20 is thermally pressed onto the slide fastener 10, the separator 150 is driven. The separation unit 150 separates the slide fastener 10 from the transfer film 20 while moving the upper portion of the fixing unit 110 horizontally. The separator 150 can completely separate the slide fastener 10 and the transfer film 20 while moving reciprocally horizontally.

Fig. 4 is an exemplary view for explaining a slide fastener and a transfer film by the partial coloring apparatus of the slide fastener shown in Fig. 1. Fig.

4 (a) shows a state before the transfer film 20 is transferred to the slide fastener 10, (b) shows a state after the transfer film 20 is transferred from the slide fastener 10 Lt; / RTI > The slide fastener 10 is formed of a PCTG material in a state where the slide fastener 10 is engaged and the transfer film 20 is transferred onto the surface of the slide fastener 10 by a predetermined temperature and pressure, do. In this case, the transfer film 20 can be formed in various colors according to user setting. The transfer film 20 is formed of a release paper 21 and a transfer paper 22 and a portion of the transfer paper 22 formed on the release paper 21 which is in contact with a part of the surface of the slide fastener 10 is transferred. when the transfer film 20 is pressed against a part of the surface of the slide fastener 10 in the state shown in Fig. 5A, the portion of the slide fastener 10 is transferred as shown in Fig.

5 is a configuration diagram of a partial coloring apparatus for a slide fastener according to another embodiment of the present invention.

5, a partial coloring apparatus 500 of a slide fastener 10 according to another embodiment of the present invention includes a fixing unit 510, a transfer unit 520, a heating unit 530, a pressing unit 540, A separation unit 550, a control unit 560, and a preheating unit 570. The description of the fixing unit 110, the heating unit 130, the pressing unit 140, and the separating unit 150 of the partial coloring apparatus 100 of FIG. 1 will be omitted.

The transfer unit 520 transfers the slide fastener 10 to the fixing unit 510 side via the conveyor belt 525. A preheating portion 570, which will be described later, is disposed on one side of the upper portion of the conveyor belt 525, and a fixing portion 510 is disposed on the other side of the upper portion. The conveyor belt 525 transports the slide fastener 10 at a predetermined speed. In this case, the driving speed of the conveyor belt 525 may vary depending on the user's setting. Accordingly, it is possible to prevent the slide fastener 10, which is elongated in the longitudinal direction, from being tangled with the transfer film 20, and to automatically transfer the slide fastener 10.

The preheating part 570 preheats the slide fastener 10 of the PCTG material. Here, the slide fastener 10 is formed of PCTG (Polycyclohexylene Dimethyl Terephthalate Glycol) material, and it is preferable that the slide fastener 10 has properties such that it can be transferred to the surface even at a low temperature and is not easily deformed even at a high temperature. The preheating part 570 can use a halogen lamp and firmly adhere the slide fastener 10 and the transfer film 20. The preheating portion 570 can selectively preheat part or all of the surface of the slide fastener 10. [

Meanwhile, the partial coloring apparatus 500 of the slide fastener according to FIG. 5 may further include an ozone processing unit 580. The ozone treatment section 580 injects ozone into the upper portion of the slide fastener 10. The ozone treatment section 580 can increase the adhesive force with the transfer film 20 by adjusting the frictional force of the surface of the slide fastener 10. The ozone treatment section 580 can selectively preheat part or all of the surface of the slide fastener 10.

Meanwhile, the partial coloring apparatus 500 of the slide fastener according to FIG. 5 may further include a vision inspection unit 590. The vision inspection portion 590 is for judging whether or not the transfer film 20 is correctly adhered to the surface of the slide fastener 10. The vision inspection unit 590 detects a coloring pattern and outputs a failure signal when the predetermined coloring pattern is not satisfied. The vision inspecting unit 590 can output a defective signal even when the colored part of the slide fastener 10 is peeled off.

The control unit 560 drives the conveyor belt 525 to convey the slide fastener 10. The preheating unit 570 or the ozone treatment unit 580 is operated at an upper portion of one side of the conveyor belt 525. In this case, the control unit 560 can perform preheating treatment or ozone treatment on part or all of the surface of the slide fastener 10. The control unit 560 drives the separating unit 550 after the transfer film 20 is transferred to a part of the surface of the slide fastener 10 and then performs the vision inspection on the upper portion of the slide fastener 10 to be conveyed, ≪ / RTI > A portion of the slide fastener 10 where a defective signal is present can be separated.

6 is a configuration diagram of a partial coloring apparatus of a slide fastener having a roller-shaped pressing section according to another embodiment of the present invention.

6, a partial coloring apparatus 600 of a slide fastener according to an embodiment of the present invention includes a fixing unit 610, a transferring unit 620, a heating unit 630, a pressing unit 640, 650 and a control unit 660.

The fixing portion 610 exposes a part of the surface while fixing the slide fastener 10. The fixing portion 610 is formed by spacing a plurality of plate members from each other. And may be formed at a lower portion of one side of the pressing portion 640 formed of a cylindrical roller, which will be described later. The fixing part 610 is formed between the slide fastener 10 and the transferring film 20 and the heating part 630 is used only in the spaced apart space of the fixing part 610 when the transferring film 20 is compressed So that the film 20 is thermally pressed. In this case, the slide fastener 10 is formed of PCTG (Polycyclohexylene Dimethyl Terephthalate Glycol) material, and is preferably capable of being transferred to the surface even at a low temperature and not being easily deformed even at a high temperature. Further, it is preferable that the slide fastener 10 is formed by injecting a PCTG injection material at 285 캜 at an injection pressure of 80 to 100 bar, and then cooling it for 3 seconds.

The transfer unit 620 transfers the slide fastener 10 and the transfer film 20 along the outer peripheral surface of the pressing unit 640, which will be described later. The transfer unit 620 is composed of a plurality of rollers and serves to transfer the transfer film 20 by a predetermined pressing force. In this case, the feeder 620 can be pressed by the inner transfer film 20 while the slide fastener 10 is pulled along the outer peripheral surface of the pressing portion 640 of the cylindrical roller. The rollers constituting the transfer unit 620 may be formed in a plurality of rollers, and may be changed according to user settings. In addition, the rotation speed and the rotation direction of the rollers constituting the transfer unit 620 may be changed according to the setting of the user.

The heating unit 630 is located inside the pressing unit 640 and heats it to a predetermined temperature. The heating section 630 heats the outer surface of the pressing section 640 described later. For example, the heating portion 630 may be heated to a temperature of 110 ° C or more and less than 130 ° C on the surface of the pressing portion 640. This is to ensure that the transfer film 20 is transferred to the surface of the slide fastener 10 even at a low temperature. The transfer film 20 is composed of a release paper 21 and a transfer paper 22 and the transfer paper 22 is bonded onto the release paper 21. [ In this case, the transfer film 20 to be transferred to the slide fastener 10 of PCTG material preferably has a melting point of 110 ° C or more and less than 130 ° C.

The pressing portion 640 is formed of a cylindrical roller, and the outer surface of the pressing portion 640 can maintain a predetermined surface temperature by the heating portion 630. The slide fastener 10 is wound around the outer peripheral surface of the pressing portion 640 and the transfer film 20 is positioned between the slide fastener 10 and the outer surface of the pressing portion 640. When the slide fastener 10 is pulled along the outer surface of the pressing portion 640 and pressed, the transfer film 20 located on the inner side is thermocompression bonded to a part of the surface of the slide fastener 10. A silicone pad 641 is formed on a part of the outer surface of the pressing portion 640. This is to prevent the transfer film 20 from being fused to the outer surface of the pressing portion 640 by excessive heat.

The separating portion 650 is formed of a plurality of rollers spaced from each other. For example, one of the rollers rolls the slide fastener 10 and the other roller rolls the transfer film 20. In this case, the force by which the slide fastener 10 is rolled can be set to be larger than the force by which the transfer film 20 is rolled. This is to increase the adhesive force of the transfer film 20 by pressing the slide fastener 10 further onto the outer surface of the pressing portion 640. The slide fastener 10 and the transfer film 20 are separated from each other as the separating portion 650 rolls the separated door.

The control unit 660 controls the surface temperature of the heating unit 630 to a predetermined temperature. For example, the control unit 660 may set the surface temperature of the heating unit 630 to 110 ° C or more and less than 130 ° C or 160 ° C to less than 170 ° C. The control unit 660 controls the pressing unit 640 to drive the separating unit 650 after thermocompression bonding the transferring film 20 to the surface of the slide fastener 10.

6 may further include a preheating unit 670 and an ozone treatment unit (not shown). The description thereof is the same as that of the preheating portion 570 and the ozone treatment portion 580 of FIG. 5, so that a description thereof will be omitted.

7 is an exemplary view for explaining a comparative washing experiment for a colored portion of a slide fastener according to the present invention.

Referring to FIG. 7, a comparison test of the laundry was conducted by the Korea Clothing Inspection & Research Institute. (a) is formed by injecting a slide fastener with an acetal material at 115 ° C at an injection pressure of 50 to 60 bar, and cooling the slide fastener for 1 second. (B) shows a slide fastener according to the present invention formed by injection molding a PCTG material at 285 ° C. at an injection pressure of 80 to 100 bar, followed by cooling for 3 seconds. These test results were evaluated for dry cleaning fastness (evaluated using perchlorethylene at 30 ° C for 30 minutes) and wash fastness (evaluated using a general detergent at 40 ° C for 30 minutes) for (a) and (b) It is.

Through the above test, (a) and (b) showed a high degree of discoloration and contamination, but in (a), it can be seen that a substantial part of the transferred area of the transfer paper is peeled off. On the other hand, (b) shows that most of the transfer area is retained in its original state. As described above, it can be seen that the use of the slide fastener of the present invention minimizes the deviation of the transfer film.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the present invention should be construed as a description of the claims which are intended to cover obvious variations that can be derived from the described embodiments.

10: Slide fastener 20: Transfer film
21: release paper 22: transfer paper
100: partial coloring apparatus 110:
111: base 112: fixed plate
120: transfer part 130: heating part
140: pressing portion 150: separating portion
160: control unit 161: control switch
500: partial coloring apparatus 510:
520: conveying section 525: conveyor belt
530: Heating section 540:
550: separator 560:
561: Control switch 570: Preheating part
580: ozone processing unit 590: vision inspection unit
600: partial coloring apparatus 610:
620: transfer part 630: heating part
640: pressing portion 641: silicone pad
650: separator 660:
670:

Claims (5)

A fixing part formed on the base and spaced apart from each other to expose a part of the surface while fixing the slide fastener;
A transferring part for transferring the transfer film to an upper portion of the slide fastener;
A heating unit positioned above the slide fastener and heating the slide fastener to a predetermined temperature;
A pressing part for vertically moving the heating part such that the transfer film is pressed onto a part of the surface of the slide fastener;
And the transfer film is horizontally reciprocated between the slide fastener and the transfer film, and the transfer film is transferred to the transfer film by the pressure application unit, A separator for separating the film from the slide fastener;
A vision inspection unit for visually inspecting the color pattern on the upper portion of the slide fastener; And
And a controller for controlling the surface temperature of the heating unit to a predetermined temperature and controlling the pressing unit to drive the separator after pressing the transfer film against the surface of the slide fastener to determine whether the slide fastener is defective Of the slide fastener. The method according to claim 1,
The pressing portion
Wherein the transfer film is made of a cylindrical roller, and the transfer film and the slide fastener are pulled and pressed along the outer peripheral surface of the roller so that the transfer film is pressed onto a part of the surface of the slide fastener. 3. The method according to claim 1 or 2,
The slide fastener is formed by injecting a PCTG injection material at 285 캜 at an injection pressure of 80 to 100 bar, cooling for 3 seconds,
Wherein the heating portion is heated to a temperature of 110 占 폚 or more and less than 130 占 폚. 3. The method according to claim 1 or 2,
Further comprising a preheating portion for preheating the slide fastener to 60 to 70 占 폚 by using a halogen lamp. 3. The method according to claim 1 or 2,
Further comprising an ozone treatment section for spraying ozone on the upper portion of the slide fastener.

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