KR20170025911A - Appartus and method for manufacturing Fabric with Flat Silicon Pattern, and the Fabric - Google Patents

Abstract

The present invention relates to an apparatus and a method for manufacturing fabric with a flat silicone pattern, by pressing and thermally hardening liquid silicone convexly coated on silicone-coated fabric transferred from a silicone coating unit while passing a heating roller and a silicone rubber roller, so as to realize a silicone pressing pattern, and the fabric manufactured thereby. According to the present invention, since the silicone pressing pattern is formed on the surface of fabric, unique characteristics of the fabric can be exhibited well so the pattern can be used in a clothing field difficult to be used in the past. Moreover, the silicone pressing pattern is formed on the surface of fabric, thin touch feeling of fabric can be exhibited in the case of glove having an anti-slip function on the surface of the palm, and bonding strength between silicone resin and the fabric can be largely increased. Moreover, since a silicone-cured pressing pattern is formed on the surface of fabric in a short time, a functional material, such as bio ceramics, tourmaline, etc. with a relatively greater specific gravity than that of the liquid silicone can be widely dispersed on the surface of a stereoscopic silicone pattern, so functionality is effectively exhibited on the surface of the stereoscopic pattern. Moreover, since the silicone pressing pattern is formed on the surface of fabric, the stereoscopic silicone pattern on the surface of fabric exhibits a glittering pattern effect.

Description

Technical Field [0001] The present invention relates to an apparatus for manufacturing a fabric having a silicon pressure pattern, a fabrication method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for manufacturing a fabric having a silicone pressure pattern, a manufacturing method thereof, and a fabric thereof. In particular, the present invention relates to a method of making a silicone pressure sensitive silicone rubber sheet, which has a silicon pressure pattern that allows convexly coated liquid silicone of a silicone coated fabric transferred from a silicone coating portion to be pressed and thermally cured by passing between a heating roller and a silicone rubber roller, A manufacturing method of the fabric, and a fabric thereof.

In general, the method of printing three-dimensional patterns on a fabric using liquid silicone is applied to the production of gloves, socks, and an eyeglass for slip prevention and the like.

This technique is known as 'Inventive Patent No. 10-724245', which is a continuous production method of a uniform wide-spread coating of silicon with a constant thickness of silicon in a continuous operation on a 60-inch fabric.

However, although it is possible to print silicon on the front surface of the fabric, there is a limitation in that the silicon can not be printed on only a part of the fabric or a specific design can not be realized on the fabric.

As shown in FIG. 1, a technique of heating and drying liquid silicone 104 flowing through design holes 102 of various shapes such as circular or polygonal shapes formed on a design roller 101 to solidify the fabric 103, A method of manufacturing a wide pattern of a polka dot pattern is disclosed in Japanese Patent No. 10-655223 of the applicant, but it has a limit in that it can not only represent a stereoscopic point but also express a prototype.

In order to overcome this, as shown in FIG. 2, a knife support plate 35 is fastened to the knife 34 pushing the liquid silicone so that the knife and the knife support plate have a shape like a comma knife, A technique that can print various designs such as a circular shape on a fabric while a plurality of liquid silicon on a fabric is gathered with other neighboring liquid silicon by raising the pressure applied to the liquid silicone that escapes to the fabric through the design hole of the roller 31 , The invention is known as a patent application No. 10-1269525 of the applicant.

However, this is disadvantageous in that the fabric is not used for clothes because the fabric is axially sagged, stretched, and ironing lines do not appear due to the silicone three-dimensional pattern of water droplets protruding from the surface of the fabric, and there is a disadvantage in that the glove In the process of drying and solidifying the liquid silicone mixed with functional materials such as bioceramics and tourmaline, which has a relatively larger specific gravity than liquid silicone, in the form of a solid polka dot pattern, the functional material There is a problem in that the effect of the functional material is reduced by half when the particles of a substantial number of the particles are scattered in the three-dimensional polka dot pattern.

In addition, a thermoplastic resin such as a polyurethane resin or a PVC resin is heated again after solidification, and when the foil film is heated and pressed with a heating roller by utilizing the phenomenon of melting from the surface, a foil film is transferred to the surface of the foil film The silicone resin is a thermosetting resin. Therefore, since the silicone resin is a thermosetting resin, once it has been cured, it has a releasing property that does not adhere to any substance, so that the shiny pattern effect due to the transfer coating of the foil film It can not be obtained.

Korean Registered Patent No. 10-655223 (Registered on Dec. 01, 2006) Korean Registered Patent No. 10-724245 (Registered on May 25, 2007) Korean Registered Patent No. 10-1269525 (registered on March 5, 2013)

The present invention has been conceived to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method of manufacturing a silicon cloth by forming a silicon compression pattern on a surface of a fabric, A method of manufacturing a fabric having a silicone crimping pattern for imparting a sparkle effect to a garment, and a fabrication method thereof.

Another object of the present invention is to provide a silicone rubber glove having a silicone solid pattern formed on a palm surface, which can express a thin touch of a fabric in the case of a glove having a slip prevention function and the like. A method of manufacturing a fabric having a silicon crimping pattern and a fabrication method thereof.

It is another object of the present invention to provide a method for manufacturing a silicone solid pattern in which a silicon pressure pattern is hardened and formed on a surface of a fabric in a short time so that a functional material such as bioceramic or tourmaline having a relatively larger specific gravity than liquid silicone is distributed on the surface of the silicone solid pattern, A method for manufacturing a fabric having a silicone pressure pattern, and a fabrication method thereof.

In order to accomplish the above object, the present invention provides a process for producing a liquid silicone rubber composition, comprising: a silicone raw material supply part including a compounding agent passing raw material pump and supplying liquid silicone for printing on a fabric; A fabric supply part including a unwinder wound around the fabric and a plurality of guide rollers for supplying the fabric; A silicone coating part including a design roller and a silicone rubber roller rotatably installed to support the design roller and coating the liquid silicone supplied from the silicone raw material supplying part onto the raw material supplied from the raw material supplying part; Wherein the convexly coated liquid silicone of the silicone coated fabric transferred from the silicone coating part is heated and pressed between the heating roller and the silicone rubber roller And forming a silicone squeezing pattern on the fabric by pressing and thermally curing the silicone squeezing pattern; And a test and packaging unit that includes a rewinder and inspects and packs the fabric having the silicone pressure pattern transferred from the silicone pressure pattern forming unit. The present invention also provides an apparatus for manufacturing a fabric having a silicone pressure pattern.

Preferably, the heating roller is coated with a fluororesin (Teflon) whose surface is excellent in releasability with respect to the silicone resin in order to improve the peelability of the thermosetting silicone pressure pattern.

Preferably, the silicon squeezing pattern forming part is provided with a vertically moving cylinder including a thickness adjusting device on the upper part of the silicon rubber roller to adjust the thickness of the silicon squeezing pattern.

The present invention also relates to a method of manufacturing a semiconductor device, comprising the steps of: coating a liquid silicone supplied from a silicon raw material supply unit to a raw material supplied from a raw material supply unit; Pressing and thermosetting the silicone-coated fabric with the convexly coated liquid silicone passing between the heating roller and the silicone rubber roller to form a silicone pressure pattern on the fabric; And inspecting and packaging the fabric having the silicon compression pattern formed thereon. The present invention also provides a method of manufacturing a fabric having a silicon compression pattern.

The step of forming the silicon squeezing pattern preferably includes adjusting the thickness of the silicon squeezing pattern by providing a vertically moving cylinder having a thickness adjusting device on top of the silicon rubber roller.

Also, the step of forming the silicon squeezing pattern preferably includes setting the temperature of the heating roller at 120 to 180 DEG C and setting the rotation speed of the heating roller at 5 to 10 m / min according to the material of the fabric.

The present invention also provides a fabric having a silicone crimp pattern produced by the manufacturing apparatus or the manufacturing method of the present invention.

The present invention makes it possible to utilize the unique characteristics of the fabric by forming a silicon compression pattern on the surface of the fabric, so that it can be used for the garment field which has been difficult to be used in the past, and gives sparkle effect to the garment.

In addition, the present invention has the effect of significantly increasing the bonding strength between the silicone resin and the fabric in the case of a glove having a slip-proof function on the palm surface by forming a silicon pressure pattern on the cloth surface, .

Further, according to the present invention, by forming a silicon hardening pressed pattern on the surface of a fabric in a short time, a functional material such as bio ceramic, tourmaline, or metal powder having a relatively larger specific gravity than liquid silicone is distributed on the surface of the silicon solid pattern, The function is effectively expressed in the cells.

1 is a perspective view showing a raw material 103 and a design roller 101 for printing liquid silicon 104 on the raw material 103. Fig.
FIG. 2 is a schematic view showing an apparatus for manufacturing a fabric having a silicon compression pattern according to an embodiment of the present invention.
3 is a schematic cross-sectional view showing the internal structure of the design roller 31 in the fabric manufacturing apparatus of FIG.
4 is an enlarged schematic view showing the main part of the silicon squeeze pattern forming unit 40 in the fabricating apparatus of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same elements of the drawings are denoted by the same reference numerals even if they are shown in different drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a schematic view showing an apparatus for manufacturing a fabric having a silicon compression pattern according to an embodiment of the present invention. 2, an apparatus for producing a raw material having a silicone pressure pattern according to an embodiment of the present invention includes a compounding chemical container 11 and a raw material pump 12, and supplies liquid silicone for printing to the raw material 23 A silicon raw material supply unit 10 for supplying the silicon raw material; A raw material supplying unit 20 including an unwinder 21 and a guide roller 22; A design roller 31 for coating liquid silicone supplied from the silicon raw material supply unit 10 to the raw material 23 supplied from the raw material supplying unit 20 and a supporting roller 23 for supporting the raw material 23 and the design roller 31 And a silicone rubber roller (32) rotatably installed on the silicon coating part (30). And a silicone rubber roller 43 rotatably mounted on the heating roller 41 and engaged with the heating roller 41. The convexly coated silicone coated fabric 30, which has been transferred from the silicone coated portion 30, A silicon squeezing pattern forming part 40 which is pressed and cured by passing the liquid silicone between the heating roller 41 and the silicone rubber roller 43 to form a silicon squeezing pattern 45; And a test and packaging unit 50 including a rewinder 51 and inspecting and packaging the fabric having the silicon compression pattern 45 transferred from the silicon compression pattern forming unit 40.

The silicon raw material supply unit 10 is a device for supplying the liquid silicon 13. A liquid silicone 13 having a viscosity of 50,000 CPS to 150,000 CPS filled in the compounding chemical container 11, that is, a room temperature vulcanizing silicone or a liquid silicone rubber among silicone materials, The raw material pump 12 is driven by the power transmitted from a driving motor (not shown) to be supplied to the raw material supply pipe 33 inside the design roller 31.

Here, the liquid silicone 13 filled in the chemical compound container 11, for example, 100 parts of additive type room temperature curing silicone or liquid silicone rubber, 0.1 to 10 parts of a curing agent, 5 to 10 parts of silicone oil, 10 to 40 parts of silica, diamond, calcium carbonate, tourmaline (tourmaline), bioceramics powder, metal powder and the like are stirred by a vacuum degassing mixer (not shown), and bubbles generated in this process are removed.

The raw material supplying unit 20 is provided with a unwinder 21 wound around the raw material 23 and rotatably installed in the raw material supplying unit 20 and the raw material 23 is unwound from the unwinder 21, And the fabric 23 is supplied to the coating portion 30. [

The silicone coating 30 is a device for printing (coating) the liquid silicone on the fabric 23.

A plurality of vertical supports and horizontal supports are coupled in a stepwise manner so that a silicone rubber roller 32 supporting the fabric 23 and the design roller 31 is rotatably mounted. The roller 31 is rotatably mounted. The silicone rubber roller 32 receives power from a driving motor (not shown) through a belt (not shown) and a speed reducer (not shown) and transfers the raw material 23 supplied from the raw material feeding portion 20 to a subsequent process do.

3 is a schematic view showing a state where the liquid silicone 13 supplied from the raw material supply pipe 33 is passed through the design hole of the design roller 31 and the knife 34, ).

Since the knife support plate 35 is screwed to the front surface of the knife 34 whose height is controlled, that is, in the direction in which the liquid silicone 13 supplied from the raw material supply pipe 33 comes into contact with the knife 34, The liquid silicone 13 is pressed by the knife support plate 35 and spreads on the inner surface of the design roller 31. The knife 34 then exits through the design hole of the design roller 31 to the fabric.

The height of the design roller 31 can be adjusted by adjusting the distance between the design roller 31 and the silicone rubber roller 32 by adjusting the distance between the design roller 31 and the silicone rubber roller 32, The height of the liquid layer 34 controls the thickness of the liquid silicone printed (coated) on the fabric 23.

The silicon crimping pattern forming portion 40 is formed by pressing the convexly coated liquid silicone 13 of the silicon coated cloth transferred from the silicon coating portion 30 as shown in Fig. 4 onto the heating roller 41 and the silicone rubber roller 43 And then forming the silicon compression pattern 45 by pressing and thermosetting.

2, when the convexly coated liquid silicone 13 of the fabric is pressed between the heating roller 41 and the silicone rubber roller 43, the gold foil film 47 attached to the gold foil film supply roll 47, a stamping foil film is put between the heating roller 41 and the silicone rubber roller 43 and the pattern of the foil film is transferred and peeled off through the heating roller 41 and the silicone rubber roller 43, The gold foil film may be transferred to the surface of the silicon pressure pattern 45 in such a manner that the gold foil film remaining after the transfer is rewound on the gold foil take-up roll 48. In this case, the gold foil film supply roll 47 and the gold foil film take-up roll 48 are connected to the heating roller 41 by a pulley so as to have the same drive speed.

The heating roller 41 is rotated at a rotating speed of 5 to 10 m / min depending on the material of the material, while maintaining the temperature at 120 to 180 ° C by the heater 42 provided inside the heating roller 41, Is coated with an excellent fluorocarbon resin (Teflon), thereby enhancing the peelability of the thermosetting silicone pressure-sensitive pattern 45.

A silicone pressure sensitive adhesive layer 45 is formed by press-bonding the convexly coated liquid silicone 13 of silicone-coated fabric transferred from the silicone coating portion 30 between the high-temperature heating roller 41 and the silicone rubber roller 43, A vertically moving cylinder 44 including a thickness adjusting device and a thickness measuring and displaying device (not shown) are provided on the upper part of the silicone rubber roller 43 to adjust the thickness of the silicon rubber roller 43.

Further, a silicone rubber roller 46 for peeling off the raw fabric having the silicone pressure pattern 45 formed thereon from the heating roller 41 is additionally provided.

The inspection and packaging unit 50 inspects the quality of the fabric formed with the silicon compression pattern 45 transferred from the silicon compression pattern formation unit 40 and winds the rewinder 51 on the rewinder 51, A plurality of guide rollers 52 installed in the path from the silicon squeezing pattern forming portion 40 to the inspection and packaging portion 50 for cooling the fabric having the silicon squeezing pattern 45 peeled off from the roller 41 do.

The scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described in the foregoing. In addition, it should be noted that the scope of protection of the present invention can not be limited by obvious changes or substitutions in the technical field of the present invention.

10: Silicon raw material supply part
11: Drug container for compounding
12: raw material pump
13: liquid silicone
20:
21:
22: guide roller
23: Fabric
30: Silicon coated part
31: Design rollers
32: Silicone rubber roller
33: raw material supply pipe
34: Knife
35: Knife support plate
40: Silicone crimping pattern forming part
41: Heating roller
42: heater
43: Silicone rubber roller
44: Up and down cylinder
45: Silicone crimp pattern
46: Silicone rubber roller
47: Gold foil film supply roll
48: Gold foil film winding roll
50: inspection packing section
51: Rewinder
52: guide roller
101: Design rollers
102: Design Hall
103: Fabric
104: liquid silicone

Claims (9)

A silicon raw material supply portion 10 including a compounding chemical tank 11 and a raw material pump 12 and supplying liquid silicone for printing to the raw material 23;
A fabric feeder 20 for feeding a fabric, the fabric feeder comprising a winding roll 21 and a plurality of guide rollers 22;
And a silicone rubber roller 32 rotatably mounted on the design roller 31 while supporting the design roller 31. The liquid silicone supplied from the silicon raw material supply unit 10 is supplied to the raw material supplying unit 20, A silicon coating part 30 for coating the raw material 23 supplied from the silicon substrate 30;
And a silicone rubber roller 43 rotatably mounted on the heating roller 41 and engaged with the heating roller 41. The convexly coated silicone coated fabric 30, which has been transferred from the silicone coated portion 30, A silicon squeezing pattern forming portion 40 for pressing and thermally curing the liquid silicone while passing between the heating roller 41 and the silicone rubber roller 43 to form a silicon squeezing pattern 45 on the raw fabric;
And an inspection and packaging unit 50 including a rewinder 51 and inspecting and packaging the fabric having the silicon compression pattern 45 transferred from the silicon compression pattern formation unit 40. [ Wherein the apparatus has a silicon crimping pattern. The method according to claim 1,
The heating roller 41 is coated with a fluororesin (Teflon) whose surface is excellent in releasability with respect to the silicone resin in order to improve the peeling property of the thermosetting silicone pressure pad 45. [ Fabric manufacturing device. The method according to claim 1,
The silicon squeezing pattern forming unit 40 is provided with a vertically moving cylinder 44 having a thickness adjusting device on the upper part of the silicon rubber roller 43 to adjust the thickness of the silicon squeezing pattern 45 Wherein the apparatus has a silicon crimping pattern. Coating liquid silicone supplied from a silicon raw material supply unit (10) to a raw material (23) supplied from a raw material supply unit (20);
Pressing and thermosetting the silicon-coated fabric with the convexly coated liquid silicone passing between the heating roller 41 and the silicone rubber roller 43 to form a silicon pressure pattern 45 on the raw fabric;
And inspecting and packaging the fabric having the silicon compression pattern (45) formed thereon. 5. The method of claim 4,
The step of forming the silicon crimping pattern 45 may be performed in such a manner that when the convexly coated liquid silicone 13 at the original end is pressed between the heating roller 41 and the silicone rubber roller 43, Is put between the heating roller 41 and the silicone rubber roller 43 and the pattern of the gold foil film is transferred and peeled off through the heating roller 41 and the silicone rubber roller 43 , And transferring the gold foil film to the surface of the silicon squeezing pattern in such a manner that the gold film remaining after the pattern transfer is rewound on the gold film winding roll (48). 5. The method of claim 4,
The step of forming the silicon pressure pattern 45 may include adjusting the thickness of the silicon pressure pattern by providing a vertical movement cylinder 44 having a thickness adjusting device on the upper side of the silicone rubber roller 43 ≪ / RTI > wherein the method comprises the steps of: 5. The method of claim 4,
The step of forming the silicon pressure pattern 45 may be performed by maintaining the temperature of the heating roller 41 at 120 to 180 DEG C and setting the rotation speed of the heating roller 41 to 5 to 10 m / Wherein the method comprises the steps of: A fabric produced by the manufacturing apparatus of claim 1 or the manufacturing method of claim 4 and having a silicone crimp pattern. A fabric produced by the manufacturing method of claim 5 and having a silicone crimp pattern with a gold foil film transferred onto the surface.

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