KR20090097311A - Method of manufacturing mesh coated liquid silicone rubber - Google Patents

Abstract

A method for manufacturing meshes coated with liquid silicone rubber is provided to exhibit excellent releasing and anti-slipping properties as well as steam-permeability and separability. A method for manufacturing meshes coated with liquid silicone rubber comprises the following steps of: shrink-proof treating a mesh cloth with pores(D); coating the mesh cloth(B) with a liquid silicone rubber composition with viscosity of 300~500,000cps; and spraying the air to the mesh cloth before the liquid silicone rubber composition is dried. The maximum diameter of the pore of the mesh cloth is 1~10mm. The mesh cloth is selected from the group consisting of synthetic fiber, natural fiber and glass fiber.

Description

Method of manufacturing mesh coated liquid silicone rubber

The present invention relates to a method for manufacturing a mesh coated with liquid silicone rubber (hereinafter referred to as "coating mesh"), and more specifically, liquid silicone rubber is coated to have excellent release property and anti-slip, and thus, a steamed cooking pallet or various A method of making a mesh useful as a non-slip pad.

Conventionally, cotton fabric has been mainly used as a pad for cooking steamed dumplings or rice cakes. However, cotton fabrics are poorly released from foods, so foods are not separated from cotton fabrics. There was a problem, foreign matters such as seams of cotton fabrics were stained with food and contaminated food, there was also a problem that the cotton fabric is easily contaminated with a single use and need to wash.

On the other hand, as non-slip pads, non-woven fabrics, woven fabrics, knitted fabrics, etc. have been mainly used, there was a problem of low slip resistance.

Silicone rubber sheet has also been used to improve the problems of the conventional steamed cooking pad or non-slip pads, but the silicone rubber sheet does not form voids and does not pass the steam when steamed cooking, and the non-slip function There was a problem such as difficult to separate after use because it is too close to the bottom surface.

On the other hand, in order to improve the various problems as described above, the idea of using a coated mesh coated with a liquid silicone rubber while the mesh pores are maintained on the mesh fabric has been proposed, but the mesh to maintain the mesh pores intact The method of coating the liquid silicone rubber on the fabric has not been developed, there was a problem that can not be applied.

That is, the conventional coating method has a problem that all or part of the pores in the mesh fabric is clogged by the liquid silicone rubber.

In the present invention, in order to solve the above problems, the liquid silicone rubber is coated on the mesh fabric while the pores in the mesh fabric are kept intact, and excellent in releasability and anti-slip property, and also excellent in vapor passability and bottom and separation properties. Liquid silicone rubber provides a method of making the mesh.

Method for producing a mesh (coated mesh) coated with a liquid silicone rubber according to the present invention

(Iii) preshrunk the mesh fabric in which the voids are formed;

(Ii) coating a liquid silicone rubber composition having a viscosity of 300-500,000 centipoise on the preshrunk mesh fabric; And

(Iii) spraying air onto the mesh fabric coated with the liquid silicone rubber composition before the liquid silicone rubber composition coated on the mesh fabric is dried.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, the present invention preshrunk the mesh fabric in which the voids are formed.

Preferably, the maximum length of the voids formed in the mesh fabric is 1 to 10 mm, and the mesh fabric is made of synthetic fibers such as polyamide fiber, polyester fiber, polypropylene fiber, cotton fiber, recycled fiber, silk fiber, and the like. It is composed of the same natural fiber or glass fiber.

When the maximum length of the pore is less than 1mm, steam passability may be reduced when used as a pad for steaming cooking, and when used as various non-slip pads, separation may be reduced from the bottom surface.

On the other hand, if the maximum length of the voids exceeds 10mm form stability is lowered, such as a problem that can be inconvenient handling.

The preshrunk process is a sanforizing processing method for compressing and washing the mesh fabric, a rigmel processing method for passing the mesh fabric between the rotating rubber sheet and the heating plate, and a heat setting processing for applying heat to the mesh fabric to fix it. Method, mercerization processing method of immersing mesh fabric in sodium hydroxide solution, organic silane treatment processing method of impregnating solution containing organic silane compound into mesh fabric, one of urea-formaldehyde resin or melamine-formaldehyde resin It is carried out by a resin processing method such as impregnating a mesh fabric.

More preferably, the organic silane treatment processing method is preferable.

Specifically, it is preferable to coat the organic silane compound on the mesh fabric by immersing the mesh fabric in an aqueous solution in which the organic silane compound is dissolved.

Next, the liquid silicone rubber composition having a viscosity of 300 to 500,000 centipoise (cps) is coated on the preshrunk mesh fabric.

As a method of coating the liquid silicone rubber composition on the mesh fabric, a comma coating method, a roller coating method, a gravure coating method, a spray coating method, or a dipping coating method may be used.

The liquid rubber silicone rubber composition preferably further comprises at least one selected from pigments, fillers and primers.

The primer serves to enhance the adhesive force between the liquid silicone rubber composition and the mesh fabric, and is a metalvinylhydrogen polysiloxane, hydroxyl polysiloxane, methylvinyl polysiloxane or methylphenyl polysiloxane.

As the filler, silica such as fused silica or precipitated silica, diatomaceous earth, calcium oxide or calcium carbonate may be used.

Next, before the liquid silicone rubber composition coated on the mesh fabric is dried, air is sprayed onto the mesh fabric coated with the liquid silicone rubber composition.

The air spray is performed to prevent the pores of the mesh fabric from being blocked by the liquid silicone rubber composition.

The silicone rubber is a platinum catalyst type addition type or a peroxide addition type condensation type or the like.

It is preferable that no organic solvent is added to the liquid silicone rubber composition, and when the organic solvent is included, a nonpolar organic solvent such as toluene, xylene, heptane and the like is included.

For example, a process of manufacturing a coating mesh using a dipping coating method may be carried out by dipping the mesh fabric supplied from the mesh fabric supply roller 1 into the liquid silicone rubber composition liquid bath 2 using the coating roller 3 as shown in FIG. 2. After the drying, the liquid silicone rubber composition coated on the mesh fabric is sprayed with air, more preferably hot-air, to the air spray nozzle 4 and then dried with the dryer 5 before the liquid silicone rubber composition is completely dried. The coated mesh is manufactured by winding in a winding roller (6).

2 is a process schematic diagram of manufacturing a coating mesh according to the present invention by dipping coating method.

The coating mesh (A) manufactured by the manufacturing method of the present invention has a cross-sectional structure in which the liquid silicone rubber (C) is coated on the mesh fabric (B) while the voids (D) of the mesh fabric are maintained as shown in FIG. 1. Have

1 is a schematic cross-sectional view of the coated mesh produced by the present invention.

It is preferable that the thickness of the coating mesh manufactured by this invention is 50-1,000 micrometers.

The present invention can coat the liquid silicone rubber on the mesh fabric while the pores in the mesh fabric remain intact.

Therefore, the coating mesh produced according to the manufacturing method of the present invention is excellent in releasability and anti-slip, and also excellent in vapor permeability and separation from the bottom surface.

As a result, the coated mesh produced according to the production method of the present invention is useful as a steamed cooking pallet or various non-slip pads.

Hereinafter, the present invention will be described in detail through examples.

However, the protection scope of the present invention is not limited by the following examples.

Example  One

The mesh fabric (B) formed of voids (D) having a maximum length of 5 mm and formed of polyester fibers was dipped in a pretreatment solution composed of 95 g of water and 5 g of aminosilane, and then dried at 160 ° C. for 3 minutes. Fabric (B) was preshrunk.

Next, the preshrunk-processing liquid silicone rubber composition which consists of 94 weight% of addition liquid silicone rubbers of viscosity 3,000 centipoise, 5.0 weight% of pigments, 0.5 weight% of molten silica, and 0.5 weight% of methylvinylhydrogen polysiloxanes The coated mesh fabric (B) by a comma knife coating method, and then hot-air is heated onto the mesh fabric coated with the liquid silicone rubber composition using an air spraying device before the coated liquid silicone rubber composition is dried. Sprayed on, and then dried at 80 ° C. for 3 minutes and then dried at 200 ° C. for 4 minutes to prepare a coated mesh.

The results of evaluating various physical properties of the prepared coating mesh are shown in Table 1.

Coated Mesh Properties Property item Example 1 Thickness (㎛) 580 Weight (g / ㎡) 340 Tensile strength (N / 50㎜) in the longitudinal direction (inclined direction of mesh fabric) 147.96 Elongation (%) in the longitudinal direction (inclined direction of mesh fabric) 53.32 Tensile strength in width direction (weft direction of mesh fabric) (N / 50mm) 144.55 Elongation rate (%) of width direction (weft direction of mesh fabric) 63.69 Liquid Silicone Rubber Content (wt%) 55

Figure 1 is a schematic cross-sectional view of a mesh made of a liquid silicone rubber coated with the present invention.

2 is a process schematic diagram of manufacturing a coating mesh according to the present invention in a dipping coating method.

* Code description for main parts of the drawings

A: Mesh coated with liquid silicone rubber

B: mesh fabric

C: liquid silicone rubber coating layer

D: void

1: mesh fabric supply roller 2: liquid silicone rubber bath composition

3: coating roller 4: air spray nozzle

5: dryer

6: winding roller of mesh coated with liquid silicone rubber

Claims (9)

(Iii) preshrunk the mesh fabric in which the voids are formed; (Ii) coating a liquid silicone rubber composition having a viscosity of 300-500,000 centipoise on the preshrunk mesh fabric; And (Iii) injecting air onto the mesh fabric coated with the liquid silicone rubber composition before the liquid silicone rubber composition coated on the mesh fabric is dried to produce a liquid silicone rubber-coated mesh, comprising: Way. The method of claim 1, wherein the maximum length of the voids formed in the mesh fabric is 1 to 10 mm. According to claim 1, wherein the mesh fabric is a method of producing a liquid silicone rubber coated mesh, characterized in that consisting of one selected from synthetic fibers, natural fibers and glass fibers. The method of claim 1, wherein the preshrunk process is a sanforizing process for compressing and washing the mesh fabric, a Rigmel processing method for passing the mesh fabric between the rotating rubber sheet and the heating plate, and applying heat to the mesh fabric. Heat fixation process for fixing, mercerization process for immersing mesh fabric in sodium hydroxide solution, organic silane treatment process for impregnating solution containing organic silane compound in mesh fabric, urea-formaldehyde resin and melamine-formaldehyde A method for producing a liquid silicone rubber coated mesh, characterized in that it is carried out by one processing method selected from the group consisting of a resin processing method of impregnating one kind of resin into a mesh fabric. The method of claim 1, wherein the thickness of the mesh coated with the liquid silicone rubber is 50 to 1,000 μm. The liquid silicone rubber composition of claim 1, wherein the liquid silicone rubber composition is coated on the mesh fabric by one method selected from a comma coating method, a roller coating method, a gravure coating method, a spray coating method, and a dipping coating method. Method for producing a mesh coated with liquid silicone rubber. The liquid silicone rubber of claim 1, wherein the liquid silicone rubber composition further comprises at least one selected from pigments, fillers, and primers to enhance adhesion between the liquid silicone rubber composition and the mesh fabric. Method of Making Coated Mesh. 8. The method of claim 7, wherein the filler is one selected from silica, diatomaceous earth, calcium oxide and calcium carbonate. 8. The method of claim 7, wherein the primer is one selected from the group consisting of methyl methylhydrogen polysiloxane, hydroxyl polysiloxane, methyl vinyl polysiloxane, and methylphenyl polysiloxane.

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