KR101836802B1 - Material for glass insulation and broken prevention - Google Patents

Abstract

The present invention relates to a glass insulating and breakage preventing material. The glass insulating and breakage preventing material according to the present invention is prepared by mixing a silicone resin, silica, an acryl solvent, and a curing agent, the silicone resin includes a room temperature curable two liquid-type silicone gel resin and a thermosetting one liquid-type silicone adhesive resin, the silicone resin is prepared by mixing 90 to 97 wt% of the room temperature curable two liquid-type silicone gel resin with 3 to 10 wt% of the thermosetting one liquid-type silicone adhesive resin, and, to promote curing of the room temperature curable two liquid-type silicone gel resin and the thermosetting one liquid-type silicone adhesive resin, the curing agent is any one selected from the group consisting of a composition in which a platinum-containing compound and carbon black are mixed, a composition in which the platinum-containing compound and fumed titanium dioxide are mixed, a composition in which the platinum-containing compound and an azo compound are mixed, a composition in which a platinum compound and iron oxide are mixed, a composition in which the platinum-containing compound and a triazole-based compound are mixed, and a composition in which the platinum-containing compound and an organosilicon compound containing a nitrogen-containing organic group and an unsaturated group are mixed. The glass insulating and breakage preventing material according to the present invention has effects of having excellent transparency, maintaining indoor heat conservation, and preventing scattering of glass fragments when breakage of glass occurs. Further, the glass insulating and breakage preventing material according to the present invention can be usefully used since humidity is not generated when adhering the glass insulating and breakage preventing material to an automobile front window. Further, the glass insulating and breakage preventing material according to the present invention can prevent contamination of glass due to residues of an adhesive or remaining material.

Description

[0001] MATERIAL FOR GLASS INSULATION AND BROKEN PREVENTION [0002]

[0001] The present invention relates to a material for preventing glass breakage, and more particularly, to a material for preventing glass breakage and cracking, which is excellent in transparency and prevents the glass fragments from scattering when the room is kept warm and glass breakage occurs.

The insulation film prevents the hot air outside the window from entering the building through the glass in the summer, which helps to reduce indoor air-conditioning costs. On the other hand, it protects the warmth of the room from being lost to the outside of the building through the glass in winter.

And, the safety film increases the strength of the glass to withstand the external impact, protects the body from debris by preventing splattering in the event of breakage.

In reality, it is necessary to develop a material that can simultaneously perform the role of insulating film and safety film.

As a related art patented technology, there is no concern that the ink layer, which is not exposed to the surface of the printing layer, is harmful to the human body and is absorbed into the human body through skin contact or breathing, The adhesive sheet has a reversed print layer which shows a figure facing the surface on the back surface and a synthetic resin film made of a transparent or semi-transparent material so that the reversed print layer can be seen from the surface side, And adhered to one surface of the heat insulating layer by an adhesive (see Patent Document 1).

And a connection layer formed by laminating on the surface of the heat insulating layer and coated with an adhesive and drying the adhesive. The adhesive is dissolved and reacted with water to be adhered to the surface to be adhered when the adhesive is applied, and the polyvinyl alcohol resin 10 Sensitive adhesive sheet comprising 20 to 40% by weight of water, 30 to 40% by weight of methanol, 1 to 2% by weight of an antifoaming agent, 3 to 10% by weight of an adhesive reinforcing agent and 5 to 20% by weight of flour (See Patent Document 2).

The present invention also provides a glass safety film which is attached to glass and protects the glass, wherein the glass safety film comprises a mesh-like mesh including a plurality of hollows, and an adhesive layer capable of adhering the mesh, Wherein the mesh disperses a force of an external impact applied to the glass safety film so as to prevent glass breakage and scattering of glass fragments when an external force is applied to the glass with the glass safety film attached thereto A glass safety film using a mesh has been proposed (see Patent Document 3).

Korean Patent No. 10-1186438 Korean Patent No. 10-1642337 Korean Patent No. 10-1122530

An object of the present invention is to provide a glass heat insulating and breaking preventive material which is excellent in transparency (transparency) and can effectively prevent glass fragments from scattering when the room is maintained at a low temperature and glass breakage occurs.

According to an aspect of the present invention, there is provided a glass heat-insulating and crack-preventing material comprising: a silicone resin; Silica; An acrylic solvent; A hardening agent is added to the silica, and the bonding force of the silica through the silicon nano-coating is increased to improve the cohesive force between the molecules, and a thin layer is laminated in multiple layers to form a single structure through the hot rolling process.
Here, the silicone resin may be mixed at a ratio of 90 to 97% by weight of a room temperature curing type two-component silicone gel resin and 3 to 10% by weight of a thermosetting one-part silicone pressure sensitive adhesive resin.

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The curing agent is preferably a composition comprising a combination of a platinum-containing compound and carbon black, a composition comprising a platinum-containing compound and a fumed titanium dioxide in order to promote curing of a room-temperature curing two-component silicone gel resin and a thermosetting one- A composition comprising a platinum-containing compound and an azo compound, a composition comprising a platinum compound and an iron oxide, a composition comprising a platinum-containing compound and a triazole-based compound, a platinum-containing compound and a nitrogen- And one composition may be selected.

A viscosity modifier; Wherein the viscosity modifier is a dimethyl cyclo-poly siloxane as the silicone oil, and the ultraviolet light blocking agent is 2-ethylhexyl p-methoxy cinnamate, 2-ethylhexyl N-dimethyl-p-aminobenzoate, p-aminobenzoic acid, 2-phenylbenzimidazole-5-sulfonic acid, octocrylene, oxybenzone, homomethyl salicylate, octyl salicylate, 3-benzylidene champhor, 3- (4-methylbenzylidene) camphor, anthanilate, ultrafine dioxide, and the like. Titanium, zinc oxide, silica and iron oxide, and mixtures thereof, 4-N, N- (2-ethylhexyl) methylaminobenzoate ester of 2,4-dihydroxybenzophenone, 4 -N, N- (2-ethylhexyl) methylaminobenzoic acid ester, 2-hydroxy-4- (2-hydroxyethoxy) benzophenone 4-N, N- 2-ethylhexyl) methylaminobenzoic acid ester, 4-N, N- (2-ethylhexyl) methylaminobenzoic acid ester of 4- (2-hydroxyethoxy) dibenzoylmethane, and mixtures thereof .

In order to ensure visibility, the material should have a surface resistivity of 10 ⁴ to 10 ¹⁰ ohm / sq, a cohesive force of 1,000 gf or less, and a stripping charge characteristic of 1,000 V or less so that the light transmittance is 90% Lt; / RTI >

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INDUSTRIAL APPLICABILITY According to the present invention, transparency (transparency) is excellent, and glass fragments are effectively prevented from scattering when the room is maintained at a low temperature and glass breakage occurs. Also, it is very useful because it does not generate moisture when it is attached to windshield of car. Further, it is possible to prevent the glass from being contaminated by a residue of a pressure-sensitive adhesive or residue.

In the following description of the present invention, a 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.

The glass heat-insulating and anti-cracking material according to the present invention is excellent in transparency (transparency) and is designed to prevent scattering of glass fragments in the event of maintenance of the room temperature and glass breakage.

The glass heat-insulating and anti-cracking material according to the present invention mainly comprises a silicone resin; Silica; An acrylic solvent; And a curing agent are compounded.

That is, silica is mixed with silica as a filler in a silicone resin so as to exhibit an excellent glass heat-insulating property and a fracture-preventing function.

At this time, the silicone resin can be made of a room temperature curing type two-component type silicone gel resin and a thermosetting one-part type silicone pressure sensitive adhesive resin.

The thermosetting one-pack type pressure-sensitive adhesive resin may be a polymer or a low molecular substance including epoxy resin, phenolic resin, furan resin, and ester vinyl.

The room temperature curing type two-component type silicone gel resin and the thermosetting one-part type silicone pressure sensitive adhesive resin may be mixed at a ratio of 90 to 97% by weight and 3 to 10% by weight.

The curing agent is preferably a composition comprising a combination of a platinum-containing compound and carbon black, a composition comprising a platinum-containing compound and a fumed titanium dioxide in order to promote curing of a room-temperature curing two-component silicone gel resin and a thermosetting one- A composition in which a compound and an azo compound are combined, a composition in which a platinum compound and an iron oxide are combined, a composition in which a platinum-containing compound and a triazole-based compound are combined, a composition in which a platinum-containing compound is combined with an organic silicon compound having a nitrogen- And the like.

At this time, the content of the platinum compound is preferably in the range of 0.1 to 2 phr (per hundred resin) with respect to the silicone resin content.

The glass heat-insulating and anti-cracking material according to the present invention can improve the cohesive force between the molecules by increasing the bonding force through the silicon nano-coating to the silica, and the single layer structure can be formed through the high temperature rolling process by layering the layers of the thin film.

The glass heat-insulating and anti-cracking material according to the present invention may be formed by further blending a viscosity modifier, such as silicone oil. Specifically, the viscosity modifier may be dimethyl cyclo-poly siloxane. The viscosity modifier may reduce the viscosity of the silicone resin including the two-pack type silicone gel resin.

The glass heat-insulating and anti-cracking material according to the present invention can be produced by further blending an ultraviolet screening agent.

The ultraviolet ray shielding agent includes an ultraviolet ray scattering agent and an organic material such as PABA that prevents an ultraviolet ray from penetrating due to a physical scattering action using an inorganic material such as titanium dioxide to penetrate ultraviolet rays by a chemical absorption action There is a "ultraviolet absorber" that destroys. Ultraviolet absorbers are required to have high chemical stability, absorption in a wide range of ultraviolet rays, high stability against heat and light, and properties that do not react with other components.

Most of ultraviolet absorbers are aromatic compounds having a carbonyl group, and electron donors such as amino group (Amino Group) and methoxy group (electron group) are located at the ortho or para position of the benzene ring . It absorbs ultraviolet rays of high energy with a short wavelength and is converted into infrared rays of low energy which is harmless to the human body and is gradually emitted.

This is because their chemical structure has a resonance structure that is advantageous for ultraviolet absorption. PABA and Glyceryl P-Aminobenzoate are excellent in ultraviolet absorption effect but have a problem in safety. Ultraviolet absorbers have the advantage of increasing blocking range and effect when used in combination because they have different blocking effects depending on areas. PABA and its derivatives, salicylic acid derivatives, and cinnamic acid derivatives are early sun protection agents.

Among them, octylmethoxy cinnamate (OMC) and butyl methoxydibenzoyl methane (BMDM), which are derivatives of cinnamic acid, and UV-A absorber are widely used.

Benzophenone systems are also commonly used as UV-A absorbers. The ultraviolet scattering agent is an opaque material that reflects or disperses ultraviolet rays and visible rays, and titanium dioxide (titanium dioxide) and zinc oxide (ZnO) are used. The ultraviolet scattering agent has no deterioration of the ultraviolet shielding effect over time, has less legal restrictions on the composition limit, has high safety, and has a wide ultraviolet absorption wavelength band.

Examples of the ultraviolet screening agent to be used in the present invention include 2-ethylhexyl p-methoxy cinnamate, 2-ethylhexyl N, N-dimethyl-p- aminobenzoate, Methoxy-t-butyldibenzoylmethane, 4-isopropyldibenzoylmethane, 3-benzyl-4-methoxybenzylmethane, 4-isopropyldibenzoylmethane, 4-isopropyldibenzoylmethane, (3-benzylidene champhor), 3- (4-methylbenzylidene) champer, anthanilate, ultrafine titanium dioxide, zinc oxide, silica and iron oxide, and mixtures thereof, 2,4-dihydroxybenzo 4-N, N- (2-ethylhexyl) methylaminobenzoic acid ester of 4-hydroxydibenzoylmethane, 2-hydroxy-4- 4-N, N- (2-ethylhexyl) methylbenzoic acid ester of 4- (2-hydroxyethoxy) benzophenone, 4- 2-ethylhexyl) methylaminobenzo But are not limited to, those selected from the group consisting of acid esters, and mixtures thereof.

In order to ensure visibility, the glass heat-insulating and anti-cracking material according to the present invention preferably has a light transmittance of 90% or more (for example, 92% to 95%) and a surface resistance of 10 ⁴ to 10 ¹⁰ ohm / sq, an adhesive force of 1,000 gf or less, and a peeling electrification characteristic of 1,000 V or less.

The use of the glass heat-insulating and anti-cracking material according to the present invention has an excellent transparency (transmittance) and is effective in effectively preventing scattering of glass fragments in the event of maintenance of the room temperature and occurrence of glass breakage. Also, it is very useful because it does not generate moisture when it is attached to windshield of car. Also, since silicon acts as a pressure-sensitive adhesive, the glass is not contaminated by sticky residue or residues when it is detached after being attached to the glass.

Although the present invention has been described with respect to a limited number of embodiments, it is to be understood that the scope of the present invention is not limited to the specific embodiments, Various modifications, alterations, and alterations can be made within the scope of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (7)

As a material used to prevent glass insulation and breakage,
A silicone resin; Silica; An acrylic solvent; A curing agent is prepared by compounding,
Wherein the adhesion of the silica to the silica is increased to increase the cohesive force between the molecules through the silicon nano-coating to form a single structure through a high-temperature rolling process by layering the layers of the thin film. The method according to claim 1,
Wherein the silicone resin is mixed at a ratio of 90 to 97% by weight of a room temperature curing type two-component type silicone gel resin and 3 to 10% by weight of a thermosetting one-part type silicone pressure sensitive adhesive resin. delete The method of claim 2,
The curing agent is preferably a composition comprising a combination of a platinum-containing compound and carbon black, a composition comprising a platinum-containing compound and a fumed titanium dioxide in order to promote curing of a room-temperature curing two-component silicone gel resin and a thermosetting one- A composition in which a compound and an azo compound are combined, a composition in which a platinum compound and an iron oxide are combined, a composition in which a platinum-containing compound and a triazole-based compound are combined, a composition in which a platinum-containing compound is combined with an organic silicon compound having a nitrogen- Wherein the glass material is one selected from the group consisting of glass, glass, and glass. The method according to claim 1,
A viscosity modifier; A sunscreen is further formulated,
The viscosity modifier may be a silicone oil such as dimethyl cyclo-poly siloxane,
The ultraviolet screening agent may be at least one selected from the group consisting of 2-ethylhexyl p-methoxy cinnamate, 2-ethylhexyl N, N-dimethyl-p- aminobenzoate, p- aminobenzoic acid, 3-benzylidene champhor, 4-isopropyldibenzoylmethane, 4-isopropyldibenzoylmethane, 4-isopropyldibenzoylmethane, Titanium oxide, zinc oxide, silica, iron oxide, and mixtures thereof, or a mixture of 4- (4-methylbenzylidene) quinazoline, 2,4-dihydroxybenzophenone 4- N, N- (2-ethylhexyl) methylaminobenzoic acid ester of 4-hydroxydibenzoylmethane, 2-hydroxy-4- (2- 4-N, N- (2-ethylhexyl) methylaminobenzoic acid ester of benzophenone, 4- (2-ethylhexyl) ) Methyl < Benzoic acid esters, and mixtures thereof. ≪ Desc / Clms Page number 24 > delete The method according to claim 1,
The material has a surface resistance of 10 ⁴ to 10 ¹⁰ ohm / sq, an adhesive force of 1,000 gf or less and a peeling charging property of 1,000 V or less so that the light transmittance is 90% or more and the residue is not left so as to ensure visibility Features glass insulation and anti-cracking material.