KR102261036B1 - Chassis connection pad composition applied to large glass - Google Patents

Abstract

The present invention relates to a pad composition for chassis connection applied to a large glass, and more particularly, to a pad composition for chassis connection applied to a large glass, improved to reduce manufacturing costs and improve productivity by localizing a pad that connects and assembles the chassis, a glass frame, provided to install the large glass constituting an exterior wall of a large building at regular intervals, while flame retardancy, and waterproof and windproof properties are increased to the same or higher level than those of existing ones.

Description

Chassis connection pad composition applied to large glass

The present invention relates to a chassis connection pad composition applied to large glass, and more particularly, to a pad for connecting and assembling a glass fixed frame chassis provided for installing large glass constituting an outer wall of a large building at regular intervals, flame retardant, It relates to a chassis connection pad composition applied to improved large glass to reduce manufacturing cost and improve productivity by localizing the waterproof and windproof properties to the same or higher level than the existing ones.

In the case of large buildings, in consideration of the interior and exterior, the exterior walls are usually finished with large glass.

Since such large glass is very heavy, it must be handled with care, but the chassis constitutes the glass frame to protect the glass.

And, when the large glass is arranged and finished, a pad is interposed between the chassis and the chassis so that the construction can be carried out while maintaining a certain interval.

However, this pad has very strict specifications because it has to have more than a considerable level of flame retardancy, waterproofness, and windproofness.

For this reason, it seems simple, but the situation is that all of them are imported from Japan.

Therefore, domestic technology development related to this field has hardly been made, and therefore, it is necessary to revitalize the domestic market and develop domestic technology.

Domestic Registered Patent No. 10-2077341 (2020.02.07.) Insulation and glass panel support structure of the window frame chassis at the center bar part where the window chassis overlaps each other in the sliding window

The present invention was created to solve the above-mentioned problems in the prior art, as a pad for connecting and assembling glass fixed frame chassis provided for installing large glass constituting the exterior wall of a large building at regular intervals, flame retardant, Its main purpose is to provide a chassis connection pad composition applied to improved large glass to reduce manufacturing cost and improve productivity by localizing the waterproof and windproof properties to the same or higher level than the existing ones.

The present invention is a means for achieving the above object, as a pad composition for molding a pad for connecting a chassis applied to large glass, the pad composition, a silicone resin comprising 2 parts by weight of vinyl triethoxysilane (VTEOS) 70% by weight, 15% by weight of a mixture of kaolin and liquid hydrocarbon in a 1:3 weight ratio, 5% by weight of aluminum hydroxide, 5% by weight of cynoacrylate, 2% by weight of epoxy resin, and 2% by weight of phenylimidazole It provides a pad composition for chassis connection applied to large glass, characterized in that it consists of 1% by weight and 1% by weight of pearlite fine powder.

At this time, with respect to 100 parts by weight of the pad composition, 10 parts by weight of calcium chloride, 5 parts by weight of prop-2-enoic acid, and 10 parts by weight of butyl prop-2-enoate are further added.

According to the present invention, as a pad for connecting and assembling the glass fixed frame chassis provided for installing the large glass constituting the exterior wall of a large building at regular intervals, it is localized with increased flame retardancy, waterproofness and windproof properties to the same level or higher than the existing ones. An improved effect can be obtained to reduce manufacturing cost and improve productivity.

Before describing the present invention in more detail, the terms or words used in the present specification and claims should not be limited to their ordinary or dictionary meanings, and the concept of terms should be properly explained in order to best describe the invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

The pad composition for chassis connection applied to the large glass according to the present invention should be formulated to sufficiently reflect the characteristics of the field.

For example, the pad according to the present invention should have strong flame retardancy and should not generate toxic gas even when burned.

In particular, only when the elastic restoring force is maintained over a wide temperature range, there is little compressive deformation and thus safety can be improved.

According to the present invention, a pad composition is configured to realize these characteristics, and a pad for chassis connection is made by molding the composition.

To this end, the pad composition according to the present invention contains 70% by weight of a silicone resin containing 2 parts by weight of vinyltriethoxysilane (VTEOS), 15% by weight of a mixture of kaolin and a liquid hydrocarbon in a 1:3 weight ratio, and hydroxide 5% by weight of aluminum, 5% by weight of cynoacrylate, 2% by weight of an epoxy resin, 2% by weight of phenylimidazole, and 1% by weight of pearlite fine powder.

At this time, the silicone resin is a component having elastic restoring force over a very wide range from -100°C to 250°C, and is added as a main component in the present invention because the compressive deformation rate is small even in extreme conditions.

In particular, vinyl triethoxysilane (VTEOS) should be used in an amount of 2 parts by weight, preferably 1-3 parts by weight, in order to prevent a decrease in elongation at break compared to tensile strength. That is, it is possible to secure tensile strength, elongation at break and tear strength by acting as a coupling agent to induce siloxane bonding.

Moreover, this composition further enhances the waterproof function of silicone.

And, kaolin (kaolin) as Al ₂ Si ₂ O ₅ (OH) ₄ , fire resistance, that is, the flame retardancy is significantly increased. However, it must be mixed with liquid hydrocarbon to enhance its properties. At this time, the preferred ratio is a weight ratio of 1:3, and liquid hydrocarbons include mineral oil, CM-n isoparaffin, isohexadecane, etc., and excellent solubility of solid content, thereby enhancing the flame retardancy by increasing the dispersion bonding force. Moreover, interfacial drop-off is also suppressed.

In addition, aluminum hydroxide enhances flame retardancy by preventing hydrophobization of the polymer and inducing hydrophilization to increase self-curing properties.

In addition, cynoacrylate increases low-temperature curability to harden in case of fire, thereby increasing flame retardancy.

In addition, the epoxy resin is added to enhance the binding force of the component and secure the dispersion stability of the inorganic material so that the function expression is smoothly expressed. However, since curing may be delayed, phenylimidazole must be used together to prevent this.

And, perlite is a grayish-white siliceous mineral derived from a volcano, and is a material that enhances incombustibility.

When the composition is molded in this way, not only the flame retardancy is strengthened, but also windproof and waterproof properties due to appropriate elasticity can be secured, so that it is possible to sufficiently replace imported goods.

To confirm this, samples were made and requested to the Korea Research Institute of Chemical Convergence to evaluate whether they met the standards in the field.

As a result of the evaluation, the test report was received as follows, and the flame retardant pass, tensile strength, and elongation were all higher than the existing material, that is, it exceeded the standard. Through this, it was confirmed that independence through localization is possible.

[Test report]

In the present invention, in addition to the above-described properties, 10 parts by weight of calcium chloride, 10 parts by weight of calcium chloride, 10 parts by weight of prop-2-with respect to 100 parts by weight of the pad composition in order to inhibit cracking due to layer separation between the inorganic material and the polymer, and to block the moisture-proof and waterproof function thereof. 5 parts by weight of enoic acid and 10 parts by weight of butyl prop-2-enoate may be further added.

At this time, calcium chloride as an inorganic binder binds inorganic and organic materials to prevent layer separation and contributes to strengthening the bonding.

In addition, prop-2-enoic acid (CH ₂ CHCOOH) imparts an anionic functional group to the polymer to increase dispersion and miscibility of inorganic substances, and rapidly increase waterproofness and water repellency.

In addition, butyl prop-2-enoate (CH ₂ CHCOOC ₄ H ₉ ) contributes to polymer modification to increase ductility and prevent deterioration to enhance corrosion resistance.

In addition, in the present invention, 10 parts by weight of ethylene glycol diacetate with respect to 100 parts by weight of the pad composition to secure high tensile and compressive strength while further increasing uniform filling, durability and water resistance, and to strengthen the rust prevention function, 5 parts by weight of sodium silicate and 5 parts by weight of phenyltrimethoxysilane may be further added.

In this case, ethylene glycol diacetate gels sodium silicate by neutralizing action. In addition, sodium silicate enhances heat resistance, and phenyltrimethoxysilane is very effective in inhibiting freezing due to its high freezing inhibitory property. Therefore, durability is strengthened by suppressing cracking due to shrinkage and expansion.

Claims (2)

As a pad composition for molding a chassis connection pad applied to large glass, 70% by weight of a silicone resin containing 2 parts by weight of vinyl triethoxysilane (VTEOS), and a mixture of kaolin and liquid hydrocarbon in a 1:3 weight ratio 15 Chassis connection applied to large glass composed of weight %, aluminum hydroxide 5% by weight, cynoacrylate 5% by weight, epoxy resin 2% by weight, phenylimidazole 2% by weight, and pearlite fine powder 1% by weight In the pad composition for use;
Based on 100 parts by weight of the pad composition, 10 parts by weight of calcium chloride, 5 parts by weight of prop-2-enoic acid, 10 parts by weight of butyl prop-2-enoate, 10 parts by weight of ethylene glycol diacetate, and 5 parts by weight of sodium silicate And, a pad composition for connecting a chassis applied to a large glass, characterized in that 5 parts by weight of phenyltrimethoxysilane is further added. delete