KR200399699Y1 - Anionic photocatalyst safty mat - Google Patents

Abstract

The present invention relates to an anion photocatalyst mat, and more particularly, in a mat laminated with a plurality of layers, the top layer of the mat is pulverized with titanium oxide or zinc oxide based photocatalyst into fine particles of 0.01 to 100 nm to the top layer. It relates to an anion photocatalyst mat composed of an anion photocatalyst layer added by 1 to 10% by weight.

Description

Anionic photocatalyst safty mat

The present invention relates to an anion photocatalyst mat, and more particularly, in a mat laminated with a plurality of layers, the top layer of the mat is pulverized with titanium oxide or zinc oxide based photocatalyst into fine particles of 0.01 to 100 nm to the top layer. It relates to an anion photocatalyst mat composed of an anion photocatalyst layer added by 1 to 10% by weight.

Photocatalyst electron (e ^-) to the surface absorbs light over the band gap (band gap) as a semiconductor material and holes (h ⁺⁾ are generated, and, thus generated electrons and studied the abundant around us water and oxygen to Is converted into hydroxyl radical (OH ·) or active oxygen (O ₂ ⁻ ) with very high oxidative activity, and these are harmful organic substances such as formaldehyde, volatile organic compounds, odor causing substances, pollutants, environmental hormones, etc. It has a function of oxidizing and decomposing and removing. In particular, general fungicides cannot remove toxins (endotoxins) that bacteria give off, but photocatalysts have the property of completely degrading even toxins. There are various metal oxides and composite oxides such as titanium dioxide (TiO ₂ ), zinc oxide (ZnO), tin dioxide (SnO ₂ ), nickel oxide (NiO), and iron oxide (Fe ₂ O ₃ ). Among them, titanium dioxide has high photocatalytic activity, good acid / alkali resistance, harmless to human body, and is inexpensive, and is most commonly used. Titanium dioxide is anatase, rutile, and brookite depending on the crystal form. The anatase and rutile types can be used as photocatalysts, but anatase is known to have higher photocatalytic activity than rutile. In addition, transition metals such as platinum (Pt), rhodium (Rh), tin (Sn), nickel (Ni), and copper (Cu) or oxides thereof are added to titanium dioxide to reactivate the electrons and holes, thereby reducing the activity. By delaying, the activity of the photocatalyst can be increased. In addition, the photocatalytic particle size is smaller than several tens of nanometers (nm) or less to increase the photocatalytic activity due to the quantum size effect, and improve transparency and dispersibility.

As the functions of photocatalysts become more and more known, various methods for increasing their activity and performance have been studied. The methods for preparing titanium dioxide photocatalysts include titanium tetrachloride (TiCl ₄ ) or titanium alkoxide (Ti (OC _n H _{2n + 1} ) ₄ ). The same titanium compound is sprayed or evaporated with oxygen in a container kept at high temperature to oxidize to make fine powders, and the nano-sized titanium dioxide by hydrolysis and peptization of the titanium compound at a liquid temperature of 60 to 80 ° C. It can be broadly divided into two liquid sol-gel methods for preparing a solution in which particles are dispersed. The photocatalyst can be manufactured and used in the form of a powder, a coating on a substrate, or a photocatalyst coating, depending on the situation.However, the photocatalyst is hardly used because it is difficult to collect the photocatalyst powder, and is mainly used in ceramic filters, glass fibers, and glass. The photocatalyst is coated on inorganic support such as beads, and the photocatalyst coating agent is mixed with 5-30 nm photocatalyst particles in dispersion such as water or alcohol. .

Although the activity of the photocatalyst itself or the selection of the dispersion solution is very important among the constituents of the photocatalyst coating agent, the use of a separate binder is also essential to increase the adhesion by coating the photocatalyst coating agent on the target material. Binders are organic binders, which are commonly used in daily life, and inorganic binders such as water glass, silane, and cement. As organic binders are decomposed due to photocatalytic action, inorganic binders such as water glass and silane are mainly used, and fluororesins are relatively stable to photocatalysts, but adhesives are relatively low and expensive, and cement is coated with a coating agent. If mixed, there is a disadvantage that it can not be solidified. Titanium dioxide photocatalysts are only activated by light in a specific wavelength band (about 380 nm), so their use is severe in conditions such as nights and basements where there is no light. Recently, transition metals such as silver and copper have been scientifically proven to show strong sterilizing power, and have been applied to various products such as air purifiers and washing machines. Especially silver has been used in jewelry such as rings for a long time. Excellent sterilizing power compared to transition metals.

In order to use silver efficiently in life, many techniques for making nano-sized particles have been researched and developed. The method of making silver nanoparticles is an electrolysis method to make silver ions (Ag ⁺ ) by electrolyzing high-purity metallic silver rods under high voltage in water, and dissolving silver compounds such as silver nitrate or silver acetate into water to make an aqueous solution. It can be divided into alcohol reduction method which reduces to alcohol, such as methanol and ethanol, at 70 degreeC temperature. However, in both methods, nano-sized particles are initially formed, but after a certain time, silver particles aggregate and grow into large particles, and so on. To overcome this problem, various surfactants or hydrophilic polymers such as polyvinylpyrrolidone (PVP) or polyvinylalcohol (PVA) are used to prevent aggregation.

Attempts to overcome the shortcomings of photocatalysts that do not show activity in the absence of light have been proposed in various ways. However, by adding substances with high adsorption capacity to the surface of the photocatalyst, in the absence of light, contaminants are adsorbed and stored, Under certain conditions, it would be useful to decompose and remove stored contaminants. EDTA is an anion chelate compound having four carboxyl groups and having a negative charge of four when dissolved in water, and atoms such as hydrogen, sodium, calcium and iron are generally bonded to the carboxyl group. The compound is known to be non-toxic and is used in small amounts in foods to retard food deterioration. Na ₄ EDTA contains Ca ²⁺ , Mg ²⁺ , and Fe ³⁺ ions in water, which interfere with the role of soap. It is added to detergents to remove, and is used in various purposes for removing calcium ions that serve to coagulate blood by adding a small amount to the heavy metal poisoning treatment such as lead and blood for transfusion.

In general, a mat of constant thickness is widely used to prevent the foot from slipping on the floor where the feet of the person frequently come in contact with the kitchen sink or the utility room, and to reduce the fatigue of the foot. In particular, such a mat is widely used in a playroom, such as to form a wide area to prevent children from being injured by installing on the floor of the playroom where children often play, and to prevent the playroom floor from being contaminated by the children. This conventional mat is composed of the upper layer and the bottom layer in contact with the floor largely in contact with the human body, the configuration is completed by adhering such an upper layer and the bottom layer to each other. In the conventional mat, both the upper layer and the bottom layer are formed by injecting synthetic resin such as soft PVC. Conventional mats are used in kitchens, utility rooms, playrooms, etc., and are often in contact with the user's body.The upper layer in contact with the human body is made of synthetic resin injection moldings containing a large amount of various dioxins, environmental hormones, or volatile environmental pollutants. Because of the smell, of course, there was a problem that harmful substances can enter the human body through the skin only by contact. In particular, the conventional synthetic resin mat is very fatal for housewives who are exposed to harmful substances in the kitchen for a long time, or pregnant women, as well as children living in the playroom, causing various diseases and miscarriage of pregnant women, and the normal growth of children There was a big problem, such as disturbing.

In addition, the conventional mat has a feeling of a sticky rubber sheet, which is not skin-friendly, sweat easily on the part of the human body to contact, as well as fungi such as fungus to inhabit, it is not hygienic, and the characteristic smell is long When odor or contamination of odorous substances are easily adsorbed by the odor-causing substances, the odor remains for a long time, there were various problems that various pollutants such as moisture, dust, etc. are easily adsorbed by the surface stickiness and become dirty.

An object of the present invention for solving the above problems, the upper layer in contact with the human body is made of an anion photocatalyst coating layer harmless to the human body to prevent various adverse effects due to the contact of harmful substances, to provide a safe and versatile mat for children have. Another object of the present invention is to provide a versatile mat that can provide a skin-friendly texture such as leather and a comfortable use environment that does not slip easily and does not easily sweat. In addition, another object of the present invention, the antibacterial function that bacteria such as fungi do not inhabit, deodorization function to prevent the smell, and pollution prevention function to prevent contamination by various pollutants such as moisture, dust And to provide a multi-purpose mat having a water repellent function to prevent the penetration of water.

In order to achieve the above object, the present invention provides a mat in which a plurality of layers are stacked, and the top layer of the mat is 1 to 10% by weight relative to the top layer by grinding a titanium oxide or zinc oxide photocatalyst into 0.01 to 100 nm fine particles. An anion photocatalyst mat comprising an added titanium oxide or zinc oxide anion photocatalyst layer. In the present invention, the titanium oxide-based or zinc oxide-based anion photocatalyst layer is characterized by consisting of any one layer selected from the transparent synthetic resin layer 10, the transfer layer 140 and the emboss layer 150.

Titanium oxide or zinc oxide anion photocatalyst mat of the present invention is a playroom mat, kindergarten mat, school mat, school bulletin board, kitchen mat, sink mat, yoga mat, puzzle mat, acupressure mat, gym mat, sports center floor mat, In the mat used for any one of a vehicle cushion, a cushion cover for a toilet, a scaffold and a rug, the top layer of the mat is pulverized with titanium oxide or zinc oxide photocatalyst with 0.01 to 100 nm of fine particles to the top layer. It consists of a titanium oxide-based or zinc oxide-based anion photocatalyst layer added by 1 to 10% by weight.

As shown in FIG. 1, the titanium oxide-based or zinc oxide-based anion photocatalyst mat of the present invention includes a transparent synthetic resin layer 10 printed with a picture or photo; The transfer layer 20 and the foamed fabric layer 30 of the printed transparent synthetic resin layer are laminated and laminated. The foamed fabric layer 30 is generally made of PVC (polyvinyl chloride), and any one selected from TPE (Thermoplastic olefin: thermoplastic olefin elastomer) and TPU (Thermoplastic urethane: thermoplastic urethane elastomer). Thermoplastic elastomer (thermoplastic elastomer) layer. As shown in FIG. 2, the anion photocatalyst mat of the present invention has another form, in which a transfer layer includes a transparent synthetic resin layer 10 having a picture or a photo printed thereon and a transparent synthetic resin layer 10 having a photo printed thereon. It is manufactured by heat compression after being attached to the inside. The anion photocatalyst mat according to the present invention can be manufactured by attaching a transparent synthetic resin printed on the upper or upper and lower portions after attaching the foaming fabric layer 30 to a plurality of layers of fabric mats. Another embodiment of the present invention can be prepared by laminating a transparent synthetic resin and a non-printing transparent synthetic resin printed on the upper portion of the foam fabric layer 30 and then press-compressed.

As shown in FIGS. 4 and 5, the negative ion photocatalyst mat of the present invention has another form in which the foamed fabric layer 110 is laminated with TPE (Thermoplastic elastomer). In the mat of the present invention, the foam fabric layer 110 is the upper layer upper layer 120; A primer layer 130 on top of the upper limb layer 120; A transfer layer 140 on top of the primer layer 130; An embossed layer 150 on the upper end of the transfer layer 140, the lower end of which is an upper limb layer 120 ′; A primer layer 130 'at the bottom of the upper limb layer 120'; A transfer layer 140 ′ at the bottom of the primer layer 130 ′; The embossed layer 150 'is formed at the bottom of the transfer layer 140'. In the mat of the present invention, the foam fabric layer 110 is the upper layer upper layer 120; A primer layer 130 on top of the upper limb layer 120; A transfer layer 140 on top of the primer layer 130; An embossed layer 150 on the upper end of the transfer layer 140, the lower end of which is an upper limb layer 120 ′; The embossed layer 150 'is formed at the bottom of the upper limb layer 120'. Mat of the present invention is that the foamed fabric layer 110 is made of TPO (Thermoplastic olefin: thermoplastic olefin elastomer) or TPU (Thermoplastic urethane: thermoplastic urethane elastomer) harmless to the human body. Thermoplastic olefin (TPO) is preferably used as thermoplastic polyethylene elastomer or thermoplastic polypropylene elastomer. Multi-purpose mat according to a preferred embodiment of the present invention is a multi-purpose mat used on the floor surface, such as scaffolding, rugs, playroom mats largely expanded foam layer 110, upper limb layer 120, primer layer 130, transfer The layer 140 and the embossing layer 150 are comprised. The foamed fabric layer 110 according to the present invention is made of a human-friendly material and does not include conventional dioxins, environmental hormones, or volatile contaminants, and is made of TPO (Thermoplastic olefin) or TPU (Thermoplastic urethane). It is made of an environmentally friendly material made of a TPE (thermoplastic elastomer) layer made of an elastomer).

In the mat of the present invention, the embossing layer 150 is embossed and dried in a steel roll at approximately 150 degrees Celsius so as not to slip easily at the same time as the skin-friendly texture such as leather and easily slip. The mat of the present invention is made of a synthetic resin having excellent frictional force so that the edge is adhered to a high frequency to prevent slipping with the bottom surface and is installed on the bottom surface, which is a part contacting the floor. The mat of the present invention can prevent various adverse effects due to contact with harmful substances by using harmless and environmentally friendly TPO (thermoplastic olefin elastomer) or TPU (Thermoplastic urethane elastomer). In addition, it is safe for children living all day in a playroom and the like, as well as providing a skin-friendly texture such as leather and a comfortable use environment that does not easily slip and sweat easily. In addition, by using anion photocatalyst, antibacterial function that bacteria such as mold cannot inhabit, deodorization function that does not smell, pollution prevention function to prevent contamination by various contaminants such as moisture and dust, and water penetration It is possible to provide a multi-function that can be used for a variety of purposes, such as water repellent to prevent.

The mat of the present invention can be used for a wide variety of purposes, such as a playroom mat, a footrest for the entrance, a bathroom, a kitchen pallet, an exercise mat, and a floor mat. It can be produced and used in various sizes. Therefore, the scope of the claims in the present invention is not defined within the scope of the detailed description, but will be limited by the claims and the technical spirit thereof.

As described above, according to the mat of the present invention, it is possible to prevent various adverse effects caused by the contact of harmful substances, and it is safe for children, and it does not slip easily at the same time as the skin-friendly texture and sweat easily and inhabits fungi such as molds. It has the effect of having antibacterial function, deodorizing function that does not smell, antifouling function to prevent contamination by various pollutants such as moisture, dust, and water repellent function to prevent infiltration of water.

1 is a perspective view showing an anion photocatalyst mat of the present invention.

Figure 2 is a cross-sectional view showing an anion photocatalyst mat of a preferred embodiment of the present invention.

3 is a cross-sectional view showing an anion photocatalyst mat of the present invention.

4 is a cross-sectional view showing an anion photocatalyst mat of the present invention.

3 is a cross-sectional view showing an anion photocatalyst mat of the present invention.

* Explanation of Signs of Major Parts of Drawings *

10: printed transparent synthetic resin layer 20: printed layer

30: foamed fabric layer

110, 110 ': foamed fabric 120, 120': upper layer

130, 130 ': primer layer 140, 140': transfer layer

150, 150 ': embossed layer 100: anion photocatalyst mat

Claims (2)

In the mat laminated in a plurality of layers, the top layer of the mat is titanium oxide or zinc oxide or zinc oxide-based photocatalyst is pulverized into fine particles of 0.01 to 100nm titanium oxide base or oxidation added 1 to 10% by weight relative to the top layer Anion photocatalyst mat comprising a zinc-based anion photocatalyst layer. According to claim 1, wherein the titanium oxide or zinc oxide anion photocatalyst layer is an anion, characterized in that made of any one layer selected from the transparent synthetic resin layer 10, the transfer layer 140 and the emboss layer 150 Photocatalyst mat.