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Simulated plant for removing mold in humid indoor air

An indoor air and artificial plant technology, applied in the field of artificial plants, can solve the problems of limited effect of mold and poor effect, and achieve the effect of low price and good application prospect.

Inactive Publication Date: 2020-09-04
深圳市天麒检测技术服务有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But only by physical adsorption to remove water, or a simple desiccant, the effect is not good
At present, most of the products and patents about indoor mildew removal are about the removal of walls, wardrobes, air conditioners or other tangible and visible mildew spots. For example, the Chinese patent CN108485843A has invented a mildew removal cleaner, which is very effective for the removal of mildew spots. Less involved in the removal of airborne mold
There are also some new indoor desiccants or other drying products, such as a moisture-removing hygroscopic agent with the function of eliminating musty smell invented by Chinese patent CN107789959A. The raw material is cheap and the preparation is simple, but it only dehumidifies and removes moisture, and has limited effect on mold

Method used

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  • Simulated plant for removing mold in humid indoor air
  • Simulated plant for removing mold in humid indoor air
  • Simulated plant for removing mold in humid indoor air

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] A simulated plant that removes mold from humid indoor air. It looks like an ordinary bonsai. The flower pot is equipped with a small household indoor hygrometer. The flower and leaf parts of the plant are made of polymer water-absorbing resin materials. The percentage marker contains the following components: 40% semiconductor visible light catalyst, 15% anhydrous copper sulfate, 20% lysozyme, 25% water, and the total weight of the paint is 1 kg.

[0024] Preparation method: mix part of water and 40% Bi2MoO6 / ZrO2 composite photocatalyst, stir evenly; slowly add 15% anhydrous copper sulfate, stir to dissolve evenly; then add 20% lysozyme, stir evenly; finally add water to 100%. A blue viscous mixture was obtained.

[0025] The mixture paint obtained from this formula has a certain viscosity. Apply it on the surface of plant flowers and leaves, and then heat it to dry and solidify on the surface. You can see that the paint changes from blue to nearly white during the dryi...

Embodiment 2

[0028] A simulated plant that removes mold from humid indoor air. It looks like an ordinary bonsai. The flower pot is equipped with a small household indoor hygrometer. The flower and leaf parts of the plant are made of polymer water-absorbing resin materials. The percentage marker contains the following components: 40% semiconductor visible light catalyst, 15% anhydrous copper sulfate, 20% lysozyme, 25% water, and the total weight of the paint is 2 kg.

[0029] Preparation method: mix part of water and 40% Bi2MoO6 / ZrO2 composite photocatalyst, stir evenly; slowly add 15% anhydrous copper sulfate, stir to dissolve evenly; then add 20% lysozyme, stir evenly; finally add water to 100%. A blue viscous mixture was obtained.

[0030] The mixture paint obtained from this formula has a certain viscosity. Apply it on the surface of plant flowers and leaves, and then heat it to dry and solidify on the surface. You can see that the paint changes from blue to nearly white during the dryi...

Embodiment 3

[0033] A simulated plant that removes mold from humid indoor air. It looks like an ordinary bonsai. The flower pot is equipped with a small household indoor hygrometer. The flower and leaf parts of the plant are made of polymer water-absorbing resin materials. The percentage marker contains the following components: 45% semiconductor visible light catalyst, 15% anhydrous copper sulfate, 15% lysozyme, 25% water, and the total weight of the coating is 2 kg.

[0034] Preparation method: mix part of water and 40% Bi2MoO6 / ZrO2 composite photocatalyst, stir evenly; slowly add 15% anhydrous copper sulfate, stir to dissolve evenly; then add 20% lysozyme, stir evenly; finally add water to 100%. A blue viscous mixture was obtained.

[0035] The mixture paint obtained from this formula has a certain viscosity. Apply it on the surface of plant flowers and leaves, and then heat it to dry and solidify on the surface. You can see that the paint changes from blue to nearly white during the dr...

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Abstract

The invention discloses a simulated plant for removing mold in the humid indoor air. The surface of an indoor fake plant made of a polymer water-absorbing resin material is coated with a coating, theearly composition of the coating is a mixture of a semiconductor visible light catalyst, anhydrous copper sulfate, lysozyme, and water, wherein the mixture is composed of the following raw materials in percentage by weight: 40%-50% of the semiconductor visible light catalyst, 15%-20% of anhydrous copper sulfate, 15%-20% of lysozyme, and 10%-30% of water. The product for removing mold in the humidindoor air of the invention utilizes the characteristics that the mold is afraid of light, dryness, and oxygen, utilizes the visible light catalyst to catalyze the decomposition of water in a humid room to produce oxygen, performs comprehensive sterilization, and combines the oxidation sterilization of electron holes in the semiconductor catalyst and the effect of lysozyme, and the efficient waterabsorption of the flower leaf polymer water-absorbing resin material to comprehensively aim at the moisture removal and sterilization in the humid room to the greatest extent. At the same time, the appearance and color change of the product itself make the product have a certain decorative effect, so that the product has relatively good application prospects.

Description

technical field [0001] The invention relates to the technical field of indoor dehumidification and mildew removal, in particular to a simulated plant for removing mold in humid indoor air. Background technique [0002] In the south of our country, the air humidity is very high, and the room is very humid in many cases, which brings great inconvenience to people's lives. Clothes and quilts are easy to be damp and moldy, food is easy to spoil, especially the air is filled with a The musty smell has brought great trouble to people's normal life, and the culprit of all this is mold. [0003] As a kind of fungus, mold is characterized by relatively developed mycelium and no large fruiting bodies. Like other fungi, it also has cell walls and survives in a parasitic or saprophytic manner. Some molds turn food into toxic substances, and some may produce toxins in food. Mold in the air will also cause great harm to human health, so the removal of mold has attracted increasing atten...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61L9/18A61L9/00A61L9/015B01D53/26B01D53/28B01D53/84B01J23/31B01J21/06B01J37/03B01J37/10A01N59/20A01N63/50A01P3/00C09D1/00C09D5/14F24F3/16F24F3/14F24F11/89F24F110/20A61L101/54A61L101/02
CPCA61L9/18A61L9/00A61L9/015B01D53/261B01D53/28B01D53/84B01J23/31B01J21/066B01J23/002B01J37/036B01J37/10A01N59/20A01N63/50C09D1/00C09D5/14F24F3/16F24F3/14F24F11/89A61L2209/21B01D2257/80B01D2253/202B01J2523/00F24F2003/144F24F2110/20B01J35/39B01J2523/48B01J2523/54B01J2523/68Y02A50/20
Inventor 谢晓均田艺瑾陆钢
Owner 深圳市天麒检测技术服务有限公司