DE102017200833A1 - formaldehyde scavenger - Google Patents

Abstract

The present invention provides a formaldehyde scavenger comprising the following components: aldehyde scavenger 1 to 3%, waterproof penetrant 1 to 5%, corrosion inhibitor 0.2 to 2%, leveling agent 0.01 to 0.3%, adhesive 5 to 15%, antimicrobial agent 0.05 to 0.3% and a residual amount of water, wherein the water is used as a solvent, and wherein the above percentages are by mass. Compared with the prior art, the formaldehyde scavenger has a simple use and a long-term effect, is green and safe, and is environmentally friendly and healthy, and will not cause corrosion to all kinds of materials.

Description

TECHNICAL AREA

The present invention relates to the field of room air purification, in particular a formaldehyde scavenger.

STATE OF THE ART

Indoor formaldehyde has an abundant source, and the wall surfaces, door wings and furniture in the rooms can become a source of formaldehyde pollution. In the interior decoration, the required large amount of the artificial plate materials, coating materials, paint and plaster, etc. often contain urea-formaldehyde resin and other binders, the urea-formaldehyde resin is not stable, and over time, it may gradually be decomposed , And the formaldehyde is released into the indoor air. The newly purchased furniture can also release the formaldehyde slowly in daily use, as in the furniture composite plates or aldehyde preservative fixatives are used. Studies have shown that low doses of formaldehyde to respiratory disease can cause menstrual cycle disorders, neonatal body condition worsening, chromosomal abnormalities and other diseases. High concentrations of formaldehyde can damage the human nervous system, the respiratory system and the immune system, causing organ failure, and it also carries a risk of triggering the cancer. The data show that the concentration of formaldehyde is generally too high in newly established hay, and formaldehyde has already become an important factor in affecting human health. It has become an urgent problem to eliminate the formaldehyde in the interiors.

The formaldehyde scavengers currently on the market are generally subdivided into the following three types: Niederamin scavenger, photocatalyst scavenger or a mixture of Niederamine and photocatalyst. The Niederamin scavengers are generally low molecular weight substances such as various amino acids and urea, etc. Such substances may have a crosslinking reaction with the formaldehyde to achieve the goal of rapid elimination from the formaldehyde. However, such substances are relatively low molecular weight, in the case of oozing or heat, the formaldehyde can be easily released again. In addition, the substances have some toxicity, after use, damage to the human body may possibly be effected. The photocatalyst products are generally used as a surface coating. The photocatalyst is nano-titanium dioxide, because of its very large surface area it has a very good catalytic function, in the light radiation it can catalyze oxidation and decomposition of harmful substances like formaldehyde and VOC (volatile organic compounds) etc. to achieve the goal reach to eliminate formaldehyde and VOC in the ambient air. However, the photocatalyst can catalyze the decomposition of the harmful substances in the air only in the condition of the light radiation, usually at a low reaction speed, and it is required that the coated surface satisfies the lighting conditions. The photocatalyst will accelerate the oxidation of the metal materials and is generally not suitable for coating on the surface of the metal materials. If the dust in the interior pollutes the surface of the photocatalyst, the photocatalytic effect of it will slowly be lost.

In summary, the currently existing processes for removing formaldehyde have certain limitations. There is a need in the market for a formaldehyde scavenger that is easy to use and has a long-term effect, that is green and safe, that is environmentally friendly and healthy, and that will not cause corrosion to all types of materials.

CONTENTS OF THE PRESENT INVENTION

It is a problem to be solved of the present invention to provide a formaldehyde scavenger having a simple use and a long-term effect in view of the above-described shortcomings of the prior art, wherein the formaldehyde scavenger is green and safe and environmentally friendly and healthy and none Corrosion will affect all types of materials.

The present invention provides a formaldehyde scavenger comprising the following components: aldehyde scavenger 1 to 3%, waterproof penetrant 1 to 5%, corrosion inhibitor 0.2 to 2%, leveling agent 0.01 to 0.3%, adhesive 5 to 15%, antimicrobial agent 0.05 to 0.3% and a residual amount of water, wherein the water is used as a solvent, and wherein the above percentages are by mass.

In the formaldehyde scavenger, the aldehyde scavenger is a water-soluble chitosan.

In the formaldehyde scavenger, the degree of deacetylation of the water-soluble chitosan is 45 to 60%. In the formaldehyde scavenger, the molecular weight of the water-soluble chitosan is 10 ⁴ to 10 ⁵ daltons. A chitosan with the above Deacetylation degree and molecular weight are obtained, thereby ensuring that the chitosan is truly water-soluble and can be dissolved in the water without additional addition of the acetic acid / lactic acid and other monobasic acids. By using the water-soluble chitosan having the above deacetylation degree and molecular weight, the environmental pollution caused by acidic substances and the possibly raised corrosion can be reduced. In addition, Applicant has found that by using water-soluble chitosan having the above degree of deacetylation and molecular weight, better elimination from formaldehyde can be better ensured.

In the formaldehyde scavenger, the water-soluble chitosan has a following synthesis method: the chitosan having a degree of deacetylation of 90 to 95% and a molecular weight of 10 ⁵ to 10 ⁶ daltons is dissolved in methanol / water containing 2% acetic acid in a mass ratio of 50:50 with stirring When acetic anhydride is added, the reaction lasts for 2 to 4 hours, so that the chitosan obtained by the reaction is completely dissolved in the water; the obtained products are separated and dried to obtain the water-soluble chitosan.

In the formaldehyde scavenger, the waterproof penetrant is an ADM80-1 antifouling hydrophobic fluorosilicone additive (Hangzhou Funa New Material, having a solids content of 50%).

In the formaldehyde scavenger, the corrosion inhibitor is an organic borate ester Crodacor BE (Croda).

In the formaldehyde scavenger, the leveling agent is 3M Novec FC-4430 (having a solids content of 100%) and fluorocarbon surfactant. The leveling agent comprises the fluorocarbon surfactant, thereby the surface tension of the solution can be reduced so that the formaldehyde scavenger can wet the surfaces of various materials to increase the contact area so that it is conducive to the removal of formaldehyde.

In the formaldehyde scavenger, the adhesive is one or two below the aqueous acrylic resin (NeoCryl ^® line of acrylic resins) and the aqueous polyurethane resin (NeoRez® line of polyurethane resins).

In the formaldehyde scavenger, the antimicrobial agent is selected from guanidine, where guanidine is one or more of chlorhexidine acetate (Lonza CHA), glucose chlorhexidine (Lonza CHG), hydrochloric acid chlorhexidine (Lonza CHC), and polyhexamethylene biguanide (PHMB).

1. 1. Das wasserlösliche Chitosan wird als Entfernungsmittel des Formaldehydes verwendet wird, mit einem kleineren Molekulargewicht kann er schnell mit dem Formaldehyd reagieren, um Erzeugnisse mit einer guten Stabilität und ohne Toxizität und sekundäre Verschmutzung zu generieren. Das wasserlösliche Chitosan ist umweltfreundlich und harmlos für die menschlichen Körper, deshalb kann es sicher und zuverlässig verwendet werden.
2. 2. Ein anwuchsverhindernder hydrophober Fluorsilikon-Zusatzstoff und Fluorkohlenstofftensid werden verwendet, dadurch kann die Wasserdichte des trockenen Films des Entfernungsmittels erheblich verbessert werden. Mit einer hervorragenden Wasserdichte wird eine durch den Wasserdampf bewirkte Korrosion der Beschichtungsmaterialien vermieden und eine erneute Freisetzung des Formaldehydes verhindert. Gleichzeitig wird eine Schutzfunktion für die beschichteten Basismaterialien realisiert.
3. 3. Das wässrige Acrylharz und wässrige Polyurethanharz werden als Klebemittel verwendet, dadurch kann die Verbindungskraft zwischen dem Formaldehydfänger und den Basismaterialien erhöht werden, so dass die gehärteten Beschichtungen nicht leicht abfallen werden.

Compared with the prior art, the present invention has the following advantages and effects:

1. 1. The water-soluble chitosan is used as a formaldehyde removing agent, with a smaller molecular weight it can react quickly with the formaldehyde to produce products with good stability and without toxicity and secondary pollution. The water-soluble chitosan is environmentally friendly and harmless to the human body, therefore it can be safely and reliably used.
2. 2. An antifouling hydrophobic fluorosilicone additive and fluorocarbon surfactant are used, thereby, the waterproofness of the dry film of the removing agent can be remarkably improved. With an excellent waterproofing, corrosion of the coating materials caused by the water vapor is avoided and a renewed release of the formaldehyde is prevented. At the same time a protective function for the coated base materials is realized.
3. 3. The aqueous acrylic resin and aqueous polyurethane resin are used as adhesives, thereby the bonding force between the formaldehyde scavenger and the base materials can be increased so that the cured coatings will not easily fall off.

DETAILED DESCRIPTION

The following embodiments may provide a better understanding of the present invention to those skilled in the art, but the present invention is not limited thereto. Unless otherwise indicated, the percentage in the present invention refers to the mass percent.

First embodiment

1% Aldehyde Removal Agent - Water Soluble Chitosan, 1% Antifouling Fluorosilicone Additive - ADM80-1, 0.2% Corrosion Inhibitor - Crodacor BE Organic Boric Acid Ester, 0.01% Leveling Agent - 3M Novec FC-4430, 5% adhesive - aqueous polyurethane resin (NeoRez ^® R966), 0.05% antimicrobial agent - chlorhexidine acetate (Lonza CHA) and 91.74% water was added, stirring for 30 min at room temperature, filtering mesh with a sieve of 100 after uniform stirring. The resulting product has a 40-minute formaldehyde removal rate of 80% and a 24-hour formaldehyde removal rate of 96%.

Second embodiment

3% Aldehyde Removal Agent - Water Soluble Chitosan, 5% Antifouling Fluorosilicone Additive - ADM80-1, 2% Corrosion Inhibitor - Crodacor BE Organic Boric Acid Ester, 0.3% Leveling Agent - 3M Novec FC-4430, 15% Adhesive - aqueous acrylic resin (NeoCryl A668 ^®) 0.3% antimicrobial agent - glucose chlorhexidine (Lonza CHG) and 74.4% water was added, stirring for 30 min at room temperature, filtering mesh with a sieve of 100 after uniform stirring. The product obtained has a 40-minute formaldehyde removal rate of 97% and a 24-hour formaldehyde removal rate of 99%.

Third embodiment

2% Aldehyde Removal Agent - Water Soluble Chitosan, 3% Antifouling Fluorosilicone Additive - ADM80-1, 1% Corrosion Inhibitor - Crodacor BE Organic Boric Acid Ester, 0.2% Leveling Agent - 3M Novec FC-4430, 10% Adhesive - aqueous acrylic resin (NeoCryl A668 ^®), 0.2% antimicrobial agent - hydrochloric acid-chlorhexidine (Lonza CHC) and 83.6% water was added, stirring for 30 min at room temperature, filtering with a 100 mesh sieve after the uniform stirring. The product obtained has a 40-minute formaldehyde removal rate of 95% and a 24-hour formaldehyde removal rate of 99%.

Fourth embodiment

1.5% aldehyde removal agent - water soluble chitosan, 2.5% antifouling hydrophobic fluorosilicone additive - ADM80-1, 1.5% corrosion inhibitor - Crodacor BE organic boric acid ester, 0.23% leveling agent - 3M Novec FC-4430, 8% Adhesive - aqueous polyurethane resin (NeoRez ^® R966), 0.18% antimicrobial agent - polyhexamethylene biguanide (PHMB) and 86.09% water added, stirring for 30 min at room temperature, filtering with a 100 mesh screen after uniform stirring. The product obtained has a 40-minute formaldehyde removal rate of 94% and a 24-hour formaldehyde removal rate of 99%.

It should be understood by those skilled in the art that the above embodiments are merely exemplary embodiments, and without departing from the spirit and scope of the present invention, various changes, substitutions, and alterations can be made.

Claims (10)

Formaldehyde scavenger, characterized in that it comprises the following components: - aldehyde removal agent 1 to 3%, - waterproof penetrant 1 to 5%, - corrosion inhibitor 0.2 to 2%, - leveling agent 0.01 to 0.3%, - adhesive 5 bis 15%, antimicrobial agent 0.05 to 0.3%, and a residual amount of water, wherein the water is used as a solvent, and wherein the above percentages are by mass. Formaldehyde scavenger after Claim 1 wherein the aldehyde removing agent is a water-soluble chitosan. Formaldehyde scavenger after Claim 2 wherein the degree of deacetylation of the water-soluble chitosan is 45 to 60%. Formaldehyde scavenger after Claim 2 wherein the molecular weight of the water-soluble chitosan is 10 ⁴ to 10 ⁵ daltons. Formaldehyde scavenger after Claim 2 wherein the water-soluble chitosan has a following synthesis method: the chitosan having a degree of deacetylation of 90 to 95% and a molecular weight of 10 ⁵ to 10 ⁶ daltons is dissolved in 2: 1 acetic acid-containing methanol / water in a mass ratio of 50:50 with stirring When acetic anhydride is added, the reaction lasts for 2 to 4 hours, so that the chitosan obtained by the reaction is completely dissolved in the water; the obtained products are separated and dried to obtain the water-soluble chitosan. Formaldehyde scavenger after Claim 1 wherein the waterproof penetrant is an antifouling hydrophobic fluorosilicone additive ADM80-1. Formaldehyde scavenger after Claim 1 , wherein the corrosion inhibitor is an organic boric acid ester Crodacor BE. Formaldehyde scavenger after Claim 1 wherein the leveling agent is 3M Novec FC-4430 and fluorocarbon surfactant. Formaldehyde scavenger after Claim 1 wherein the adhesive is one or two of the aqueous acrylic resin and the aqueous polyurethane resin. Formaldehyde scavenger after Claim 1 wherein the antimicrobial agent is selected from guanidine, wherein the guanidine is one or more of chlorhexidine acetate, glucose-chlorhexidine, hydrochloric acid-chlorhexidine and polyhexamethylene biguanide.