JP2016043251A - Aqueous solution having malodor deodorizing action - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide aqueous solution having a malodor deodorizing action for removing a malodor in a domestic environment.SOLUTION: The aqueous solution having a malodor deodorizing action is provided that contains zinc oxide, a chelating agent, and an acid. In the presence of an acid, zinc oxide dissolves in water as a bivalent zinc ion. The chelating agent is used to chelating the bivalent zinc ion of zinc oxide. A chelate substance between the bivalent zinc ion and the chelating agent can be dissolved in water stably, the bivalent zinc ion adsorbs a malodorous substance and removes malodorous substance from room air, and thereby the aqueous solution can attain the deodorizing action.SELECTED DRAWING: None

Description

The present invention relates to an aqueous solution, and particularly to an aqueous solution that contains divalent zinc ions and can be used to remove malodorous substances.

Common sources of malodor include smoke, pollutants or spoilage. When pollutants and spoilage substances are present, they give off odors, stimulate human olfaction and cause discomfort.

Especially in the indoor environment, since the air circulation is slightly low, the bad odor is difficult to spread and easily affects the human sense of smell. When a person feels a bad odor, it can be detrimental to mental health and even health. For example, a person with tracheal or cardiovascular disease can have a negative effect on the body due to bad odor.

Occasionally, even if the source of odors is removed, there may still be some odorous substance remaining in the air, which is a new way to remove odors and keep the air fresh. It has become an important issue.

In a general home environment, odor sources are mainly odors from pet excrement, bathroom / toilet odor, leftover food, fungi, and the like. The chemical composition of this type of odor is primarily gas molecules having sulfur or nitrogen atoms such as hydrogen sulfide, dimethyl sulfide, methanethiol, 3-methylindole, methylamine, ammonia, and the like.

The present invention provides an aqueous solution having an odor purifying action, which includes divalent zinc ions that adsorb malodorous substances, thereby achieving the purifying action.

The aqueous solution having the purifying action of the present invention contains zinc oxide, a chelating agent and an acid. In the presence of acid, zinc oxide can be dissolved in water to form divalent zinc ions. The chelating agent is used to chelate divalent zinc ions formed from zinc oxide, and the chelating material formed from the divalent zinc ions and the chelating agent is stably dissolved in water to form a clear solution. Among them, the bond strength between the divalent zinc ion and the chelating agent is smaller than the bond strength between the divalent zinc ion and the malodorous substance.

In one embodiment of the invention, the chelating agent described above comprises a structure represented by Formula 1 or Formula 2.

The aqueous solution having an odor purifying action of the present invention is particularly useful for removing malodorous substances including sulfur or nitrogen atoms. When the aqueous solution having the odor purifying action of the present invention comes into contact with odor molecules containing sulfur atoms or nitrogen atoms in the air, divalent zinc ions in the aqueous solution chelate with sulfur or nitrogen atoms, thereby Fix and inactivate odor molecules to achieve the purpose of deodorization.

In one embodiment of the invention, the above-mentioned acids include citric acid, acetic acid, phosphoric acid, hydrochloric acid, nitric acid, and / or other organic and inorganic acids.

In one embodiment of the present invention, the content of the above-mentioned divalent zinc ions is 0.1 to 6.0% by weight of the aqueous solution.

In one embodiment of the invention, the content of the chelating agent described above is 10-30% by weight of the aqueous solution.

In one embodiment of the invention, the acid content mentioned above is 1-40% by weight of the aqueous solution.

In one embodiment of the invention, the aqueous solution described above further comprises a fragrance.

In one embodiment of the invention, the aqueous solution described above further comprises an emulsifier.

In one embodiment of the invention, the aqueous solution described above further comprises a solubilizing agent.

Based on the above, the divalent zinc ion of the aqueous solution of the embodiment of the present invention has a function of removing malodor. A chelating substance of a chelating agent and a divalent zinc ion can be dissolved in water so that the aqueous solution of the embodiment of the present invention stably exhibits a transparent state. The ratio of the content of zinc atoms in zinc oxide to the total molecular weight of zinc oxide is high. For this reason, it is possible to provide a good deodorizing effect with an aqueous solution having a deodorizing action consisting of low-concentration zinc oxide. it can.

In order to make the aforementioned features and advantages of the present invention clearer and easier to understand, examples are given below and described in detail.

One embodiment of the present invention provides an aqueous solution having a deodorizing action, comprising divalent zinc ions, a chelating agent, and an acid. The chelating agent is used to chelate the above divalent zinc ion. A chelating substance of a chelating agent and a divalent zinc ion can be dissolved in water so that the aqueous solution of the embodiment of the present invention stably exhibits a transparent state. When the source of divalent zinc ions is zinc oxide, the presence of acid further helps the zinc oxide dissolve in water to form divalent zinc ions, and the pH value of the aqueous solution can also be adjusted. In addition, the use of citric acid can further stabilize the divalent zinc ion in the aqueous solution, and can further maintain the odor purification action. The description about each component which the aqueous solution of a present Example contains is as follows, The Example, content, etc. which are mentioned in each component are only for the use of description, and are intended to limit the present invention. do not do.

The source of the divalent zinc ions in this embodiment is, for example, zinc oxide. Divalent zinc ions have a good binding force against substances that emit general malodors, such as hydrogen sulfide and amines, so divalent zinc ions are effectively adsorbed on substances such as hydrogen sulfide and amines. This can achieve a deodorizing action. The zinc oxide content is approximately 0.1 to 6.0% by weight of the aqueous solution. Specifically, the molecular weight of zinc oxide is about 81.4, of which the atomic weight of zinc ions is about 65.38, that is, the zinc ions account for about 80% of the molecular weight of zinc oxide. The content of zinc ions in each mole of zinc oxide is considerably high, so even if the concentration of zinc oxide in the aqueous solution is low, it can have a high equivalent number with a deodorizing effect. In other words, a good deodorizing effect can be achieved without the need to use excessive zinc oxide in the aqueous solution.

Zinc oxide can generally be used as an additive and is applied in various materials and products including plastics, ceramics, glass, medical emergency bandages and foods (zinc supplements) and the like. In other words, zinc oxide has even edible properties, so it has a much lower impact on the organism or the environment, so after the aqueous solution containing zinc oxide has absorbed the malodorous substances, it has a special treatment. It can be poured directly into the sink without going through the process, hardly affects the environment, and conforms to the concept of environmental protection.

Specifically, the solubility of zinc oxide in water is low. In order to smoothly dissolve zinc oxide in water, the aqueous solution of this example further includes acids such as acetic acid, phosphoric acid, hydrochloric acid, nitric acid, and / or other organic and inorganic acids. The acid helps the zinc oxide dissolve in water. The acid content is 1 to 40% by weight of the aqueous solution. In addition, the acid can adjust the pH value of the aqueous solution of this example to meet specific requirements. Examples 1-6 listed in Table 1 below illustrate possible adjustment ratios, but these are merely illustrative and are not intended to limit the invention, in which The chelating agent employed is the formula 2 described above. Among them, ZnO, chelating agent, acid, pure water and total are all in parts by weight, and are the ratio of the weight used between each component, and the acid content, chelating agent content and Zn content described below The amount is in units of weight% (wt%) of each component in the entire solution.

Based on this example, the chelating agent is used, for example, for chelating divalent zinc ions dissolved in an aqueous solution, of which the binding power of the chelating agent to the divalent zinc ions is determined by the divalent zinc ions. It is smaller than the binding power to malodorous substances. In other words, when the aqueous solution is not yet in contact with malodorous substances (eg hydrogen sulfide or amines), the chelating agent can chelate divalent zinc ions, and the chelating agent of the chelating agent and divalent zinc ions. Can be dissolved in water. When the aqueous solution comes into contact with the malodorous substance, the divalent zinc ions easily separate from the chelating agent and bind to the malodorous substance, thereby achieving the function of adsorbing the malodorous substance. In this way, it is possible to achieve the effect of removing malodor.

In this example, the chelating agent content is 10-30% by weight of the aqueous solution. For example, the chelating agent includes a structure represented by Formula 1 or Formula 2. The chelating agents represented by Formula 1 and Formula 2 are all derived from natural substances, have biodegradability, and can operate in a relatively wide range of pH values. It is a chelating agent with protective properties and it is difficult to impact the environment. More specifically, the aqueous solution of this example is more preferably controlled to have a pH of about 7 and is more environmentally friendly, but the pH value does not limit the scope of the present invention and can be used in different applications. In the field, the aqueous solution having the odor purifying action of the present invention can be obtained at different pH values by adjusting the formulation. It should be noted that when the aqueous solution of this example is sprayed into the air, the components of the aqueous solution may come into contact with the human skin, so the aqueous solution uses natural substances. When made, it is difficult to cause adverse effects on the human skin.

When preparing an aqueous solution having an odor purifying action in this example, first, zinc oxide powder and acid are stirred and dissolved in hot water at a certain ratio, and then a chelating agent is added. The produced divalent zinc ion aqueous solution can be stabilized. Alternatively, even if zinc oxide powder, acid, and chelating agent are simultaneously stirred and dissolved in hot water, an aqueous solution having an odor purifying action based on one of the present embodiments can be produced, and odor purifying. There is no difference in action.

The present invention can prepare a deodorized aqueous solution with zinc oxide directly by an acid and does not require the addition of an emulsifier, but the present invention is not limited to this. In addition to this, further effects can be exhibited. For example, the aqueous solution of the present invention can further contain a fragrance. The fragrance has a fragrance effect, and after removing bad odors in the environment, it can further make the air have a fresh fragrance and make the human sense of comfort comfortable. It is also possible to add different fragrances depending on personal preference. Thereby, the effect of deodorization and fragrance is achieved simultaneously.

If the fragrance to be added is an oil phase substance, an emulsifier can be added to the aqueous solution of this example. The emulsifier helps to evenly mix the fragrance into the aqueous solution and does not cause turbidity or precipitation. The emulsifiers can be used alone or in combination of a plurality of types, and there is no particular limitation. Examples of the emulsifier include PEG-7 hydrogenated castor oil, PEG-40 hydrogenated castor oil, PEG-60 hydrogenated castor oil, PEG-35 castor oil, PPG-1 PEG-9 lauryl glycol ether, ceteares-12, and ceteares. -20, ceteares-25, oleth, PEG-20 glyceryl stearate, steareth-21, PEG-20 glyceryl laurate, olein, palm kernel fatty acid PEG-45 glyceryl, PEG-6 (capryl / capric acid) glyceride, PEG- 20 sorbitan monolaurate, PEG-40 sorbitan monolaurate, PEG-60 sorbitan monolaurate, PEG-80 sorbitan monolaurate, and the like. In principle, any fragrance that helps dissolve the fragrance in the aqueous solution can be used and is not particularly limited. In other words, the aqueous solution that is uniformly mixed and presents a transparent state can be used in various different containers, and exhibits an effect through methods such as spraying and coating.

In addition, it is also possible to selectively add a solubilizing agent into the aqueous solution of the examples of the present application, and the solubilizing agent helps to uniformly mix the fragrance and the emulsifier. The solubilizer is, for example, alcohol, dipropylene glycol, 1,3-butanediol, polyethylene glycol or other alcohol solvents. In principle, any solubilizer that helps to mix the fragrance and emulsifier uniformly can be used. Considering the toxicity and irritation of the solubilizer to the human body, alcohols are used as solubilizers. It is preferable.

Examples and Comparative Examples are given below to describe the aqueous solutions of the examples of the present invention. Among them, the content of each component and the preparation steps are merely for explanation, and the present invention is limited. Not intended.

First, 2.7 grams of zinc oxide, 2.7 grams of citric acid, 7.33 grams of chelating agent, 25.77 grams of pure water were mixed (composition described in Example 1 of Table 1), and 70-90. Heat to 0 ° C. and stir until dissolved in a clear state to make an aqueous mixed solution. Subsequently, when it is allowed to cool to room temperature, it becomes an aqueous solution having the odor purifying action of the present invention, but care must be taken not to lose moisture during the preparation process, and the chelating agent is, for example, the above-mentioned formula 2 Chelating agent.

Next, 1 gram of fragrance, 4 grams of emulsifier, 15 grams of solubilizer, and 18.8 grams of pure water are mixed to make another aqueous solution, and then mixed with the above-mentioned mixed solution. Both are uniformly mixed through the emulsifier, thereby obtaining an aqueous solution which is transparent and has a purifying action. Among them, the emulsifier can be used alone or in combination, and the solubilizing agent can also be used alone or in combination, and there is no particular limitation.
[Evaluation]

The hydrogen sulfide purification effect was tested on the aqueous solutions of Examples and Comparative Examples as follows. The measurement method is as follows. First, a commercially available simple air cleaner and a hydrogen sulfide gas detector tube (GASTEC hydrogen sulfide 4LB) are placed in a 125 liter container, and an aqueous solution to be tested is held inside the simple air cleaner. Next, the 125 liter container is sealed, hydrogen sulfide gas is provided in the container, and at the same time, the air cleaner is turned on to start the operation. Finally, the concentration of hydrogen sulfide gas in the 125 liter sealed container is measured using a hydrogen sulfide gas detection tube at regular intervals, and the removal efficiency of hydrogen sulfide is calculated. The mechanism of the simple air cleaner is to first suck the ambient air into the main body through the air intake mechanism of the main body itself, and then to test the aqueous solution held inside the main body (for example, the odor purifying action of the present invention). It mixes and reacts with a diluting aqueous solution) to purify the odor in the air in this way, and finally releases the purified air.

Table 2 shows the results of removing hydrogen sulfide in the examples of the present invention. Table 3 shows an aqueous solution of a comparative example (the aqueous solution of the comparative example is zinc ricinoleate as a main deodorizing component, and zinc ricinoleate is a zinc chelate obtained from castor (Ricinus communis). Because zinc ricinoleate itself is an oil-soluble substance, it is necessary to add an emulsifier to dissolve it in water, and the ratio of zinc content in the molecule is low). It is. Test samples (including the aqueous solutions of Examples and Comparative Examples of the present invention) filled in and used in a simple air cleaner were both diluted 100-fold with pure water, and 300 grams were taken out from the diluted solutions. The cleaner was filled and tested, and the aqueous solution of the comparative example was a commercial deodorizing product, and the components of the aqueous solution mainly contained zinc ricinoleate.

As can be seen from Tables 2 and 3, the diluted aqueous solution of this example (Table 2) can already remove about half of the hydrogen sulfide after 5 minutes and 98.2% after 30 minutes. Removal of hydrogen sulfide can be achieved. In comparison, the diluted aqueous solution of the comparative example (Table 3) only reached 61.3% hydrogen sulfide removal even after 30 minutes. As can be seen from this, the aqueous solution of the present invention can exhibit a highly efficient hydrogen sulfide removing power in a short time and surely has a good odor substance removing effect.

In summary, the aqueous solution of the embodiment of the present invention contains divalent zinc ions, and has an action of absorbing malodorous substances and removing malodors. The presence of the acid helps the zinc oxide to dissolve in water, and the chelating agent is useful for chelating divalent zinc ions. A chelate substance of a divalent zinc ion and a chelating agent can be dissolved in water so that the aqueous solution of the embodiment of the present invention exhibits a transparent state. Since the ratio of the content of zinc atoms in zinc oxide is high, it is possible to have an equivalent number that can sufficiently deodorize without the need to increase the concentration of zinc oxide, thus providing a good deodorizing effect.

Claims (10)

Zinc oxide,
Acid,
A chelating agent,
The zinc oxide dissolves in water in the presence of the acid to form divalent zinc ions;
The chelating agent is used to chelate the divalent zinc ion formed from the zinc oxide, and the chelate substance of the divalent zinc ion of the zinc oxide and the chelating agent is dissolved in water. A transparent solution can be formed, of which the bond strength between the divalent zinc ion and the chelating agent is smaller than the bond strength between the divalent zinc ion and the malodorous substance,
Aqueous solution with odor purification. The aqueous solution having an odor purifying action according to claim 1, wherein the chelating agent comprises a structure represented by Formula 1.
The aqueous solution having an odor purifying action according to claim 1, wherein the chelating agent comprises a structure represented by Formula 2.
The aqueous solution having an odor purifying action according to claim 1, wherein the acid includes citric acid, acetic acid, phosphoric acid, hydrochloric acid, or nitric acid. The aqueous solution having an odor purifying action according to claim 1, wherein the content of the divalent zinc ions is 0.1 to 6.0% by weight of the aqueous solution. The aqueous solution having an odor purifying action according to claim 1, wherein the content of the chelating agent is 10 to 30% by weight of the aqueous solution. The aqueous solution having an odor purifying action according to claim 1, wherein the acid content is 1 to 40% by weight of the aqueous solution. The aqueous solution having an odor purifying action according to claim 1, further comprising a fragrance. The aqueous solution having an odor purifying action according to claim 8, further comprising an emulsifier. The aqueous solution having an odor purifying action according to claim 9, further comprising a solubilizing agent.