JP2022007057A - Urine component visualization and cleaning agent and urine component visualization and cleaning method - Google Patents

Abstract

To provide a urine component visualization and cleaning agent and urine component visualization and cleaning method for visualizing and cleaning a urine component scattered on a floor surface or the like in a toilet.SOLUTION: A urine component visualization and cleaning agent is a product obtained by combining a first solution formulated with a pH indicator component having a discoloration region by a urine component and a second solution containing a cleaning function substance, in which when the second solution is mixed with the first solution, the color of the mixed solution does not change due to a change in the pH of the first solution. First, the urine component is visualized by spraying the first solution, and then the visualized part is cleaned by using the second solution containing the cleaning function substance.SELECTED DRAWING: None

Description

The present invention relates to a urine component visualization cleaning product and a urine component visualization cleaning method for visualizing and cleaning urine components scattered on the floor surface of a toilet or the like.

If the urine component scattered on the floor or wall surface of the toilet is left unattended, it will be decomposed by bacteria and cause a bad odor such as ammonia odor, so it is desirable to clean it regularly. However, the urine component is transparent and cannot be visually recognized. Therefore, the entire floor surface must be cleaned, and it cannot be confirmed whether or not the floor surface has been reliably removed.

It is shown in Patent Document 1 and Patent Document 2 that the pH of urine of a pet or the like is measured using a pH indicator to determine the health condition of the pet. In Patent Document 1, the health condition is confirmed by using a composition containing a pH indicator such as thymol blue and phenolphthalein, which color the hydrogen ions in the urine component. In Patent Document 2, in order to improve visibility, anthocyanin is used as a pH indicator to confirm the health condition. Further, in Patent Document 3, in order to visualize whether or not the body parts such as the hands of the human body have been sufficiently washed, two kinds of liquids having different pHs are used, and the completion of washing is judged by the color change. It is shown.

However, none of these inventions of Patent Documents 1 to 3 is aimed at visualizing urine components, and a technique for visualizing and cleaning urine components scattered on the floor surface of a toilet or the like is not known.

Japanese Patent No. 2006-234475 Japanese Unexamined Patent Publication No. 2009-42158 Japanese Patent No. 5788114

An object of the present invention is to provide a urine component visualization cleaning product and a urine component visualization cleaning method for visualizing and cleaning urine components scattered on the floor surface of a toilet or the like.

The urine component visualization cleaning product of the present invention, which has been made to solve the above problems, contains a first liquid containing a pH indicator component having a discoloration range due to the urine component and a second liquid containing a cleaning functional substance. It is a combined urine component visualization cleaning product, which is characterized in that when the second liquid is mixed with the first liquid, the color of the first liquid does not change due to pH fluctuation. The pH indicator component of the first liquid can be anthocyanin. Further, it is desirable that the cleaning functional substance of the second liquid has a cleaning function of urine components.

Further, in the method for visualizing and cleaning urine components of the present invention, which has been made to solve the above problems, urine is sprayed with a first solution containing a pH indicator component having a discoloration range due to the urine components on the adhesion surface of the urine components. It is characterized by visualizing the components and cleaning the visualized part with a second liquid containing a cleaning functional substance and the first liquid does not change its color due to pH fluctuation when mixed with the first liquid. It is a thing.

In addition, the color means a color and a hue, and in the present invention, it is defined based on the hue circle represented by the Oswald color system. The Oswald color system consists of a hue circle of 24 hues, and the hue numbers are represented by 1 to 24.
Hue numbers 1 to 3 are yellow, 4 to 6 are orange, 7 to 9 are red, 10 to 12 are purple, 13 to 15 are blue, 16 to 18 are blue green, 19 to 21 are green, and 22 to 24 are yellow. Defined as green, transparent is colorless. The case of color change does not mean that the hue number fluctuates, but any of the above-mentioned yellow, orange, red, purple, blue, blue-green, green, yellow-green, and colorless colors is different. It means that it changes to color.

According to the present invention, the first liquid can be sprayed on the adhered surface of the urine component to visualize the urine component by the pH indicator component, and the visualized portion can be washed with the second liquid. In the present invention, when the second liquid is mixed with the first liquid, the color of the first liquid does not change due to pH fluctuation, so that the color of the portion visualized by the first liquid is the cleaning liquid. By spraying the second liquid, the color does not change or disappear due to pH fluctuation. Therefore, when the second liquid is sprayed, the urine component can be reliably cleaned and removed as compared with the case where the color of the first liquid changes due to the pH fluctuation.

An embodiment of the present invention will be described below.
In the present invention, a first liquid which is a visualization agent and a second liquid which is a cleaning agent are used. It is preferable to store these in a separate spraying container and spray them in the order of the first liquid and the second liquid, but the second liquid does not necessarily have to be sprayed.

The first liquid contains a pH indicator component having a color change range due to the urine component, and as the pH indicator component, for example, BTB (bromothymol blue), anthocyanin, phenolphthalein and the like can be used. Water is used as the solvent.

Bromothymol blue is yellowish green in the neutral region where the pH is around 7, but has the property of developing a color from green to blue when the pH increases to the alkaline side. Anthocyanins are plant pigments that have the property of developing a red color in the acidic region, purple in the neutral region, and blue in the alkaline region. Phenolphthalein is colorless in the neutral region, but turns red in the alkaline region.

Since the stable pH range differs depending on the pH indicator component, if the pH is stored in a container with the pH adjusted to neutral, it may become unstable and denature. Therefore, when anthocyanins are used, they are stored in a container in an acidic region with a pH of 3, and at the same time as spraying the first solution, an alkaline pH regulator is sprayed from another container to adjust the pH of the sprayed surface. It is desirable to change from 3 to 7.

The urine of a healthy person is weakly acidic. Therefore, when the first liquid containing the pH indicator component as described above is sprayed in a small amount, the part to which the urine component is not attached is neutral, and the part to which the urine component is attached is affected by the urine component. Since it is weakly acidic, only the part to which the urine component is attached is discolored and visualized. The urine component in the present invention includes not only human urine components but also animal urine components such as pets represented by dogs and cats.

Further, for example, when the first liquid containing an alkaline pH indicator component is sprayed, the part to which the urine component is not attached is alkaline, and the part to which the urine component is attached is affected by the urine component. It becomes weakly acidic.

In addition to the pH indicator component, smectite (layered silicate) powder can be added to the first liquid. Smectite has thixotropic properties and usually has a high viscosity, but has a property of lowering the viscosity when heat or pressure is applied. As a result, the visualization agent solution containing smectite has a low viscosity and is easy to spray when sprayed with pressure, and at the same time, it becomes highly viscous after spraying, so that the visualization agent solution may scatter or drip. There is nothing to do.

The second liquid is a cleaning liquid containing a cleaning functional substance, and is used for cleaning the urine component visualized by the first liquid. In the present invention, as the second liquid, a liquid in which the color of the first liquid does not change due to pH fluctuation when mixed with the first liquid is used. Although it depends on the type of pH indicator contained in the first liquid, the cleaning functional substance in the second liquid is preferably between pH 3 (acidic) and pH 8 (weakly alkaline), which is close to the pH of the urine component, and further, pH 5 It is more preferably between (weakly acidic) and pH 8 (weakly alkaline). Such a second liquid is sprayed toward the part visualized by the first liquid, but since the color of the first liquid does not change due to pH fluctuation, the part visualized by the first liquid does not become invisible. , It is possible to wash reliably.

As shown in the following examples, the cleaning functional substance contained in the second liquid is a cleaning agent such as sodium hypochlorite and hydrogen peroxide, but in addition, a surfactant, a metal sequestering agent, and foam. A modifier or the like can be added. The solvent is preferably water, but it can also be an organic solvent. Examples of the present invention are shown below.

First, three kinds of first liquids shown in Table 1 were prepared. The pH indicator component is BTB in Formulation 1, anthocyanin in Formulation 2, and phenolphthalein in Formulation 3. All of these can be discolored by spraying on the adhered surface of the urine component, and the adhered portion can be visualized. In Formulation 2, citric acid is added to stabilize anthocyanin to make it acidic, and at the same time as spraying, an alkaline pH adjuster is sprayed from another container to change the pH of the sprayed surface from 3 to 7. do. The numerical value in Table 1 is mass%.

Next, five kinds of second liquids shown in Table 2 were prepared. The fatty acid amide propyl betaine and alkyl glucoside in Table 2 are surfactants, the polycarboxylic acid-based copolymer is a surface active agent, and ethyl alcohol is a foam modifier. The pH of each second liquid is as shown in Table 2. Formulation 5 is a strong alkaline detergent, Formulation 6 is an alkaline detergent, Formulation 7 is a weak alkaline detergent, Formulation 8 is a weakly acidic detergent, and Formulation 9 is an acidic detergent.

After the first liquid of Formulation 1, Formulation 2 and Formulation 3 is sprayed on the adhesion surface of the urine component to visualize the urine component, the second liquid of Formulation 5 to Formulation 9 is sprayed from above and visualized. The change in the color of the urinary part was observed. Table 3 summarizes those whose colors have changed due to the spraying of the second liquid as x, those that have changed slightly but do not interfere with visualization as Δ, and those that have not changed at all as 〇.

The case where the detergent of formulation 5 having a pH of 9.0 is used as the second liquid will be described. When the urine component adhered portion is colored yellowish green (hue 24) by spraying the visualization agent formulation 1, when the detergent of formulation 5 is sprayed on the adhered portion, the green color is blue. The color changed to (hue 14). Further, when the urine component adhered portion is colored purple (hue 10) by spraying the visualization agent formulation 2, when the detergent of formulation 5 is sprayed on the adhered portion, the purple color is blue. The color changed to (hue 14). Further, when the urine component adhered portion becomes colorless by spraying the visualization agent formulation 3, when the detergent of formulation 5 is sprayed on the adhered portion, the colorless color becomes red (hue 8). changed.

The case where the detergent of formulation 6 having a pH of 8.0 is used as the second liquid will be described. When the urine component adhered portion is colored yellowish green (hue 24) by spraying the visualization agent formulation 1, when the detergent of formulation 6 is sprayed on the adhered portion, the yellowish green color is slightly Although the density changed, the color did not change and remained yellowish green (hue 23). In addition, when the urine component adhered portion is colored purple (hue 10) by spraying the visualization agent formulation 2, when the detergent of formulation 6 is sprayed on the adhered portion, the red color is slightly different. Although the density changed, the color remained purple (hue 11) and did not change. Further, when the urine component adhered portion becomes colorless by spraying the visualization agent formulation 3, when the detergent of formulation 6 is sprayed on the adhered portion, the colorless color remains colorless and completely changes. There wasn't.

The case where the detergent of formulation 7 having a pH of 7.5 is used as the second liquid will be described. When the urine component adhered portion is colored yellowish green (hue 24) by spraying the visualization agent formulation 1, when the detergent of formulation 7 is sprayed on the adhered portion, the green color changes completely. I didn't. Further, when the urine component adhered portion is colored purple (hue 10) by spraying the visualization agent formulation 2, when the detergent of formulation 7 is sprayed on the adhered portion, the purple color (hue 10) is formed. The color of was not changed at all. Further, when the urine component adhered portion becomes colorless by spraying the visualization agent formulation 3, when the detergent of formulation 7 is sprayed on the adhered portion, the colorless color remains colorless and completely changes. There wasn't. Similar results were obtained when the detergent of formulation 8 having a pH of 5.0 was used as the second liquid.

A case where a detergent of formulation 9 having a pH of 3.0 is used as the second liquid will be described. When the adhesion site of the urine component is colored yellowish green (hue 24) by spraying the visualization agent formulation 1, when the detergent of formulation 9 is sprayed on the adhesion site, the yellowish green color is yellow. It changed to (hue 2).
Further, when the urine component adhered portion is colored purple (hue 10) by spraying the visualization agent formulation 2, when the detergent of formulation 9 is sprayed on the adhered portion, the purple color is changed. It changed to red (hue 9). Further, when the urine component adhered portion is colored colorless by spraying the visualization agent formulation 3, when the detergent of formulation 9 is sprayed on the adhered portion, the urine component remains colorless and does not change at all. rice field.

As shown in Table 3, when the formulations 6, 7, and 8 are used as the second liquid, the color of the portion visualized by the first liquid does not change. Further, in the visualization agent formulation 3 containing phenolphthalein, the color of the portion visualized by the first liquid did not change even when the formulation 9 was used. Therefore, it became possible to completely remove the urine component by washing until the color disappeared.

Claims (4)

A visualization cleaning product for urine components, which is a combination of a first solution containing a pH indicator component having a discoloration range due to urine components and a second solution containing a cleaning functional substance.
A urine component visualization cleaning product, characterized in that the first liquid does not change color due to pH fluctuation when the second liquid is mixed with the first liquid. The visualization cleaning product for urine components according to claim 1, wherein the pH indicator component of the first liquid is anthocyanin. The visualization cleaning product for urine components according to claim 1 or 2, wherein the cleaning functional substance of the second liquid has a cleaning function for urine components. The first liquid containing a pH indicator component having a discoloration range due to the urine component is sprayed on the adhesion surface of the urine component to visualize the urine component, and when it contains a cleaning functional substance and is mixed with the first liquid, the first liquid is used. A method for visualizing and cleaning urine components, which comprises cleaning a visualized part with a second liquid in which the color of the first liquid does not change due to pH fluctuation.