JP2004067855A - Rinse agent for receiving vessel of carbonated beverage and method for washing receiving vessel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress the development of bubbles when carbonated beverages are poured into receiving vessels to control the development of bubbles to a certain level or less. <P>SOLUTION: A strongly alkaline electrolytically produced alkaline water which is produced in diaphragm electrolysis, in which a dilute aqueous solution of an inorganic salt suitable for eating and drinking is used as the water to be electrolyzed, is adopted as a rinse agent for the receiving vessel used for rinsing the inside of the receiving vessel for receiving extracted carbonated beverages. The development of bubbles is suppressed by allowing a part of the electrolytically produced alkaline water to remain on the inner surface of the receiving vessel and holding the pH at the interface in contact with the inner surface of the receiving vessel to a neutral or alkaline side when the carbonated beverages are poured. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a rinsing agent for an order receiving container of carbonated drinking water, and a cleaning method for cleaning the order receiving container.
[0002]
[Prior art]
When carbonated beverage such as beer or soft drink is poured into a container such as a glass, the carbon dioxide contained in the carbonated beverage is gasified and generated as bubbles, and the generated bubbles cause the surface of the carbonated beverage to flow. It will cover and further overflow from the upper end opening of the order container. The bubbles generated during the injection of the carbonated drinking water improve the appearance and maintain the taste of the carbonated drinking water injected into the order receiving container. Is not preferable from the viewpoints of surrounding contamination due to bubbles overflowing from the order container and reduction in the amount of carbonated drinking water caused by the overflowing bubbles.
[0003]
The following four factors are known as factors that cause bubbles when the carbonated drinking water is injected into the order receiving container. That is, the first factor for generating bubbles is a large fluctuation in the load pressure on the carbonated drinking water when extracting the carbonated drinking water. This factor is the largest factor that generates air bubbles, and it is inevitable that the load pressure significantly decreases when extracting carbonated drinking water to be injected into the order receiving container. The second factor is the uneven shape of the inner surface of the order receiving container, and this uneven shape is a factor that impacts the carbonated drinking water injected into the order receiving container and promotes the generation of bubbles. The third factor is dirt on the inner surface of the order receiving container. Dust and scale attached to the inner surface of the order receiving container may cause shock to the carbonated drinking water injected into the order receiving container to promote the generation of bubbles. Become. The fourth factor is a warming effect received from the order receiving container when the carbonated drinking water is poured into the order receiving container. When the temperature of the order receiving container is high, the generation of air bubbles is promoted.
[0004]
Therefore, if these factors are adjusted or eliminated in advance, it is possible to suppress the generation of bubbles when the carbonated drinking water is injected into the order receiving container, and to control the generated bubbles to a predetermined amount or less. However, a large change in the load pressure for carbonated drinking water, which is the first factor, is an unavoidable factor, and the unevenness of the inner surface of the order container, which is the second factor, is a factor unique to the order container, These factors cannot be adjusted or eliminated. For this reason, these factors must be accepted. Contamination of the inner surface of the order container, which is the third factor, can be eliminated by sufficiently cleaning the inner surface of the order container, and is a commonly-used solution. Fourth, the heating effect, which is a factor, can be eliminated by sufficiently cooling the order container, and is a commonly-used eliminating means.
[0005]
[Problems to be solved by the invention]
The present inventors have further studied factors that promote the generation of air bubbles when injecting carbonated drinking water into an order receiving container, and have newly found the following factors. In general, the form (carbonate group) of the carbonate component contained in the aqueous solution largely depends on the pH of the aqueous solution. Referring to FIG. 1 showing the relationship between the pH of the aqueous solution and the form of the carbonate group, there are many (CO ₂ ) forms in the acidic region where the pH of the aqueous solution is low, and there are many (HCO ₃ ⁻ ) forms in the neutral region. In a high alkaline region, (CO ₃ ²⁻ ) exhibits a distribution state with many forms.
[0006]
That is, the carbonate groups in the aqueous solution are all present in the form of bicarbonate ions in the neutral region where the pH is 8.3, but when the pH changes from the neutral region to the alkaline side, the bicarbonate ions become hydrogen ions. When the ions are released and changed to carbonate ions, and when the pH changes from the neutral region to the acidic side, the bicarbonate ions consume hydrogen ions and change to carbon dioxide. This state of change in the form of carbonate indicates that if the pH of the aqueous solution shifts to the acidic side, the carbonate in the aqueous solution changes to carbon dioxide, which is a major factor in generating bubbles. .
[0007]
On the other hand, in carbonated drinking water, the carbonate root contained therein is in the form of carbon dioxide at a high load pressure, and its pH is maintained in the range of about 4-5. For this reason, when the carbonated drinking water is poured into the order receiving container, the generation of air bubbles is promoted if the interface where the carbonated drinking water contacts the inner surface of the order receiving container is on the acidic side.
[0008]
The present invention has been made by focusing on factors that promote the generation of such bubbles, and an object of the present invention is to eliminate the factors that promote the generation of such bubbles as much as possible, and to produce carbonated drinking water. An object of the present invention is to regulate the generation of bubbles when filling the order receiving container to a predetermined amount or less.
[0009]
[Means for Solving the Problems]
The present invention relates to a rinsing agent for an order receiving container of carbonated drinking water, and a cleaning method for cleaning the order receiving container, and employs the rinsing agent according to the present invention as a rinsing agent for an order receiving container of carbonated drinking water. Thus, the generation of bubbles when the carbonated drinking water is injected into the order receiving container can be restricted to a predetermined amount or less.
[0010]
Thus, the rinsing agent for an order container of carbonated drinking water according to the present invention is a strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis using a dilute aqueous solution of an inorganic salt suitable for eating and drinking as water to be electrolyzed. It is characterized by the following.
[0011]
Further, the first method for cleaning an order receiving container of carbonated drinking water according to the present invention includes the steps of: washing a contaminated order receiving container with washing water; and rinsing the inside of the washed order receiving container with rinsing water. A method for cleaning a container, characterized in that, as the rinsing water, a strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis using a diluted aqueous solution of an inorganic salt suitable for eating and drinking as water to be electrolyzed, Is what you do.
[0012]
Further, the second method for cleaning an order receiving container of carbonated drinking water according to the present invention includes cleaning a contaminated order receiving container with cleaning water, disinfecting at least the inside of the cleaned order receiving container with disinfecting water, and disinfecting the container. A method for cleaning an order receiving container, comprising rinsing the interior of the received order receiving container with rinsing water, wherein the sterilizing water is produced by diaphragm electrolysis using a dilute aqueous solution of an inorganic salt suitable for eating and drinking as water to be electrolyzed. The strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis using a diluted aqueous solution of an inorganic salt suitable for eating and drinking as the rinsing water is employed as the rinsing water. It is characterized by adoption.
[0013]
[Action and Effect of the Invention]
The rinsing agent according to the present invention is a strongly alkaline electrolytically generated alkaline water generated by a diaphragm electrolysis using a dilute aqueous solution of an inorganic salt as water to be electrolyzed, and the inner surface of the order container is rinsed with the rinsing agent. In such a case, the strong alkaline water remains on the inner surface of the order container. For this reason, when pouring the extracted carbonated drinking water into the order receiving container in which the strongly alkaline water remains on the inner surface, the interface where the carbonated drinking water contacts the inner surface of the order receiving container is on the alkaline side, Generation of air bubbles from drinking water can be significantly suppressed.
[0014]
Further, the method for cleaning an order-receiving container according to the present invention is characterized in that, as a treating agent for a rinsing process, which is one of the cleaning processes, a strongly alkaline electrolytic solution produced by a diaphragm electrolysis using a dilute aqueous solution of an inorganic salt as water to be electrolyzed. The resulting alkaline water is used. For this reason, if the washing method is adopted, strong alkaline water remains on the inner surface of the order container after washing. For this reason, when pouring the extracted carbonated drinking water into the order receiving container in which the strongly alkaline water remains on the inner surface, the interface where the carbonated drinking water contacts the inner surface of the order receiving container is on the alkaline side, Generation of air bubbles from drinking water can be significantly suppressed.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention relates to a rinsing agent for an order receiving container of carbonated drinking water, and a method for cleaning the order receiving container. The rinsing agent according to the present invention is a strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis using a dilute aqueous solution of an inorganic salt as water to be electrolyzed, and the cleaning method according to the present invention includes a carbonated drinking water. The method according to claim 1, wherein the rinsing agent according to the present invention is used as a treatment agent used in a rinsing process, which is one of the cleaning processes.
[0016]
One embodiment (first cleaning method) of the cleaning method according to the present invention is to clean a contaminated order container with cleaning water and to rinse the inside of the cleaned order container with rinsing water. Wherein the rinsing water according to the present invention is employed as rinsing water.
[0017]
In another embodiment (second cleaning method) of the cleaning method according to the present invention, the contaminated order container is washed with cleaning water, and at least the inside of the washed order container is sterilized with sterilizing water. A method for cleaning an order receiving container, comprising rinsing the interior of the order receiving container that has been sterilized with rinsing water, wherein the electrolyzed water is a dilute aqueous solution of an inorganic salt suitable for eating and drinking as sterilizing water. The present invention employs a strongly acidic electrolytically generated acidic water produced by the above method, and employs the rinsing agent according to the present invention as rinsing water.
[0018]
The rinsing agent according to the present invention uses a dilute aqueous solution of an inorganic salt such as sodium chloride or potassium chloride containing sodium chloride as a main component, as the water to be electrolyzed. The rinsing agent is strongly alkaline electrogenerated alkaline water generated by electrolyzing the electrolyzed water with a diaphragm. The electrolyzed alkaline water is generated in the cathode chamber of the diaphragm electrolyzer, and in the diaphragm electrolysis, strongly acidic electrolyzed acidic water is simultaneously generated in the anode chamber of the diaphragm electrolyzer. The electrolytically generated acidic water is used as a disinfectant which is disinfecting water in the second cleaning method according to the present invention. The rinsing agent according to the present invention is strongly alkaline electrolytically produced alkaline water, and preferably has a pH of 11.0 or more. The bactericide is a strongly acidic electrolytically generated acidic water, and preferably has a pH of 3.0 or less.
[0019]
Examples of the order container to be cleaned by employing the cleaning method according to the present invention include, for example, beer mugs, glasses, ceramic cups, and the like. When these order containers are used, the inner surface of the container is rinsed. It is necessary that the strongly alkaline electrolytically generated alkaline water, which is an agent, remains, and it is preferable that the electrolytically generated alkaline water remains as water droplets. Until the order container is used, it can be cooled and stored in a cooler such as a mug cooler while the electrolytically generated alkaline water remains as water droplets.
[0020]
The rinsing agent according to the present invention, and the cleaning method using the rinsing agent, effectively utilize the strong alkalinity of the electrolytically generated alkaline water remaining by rinsing the order container, and extract the extracted carbonated drinking water. Although it greatly suppresses the generation of bubbles at the time of filling the order container, according to the first and second cleaning methods according to the present invention, by removing contamination by a cleaning process prior to a rinsing process of the order container, It is possible to eliminate the cause of the generation of bubbles when the carbonated drinking water is injected into the order receiving container. Further, according to the second cleaning method of the present invention, further sanitary management can be performed by a sterilization process prior to the rinsing process of the order container.
[Brief description of the drawings]
FIG. 1 is a graph showing the relationship between the form of carbonate groups in an aqueous solution and pH.

Claims (3)

It is a rinsing agent for order containers used for rinsing the interior of the order container for receiving the extracted carbonated drinking water, and the rinsing agent is a dilute aqueous solution of an inorganic salt suitable for eating and drinking as electrolyzed water. A detergent for an order container for carbonated drinking water, which is a strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis. This is a method of cleaning an order receiving container for receiving an order for the extracted carbonated drinking water, in which a contaminated order receiving container is washed with cleaning water, and the inside of the washed order receiving container is rinsed with rinsing water. A method for cleaning an order container, comprising: using, as the rinsing water, strongly alkaline electrolytically generated alkaline water generated by diaphragm electrolysis using a dilute aqueous solution of an inorganic salt suitable for eating and drinking as water to be electrolyzed. A method for cleaning carbonated drinking water receiving containers. This is a method of cleaning an order receiving container for receiving an order for the extracted carbonated drinking water, in which a contaminated order receiving container is washed with cleaning water, and at least the inside of the washed order receiving container is sterilized with sterilizing water. A method for cleaning an order receiving container, comprising rinsing the interior of the order receiving container that has been sterilized with rinsing water, wherein the membrane electrolysis is performed using a dilute aqueous solution of an inorganic salt suitable for eating and drinking as the sterilizing water. Strongly acidic electrolytic water produced by the above is used, and a strong alkaline electrolytic solution produced by diaphragm electrolysis using a dilute aqueous solution of an inorganic salt suitable for eating and drinking as the rinsing water is used as the water to be electrolyzed. A method for cleaning an order container for carbonated drinking water, characterized by employing alkaline water.

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