JP2018090547A - Bactericidal agent and method of manufacturing the same - Google Patents

Abstract

A weak alkaline stable hypochlorous acid that has a larger amount of spraying by an ultrasonic spraying device than conventional ones and can suppress variation in the spraying amount between ultrasonic spraying devices of the same type. Disinfectants comprising a sodium solution are provided.
The disinfectant according to the present invention comprises a weak alkaline stable sodium hypochlorite solution and contains ultrafine bubbles.
[Selection figure] None

Description

  The present invention relates to a disinfectant (including a deodorant, a disinfectant, a disinfectant, and the like) composed of a weak alkaline stable sodium hypochlorite solution and a method for producing the same.

  2. Description of the Related Art Conventionally, there has been known an ultrasonic spray apparatus that atomizes a liquid having a sterilizing and deodorizing function using an ultrasonic vibrator and sprays the liquid into a space (see, for example, Patent Document 1). The applicant has commercialized a disinfectant comprising a weak alkaline stable sodium hypochlorite solution and an ultrasonic spray device for spraying the same.

JP 2009-1000085 A

  By the way, the disinfectant composed of a weak alkaline stable sodium hypochlorite solution has a smaller amount of spraying by an ultrasonic spraying device and the same kind of ultrasonic spraying compared to normal water (tap water). It has been confirmed that the variation in the spray amount between the devices is large. This is because the disinfectant consisting of a weak alkaline stable sodium hypochlorite solution is less susceptible to atomization than normal water, and in addition to the effects of individual differences in the ultrasonic vibrator and its drive circuit. It is thought that it is because it is easy to receive.

  On the other hand, the ultrasonic vibrator is increased in size or output in order to increase the spray amount, or the ultrasonic vibrator and the drive circuit standards are set strictly in order to suppress variations in the spray amount. Although it is conceivable to do so, it causes an increase in the manufacturing cost of the ultrasonic spray device, which is not preferable.

  Therefore, the present invention has a weak alkaline stable type that is capable of suppressing the dispersion of the spray amount between the ultrasonic spray devices of the same kind, and the amount of spray by the ultrasonic spray device is larger than the conventional one. One object of the present invention is to provide a disinfectant comprising a sodium chlorite solution.

  The present inventor, when containing ultrafine bubbles in a weak alkaline stable sodium hypochlorite solution, increases the amount of spraying by an ultrasonic spraying device without impairing its characteristics, and the same kind of ultrasonic type It has been found that the variation in the spray amount between the spray devices is reduced, in other words, spraying by the ultrasonic spray device is stably performed. The present invention has been made based on such knowledge.

  That is, the disinfectant according to the present invention comprises a weak alkaline stable sodium hypochlorite solution and contains ultrafine bubbles. In addition, the method for producing a disinfectant comprising a weak alkaline stable sodium hypochlorite solution according to the present invention is effective in containing ultrafine bubbles in pure water and pure water containing ultrafine bubbles. Diluting a stock solution of a stable sodium hypochlorite solution having a high chlorine concentration.

  According to the present invention, compared to the prior art, the amount of spray by the ultrasonic spray device is large, and the variation in spray amount among the same type of ultrasonic spray device can be suppressed. A disinfectant comprising a sodium chlorite solution can be provided.

It is a figure which shows the comparison result of the spraying quantity by the ultrasonic type spraying apparatus of the disinfectant | contaminant by this invention, the disinfectant | contaminant which consists of the conventional weak alkaline stable sodium hypochlorite solution, and normal water (tap water). .

  The present invention provides a disinfectant comprising a weak alkaline stable sodium hypochlorite solution and containing ultrafine bubbles. The weak alkaline stable sodium hypochlorite solution is sometimes referred to as stable alkaline hypochlorite.

  In the present specification, the “sanitizing agent” refers to a liquid having a sterilizing performance, a liquid having a deodorizing performance, and / or a liquid having a sterilizing performance. Therefore, the disinfectant according to the present invention includes a deodorant used for deodorization, a disinfectant used for disinfecting objects, human hands or space, food, cooking utensils, etc. And sterilizers used for sterilization of food. A “weakly alkaline stable sodium hypochlorite solution (stable alkaline hypochlorite)” is a weakly alkaline aqueous solution containing sodium hypochlorite, and its pH (hydrogen ion index) changes over time. There are few things. “Weak alkaline stable sodium hypochlorite solution (stable alkaline hypochlorite solution)” has a long-term effective chlorine concentration under normal storage conditions, unlike ordinary sodium hypochlorite aqueous solutions. Can be maintained for (approximately 1 year or more). In addition, the pH (hydrogen ion index) of the disinfectant according to the present invention is 8.5 to 11.5.

  The disinfectant according to the present invention includes, for example, pure water (RO-ion exchanged water) in which ultrafine bubbles are generated (contained) using a known ultrafine bubble generator, and stable hypochlorous acid having a high effective chlorine concentration. It is produced by mixing a stock solution of a sodium chlorate solution (stock solution of stable alkaline hypohydrogen). That is, the disinfectant according to the present invention contains ultrafine bubbles in pure water, and is a stock solution of a stable sodium hypochlorite solution having a high effective chlorine concentration in pure water containing ultrafine bubbles (stable alkaline). It can be prepared by diluting a stock solution of hypochlorous acid. However, the present invention is not limited to this, and the disinfectant according to the present invention may be produced by directly containing ultrafine bubbles in a weak alkaline stable sodium hypochlorite solution. Ultrafine bubbles refer to fine bubbles (so-called nanobubbles) having a diameter of 1 μm or less and can remain in a liquid for a long period of time.

The ultrafine bubble contained in the disinfectant according to the present invention (that is, the weak alkaline stable sodium hypochlorite solution) is not particularly limited as long as the average particle diameter is 1 μm or less. It may be fine bubbles having a maximum frequent particle diameter (mode diameter) of 90 to 500 nm, preferably 140 to 250 nm. Further, the concentration of the ultra fine bubble in the disinfectant according to the present invention is not particularly limited, but is, for example, 1.0 × 10 ⁷ cells / mL or more, preferably 1.0 × 10 ⁸ cells / mL or more. More preferably, it may be 1.0 × 10 ⁹ cells / mL or more.

  Here, oxygen, ozone, nitrogen, carbon dioxide, air, nitrogen, fluorine, and the like are known as the gas forming the ultra fine bubble, in other words, the gas enclosed in the ultra fine bubble, and is appropriately selected. However, air, nitrogen or oxygen is preferred in the disinfectant according to the present invention.

  The disinfectant according to the present invention can be used for various subjects and in various places. For example, the disinfectant according to the present invention is sprayed on the target space, sprayed on the object, or the target in order to perform at least one of deodorization, sterilization (including infectious disease countermeasures) and sterilization. Objects can be immersed. Moreover, a patch (sheet material or the like) impregnated with the disinfectant according to the present invention may be affixed to an object. Although not particularly limited, when the disinfectant according to the present invention is sprayed on the target space for the purpose of deodorizing or disinfecting (including measures against infectious diseases), an ultra fine bubble is formed. The gas is preferably air, oxygen or nitrogen, and when the disinfectant according to the present invention is used as a sterilizing agent, the gas forming the ultra fine bubble is preferably nitrogen.

  When the disinfectant according to the present invention is sprayed on a target space or target, an ultrasonic spray device or a spray nozzle is mainly used. In particular, since the ultrasonic spray device can spray the disinfectant according to the present invention as finer particles (droplets), when performing deodorization of the target space, disinfection of the target space or measures against infectious diseases, etc. Is preferably used.

  As will be described later, the disinfectant according to the present invention has a larger amount of spraying by an ultrasonic spray device than the conventional disinfectant composed of a weak alkaline stable sodium hypochlorite solution, and the same type of disinfectant. Variation in the spray amount between the ultrasonic spray devices is reduced. For this reason, by using an ultrasonic spray device having a specification according to the size of the target space, the disinfectant according to the present invention is stably sprayed (amount of spray is ensured), and the target space is deodorized. In addition, sterilization of the target space or measures against infectious diseases can be performed stably and effectively.

  Here, the disinfectant according to the present invention has a larger amount of spraying by an ultrasonic spraying device than the conventional disinfectant comprising a weak alkaline stable sodium hypochlorite solution, and the same kind of ultrasonic spraying device One of the reasons why the variation in the spray amount between the two is reduced is considered as follows. That is, the disinfectant according to the present invention has an ultrafine bubble and thus the apparent density is lowered. As a result, the surface tension of the disinfectant of the present invention is a conventional weak alkaline stable sodium hypochlorite solution. This is considered to be because the surface tension of the disinfectant comprising

  Therefore, even when the disinfectant according to the present invention is sprayed by a spray nozzle, it is sprayed as finer particles (droplets) than before, and the deodorization of the target space and the disinfection of the target space are performed. Alternatively, it is considered that infectious disease countermeasures can be effectively performed. In addition, the disinfectant according to the present invention is sprayed on the object, the object is immersed in the disinfectant according to the present invention, or a patch (sheet material or the like) impregnated with the disinfectant according to the present invention is the object. Even when affixed, it is considered that the permeability to the object is improved as compared with the conventional case and the object can be sterilized, deodorized or sterilized effectively.

  That is, the disinfectant according to the present invention is used as a spray liquid sprayed on a target space or an object, when used as an immersion liquid sprayed on an object, and on a patch applied to an object. In any case where it is used as an impregnating liquid to be impregnated, it can be said that the deodorizing performance, the sterilizing performance and / or the bactericidal performance can be exhibited more effectively than before.

  Hereinafter, the disinfectant according to the present invention will be described with reference to Examples. However, the present invention is not limited to the following examples.

[Example 1]
First, using a known ultra fine bubble generator, air ultra fine bubbles were generated (contained) in pure water (RO-ion exchange water) to produce ultra fine bubble-containing pure water. In the produced ultrafine bubble-containing pure water, the maximum frequent particle diameter of the ultrafine bubble was 180 to 190 nm, and the concentration of the ultrafine bubble was about 1.5 × 10 ⁹ particles / mL. And the stock solution (effective chlorine concentration: 40000 ppm) of the stable sodium hypochlorite solution (stable alkaline hypochlorite) is diluted with the ultrafine bubble-containing pure water, and the disinfectant according to Example 1 (liquid Property: weak alkalinity, effective chlorine concentration: 50 ppm).

[Example 2]
A stock solution of a stable sodium hypochlorite solution (stable alkaline hypochlorite) is diluted with the ultrafine bubble-containing pure water, and the disinfectant according to Example 2 (liquidity: weak alkaline, effective chlorine concentration: 200 ppm).

  In addition, even if 6 months or more passed after preparation, the disinfectant according to Example 1 and the disinfectant according to Example 2 were stable with no change in pH and effective chlorine concentration.

[Comparative example]
While normal water (tap water) is used as Comparative Example 1, a stock solution of a stable sodium hypochlorite solution is diluted with pure water (RO-ion exchange water), and Comparative Example 2 (Liquidity: weakly alkaline, Effective chlorine concentration: 50 ppm) and Comparative Example 3 (liquidity: weak alkaline, effective chlorine concentration: 200 ppm) were prepared.

[Evaluation of spray amount by ultrasonic spray device]
Three types of commercially available ultrasonic atomizers with different specifications are prepared (each model: three), and each of the ultrasonic atomizers A1-A3, B1-B3, C1-C3 is used in Example 1-2. Each of Comparative Examples 1-3 was sprayed to compare the spray amount. The results are shown in FIG. In addition, FIG. 1 has shown each spray amount of Example 1-2 when the spray amount of the comparative example 1 (tap water) is made into a reference | standard ((double-circle)), and comparative example 2-3, "(circle)" The spray amount is slightly smaller than that of Comparative Example 1, “Δ” indicates that the spray amount is considerably smaller than that of Comparative Example 1, and “x” indicates that the spray is hardly sprayed.

  As shown in FIG. 1, in Example 1-2, the amount of spray by each of the ultrasonic spray devices A1-A3, B1-B3, C1-C3 tends to be larger than that in Comparative Example 2-3. In addition, it was confirmed that there was little variation in the spray amount between each model.

Claims (7)

  A disinfectant comprising a weak alkaline stable sodium hypochlorite solution and containing ultrafine bubbles.   The disinfectant according to claim 1, having a pH (hydrogen ion concentration index) of 8.5 to 11.5.   The disinfectant according to claim 1 or 2, wherein the disinfectant is used as a spray liquid sprayed on a target space or an object.   The disinfectant according to claim 1 or 2, which is used as an immersion liquid into which an object is immersed.   The disinfectant according to claim 1 or 2, wherein the disinfectant is used as an impregnating liquid impregnated in a patch attached to an object.   The disinfectant according to any one of claims 1 to 5, which is used as a disinfectant. A method for producing a disinfectant comprising a weakly alkaline stable sodium hypochlorite solution,
Including ultra fine bubbles in pure water; and
Diluting a stock solution of a stable sodium hypochlorite solution having a high effective chlorine concentration with pure water containing ultrafine bubbles;
Including a method.