JPS62254894A - Active oxygen water - Google Patents

Abstract

PURPOSE:To permit the thorough disinfection of medical apparatus, etc., by using the water prepd. by sucking the air contg. the active oxygen generated by lighting up of a UV lamp in air by an ejector, and intimately mixing th same into the water injected at a high speed to dissolve the active oxygen into said water. CONSTITUTION:The UV mercury lamp (e.g, GM pipe which is of 15W electric power consumption and generates UV of 1850, 2537 and 3600Angstrom ) is lighted up in air or oxygen to generate the active oxygen. The air or oxygen contg. such active oxygen is sucked by the ejector and is intimately mixed with the wager injected at a high speed to dissolve the active oxygen into the water. Such active oxygen water is sprayed to apparatus for producing food, etc., medical apparatus or the attachments, constituting parts, etc., thereof by which the thorough cleaning and disinfection thereof are executed.

Description

[Detailed description of the invention]

[Industrial Field of Application] The present invention relates to active oxygen water that is extremely useful for spray cleaning and complete disinfection of food manufacturing equipment, medical equipment, and their accessories and components. [Prior art] To remove stains from food manufacturing equipment, medical equipment, etc., the following methods are usually used: a. Using detergent and a brush. C. Spraying high-pressure water. C. Spraying high-pressure air. d. Spraying water vapor. There are various methods such as spraying. Among these methods, method 1 is the most universal and can wash a wide range of objects, including the hands and fingers of the handler, but it requires a large amount of water to remove the remaining detergent after removing dirt. The reality is that complete disinfection is not always possible. Also, b
This method involves jetting and colliding high-speed, high-pressure water that can reach up to 100 m/s toward the object to be washed.
For example, the disinfectant may be rubbed forcefully by hand using a scrubbing brush, but even in this case, complete disinfection was not guaranteed. Furthermore, method C was a method commonly called kipuki, which was only capable of removing most of the dirt adhering to the object, and was rather incomplete in terms of disinfection. In addition, method d is a method that can remove relatively stubborn dirt adhering to the object and also ensures complete sterilization.
In order to produce high-pressure steam, equipment such as a boiler, which was a major loss, was required to be thickened, and furthermore, there were problems in that it required sufficient consideration for safety measures for workers. [Disadvantages to be Solved by the Invention] The present invention has been made in view of the above-mentioned actual situation, and the present invention has been made in view of the above-mentioned actual situation, and it solves the incompleteness of cleaning steam disinfection, the operational danger, and other problems in the conventional method as listed above. In the course of repeated studies to solve the problem, we came to the conclusion of using a propellant oil-based oxygen water with no residual toxicity, and as a result of various experiments, we arrived at the present invention. Normally, ozone water is produced by (1) a method using corona discharge, (ii) a method using a mercury lamp that irradiates ultraviolet light with a wavelength of 1850 Aug. Obtained by dissolving. For example, in the method (11) above. (o) + 0□ □ 03 Active oxygen Oxygen Active oxygen that becomes ozone, but is an intermediate product

[0]
Since ozone is more unstable than ozone O3, it can be assumed that it is more powerful in terms of oxidizing and disinfecting power. The present inventor has proposed that, in addition to the active oxygen generated by ultraviolet lamps (GM tubes) being dissolved in water and stored as ozone water, the solution immediately after production is used by striking the object. Focusing on the fact that the above-mentioned oxidizing power and sterilizing power are far superior, we conducted extensive experiments with the hope that this method would be put to practical use.As a result, we found that air or oxygen containing active oxygen was sucked in with an ejector. , discovered that active oxygen water obtained by spraying and mixing at high speed is extremely suitable, and that it is particularly preferable that active oxygen water is mixed in such a way that some of the active oxygen exists as bubbles. It is. It was also confirmed that the active oxygen water obtained under these conditions has much stronger oxidizing and bactericidal effects than when the object is placed in air or oxygen containing active oxygen. The effect of the active oxygen water according to the present invention is that the outer shell of the space shuttle, which is flying at high speed through space, collides with the active oxygen molecules existing in the space, resulting in stronger corrosion than expected. This is consistent with the fact that The present invention will be explained below based on Examples. [Example] A. A washer is installed that sprays 10 J per minute under pressure through an injection nozzle, an injector is installed in front of the nozzle,
Air containing active oxygen was absorbed into the injected water from the injector. B. The active oxygen is extinguished 5! 15 watt mercury lamp (
1850, 2537 and 360o august strong U
It was generated by a GM tube that generates V. C. Due to the combination of A and B above, Q, the injection speed is approximately 1 per second.
Active oxygen water with an active oxygen concentration of 0.1 to 0.16 ppm was obtained at 00m, and as a result of applying this to cleaning and disinfecting the inner surfaces of milk bottles returned by consumers, it was found that 1 per bottle before application.
10. OOOke of Escherichia coli (E, Co11) was detected, but it was not detected after application, and cleaning and disinfection were extremely effective.

Claims (1)

[Claims] Air or oxygen containing active oxygen generated by lighting an ultraviolet lamp in air or oxygen is sucked in by an ejector, mixed with water that is sprayed at high speed, and the active oxygen is dissolved in the water. Active oxygen water featuring