JP3484579B2 - Electrolytic water flow characteristics detector - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolyzed water flow characteristic detecting device, and more particularly to electrolyzed water (acidic water or alkaline water) used for disinfection and sterilization of hospitals at a plurality of locations remote from the electrolyzed water generating device. For accurately detecting and identifying characteristics of electrolyzed water when water is distributed to the water supply terminal.

[0002]

It is well known that strongly acidic water, which is electrolyzed water produced by an electrolyzed water producing apparatus, has a bactericidal effect. Therefore, for example, when trying to obtain the above-mentioned electrolyzed water on each floor of a hospital, conventionally, an electrolyzed water generator is installed on each floor and a desired electrolyzed water is generated and spouted at that location, and the application such as disinfection and sterilization Was used for. Therefore, in this case, it is easy to identify that the electrolyzed water discharged from the device is electrolyzed water having desired characteristics. Even when the electrolyzed water is distributed through a pipe, the electrolyzed water in the pipe has a desired characteristic when the water is directly supplied from the outlet of the device or when the electrolyzed water does not stay in the pipe. There is no particular problem even if it is regarded as a thing.

[0003]

However, if the electrolyzed water produced by the electrolyzed water producing apparatus is stored for a long period of time due to retention or the like, the concentration of hypochlorous acid and the dissolved oxygen change. Therefore, it may not be suitable for the aforementioned uses such as disinfection and sterilization. In the case of the hospital, because it is uneconomical to install an expensive electrolyzed water generator on each floor, an electrolyzed water generator is installed only on the top floor, and strong acidic water is supplied by a pipe extended from there. The above problem occurs when trying to supply water to each floor below it with the water pressure. That is, if the valve is closed at the water supply end of each floor and it is not used for a predetermined time or longer, the electrolyzed water will stay there and the hypochlorous acid concentration and dissolved oxygen content in the water will decrease over time. Can not know this and uses almost as desired acidic water. However, since the electrolyzed water at this time does not contain the above-mentioned components, it does not have a predetermined bactericidal effect, and there is a risk of causing an extremely dangerous situation.

An object of the present invention is to provide a device which allows a user to easily confirm whether or not electrolyzed water having desired characteristics is being supplied at a water supply terminal of an electrolyzed water pipe.

[0005]

In order to achieve the above object, the electrolyzed water flow characteristic detecting device of the present invention comprises a plurality of predetermined locations remote from electrolyzed water producing means for producing electrolyzed water consisting of acidic water and / or alkaline water. For displaying characteristics of electrolyzed water provided at a pipe terminal of an electrolyzed water piping system provided with a pipe for distributing water at a water supply end of the valve, and a valve provided at the water supply end of the pipe and the vicinity of the valve. And a characteristic detecting means for detecting the characteristic of the electrolyzed water in the vicinity of the valve. In the above apparatus, the electrolyzed water producing means includes an electrolyzer and an electrolyzed water storage tank provided at a predetermined location of the building, the pipe is connected to the tank, and the water supply end is provided at each use location of the building. It is arranged. For example, the electrolyzed water generating means may be provided on the top floor of the building and the water supply end may be provided on each floor of the building, or the water supply end may be installed and installed on the same floor as the installation floor of the electrolyzed water generation means. Alternatively, the electrolyzed water generating means may be installed in the basement and the electrolyzed water may be pumped up to supply water. Further, an electrolytic aqueous solution for increasing electric conductivity may be supplied to the electrolytic cell so that the strongly acidic water is stored in the tank and then discharged. Further, the characteristic detection means, the redox collector position of the electrolytic water, the concentration hypochlorite, may include a display for displaying the individual outputs of the sensors and the sensor for detecting the dissolved oxygen content and pH.

[0006]

When the valve is opened at the water supply end of the pipe to obtain electrolyzed water, the characteristics of the electrolyzed water are constantly detected. Therefore, the above problem is solved.

[0007]

Embodiments of the present invention shown in the drawings will be described below.
FIG. 1 shows an embodiment of the electrolyzed water flow characteristic detection device of the present invention.
For example, assume that it is applied to a hospital in a 6-story building. In the figure, 1 is a known electrolyzed water generator, 2 and 3 are first and second storage tanks, which are installed on the top floor of the building. NaC is used for the electrolyzed water generator 1.
l, electrolytes such as KCl is water in tap water, of the generated electrolytic water, for example, strongly acidic water is spouted into the first tank 2, the alkaline water is spouted to the second tank 3.

The first tank 2 is connected to the valves 5a to 5f at the predetermined water supply end of each floor by the pipe 4 in the duct 4a, and the characteristic detecting means 6a to 6f are provided near the respective water supply ends.
6f is provided. Each of the means 6a to 6f has, for example, the configuration shown in FIG. In the figure, 7 is OR
It is a P (oxidation-reduction potential) electrode or a sensor for measuring the concentration of hypochlorous acid, dissolved oxygen, etc., which is arranged in the pipe 4 near the water supply end and the output signal of which is applied to the input terminal IN. 8 is a buffer amplifier, 9 is a noise canceller amplifier, 10 is a comparator, and the comparator 10 compares the output voltage V ₁ of the noise canceller amplifier with a reference voltage V ₂ so that V ₁ corresponds to the output signal of the sensor 7. Is checked, and its output drives the transistor T ₁ or T ₂ to energize the indicator lamp 11 or 12.

For example, when any one of the above valves is opened to obtain electrolyzed water and the output voltage of the ORP electrode 7 is 1000 mV or less, the lamp 11 is turned on to indicate that it is unusable.
It can be used if it has a voltage of 1000 mV or more (it has a bactericidal effect).
Is displayed. If it cannot be used, it may be allowed to flow for a certain period of time and wait for a while until it becomes usable.

When the sensor 7 is a hypochlorous acid concentration meter, when a content exceeding a predetermined level is detected, a green lamp (for example, a display lamp 11) is displayed to indicate that the sensor 7 can be used as a disinfecting or sterilizing solution. Alternatively, the red lamp (for example, the display lamp 12) may be turned on when the content is reduced and the content becomes unusable. In addition, a pH meter can be used as the sensor 7.

Instead of the lamp, an LCD may be used, and whether or not the lamp can be used may be determined by a buzzer, music modulation, or a meter, and various types can be used. . Further, the tank 2 is not always necessary, and forced water may be distributed by a pump, or alkaline water and acidic water may be stored in the tanks 2 and 3, respectively, and these may be switched or supplied simultaneously. .

[0012]

As described above, according to the present invention, the characteristics of the electrolyzed water can be easily identified at each water supply end even when only one electrolyzed water generator is installed and water is distributed to a predetermined location. Therefore, the fear of using electrolyzed water having no bactericidal effect can be completely eliminated.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of the present invention.

FIG. 2 is a circuit diagram showing an example of characteristic detection means in the above-described embodiment.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Electrolyzed water generator 2, 3 Tank 4 Piping 5a-5f Valve 6a-6f Characteristic detection means

Continuation of the front page (56) Reference JP-A-7-144193 (JP, A) JP-A-6-312184 (JP, A) Actually open 5-22093 (JP, U) Actually open 56-31353 (JP , U) Actual Kaihei 7-37396 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) G01N 27/26-27/49 C02F 1/46-1/48

Claims (4)

(57) [Claims] 1. A plurality of predetermined locations remote from an electrolyzed water producing means for producing electrolyzed water composed of acidic water and / or alkaline water.
Electrolyzed water piping system with piping for water distribution at the water supply end of
Displaying the characteristics of electrolyzed water installed at the stem piping terminal
The valve provided at the water supply end of the pipe and in the vicinity of the valve to detect the characteristics of electrolyzed water near the valve.
Electrolytic water distribution characteristic detecting apparatus characterized by comprising: a characteristic detection means for knowledge, the. 2. The electrolyzed water producing means includes an electrolyzer and an electrolyzed water storage tank provided at a predetermined location of a building, the pipe is connected to the tank, and the water supply end is located at a location of use of the building. The electrolyzed water flow characteristic detection device according to claim 1, wherein the electrolyzed water flow characteristic detection device is disposed. 3. The electrolytic water flow characteristic detecting device according to claim 2, wherein an electrolytic aqueous solution is supplied to the electrolytic bath, and strong acidic water is stored in the storage tank. Wherein said characteristic detecting means comprises a display for displaying the redox collector position of the electrolytic water, the concentration hypochlorous acid, the individual outputs of the sensors and the sensor for detecting the dissolved oxygen content and pH The electrolyzed water flow characteristic detection device according to claim 2.