JPH05237479A - Sterilization of legionellaceae - Google Patents

Abstract

PURPOSE:To make it possible to sterilize for a long time and stably Legionellaceae bacilli existing in water by applying alternatively a high frequency alternative current to a plurality of electrodes provided in water and sterilizing Legionellaceae bacilli thereby. CONSTITUTION:A plurality of electrodes 3A and 3B are provided in water stored in a container 1. A high frequency alternative current is alternatively fed to each electrode 3A and 3B from a plurality of high frequency switches 5A and 5B connected to a direct, current electric source 4 through a variable resistance 6. In this case, each high frequency switch 5A and 5B is switched by means of a high frequency oscillator 12 through a high frequency switching command circuit 10. Legionellaceae bacillus existing in water is sterilized thereby for a long time and stably. Namely, dead bodies of the bacillus with which each electrode is adhered during one polarity are peeled off during another polarity solve thereby that each electrode 3A and 3B is covered with the dead bodies of the bacillus and to prevent thereby sterilization effect from decreasing with time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for sterilizing legionnial bacteria that propagate in a cooling tower or the like.

[0002]

2. Description of the Related Art As a conventional method for electrically sterilizing Legionnaire bacterium, first, second
There is proposed a method in which the electrodes are arranged and a DC voltage is applied to these first and second electrodes.

[0003]

However, in such a method of sterilizing legionnial bacteria by direct current, there is a problem that the effect is obtained at the initial application of the DC voltage, but the effect disappears with the passage of time. This is because over time, the Legionella bacterium adheres to the electrode and covers the electrode surface.

An object of the present invention is to provide a sterilizing method for Legionella bacterium which can maintain the bactericidal effect of Legionella bacterium by an electrical method.

[0005]

Means for Achieving the Object To explain the means of the present invention for achieving the above-mentioned object, the sterilizing method of Legionella bacterium according to the present invention is as follows:
A second electrode is arranged, and an alternating current is applied to the first and second electrodes to sterilize the Legioneral bacterium.

[0006]

In this way, by arranging the first and second electrodes in the water in which the Legionella bacterium is present and applying an alternating current to these electrodes, the Legionella bacterium can be sterilized.

In particular, when an alternating current is applied to the first and second electrodes, the dead body of Legionella bacterium adhering to the electrodes when one polarity is present is peeled off when the other polarity is applied. It is possible to prevent the bactericidal effect from decreasing over time.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 1 shows an embodiment of the apparatus for sterilizing legionnial bacteria for carrying out the method of the present invention. In the figure, 1 is a container containing water 2 in which Legionella bacteria are present, 3A and 3B are first and second electrodes arranged in the water 2,
Reference numeral 4 is a DC power source of 10V to 50V, 5A and 5B are respectively connected to the DC power source 4 via a variable resistance force, and the DC voltage from the DC power source 4 is exchanged for high-frequency AC, and first and second The first and second high-frequency switches are alternately applied to the electrodes 3A and 3B. These first and second high frequency switches 5A and 5B are composed of transistors 7A and 8A. Reference numeral 9 is a capacitor connected between the first and second electrodes 3A and 3B.

10 is a first and second high frequency switch 5A,
5B is a high frequency switching command circuit including a flip-flop circuit for giving a high frequency switching command via resistors 11A and 11B, and 12 is a high frequency switching command circuit 10 of 30 KHz to 50 kHz.
It is a high frequency oscillator that gives a high frequency signal of KHz.

Next, a method for sterilizing legionnial bacteria using such an apparatus will be described. 10V to 5 are applied to the first and second electrodes 3A and 3B in the water 2 in which the Legionella bacteria are present.
A high frequency alternating current of 30 KHz to 50 KHz with a voltage of 0 V is alternately applied by the action of the first and second high frequency switches 5A and 5B. Such high-frequency alternating current is generated by the high-frequency oscillator 1
The second high frequency signal is given to the high frequency switching command circuit 10, the high frequency switching command is given from the high frequency switching command circuit 10 to the first and second high frequency switches 5A and 5B, and these first and second high frequency switches 5A, 5B is turned on and off at a high cycle, and the output from the DC power supply 4 is supplied to the first and second electrodes 3A, 3
It is formed by alternately giving to B.

At this time, the AC voltage appearing between the first and second electrodes 3A and 3B is shown in FIG. The peak value of these AC voltages is determined by the variable resistor 6.

As described above, water 2 in which Legionella bacteria are present
When a high-frequency alternating current is applied to the first and second electrodes 3A and 3B therein, the Legionella bacterium in the water 2 can be killed.

Experimental Example High-frequency alternating current of 40 KHz and 10 ppV or more was applied to the first and second electrodes 3A, 3 in the water 2 in which the Legioneral bacterium exists.
When applied to B, it was confirmed that the Legionella bacterium was killed. Also, after continuing the experiment for a long time,
It was confirmed that the Legionella bacterium did not remain attached to the second electrodes 3A and 3B, and the sterilizing effect was connected for a long time.

In the above embodiment, the first and second electrodes 3A,
The case where a high frequency alternating current is applied to 3B has been shown.
The same effect can be obtained by applying an alternating current having a low frequency of about 50 Hz to 60 Hz. It is easy to receive an electric shock when a low frequency alternating current is applied, but no electric shock occurs when a high frequency is applied.

FIG. 3 shows another example of the arrangement structure of the first and second electrodes 3A and 3B. That is, in this embodiment, the first and second electrodes 3A and 3B are attached and fixed to one surface of the insulating substrate 13. Even in this way, the electrodes 3A, 3B
The sterilization of Legionella bacteria in water 2 near the can be performed. By stirring the water 2 or the like, the entire Legionella bacterium in the container 1 can be sterilized.

[0017]

As described above, in the sterilization method for legionella bacterium according to the present invention, the first and second electrodes are arranged in the water in which the legionella bacterium is present, and the alternating current is applied to these electrodes. , It is possible to sterilize the Legionella bacteria in the water. Moreover, when an alternating current is applied to the first and second electrodes,
Since the dead body of Legionella bacterium adhered to the electrode when the polarity is one is peeled off when the polarity is the other polarity, it is possible to prevent the bactericidal effect of the Legionella bacterium from decreasing with time. For this reason, there is an advantage that maintenance is not required. When a high-frequency alternating current is applied between the electrodes, bacteria do not move and dead bacteria do not adhere to the electrodes.

[Brief description of drawings]

FIG. 1 is an electric circuit diagram showing an example of an apparatus for carrying out the method of the present invention.

FIG. 2 is a waveform diagram of an alternating current applied to the first and second electrodes in the embodiment shown in FIG.

FIG. 3 is a perspective view showing another example of first and second electrodes used in the present invention.

[Explanation of symbols]

 1 Container 2 Water 3A, 3B 1st, 2nd electrode 4 DC power supply 5A, 5B 1st, 2nd high frequency switch 6 Variable resistance 9 Capacitor 10 High frequency switching command circuit 12 High frequency oscillator

Claims (1)

[Claims] 1. A first or submerged water in which Legionella is present.
A method for sterilizing legionnial bacterium, comprising disposing a second electrode and applying an alternating current to the first and second electrodes to sterilize the legionnial bacterium.