JP2003290769A5 - - Google Patents

Description

[Claims]
(1)
Electrode treatment means for having an electrode pair, and for performing an electrolytic treatment by flowing a direct current through the electrode pair to water,
Water supply means for supplying water to the electrolytic treatment means,
A power supply circuit for supplying a direct current to the electrode pair,
Control means for controlling the operation of each of the above units,
A first temperature sensor for measuring the temperature of the electrodes constituting the electrode pair and inputting a signal to the control means when the measured temperature is equal to or higher than a first predetermined value;
A second temperature sensor for measuring the temperature of the electrodes and, when the measured temperature becomes equal to or higher than a second predetermined value higher than the first predetermined value, for interrupting the power supply to at least the electrode pair;
A water treatment apparatus comprising:
(2)
The water treatment apparatus according to claim 1, wherein the control unit includes a cooling control unit that starts control for cooling the electrode when receiving a signal input from the first temperature sensor.
(3)
Electrode treatment means for having an electrode pair, and for performing an electrolytic treatment by flowing a direct current through the electrode pair to water,
Water supply means for supplying water to the electrolytic treatment means,
A power supply circuit with an overcurrent protection function for supplying a direct current to the electrode pair,
A current sensor for measuring at least one of an input current value to the power supply circuit, and an output current value from the power supply circuit,
Water, an accelerator supply means for supplying water containing chlorine ions as an electrolysis accelerator,
Controlling at least one of a power supply circuit, a water supply means, and a promoter supply means so that a current value indicating a chlorine ion concentration of water measured by a current sensor is within a certain range; Control means including a current analysis control unit that determines that the overcurrent protection function of the power supply circuit has been activated when the value falls to a threshold value that is regarded as abnormal within the set time,
A water treatment apparatus comprising:
(4)
The current analysis control unit is characterized in that when the current value measured by the current sensor falls to a threshold value that is regarded as abnormal over a longer time than the set time, it is determined that an abnormality has occurred in the accelerator supply means. The water treatment device according to claim 3.
(5)
4. The water treatment apparatus according to claim 3, wherein the control unit includes a notification unit that notifies the current analysis control unit that the overcurrent protection function of the power supply circuit has operated when the current analysis control unit determines that the function has operated.

[0017]
Means for Solving the Problems and Effects of the Invention
The invention according to claim 1 has an electrode pair, and electrolytic treatment means for performing an electrolytic treatment by flowing a direct current through the electrode pair to water,
Water supply means for supplying water to the electrolytic treatment means,
A power supply circuit for supplying a direct current to the electrode pair,
Control means for controlling the operation of each of the above units,
A first temperature sensor for measuring the temperature of the electrodes forming the electrode pair and inputting a signal to the control means when the measured temperature is equal to or higher than a first predetermined value;
A second temperature sensor for measuring the temperature of the electrodes and, when the measured temperature becomes equal to or higher than a second predetermined value higher than the first predetermined value, for interrupting the power supply to at least the electrode pair;
It is a water treatment apparatus characterized by having.

According to the configuration of the first aspect , when the temperature of the electrode rises and becomes equal to or more than the first predetermined value due to a decrease in the water level of the water tank as described above, a signal is sent from the first temperature sensor to the control means. Is entered.
Therefore, the control means detects that the temperature of the electrode has risen and notifies the operator of the apparatus of the rise, or automatically controls the cooling of the electrode as in the invention described in claim 2 described below. Or start.

Moreover, the temperature rise does not stop and the temperature of the electrode becomes equal to or higher than a second predetermined value higher than the first predetermined value, and the second temperature sensor functions to turn on electricity to at least the electrode pair. It shuts off, thereby forcibly preventing the temperature of the electrode from rising.
Therefore, according to the configuration of the first aspect , it is possible to improve safety when a situation in which the temperature of the electrode rises abnormally occurs.

In particular, when the control for cooling the electrode is automatically started as described above when the temperature of the electrode rises and a signal is input to the control means from the first temperature sensor, the control of the electrode is performed. The operation of the water treatment apparatus can be continued as long as possible while keeping the safety by suppressing the temperature rise.
Accordingly a second aspect of the present invention, the control means, upon receipt of a signal input from the first temperature sensor, according to claim 1, characterized in that it comprises a cooling control unit that starts the control for cooling the electrodes Water treatment equipment.

The invention according to claim 3 has an electrode pair, and electrolytic treatment means for performing an electrolytic treatment by flowing a direct current through the electrode pair to water,
Water supply means for supplying water to the electrolytic treatment means,
A power supply circuit with overcurrent protection function to supply DC current to the electrode pair,
A current sensor for measuring at least one of an input current value to the power supply circuit, and an output current value from the power supply circuit,
Water, an accelerator supply means for supplying water containing chlorine ions as an electrolysis accelerator,
Controlling at least one of a power supply circuit, a water supply means, and a promoter supply means so that a current value indicating a chlorine ion concentration of water measured by a current sensor is within a certain range; Control means including a current analysis control unit that determines that the overcurrent protection function of the power supply circuit has been activated when the value falls to a threshold value that is regarded as abnormal within the set time,
It is a water treatment apparatus characterized by having.

In the configuration of the third aspect , by using a power supply circuit having an overcurrent protection function, it is possible to ensure safety when a short circuit or the like occurs between the electrodes.
In addition, the fact that the overcurrent protection function has been activated usually indicates that the input current value and / or the output current value of the power supply circuit measured by the current sensor, which is used when controlling each unit of the apparatus in order to stabilize the chloride ion concentration of water. Can be detected by the drop of
Therefore, according to the configuration of the third aspect , it is possible to improve the safety when a short circuit or the like occurs between the electrodes without complicating the structure of the device.

According to a fourth aspect of the present invention, when the current value measured by the current sensor falls to a threshold value that is regarded as abnormal for a longer time than the set time, the current analysis control unit causes an abnormality in the accelerator supply means. The water treatment apparatus according to claim 3 , wherein the water treatment apparatus determines that the water treatment has occurred.
According to the configuration of the fourth aspect, the current sensor can also detect an abnormality that has occurred in the accelerator supply means, such as a thinning of the electrolysis accelerator.

Invention, the control means of claim 5, wherein, in the current analysis control unit, when the overcurrent protection function of the power supply circuit is determined to have operated, according to claim 3, characterized in that it comprises a notification unit for notifying it Water treatment equipment.
According to the configuration of the fifth aspect, the operation of the overcurrent protection function of the power supply circuit can be promptly notified to the operator of the apparatus by the notification unit.