The utility model relates to the field of sodium hypochlorite generators, in particular to a salt water dilution device for sodium hypochlorite generators.

Background technique:

Sodium hypochlorite generator is a kind of water treatment disinfection and sterilization equipment. This equipment uses salt water as raw material to produce sodium hypochlorite solution through electrolysis reaction. Sodium hypochlorite generators are widely used in drinking water disinfection, hospital wastewater treatment, food utensils disinfection, wastewater decolorization, industrial domestic wastewater disinfection, breeding farm disinfection and other industries. The sodium hypochlorite generator is in a combined form. The dissolution of salt, the deployment of dilute brine, dosing and metering and the circulation of sodium hypochlorite are carried out in a tank, with low investment, low land occupation and flexible installation.

In order to ensure the stable and efficient operation of the sodium hypochlorite generator, the configuration of the brine as the pre-unit is particularly important. The existing brine dilution device has a low degree of automation, resulting in low production efficiency.

Technical realization elements:

The purpose of the utility model is to provide a salt water dilution device for a sodium hypochlorite generator with a high degree of automation and simple operation.

In order to achieve the above purpose, the salt water dilution device for sodium hypochlorite generator of the present invention adopts the following technical scheme: The salt water dilution device for sodium hypochlorite generator includes a control device, a concentrated brine bucket, a dilute brine bucket and pipelines, and the pipeline includes an inlet pipe, a brine pipe, The water inlet pipe includes a first water inlet pipe for supplying water to the concentrated brine tank, and a second water inlet pipe for supplying water to the dilute brine tank. The outlet ends of the first water inlet pipe and the second water supply pipe are respectively arranged on the upper part of the strong brine tank and the dilute brine tank. The brine pipe includes a concentrated brine circulation pipe used to circulate the brine in the concentrated brine barrel and a concentrated brine delivery pipe that delivers the concentrated brine to the dilute brine barrel. The concentrated brine circulation pipe and the concentrated brine delivery pipe share a delivery pump or are connected with an independent Conveying pump, the inlet of the conveying pump is connected with the concentrated brine barrel, the concentrated brine upper level switch and the concentrated brine lower level switch are arranged in the concentrated brine barrel, the first water meter is installed on the concentrated brine circulation pipe, and the diluted brine barrel is installed There are dilute brine upper liquid level switch and dilute brine lower liquid level switch. The second water inlet pipe is equipped with a second water meter, the first water inlet pipe is equipped with a first water inlet solenoid valve, and the second water inlet pipe is equipped with a second water meter. Water inlet solenoid valve, the control device includes a controller, an indicator light, a start switch, a first water inlet solenoid valve, a second water inlet solenoid valve, a concentrated brine upper level switch, a concentrated brine lower level switch, and a dilute brine upper level switch The liquid level switch, the dilute brine lower liquid level switch, the first water meter, the second water meter and the delivery pump are all connected with the controller.