CN213624408U - Sodium hypochlorite electrolytic cell - Google Patents

Abstract

The utility model provides a sodium hypochlorite electrolytic cell, which comprises an electrolytic tube, wherein an electrode group is arranged in the electrolytic tube, connecting flanges are arranged at two ends of the electrolytic tube, a cathode flange and a water outlet are arranged at one end of the electrolytic tube, and an anode flange and a water inlet are arranged at the other end of the electrolytic tube; a temperature measuring device is also arranged in the electrolytic tube, the temperature measuring device is connected with an external power switch, and a liquid level controller is also arranged in the electrolytic tube; when the temperature in the electrolytic tube exceeds the specified temperature, the water and electricity can be automatically cut off, the work is stopped, and an alarm is given; if the water inlet and outlet quantity proportion changes due to external water pressure change or leakage problem, the cathode and anode plates can not be immersed in the liquid completely for reaction, and the water and electricity can be cut off automatically to stop working and alarm for prompting in order to prevent the dry burning of the electrode plates.

Description

Sodium hypochlorite electrolytic cell

Technical Field

The application belongs to the technical field of electrolytic cells, and particularly relates to a sodium hypochlorite electrolytic cell.

Background

The electrolytic cell is composed of a cell body, an anode and a cathode, wherein an anode chamber and a cathode chamber are mostly separated by a diaphragm, the electrolytic cell is divided into an aqueous solution electrolytic cell, a molten salt electrolytic cell and a non-aqueous solution electrolytic cell according to the difference of electrolyte, and two electrolytic cells exist in the market at present, wherein one electrolytic cell is totally enclosed, and the other electrolytic cell is semitransparent. The main problems of the totally enclosed type are that the actual state of the electrolytic cell cannot be intuitively known, the actual change of the electrolytic cell cannot be understood at a glance and can only be estimated according to other external data, and the electrolytic cell is only required to be disassembled when the current and the voltage have problems, so that the maintenance time and the maintenance frequency of the electrolytic cell are increased. In this case, the machine must be stopped, which affects the cost of the actual use. The most main problem of translucence is that other materials must be connected as the end in the middle of the transparent electrolytic tube, so two problems exist, firstly, the materials are different, the loose connection and water leakage can occur, secondly, the small screws are connected at the two ends, because the electrolytic bath is a heating part, the working temperature is certain, the expansion and contraction phenomena can occur at the time when the working temperature is high and can reach 60 ℃, the screws can be embedded into the materials of the end, the temperature is reduced when the electrolytic bath does not work, the screws can loosen and the water leakage phenomena can occur repeatedly.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sodium hypochlorite electrolysis trough to solve the electrolysis trough reaction and cause the high temperature, the electrolysis trough cell body and the impaired problem of polar plate that lead to and because of external water pressure changes or the weeping problem takes place, the business turn over water volume proportion changes, makes the negative and positive plate can not react within the complete immersion liquid, and the polar plate produces the phenomenon of dry combustion method.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: a sodium hypochlorite electrolytic cell comprises an electrolytic tube, wherein an electrode group is arranged in the electrolytic tube, two ends of the electrolytic tube are respectively provided with a connecting flange, the connecting flanges are respectively connected with a negative electrode flange and a positive electrode flange, one end of the electrolytic tube is provided with the negative electrode flange and a water outlet, and the other end of the electrolytic tube is provided with the positive electrode flange and a water inlet; a temperature measuring device is also arranged in the electrolytic tube and is connected with an external power switch; and a liquid level controller is also arranged in the electrolytic tube and is used for measuring the height of the liquid level in the electrolytic tube.

Furthermore, the temperature measuring device comprises a temperature measuring probe and a temperature control module connected with the temperature measuring probe through a wire.

Furthermore, the liquid level controller comprises an electronic probe and a special chip for liquid level detection.

The utility model comprises a temperature measuring device, a liquid level controller and other structures, if the temperature exceeds the specified temperature, the electrolytic cell can automatically cut off water and power and stop working and give an alarm to prompt, thereby preventing the over-high temperature caused by over-reaction and damaging the cell body and the polar plate of the electrolytic cell; the proportion of water inlet and outlet is changed due to the change of external water pressure or leakage, so that the cathode and anode plates can not be immersed in the liquid completely for reaction, and the water and electricity can be cut off automatically to stop working and give an alarm for prompting in order to prevent the dry burning of the electrode plates.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

reference numerals: the device comprises an electrolytic tube-1, an electrode group-2, a connecting flange-3, a negative flange-4, a positive flange-5, a water outlet-6, a water inlet-7, a temperature measuring device-8 and a liquid level controller-9.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

As shown in the attached drawing 1, the sodium hypochlorite electrolytic tank comprises an electrolytic tube 1, an electrode group 2 is arranged in the electrolytic tube 1, connecting flanges 3 are arranged at two ends of the electrolytic tube 1, the connecting flanges 3 are respectively connected with a negative flange 4 and a positive flange 5, the negative flange 4 and a water outlet 6 are arranged at one end of the electrolytic tube, and the positive flange 5 and a water inlet 7 are arranged at the other end of the electrolytic tube; a temperature measuring device 8 is also arranged in the electrolytic tube and is connected with an external power switch; still be equipped with liquid level controller 9 in the electrolysis tube, liquid level controller is used for measuring the interior liquid level height of electrolysis tube, wherein, the temperature measuring device model is PT100 type: comprises a temperature probe and a temperature control module connected with the temperature probe by a wire; when the temperature exceeds the specified temperature, the power supply is automatically cut off from the external power supply to stop working and alarm for prompting;

the model of the liquid level controller is QDY 30A: the electronic probe detects the liquid level and processes the detected signal by the special liquid level detection chip, and when the detected liquid reaches an action point, the chip outputs a high or low level signal and cooperates with a control circuit of the liquid level controller, thereby realizing the control of the liquid level.

The utility model comprises a temperature measuring device, a liquid level controller and other structures, if the temperature exceeds the specified temperature, the electrolytic cell can automatically cut off water and power and stop working and give an alarm to prompt, thereby preventing the over-high temperature caused by over-reaction and damaging the cell body and the polar plate of the electrolytic cell; the proportion of water inlet and outlet is changed due to the change of external water pressure or leakage, so that the cathode and anode plates can not be immersed in the liquid completely for reaction, and the water and electricity can be cut off automatically to stop working and give an alarm for prompting in order to prevent the dry burning of the electrode plates.

Claims (3)

1. The sodium hypochlorite electrolytic cell comprises an electrolytic tube and is characterized in that an electrode group is arranged in the electrolytic tube, connecting flanges are arranged at two ends of the electrolytic tube and are respectively connected with a negative electrode flange and a positive electrode flange, a negative electrode flange and a water outlet are arranged at one end of the electrolytic tube, and a positive electrode flange and a water inlet are arranged at the other end of the electrolytic tube; a temperature measuring device is also arranged in the electrolytic tube and is connected with an external power switch; and a liquid level controller is also arranged in the electrolytic tube and is used for measuring the height of the liquid level in the electrolytic tube.

2. The sodium hypochlorite electrolytic cell of claim 1, wherein the temperature measuring device comprises a temperature measuring probe and a temperature control module connected with the temperature measuring probe.

3. The electrolytic tank of claim 1, wherein the liquid level controller comprises an electronic probe and a chip dedicated for liquid level detection.

Images