CN111349945A - Small non-diaphragm weak acid oxidation potential water maker - Google Patents

Abstract

The invention relates to a small diaphragm-free weak acid electrolyzed oxidizing water making machine which has the advantages of diaphragm-free multidimensional mixed reaction and nano ion unicellular electrolysis technology, produces weak acid electrolyzed oxidizing water with pH value of 5.0-6.9 and chlorine content of 50-200ppm and different concentrations through intelligent control of a PCB computer, can automatically detect the concentration of a solution in the machine when the machine is operated, exceeds a set safety value, automatically alarms, and immediately stops working. The machine comprises an upper semi-automatic or electric watering can nozzle, a watering can body, a single-cell multidimensional mixing reactor, a reactor base, a reactor contact electrode seat, a PCB computer control system power socket and other components, and the whole production process has no any potential hazard and can be widely applied to sterilization and disinfection in multiple fields.

Description

Small non-diaphragm weak acid oxidation potential water maker

One, the technical field

The invention relates to a small diaphragm-free weak acid oxidation potential water making machine which adopts a diaphragm-free nano-ion unicellular multidimensional mixing reactor electrolysis technology and has a safety alarm function.

Second, technical background

The existing hypochlorous acid manufacturing technology has several main modes, one is electrolytic dilute hydrochloric acid, the other is electrolytic saturated saline water, and the other is prepared by mixing weak acid and sodium hypochlorite. The products are all produced in a factory by large-scale machines, and the electrolytic cells adopted by the three technologies are separated into two independent electrolytic chambers, namely an anode chamber and a cathode chamber, by a diaphragm, the machine manufacturing process is complex, the cost is high, the performance is extremely unstable, the diaphragm is made of polymers, the cost is high, and the anode chamber only allows positive ions to move to the cathode chamber. A sodium chloride solution was injected into the anode chamber. Positively charged sodium ions pass through the membrane to the cathode side, while negatively charged chloride ions cannot pass through. Namely an anolyte and a catholyte. In the anode compartment, a hypochlorous acid solution is produced which is strongly acidic and has an ORP of >800 mV. In the cathode compartment, a strongly basic and ORP < -800 NaOH solution is produced. Both solutions are unstable. Both the anode compartment electrolyte and the cathode compartment electrolyte seek to regain equilibrium. The produced liquid hypochlorous acid mainly comprises sodium hypochlorite, is high in corrosivity, needs water to be added in the disinfection process to prepare solutions with different concentrations, and has potential harm to people or equipment in the operation process. Hypochlorous acid is extremely volatile and has pungent smell due to unstable chemical property and the like, and the hypochlorous acid cannot be accepted by wide consumers. The equipment has large volume and complex installation, is used in large, medium and small factories, and a consumer lacks a small device which can safely and conveniently prepare weak acid hypochlorous acid water in small environments such as office, family and the like at any time, thereby meeting the requirements of sterilization and disinfection of the use environment.

Third, the invention

The invention aims to solve the defects in the prior art and provide a small-sized diaphragm-free weak acid oxidation potential water manufacturing machine which can safely manufacture weak acid hypochlorous acid disinfectant water for disinfection and sterilization at any time in a small office or household environment by adding or not adding trace medical electrolyte into tap water or purified water.

The technical scheme of the invention comprises the following steps: in order to realize the aim, the invention provides a small diaphragm-free weak acid oxidation potential water maker, which comprises a hand-operated or electric kettle nozzle arranged at the upper part of a machine head, a kettle body connected below the kettle nozzle, a single-cell multidimensional mixing reactor arranged at the bottom of the kettle body, a titanium screw fixed on a reactor base, a sealed cavity with a nozzle formed by the reactor base and the kettle body, a reactor contact electrode seat, a PCB computer control system chamber, a power socket and other parts assembled into a control system whole containing a power supply, wherein the sealed cavity with the nozzle and the system whole form a complete diaphragm-free weak acid oxidation potential water maker through positive and negative electrodes when in work.

The operation of PCB computer control system room control machine, the concentration of electrolyte in the real-time supervision kettle body bottom unicellular multidimension hybrid reactor, two or multi-disc positive pole electrolytic plates and negative pole electrolytic plate are equipped with in the unicellular multidimension hybrid reactor, and electrolyte carries out the mixed electrolytic reaction of multidimension and generates faintly acid hypochlorous acid water in the unicellular multidimension hybrid reactor during the machine operation, and the pH value of faintly acid hypochlorous acid water is: 5.0-6.9.

Description of the drawings

FIG. 1 is a schematic diagram of a small-sized diaphragm-free weakly acidic electrolyzed oxidizing water generator with a single-cell multidimensional mixing reactor.

FIG. 2 is a perspective view of a single-cell multi-dimensional mixing reactor configuration.

Fifth, detailed description of the invention

The invention is further illustrated with reference to the following figures and examples.

As shown in figures 1 and 2, the small-sized no-diaphragm weak acid oxidation potential water maker of the invention comprises: a semi-automatic or electric watering can nozzle 1, a watering can body 2, a single-cell multidimensional mixing reactor 3, a reactor base 4, a reactor contact electrode seat 6, a PCB computer control system room 10, a power socket 7 and the like. As shown in figure 2, the single-cell multidimensional mixing reactor is formed by packaging an upper protective cover 11, a lower protective cover 17, an upper anode electrolytic sheet 12, an insulating spacer 13, a middle cathode electrolytic sheet 14, an insulating spacer 15 and a lower anode electrolytic sheet 16, and the single-cell multidimensional mixing reactor 3 is respectively communicated with the anode electrolytic sheet 12, the cathode electrolytic sheet 14 and the anode electrolytic sheet 16 through a positive electrode 5, a negative electrode 5 and a fastener

When the small-sized diaphragm-free weak-acid oxidation potential water making machine with the single-cell multidimensional mixing reactor is powered on to work, after the single-cell multidimensional mixing reactor 3 is powered through direct current electricity, electrolyte in the kettle body 2 of the spraying kettle is subjected to electrochemical reaction in the single-cell multidimensional mixing reactor 3 at the bottom of the spraying kettle, and low-concentration electrolyte (medical grade low-concentration salt water) is filled between the two electrodes, so that Na +, H +, Cl and OH-four ions exist in the solution because the electrolyte is strong electrolyte. The positive and negative ions will move directionally, the negatively charged OH-and Cl-will move towards the anode, and the positively charged Na + and H + will move towards the cathode. The electrolyte will undergo different electrochemical reactions on the multiple electrodes within the single-cell multi-dimensional hybrid reactor 3. The single cell multidimensional mixing reactor 3 will generate corresponding solution reaction. The chlorine generated by the anode and the water in the solution generate hydrolysis reaction to generate a disinfection solution mainly containing weak acidic hypochlorous acid and hypochlorous acid, when the operation is finished, the spraying pot body 2 can be taken down from the reaction contact electrode base 6, and the low-concentration hypochlorous acid disinfection solution in the spraying pot can be directly sprayed outwards by a manual or electric nozzle, so that the disinfection and sterilization treatment on the environment and the surface of an object is realized.

What has been disclosed above is but one specific embodiment of the invention. The invention is not limited thereto and any variations that may be considered by a person skilled in the art are intended to be within the scope of the invention, such as the design of the invention, to highlight its advantages.

Claims (8)

1. The utility model provides a small-size no diaphragm faintly acid oxidation potential water makes machine, has manual or electronic watering can mouth, the watering can kettle body, the mixed reactor of unicellular multidimension has by 2 or multi-disc positive pole electrolytic sheets, insulating piece and negative pole electrolytic sheet and protection network are constituteed, the reactor base, reactor contact electrode seat, PCB computer control system room, parts such as power socket seat constitute its characterized in that: the upper part of the machine head is provided with a manual or electric kettle nozzle, the lower part is connected with a kettle body, the bottom of the kettle body is provided with a single-cell multidimensional mixing reactor which is fixed on a reactor base by a titanium screw, the reactor base and the kettle body form a sealed cavity, the lower part is provided with a reactor contact electrode seat, positive and negative electrodes are arranged on the reactor contact electrode seat and connected with a PCB computer control system chamber and responsible for detecting the signal transmission of the concentration detection of electrolyte in the single-cell multidimensional mixing reactor, and the reactor contact electrode seat, a power socket and other parts are assembled into a whole.

2. The small-sized diaphragm-free weakly acidic electrolyzed oxidizing water maker as set forth in claim 1, characterized in that: the upper part of the machine head is provided with an electric or manual nozzle.

3. The small-sized diaphragm-free weakly acidic electrolyzed oxidizing water maker as set forth in claim 1, characterized in that: the single-cell multidimensional mixing reactor is arranged at the lower end in the interior of the watering can body and is connected with the reactor base through a plurality of tightening screws.

4. The small-sized diaphragm-free weakly acidic electrolyzed oxidizing water maker as set forth in claim 1, characterized in that: the reactor contact electrode holder is provided with 2 positive and negative electrodes, the middle part is provided with an LED lamp, the LED lamp and the positive and negative electrodes are respectively connected with a computer board in a computer control system chamber, and the base, the PCB computer control system chamber and the power socket form a whole.

5. The small-sized diaphragm-free weakly acidic electrolyzed oxidizing water maker as set forth in claim 1, characterized in that: the PCB computer control system is characterized in that a computer board, a switch control panel and a light control panel are arranged in the computer control system chamber and form a system, and the system is connected with a bottom power socket.

6. The small-sized diaphragm-free weakly acidic electrolyzed oxidizing water maker as set forth in claim 1, characterized in that: the bottom of the watering can body is provided with a single-cell multidimensional mixing reactor which consists of 2 or more anode electrolytic sheets, an insulating sheet, a cathode electrolytic sheet and a protective net.

7. The single-cell multidimensional mixing reactor of claim 6, wherein: the anode electrolytic sheet at least comprises 2 anodes and a cathode electrolytic sheet, the combination mode of one anode electrolytic sheet, one cathode electrolytic sheet and one anode electrolytic sheet is accumulated, the anode electrolytic sheet and the cathode electrolytic sheet are separated by an insulating gasket, the two anode electrolytic sheets are connected in series by a fixing screw or a connecting piece and connected with a positive electrode on a reactor contact electrode seat, and the cathode electrolytic sheet is connected with a negative electrode on the reactor contact electrode seat by the fixing screw or the connecting piece.

8. The miniature reactor contact electrode holder as set forth in claim 4, wherein 2 positive and negative electrodes are provided on the miniature reactor contact electrode holder, wherein: the positive and negative electrodes are respectively connected with a computer board in a computer control system chamber, and are communicated with the anode and cathode electrolytic sheets when working to supply working current and also serve as signal transmission channels for detecting the concentration of the electrolyte in the single-cell multidimensional mixing reactor.

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