CN216274398U - HCLO hypochlorous acid water antiseptic solution manufacture equipment - Google Patents

Abstract

The utility model discloses a device for manufacturing HCLO hypochlorous acid water disinfectant, which comprises a raw water barrel, an electrolytic cell, a nano-film isolating device and a finished product barrel, wherein the raw water barrel is provided with a raw water inlet pipe and a raw water circulating pipeline, and the raw water circulating pipeline is provided with a raw water pump and a raw water circulating electromagnetic valve; one end of the electrolytic bath is communicated with the raw water circulating pipeline through a first connecting pipe, and the other end of the electrolytic bath is communicated with the return pipe and the second connecting pipe through a three-way electromagnetic valve; one end of the nano-film isolating device is communicated with the second connecting pipe, and the other end of the nano-film isolating device is provided with a brine discharge pipe and a finished product input pipe; the finished product barrel is communicated with the finished product input pipe, a finished product circulating pipeline is arranged on the finished product barrel, and a finished product discharging water pump and a finished product circulating electromagnetic valve are arranged on the finished product circulating pipeline. The utility model can automatically electrolyze and generate hypochlorous acid water disinfectant by arranging the raw water barrel, the electrolytic tank, the nano-film isolating device and the finished product barrel, has no pollution of waste gas, waste liquid and waste residue, and has high production efficiency.

Description

HCLO hypochlorous acid water antiseptic solution manufacture equipment

Technical Field

The utility model relates to the technical field of manufacturing of hypochlorous acid water disinfectant, in particular to equipment for manufacturing HCLO hypochlorous acid water disinfectant.

Background

Hypochlorous acid, which is a main component of hypochlorous acid, can be generated by electrolyzing dilute hydrochloric acid, sodium chloride solution (salt), and the like. 99.99% of the environment was cleared of common bacteria and viruses within 5 seconds. Hypochlorous acid is a weak acid and a small-molecular strong oxidant, the disinfection principle is to penetrate through the cell membrane of bacteria to oxidize thallus protein, and the hypochlorous acid can oxidize protein and nucleic acid of virus to kill virus, so that the market still has high demand on manufacturing and assembling equipment of hypochlorous acid water disinfectant.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide equipment for manufacturing HCLO hypochlorous acid water disinfectant, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

an apparatus for producing HCLO hypochlorous acid water disinfectant, comprising:

the raw water barrel is provided with a raw water inlet pipe and a raw water circulating pipeline, a water inlet and a water outlet of the raw water circulating pipeline are connected to the raw water barrel, a raw water pump and a raw water circulating electromagnetic valve are arranged on the raw water barrel, a heating pipeline is arranged on the raw water circulating pipeline in parallel, and an electric heater and a heating circulating electromagnetic valve are arranged on the heating pipeline;

one end of the electrolytic cell is communicated with the raw water circulating pipeline through a first connecting pipe, the other end of the electrolytic cell is communicated with the return pipe and a second connecting pipe through a three-way electromagnetic valve, the first connecting pipe is provided with a production electromagnetic valve and a flow control valve, an electrolytic sheet in the electrolytic cell is made of titanium alloy, and the titanium alloy is provided with a noble metal oxide coating;

one end of the nano-film isolating device is communicated with the second connecting pipe, and the other end of the nano-film isolating device is provided with a brine discharge pipe and a finished product input pipe; and

and the finished product barrel is communicated with the finished product input pipe, a finished product circulating pipeline is arranged on the finished product barrel, a water inlet and a water outlet of the finished product circulating pipeline are connected to the finished product barrel, a finished product discharging water pump and a finished product circulating electromagnetic valve are arranged on the finished product barrel, a finished product water outlet pipe is arranged at one end of the finished product circulating pipeline, and a finished product conveying electromagnetic valve is arranged on the finished product water outlet pipe.

Preferably, the raw water inlet pipe is fixed on the raw water barrel, the other end of the raw water inlet pipe is connected with the tap water pipe, and a raw water electromagnetic valve is arranged on the raw water inlet pipe.

Preferably, one end of the first connection pipe, which is close to the raw water circulation pipeline, is provided with a filter for filtering impurities in the raw water.

Preferably, a flowmeter is arranged at an inlet of the electrolytic cell, and a sensor group is arranged at an outlet of the electrolytic cell and is used for detecting the pH value, the conductivity and the chlorine-containing concentration of the electrolyzed liquid.

Preferably, the other end of the return pipe is fixed on the raw water barrel, and a production detection liquid taking port is formed in the middle of the return pipe.

Preferably, the finished product barrel is provided with air holes.

Preferably, a high liquid level sensor is arranged above the raw water barrel and the finished product barrel, and a low liquid level sensor is arranged below the raw water barrel and the finished product barrel.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model injects running water into a raw water barrel, 0.5-1% of salt is added after the raw water barrel is filled with the running water, the raw water is circulated by a raw water circulating pipeline and an electric heater to achieve the purposes of uniform stirring and full dissolution of the salt, the salt solution is blended into saturated salt water, flows to an electrolytic tank and is electrolyzed to produce chlorine-containing disinfectant, the chlorine-containing disinfectant enters a nano membrane isolating device, residual salt which is not electrolyzed is discharged, the finished disinfectant directly enters a finished product barrel and is discharged by a finished product water outlet pipe.

Drawings

FIG. 1 is a schematic diagram of a manufacturing apparatus of the present invention.

In the figure: 1 raw water bucket, 2 raw water inlet pipe, 3 raw water electromagnetic valve, 4 raw water circulating pipeline, 5 raw water pump, 6 raw water circulating electromagnetic valve, 7 heating pipeline, 8 electric heater, 9 heating circulating electromagnetic valve, 10 first connecting pipe, 11 production electromagnetic valve, 12 flow control valve, 13 filter, 14 flow meter, 15 electrolytic tank, 16 return pipe, 17 second connecting pipe, 18 three-way electromagnetic valve, 19 sensor group, 20 production detection liquid taking port, 21 nano-film isolating device, 22 salt water discharge pipe, 23 finished product input pipe, 24 finished product bucket, 25 finished product circulating pipeline, 26 finished product discharge water pump, 27 finished product water outlet pipe, 28 finished product conveying electromagnetic valve, 29 finished product circulating electromagnetic valve, 30 air vent, 31 high liquid level sensor and 32 low liquid level sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution:

an apparatus for producing HCLO hypochlorous acid water disinfectant, comprising:

a raw water barrel 1, on which a raw water inlet pipe 2 and a raw water circulation pipeline 4 are arranged, wherein the raw water inlet pipe 2 is fixed on the raw water barrel 1, the other end of the raw water inlet pipe is connected with a tap water pipe, on which a raw water electromagnetic valve 3 is arranged, a water inlet and a water outlet of the raw water circulation pipeline 4 are connected on the raw water barrel 1, on which a raw water pump 5 and a raw water circulation electromagnetic valve 6 are arranged, on which a heating pipeline 7 is arranged in parallel, and on the heating pipeline 7, an electric heater 8 and a heating circulation electromagnetic valve 9 are arranged;

an electrolytic cell 15, one end of which is communicated with the raw water circulating pipeline 4 through a first connecting pipe 10, the other end of which is communicated with a return pipe 16 and a second connecting pipe 17 through a three-way electromagnetic valve 18, wherein the first connecting pipe 10 is provided with a production electromagnetic valve 11 and a flow control valve 12, one end of the first connecting pipe 10 close to the raw water circulating pipeline 4 is provided with a filter 13 for filtering impurities in the raw water, an electrolytic sheet in the electrolytic cell 15 is made of titanium alloy, and the titanium alloy is provided with a noble metal oxide coating;

one end of the nano-film isolating device 21 is communicated with the second connecting pipe 17, and the other end of the nano-film isolating device is provided with a brine discharge pipe 22 and a finished product input pipe 23; and

and a finished product barrel 24 communicated with the finished product input pipe 23, wherein a finished product circulating pipeline 25 is arranged on the finished product barrel 24, a water inlet and a water outlet of the finished product circulating pipeline 25 are connected to the finished product barrel 24, a finished product discharging water pump 26 and a finished product circulating electromagnetic valve 29 are arranged on the finished product barrel, a finished product water outlet pipe 27 is arranged at one end of the finished product circulating pipeline, and a finished product conveying electromagnetic valve 28 is arranged on the finished product water outlet pipe 27.

The inlet of the electrolytic tank 15 is provided with a flowmeter 14, the flowmeter 14 detects the flow of the saline solution entering the electrolytic tank 15, the flow is regulated and controlled through a flow control valve 12, the outlet of the electrolytic tank 15 is provided with a sensor group 19, the sensor group 19 is used for detecting the PH value, the conductivity and the chlorine-containing concentration of the electrolyzed liquid, after the electrolysis is completed, the sensor group 19 detects the PH value, the conductivity and the chlorine-containing concentration of the electrolyzed liquid, and if the parameters such as the chlorine-containing concentration do not reach the standard, the electrolyzed liquid flows back to the original water barrel 1 through a return pipe 16 to be re-stirred and electrolyzed.

The other end of the return pipe 16 is fixed on the raw water barrel 1, the middle part of the return pipe is provided with a production detection liquid taking port 20, and the production detection liquid taking port 20 is arranged to facilitate sampling and judge the fault of equipment.

The finished product barrel 24 is provided with a vent hole 30, and hydrogen and oxygen generated during electrolysis are automatically discharged from the vent hole 30.

A high liquid level sensor 31 is arranged above the raw water barrel 1 and the finished product barrel 24, a low liquid level sensor 32 is arranged below the raw water barrel 1, and the production is automatically stopped when the raw water barrel 1 is at a low liquid level or when the finished product barrel 24 is at a high liquid level.

The working principle of the utility model is as follows:

running water is injected into a raw water barrel 1 through a raw water inlet pipe 2, a raw water electromagnetic valve 3 is automatically closed after the raw water barrel is filled with the running water, salt with the mass ratio of 0.5-1% is added, the manufacturing cost of hypochlorous acid water disinfectant is greatly reduced through the salt and the running water, a raw water pump 5 is automatically started, a raw water circulating electromagnetic valve 6 is opened, the raw water starts to circulate to achieve the purposes of uniform stirring and full dissolution of salt, the circulating stirring is set for 600 seconds in the embodiment, when the water temperature is low, a heating electromagnetic valve 9 can automatically open a heating pipeline 7 and open an electric heater 8 to heat the water temperature to be more than 15 ℃, and after the temperature reaches and the circulating stirring time reaches, the raw water circulating electromagnetic valve 6 is automatically closed.

Automatically starting the production electromagnetic valve 11, the salt solution flows to the electrolytic tank 15 through the first connecting pipe 10, and automatically starting the electrolytic tank 15, electrolyzing the salt solution to produce chlorine-containing disinfectant, which enters the nano-film isolating device 21 through the second connecting pipe 17, discharging the residual salt which is not electrolyzed through the salt solution discharge pipe 22 (when being used as the next batch of salt solution raw material for standby), directly feeding the finished disinfectant into the finished product barrel 24 through the finished product input pipe 23, when the produced disinfectant needs to be used, starting the finished product discharge water pump 26, discharging the finished disinfectant from the finished product water outlet pipe 27, respectively controlling the circulation stirring of the finished product and the output of the finished product by the finished product delivery electromagnetic valve 28 and the finished product circulation electromagnetic valve 29, wherein the finished disinfectant can volatilize automatically after being used as a chlorine-containing disinfection product without residue, and the effective chlorine content of the disinfectant is generally 10mg/L-2000mg/L when in use, the pH value is 5.5-6.6, and the detergent has no stimulation to human bodies and no pollution to the environment.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a HCLO hypochlorous acid water antiseptic solution manufacture equipment which characterized in that includes:

the device comprises a raw water barrel (1), a raw water inlet pipe (2) and a raw water circulating pipeline (4) are arranged on the raw water barrel (1), a water inlet and a water outlet of the raw water circulating pipeline (4) are connected to the raw water barrel (1), a raw water pump (5) and a raw water circulating electromagnetic valve (6) are arranged on the raw water circulating pipeline, a heating pipeline (7) is arranged on the raw water circulating pipeline in parallel, and an electric heater (8) and a heating circulating electromagnetic valve (9) are arranged on the heating pipeline (7);

one end of the electrolytic cell (15) is communicated with the raw water circulating pipeline (4) through a first connecting pipe (10), the other end of the electrolytic cell is communicated with a return pipe (16) and a second connecting pipe (17) through a three-way electromagnetic valve (18), a production electromagnetic valve (11) and a flow control valve (12) are arranged on the first connecting pipe (10), an electrolytic sheet in the electrolytic cell (15) is made of titanium alloy, and a precious metal oxide coating is arranged on the titanium alloy;

one end of the nano-film isolating device (21) is communicated with the second connecting pipe (17), and the other end of the nano-film isolating device is provided with a brine discharge pipe (22) and a finished product input pipe (23); and

the finished product barrel (24) is communicated with the finished product input pipe (23), a finished product circulating pipeline (25) is arranged on the finished product barrel, a water inlet and a water outlet of the finished product circulating pipeline (25) are connected to the finished product barrel (24), a finished product discharging water pump (26) and a finished product circulating electromagnetic valve (29) are arranged on the finished product barrel, a finished product water outlet pipe (27) is arranged at one end of the finished product circulating pipeline, and a finished product conveying electromagnetic valve (28) is arranged on the finished product water outlet pipe (27).

2. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: the raw water inlet pipe (2) is fixed on the raw water barrel (1), the other end of the raw water inlet pipe is connected with a tap water pipe, and a raw water electromagnetic valve (3) is arranged on the raw water inlet pipe.

3. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: one end of the first connecting pipe (10) close to the raw water circulating pipeline (4) is provided with a filter (13) for filtering impurities in the raw water.

4. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: the inlet of the electrolytic cell (15) is provided with a flowmeter (14), the outlet of the electrolytic cell is provided with a sensor group (19), and the sensor group (19) is used for detecting the PH value, the conductivity and the chlorine concentration of the electrolyzed liquid.

5. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: the other end of the return pipe (16) is fixed on the original water barrel (1), and the middle part of the return pipe is provided with a production detection liquid taking port (20).

6. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: the finished product barrel (24) is provided with air holes (30).

7. The apparatus for producing HCLO hypochlorous acid water disinfectant as set forth in claim 1, wherein: a high liquid level sensor (31) is arranged above the raw water barrel (1) and the finished product barrel (24), and a low liquid level sensor (32) is arranged below the raw water barrel and the finished product barrel.

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