WO2022147813A1

WO2022147813A1 - Universal integrated ozone water generating apparatus

Info

Publication number: WO2022147813A1
Application number: PCT/CN2021/071011
Authority: WO
Inventors: 刁国贤
Original assignee: 刁国贤
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2022-07-14

Abstract

A universal integrated ozone water generating apparatus, comprising an integrated back panel (1) and integrated front panel (2) capable of being closed together, and a jet device (11) and an ozone generator disposed on the integrated back panel (1), the jet device (11) comprising a water intake cavity (111) for accessing tap water and a water outlet cavity (112) in communication with the water intake cavity (111), the water outlet cavity (112) being used for communicating with a water outlet pipe (16), a jet device gas intake valve (1122) in communication with the water outlet cavity (112) being disposed at a hose of the water outlet cavity (112), a water pressure switch (1111) being mounted in the water intake cavity (111), a gas output end of the ozone generator being in communication with the jet device gas intake valve (1122), the water pressure switch (1111) being positioned in a power source circuit of the ozone generator, the water pressure switch (1111) being used for controlling the ozone generator to switch on and off on the basis of whether there is tap water pressure to produce a water flow flowing through the water intake cavity (111), and a mixing rod (161) being disposed in the water outlet cavity (112) of the jet device or the water outlet pipe (16). The present universal integrated ozone water generating apparatus is as simple and convenient to use as an everyday manual switch tap or sensor tap, implements cleaning and disinfection in one step, the disinfection and sterilisation being rapid and effective, and does not produce secondary pollution, having both environmental protection and water saving effects.

Description

Universal integrated ozone water generator

technical field

The invention relates to the technical field of ozone disinfection, in particular to a universal integrated ozone water generating device.

Background technique

Ozone is a peculiar substance twinned with oxygen, which can kill viruses and bacteria efficiently and without pollution. Ozone in nature mainly exists in the high-altitude atmosphere, which is a natural barrier for human beings to avoid the strong attack of solar ultraviolet rays. In reality, human beings use its strong oxidizing properties in disinfection, sterilization, deodorization, detoxification, water treatment, medicine and hygiene, food preservation, etc. Widely used in bleaching and other fields.

The principle of ozone disinfection: ozone sterilization or bacteriostatic effect is usually a comprehensive result of physical, chemical and biological aspects. Ozone has obvious inactivation effect on almost all bacteria, viruses, germs, molds, fungi and protozoan oocysts. Its mechanism of action can be summarized as follows: (1) Acting on the cell membrane, leading to an increase in the permeability of the cell membrane, intracellular The outflow of material makes the cell lose its vitality; (2) it inactivates the enzymes necessary for cell activity. These enzymes include both basal metabolic enzymes and enzymes that synthesize important components of cells; (3) destroy or disable the genetic material in the cytoplasm.

Advantages of ozone disinfection: ozone sterilization is extremely fast, 300 to 600 times that of chlorine and 3000 times that of ultraviolet rays. The high redox potential of ozone determines its application in oxidation, decolorization, deodorization, and preservation, and can also decompose organic matter, pesticide residues and algae.

Using ozone water for disinfection, compared with residual chlorine disinfection and peroxide disinfectants commonly used in society, ozone water has high cleanliness, and the sterilization speed in water is the fastest, and after ozone disinfection, it will disappear into oxygen, and there is no chemical Disinfectant residues, ozone water disinfection is both disinfection and cleaning at the same time, completing the disinfection and sterilization process at one time, saving water resources, and will not cause pollution to our living environment. On the contrary, these widely used chemical disinfectants must be washed with clean water after disinfection, which is a waste of water resources. At the same time, the frequent use of chemical disinfectants is not only harmful to the human body itself, but also causes harmful secondary Pollution residues, which cause environmental pollution, have attracted great attention from the society.

Compared with ultraviolet disinfection, ozone water disinfection has no dead ends and can overcome the disadvantage that ultraviolet rays can only kill directly irradiated microorganisms along a straight line.

Ozone water disinfection is simple and fast. Among all the above measures to strengthen disinfection and sterilization and control the spread of viruses, the ozone water disinfection method has the simplest generation principle and is very convenient. The equipment can be large or small, and can be adapted to household cleaning and disinfection. , farmers market live poultry, fish, meat and cold chain food packaging disinfection, hotels, restaurants and public places cleaning and disinfection, etc., can also be simply placed on high-speed rail, river ships, sea cruise ships and aircraft and other public transportation.

The ozone water generating device in the prior art is a single product of the ozone generator, which is not integrated with the faucet specification, and needs to be installed and connected to the power supply before it can be used. The concentration parameters of ozone water generated by mixing with water flow have no rules and standards, and users cannot accurately grasp the disinfection effect of ozone water, thus limiting the widespread use of ozone in the field of water disinfection.

SUMMARY OF THE INVENTION

In view of the above-mentioned deficiencies in the prior art, the present invention provides a universal integrated ozone water generating device to solve the above-mentioned problems.

A universal integrated ozone water generating device, comprising an integrated backplane that can be covered with each other, an integrated panel, a jet and an ozone generator arranged on the integrated backboard, and the jet and the integrated backboard are manufactured in one piece , the ejector includes a water inlet cavity that is connected to tap water, and a water outlet cavity that communicates with the water inlet cavity. The water outlet cavity is used to communicate with the water outlet pipe, and the throat of the water outlet cavity is provided with an ejector inlet valve that communicates with the water outlet cavity. , the water inlet chamber is equipped with a water pressure switch, the gas output end of the ozone generator is communicated with the air inlet valve of the ejector, the water pressure switch is placed in the power circuit of the ozone generator, and the water pressure switch It is used to control the opening and closing of the ozone generator according to whether there is tap water pressure to generate water flow through the water inlet cavity. The water outlet cavity or water outlet pipe of the jet is equipped with a mixer with the function of fully dispersing-mixing-dispersing stirring for gas-liquid mixed water. rod.

Further, when the tap water pressure acts on the water inlet cavity, the water pressure switch is turned on to control the ozone generator to be turned on, and the ozone gas generated by the ozone generator synchronously passes through the jet inlet valve under the action of the negative pressure formed by the water outlet cavity. It flows into the water outlet cavity and mixes with tap water to form ozone water and flows out; when the tap water pressure in the water inlet cavity disappears, the water pressure switch is turned off to stop the ozone generator, and no ozone is generated to flow into the water outlet cavity at this time.

Further, the mixing rod is formed by sequentially connecting several continuous blades composed of a first blade and a second blade, the first blade and the second blade are both plate-shaped blades with a twist of 180 degrees, and the first blade and the second blade are both. Twisted 90 degrees.

Further, the ozone generator includes an ozone power supply and an ozone generating tube connected to the ozone power supply, the gas outlet of which is communicated with the air inlet valve of the ejector through a gas hose, and the ozone power supply is provided with working power by a power supply plug.

Further, it also includes a manual water valve that is matched and communicated with the water inlet cavity. The manual water valve is connected to the connecting hose through the water valve base fastener, and the main body pipe wall of the manual water valve is provided with a through hole through which the power cord can pass through. The power cord connected to the plug is connected to the water pressure switch after passing through the through hole, and the water pressure switch is connected to the ozone power supply.

Further, it also includes a pulse solenoid valve matched with the sensor and the sensor, the water inlet cavity is connected with the connecting hose through the water valve base fastener, and the pulse solenoid valve is arranged in the pipeline between the water inlet cavity and the connecting hose. The sensor is installed on the integrated panel. The sensor is used to drive the pulse solenoid valve to open the tap water when it senses the approach of the object to be sterilized. When the sterilized object leaves the sensor, the pulse solenoid valve is driven to disconnect the tap water.

Further, the water outlet cavity is connected with the water outlet pipe through the conversion joint, and the water inlet cavity is connected with the connecting hose through the water valve base fastener. The power supply and the ozone generating tube form a series circuit.

Further, the ozone power supply is connected to the ozone generating tube through electrode wiring, and an indicator light connected to the ozone electrode line is provided on the integrated panel for displaying the working state of the ozone generator.

Further, a filter cotton is provided at the gas inlet end of the ozone generating tube, and the filter cotton is used for filtering air and preventing moisture and dust.

Further, a manual switch is connected in series in the power circuit where the ozone generator is located, for manually controlling the actual working state of the ozone generator in conduction.

The invention integrates an ozone generator, an ejector, a mixing rod that can fully disperse-mix-disperse and stir the gas and liquid generated by the ejector, and a water pressure switch, wherein the water pressure switch can be automatically switched according to the presence or absence of water flow and water pressure. Function, when used, it is as simple as the daily manual switch faucet and the induction faucet. The cleaning and disinfection are completed in one step, the disinfection and sterilization are fast and effective, and no secondary pollution is generated. It can be closely combined with various water valves, easy to install, and the mixed concentration of the generated ozone water is determined and the parameters are correspondingly consistent, which effectively ensures that the disinfection concentration of ozone water has a standard, and ensures that all users use the same disinfection effect according to regulations.

Description of drawings

Fig. 1 is the three-dimensional structure schematic diagram of the first embodiment of the universal integrated ozone water generating device of the present invention;

2 is a schematic diagram of the internal structure of Embodiment 1 of the universal integrated ozone water generating device of the present invention;

Fig. 3 is the structural representation of the mixing rod in the embodiment of the present invention;

4 is a schematic diagram of the internal structure of Embodiment 2 of the universal integrated ozone water generating device of the present invention;

5 is a schematic diagram of the internal structure of the third embodiment of the universal integrated ozone water generating device of the present invention.

In the figure: 1—integrated back panel, 2—integrated panel, 11—jet, 111—water inlet, 112—water outlet, 1111—water pressure switch, 1122—jet inlet valve, 21—manual switch, 13—ozone power supply, 131—electrode wiring, 132—indicator light, 14—negative pressure ozone tube, 141—gas hose, 142—filter cotton, 122—jet device, 22—inductor, 221—inductor conversion power supply , 222—pulse solenoid valve, 15—power supply plug, 16—outlet pipe, 161—mixing rod, 17—converter, 18—manual water valve, 181—water valve base fastener, 182—connecting hose, 1611— First blade, 1612—Second blade.

Detailed ways

The technical solutions in the present invention will be clearly and completely described below with reference to the accompanying drawings and specific embodiments of the present invention.

Example 1

Please refer to FIGS. 1-2 , which is the first embodiment of the universal integrated ozone water generating device of the present invention, including an integrated back plate 1 that can be covered with each other, an integrated face plate 2 , and a jet 11 arranged on the integrated back plate 1 , Ozone generator, the ejector 11 is manufactured integrally with the integrated back plate, the ejector 11 includes a water inlet cavity 111 for connecting water flow, and a water outlet cavity 112 communicated with the water inlet cavity 111. The water outlet cavity 112 is used for connecting with the water outlet. The water pipe 16 is connected, the throat of the water outlet cavity 112 is provided with a jet inlet valve 1122 that communicates with the water outlet cavity 112, the water inlet cavity 111 is installed with a water pressure switch 1111, and the gas output end of the ozone generator is connected to The jet inlet valve 1122 is connected, the water pressure switch is placed in the power circuit of the ozone generator, and the water pressure switch 1111 is used to control the ozone generator according to whether there is tap water pressure to generate water flow through the water inlet cavity 111 Specifically, when the tap water pressure acts on the water inlet chamber 111, the water pressure switch 1111 is turned on to control the ozone generator to be turned on to generate ozone, and the ozone gas generated by the ozone generator forms a negative pressure in the water outlet chamber 112. Under the action, ozone gas is input into the water inlet chamber 111 through the jet inlet valve 1122, and mixed with tap water to form ozone water and flows out; when the tap water pressure in the water inlet chamber 111 disappears, the water pressure switch 1111 is disconnected, so that the ozone generator stops In operation, no ozone is generated and flows into the water outlet cavity 112 at this time. The ejector intake valve 1122 is a one-way intake valve.

The water pressure switch 1111 is placed in the power circuit of the ozone generator, and the tap water flow can be introduced into the water inlet cavity 111 by manual water outlet, induction water outlet, or direct access to any water valve, so that the water pressure switch is 1111 is on to turn on the ozone generator. A manual switch 21 can be connected in series in the power circuit where the ozone generator is located, and the opening and closing of the ozone generator in conduction can be manually controlled through the manipulation of the manual switch 21 .

The ozone generator includes an ozone power supply 13 and an ozone generating tube 14 connected to the ozone power supply 13. The ozone power supply 13 and the ozone generating tube 14 are sealed in the casing of the integrated backplane 1 through a heat-conducting potting glue. The gas outlet end of 14 is communicated with the ejector inlet valve 1122 through a gas hose 141 . The ozone power supply 13 is provided with working power by a power supply plug 15 . The gas inlet end of the ozone generating tube 14 is equipped with a filter cotton 142, and the filter cotton 142 has the functions of filtering air, dustproof, moistureproof and oil-proof.

The first embodiment of the present invention is a manual water valve to discharge water. Specifically, the present invention further includes a manual water valve 18 that is matched and communicated with the water inlet cavity 111. The manual water valve 18 is connected to the connecting hose 182 through the water valve base fastener 181. The water outlet cavity 112 is provided with a water outlet pipe 16 .

The ejector can mix the two fluids in parallel along the direction of the pipeline. Generally, the mixing of the two fluids is not sufficient. When the two fluids are required to be fully mixed, the length of the outlet pipe of the ejector needs to be infinitely extended to meet the full mixing requirements. Aiming at the deficiencies of the prior art, in order to shorten the length of the water outlet pipe and facilitate the user's use efficiency and aesthetics, in this embodiment, a mixing rod 161 with the function of dispersing-mixing-dispersing mixing and stirring is added in the water outlet pipe 161, as shown in FIG. 3 . The mixing rod 161 is formed by sequentially connecting several continuous blades consisting of a first blade 1611 and a second blade 1612. The first blade 1611 and the second blade 1612 are plate-shaped blades twisted at 180 degrees. The two blades 1612 are twisted at 90 degrees, and the mixing rod 161 can fully realize uninterrupted division, conversion and reversal of the mixed fluid flowing into the water outlet pipe 16, so that the mixed fluid can be more effectively mixed within a short distance of the pipe. , so that the mixing uniformity can be increased to nearly 100%. In this embodiment, the mixing rod 161 is arranged on the water outlet pipe 16 behind the water outlet chamber 112 , and can also be nested in the water outlet chamber 112 of the jet.

The main body pipe wall of the manual water valve 18 is provided with a through hole through which the power cord can pass through. (The ozone power supply 13 is connected to the ozone generating tube 14 through the electrode wiring 131 ), so that the power connected to the power supply plug 15 is supplied to the ozone power supply 13 when the water pressure switch 1111 is closed. Optionally, the water pressure switch 1111 can be connected to the ozone power supply 13 through the manual switch 21 , so that the opening and closing of the ozone generator in conduction can be manually controlled through the manipulation of the manual switch 21 .

The working principle of the first embodiment of the present invention: when the universal integrated ozone water generator is designed to operate the manual water valve 18, the power supply plug 15 is turned on, the manual water valve 18 is opened, and the tap water is injected into the water outlet from the water inlet chamber 111 under the action of water pressure. In the cavity 112, the water pressure switch 1111 on the water inlet cavity 111 is turned on synchronously. When the manual switch 21 is turned on, the ozone power supply 13 is energized, the ozone generating tube 14 generates ozone gas, and the negative pressure formed by the ozone gas in the water outlet cavity 112 acts. Then, it flows into the water outlet chamber 112 through the gas hose 141 synchronously, and mixes with the tap water injected into it and flows into the water outlet pipe 16. The mixing rod 161 in the water outlet pipe 16 fully mixes-disperses-mixes the ozone water to form high-solubility ozone water and flows out. , to meet the functional needs of disinfection and sterilization. When the disinfection and sterilization work ends, manually disconnect the manual water valve 18, the tap water stops supplying water to the jet 11, the water pressure disappears, the water pressure switch 1111 is disconnected, and the ozone power supply 13 loses power and stops producing ozone. The integrated panel 2 is also provided with an indicator light 132 connected to the electrode wiring 131 to display the working state of the ozone generator.

Embodiment 2

Please refer to FIG. 4 , the difference from the first embodiment shown in FIG. 1 is that the induction automatic water outlet is used. Compared with the first embodiment, the manual water valve 18 is not provided, and the sensor 22 is used and matched with the sensor 22 The connected pulse solenoid valve 222 and the sensor 22 can be matched with the corresponding sensor conversion power supply 221 . The water inlet chamber 111 is connected to the connecting hose 182 through the water valve base fastener 181 , the pulse solenoid valve 222 is arranged on the pipeline between the water inlet chamber 111 and the connecting hose 182 , and the sensor 22 is installed on the integrated panel 2 .

The working principle of the second embodiment of the present invention: when the universal integrated ozone water generating device is applied to the induction automatic water discharge disinfection and sterilization operation, the power supply plug 15 is connected, and when the object to be sterilized is close to the sensor 22, the sensor 22 gets an electric drive pulse The solenoid valve 222 is turned on, and the tap water flows into the water inlet cavity 111 through the pulse solenoid valve 222 under the action of water pressure and is injected into the water outlet cavity 112. The water pressure switch 1111 on the water inlet cavity 111 is turned on synchronously. The power supply 13 is energized, the ozone generating tube 14 generates ozone gas, and the ozone gas flows into the water outlet chamber 112 through the gas hose 141 synchronously under the action of the negative pressure formed by the water outlet chamber 112, and is mixed with the tap water injected into it and flows into the water outlet pipe 16. The mixing rod 161 in the water outlet pipe 16 fully mixes-disperses-mixes the ozone water to form high-solubility ozone water to flow out to meet the functional requirements of disinfection and sterilization. When the disinfection and sterilization work is over, the sterilized items are removed from the sensor 22, the sensor 22 is powered off and restored, the pulse solenoid valve 222 is in a disconnected state, the tap water stops supplying water to the jet 11, the water pressure disappears, and the water pressure switch 1111 is turned off. On, the ozone power supply 13 is powered off to stop generating ozone.

Embodiment 3

Please refer to FIG. 5 . The difference from the first embodiment shown in FIG. 1 is that a simple automatic water outlet is adopted. Compared with the first embodiment, the manual water valve 18 is not provided. , the water outlet pipe 16 can be matched and selected according to the model of the conversion joint 17, so as to meet the needs of the shape or model of the water outlet pipe 16 in different occasions. The water inlet chamber 111 is connected with the connecting hose 182 through the water valve base fastener 181, and the connecting hose 182 can be connected with various forms of water valves. The power supply plug 15, the water pressure switch 1111, the ozone power supply 13, and the ozone generating tube 14 form a series circuit, and the manual switch 21 can also be connected in series in this circuit.

The working principle of the third embodiment of the present invention: when the universal integrated ozone water generating device is applied to the simple automatic water discharge disinfection and sterilization operation, only the water outlet pipe 16 of suitable length needs to be installed, and the mixing rod 161 is arranged in the water outlet pipe 16 to ensure sufficient mixing- Dispersion-mixing, turn on the power supply plug 15, tap water can be connected to the water inlet chamber 111 of the jet 11 through the connecting hose 182 of any water valve, and the water pressure switch 1111 on the water inlet chamber 111 is turned on synchronously. When the manual switch 21 is in the In the ON state, the ozone power supply 13 is energized, and the ozone generating tube 14 generates ozone gas. Under the action of the negative pressure formed by the water outlet chamber 112, the ozone gas flows into the water outlet chamber 112 through the gas hose 141 synchronously, and is mixed with the tap water injected into it. The water flows into the water outlet pipe 16, and the mixing rod 161 in the water outlet pipe 16 fully mixes-disperses-mixes the ozone water to form high-solubility ozone water to flow out, which meets the functional requirements of disinfection and sterilization. When the disinfection and sterilization work is completed and the water valve is turned off, the tap water stops supplying water to the jet 11, the water pressure disappears, the water pressure switch 1111 is turned off, and the ozone power supply 13 loses power and stops the work of producing ozone.

Concrete application of the present invention:

1. Various public health places, such as primary schools, kindergartens and other places where children gather, are equipped with wash basins for washing before and after meals. The application of the present invention can efficiently disinfect, only need one cleaning, disinfection and sterilization, and it is pollution-free, convenient, quick and water-saving.

2. Canteens of government agencies, institutions, industry and agriculture, and other industries, including family kitchens, clean fruits, vegetables, meat, and food. It is convenient and quick to decontaminate and remove pesticide residues. It is safe, economical, and water-saving, and there is no secondary environmental pollution.

3. The cleaning and disinfection of agricultural rhizomes and seeds processing, and the cleaning and disinfection operations of vegetable purification and processing, the application of the present invention is efficient for disinfection, safe, economical and water-saving.

4. Cleaning, cleaning and disinfection before entering the workplace for medical and pharmaceutical, food industry, seasoning production and other industries.

5. Cleaning and disinfection of various public health places, such as disinfection and sterilization of aquatic meat products in farmers' markets, disinfection and sterilization of fresh live poultry, disinfection and sterilization of cold chain food packaging, aquaculture, livestock and poultry breeding, etc. Economical, convenient and effective safe and economical water-saving disinfection and sterilization equipment.

6. The cleaning, disinfection and sterilization of hospital beds, clothing and sheets, as well as small household clothing, underwear, towels, etc., use the present invention to efficiently sterilize, which is safe, economical, convenient and practical.

The above are only specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Any person skilled in the art can easily think of changes or substitutions within the technical scope disclosed by the present invention, All should be included within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims

A universal integrated ozone water generating device, characterized in that it comprises an integrated back plate (1) that can be covered with each other, an integrated face plate (2), and a jet (11) arranged on the integrated back plate (1) , ozone generator, the ejector (11) is integrally manufactured with the integrated back plate, the ejector (11) includes a water inlet cavity (111) for connecting tap water, and a water outlet cavity (112) communicated with the water inlet cavity (111), The water outlet cavity (112) is used to communicate with the water outlet pipe (16), and a jet inlet valve (1122) communicated with the water outlet chamber (112) is arranged at the throat of the water outlet chamber (112). A water pressure switch (1111) is installed in the cavity (111), the gas output end of the ozone generator is communicated with the ejector inlet valve (1122), and the water pressure switch (1111) is placed in the power supply of the ozone generator In the circuit, the water pressure switch (1111) is used to control the opening and closing of the ozone generator according to whether there is tap water pressure to generate water flow through the water inlet chamber (111), the water outlet chamber (112) or the water outlet pipe (16) of the jet. There is a mixing rod (161) with the function of fully dispersing-mixing-dispersing stirring for the gas-liquid mixed water.
The universal integrated ozone water generating device according to claim 1, characterized in that: when a tap water pressure acts on the water inlet cavity (111), the water pressure switch (1111) is turned on to control the ozone generator to be turned on, and the ozone generates Under the action of the negative pressure formed by the water outlet chamber (112), the ozone gas generated by the ejector simultaneously flows into the water outlet chamber (112) through the jet inlet valve (1122), and is mixed with tap water to form ozone water and flows out; When the tap water pressure disappears, the water pressure switch (1111) is disconnected to stop the ozone generator from working, and no ozone is generated to flow into the water outlet chamber (112) at this time.
The universal integrated ozone water generating device according to claim 1, characterized in that: the mixing rod (161) is formed by sequentially connecting several continuous blades composed of a first blade (1611) and a second blade (1612), The first blade (1611) and the second blade (1612) are both plate-shaped blades twisted by 180 degrees, and the first blade (1611) and the second blade (1612) are twisted by 90 degrees.
The universal integrated ozone water generating device according to claim 1, characterized in that: the ozone generator comprises an ozone power supply (13), an ozone generating pipe (14) connected to the ozone power supply (13), and the gas outlet end thereof The gas hose (141) is communicated with the air inlet valve (1122) of the ejector, and the ozone power supply (13) is provided with a working power supply by a power supply plug (15).
The universal integrated ozone water generating device according to claim 4, characterized in that it further comprises a manual water valve (18) which is matched and communicated with the water inlet cavity (111), and the manual water valve (18) is fastened by the water valve base The part (181) is connected with the connecting hose (182), the main body pipe wall of the manual water valve (18) is provided with a through hole through which the power cord can pass, and the power cord connected to the power supply plug (15) passes through the through hole and is connected to the The water pressure switch (1111) is connected, and the water pressure switch (1111) is connected to the ozone power supply (13), and when the water pressure switch (1111) is turned on, the power connected to the power supply plug (15) is provided to the ozone power supply (13) .
The universal integrated ozone water generating device according to claim 4, characterized in that it further comprises a pulse solenoid valve (222) matched with the sensor (22) and the sensor (22), and the water inlet chamber (111) The water valve base fastener (181) is connected to the connecting hose (182), the pulse solenoid valve (222) is arranged on the pipeline between the water inlet chamber (111) and the connecting hose (182), and the sensor (22) Installed on the integrated panel (2), the sensor (22) is used to drive the pulse solenoid valve (222) to open the tap water when sensing the approach of the item to be sterilized, and drive the pulse solenoid valve (222) when the sterilized item leaves the sensor (22). 222) Disconnect the tap water.
The universal integrated ozone water generating device according to claim 4, wherein the water outlet chamber (112) is connected with the water outlet pipe (16) through the adapter (17), and the water inlet chamber (111) is connected by the water valve base fastener (181) is connected to the connecting hose 182, the connecting hose (182) is used to connect with various forms of water valves, the power supply plug (15), the water pressure switch (1111), the ozone power supply (13), the ozone generating pipe ( 14) Form a series circuit.
The universal integrated ozone water generating device according to claim 4, characterized in that: the ozone power supply (13) is connected to the ozone generating tube (14) through electrode wiring (131), and the integrated panel (2) is on the An indicator light (132) connected with the ozone electrode wire (131) is provided for displaying the working state of the ozone generator.
The universal integrated ozone water generating device according to claim 4, characterized in that: the gas inlet end of the ozone generating pipe (14) is provided with a filter cotton (142), and the filter cotton (142) is used for filtering air and preventing moisture. dust-proof.
The universal integrated ozone water generating device according to any one of claims 1-9, characterized in that: a manual switch (21) is connected in series in the power circuit where the ozone generator is located, for manually controlling the conduction The actual working state of the ozone generator.