CN215996241U - Self-water-absorption type ozone water generator - Google Patents

Abstract

The utility model provides a self priming formula ozone water generating device, include quick-witted case, install in high-pressure pump, ejector, ozone generator, power, the starting switch of quick-witted case, the ejector has into water cavity, hybrid chamber, income gas connection, is equipped with water pressure switch on the pipe wall of hybrid chamber, sets up the agitator in the connecting pipe behind built-in agitator of hybrid chamber or the hybrid chamber, and the power is connected with ozone generator and high-pressure pump, and the access connection of high-pressure pump is intake, and the export of high-pressure pump links to each other with the ejector income water cavity, and ozone that ozone generator produced links to each other with the income gas connection of ejector, and starting switch is used for controlling opening and close of high-pressure pump. The utility model discloses a setting of above-mentioned miniature high-pressure pump and ejector subsidiary function can realize that the ozone water installation is miniaturized, can portable nimble be applied to indoor, outdoor, open-air, as long as there is water, just can conveniently produce the ozone water of stable concentration, further additional water treatment measures, can generate high-quality ozone hydroenergy and satisfy disinfection and medical use.

Description

Self-water-absorption type ozone water generator

Technical Field

The utility model relates to an ozone water generator, in particular to a self-water-absorption type ozone water generator.

Background

Ozone is a peculiar substance twining with oxygen, and can efficiently kill viruses, bacteria, oxidize heavy metals and remove odor without pollution. The strong oxidizing property of the product is utilized by human beings, and the product can be widely applied to the fields of disinfection, sterilization, deodorization, detoxification, water treatment, medicine and health, food preservation, bleaching and the like.

The prior ozone water generating device is advanced, mature and extensive in large-scale industrialized application, has patents and numerous mature devices, and is difficult to ensure the generation of ozone water and the concentration quality of ozone water under the condition that the prior ozone water generating device is lack of tap water, or does not need tap water or the pressure of tap water is insufficient indoors, outdoors, in the field and the like, the utility model provides a small-sized integrated high-efficiency self-priming type ozone water generating device which can be used outdoors and outdoors or in rural areas and mountain areas, is convenient for water quality cleaning, disinfection, sterilization, deodorization and other application requirements, can also be applied to mobile transportation tools such as motor cars, high-speed rails, airplanes, steamships and the like, and is convenient for food and article disinfection or washroom washing, disinfection, deodorization and the like, further enhancing the function and meeting the requirement of medical use.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model provides a self-water-absorption ozone water generator.

The utility model provides a self priming formula ozone water generating device, includes quick-witted case, install high-pressure pump, ejector, ozone generator, power, starting switch in quick-witted case, the ejector has into water cavity, hybrid chamber, income gas connection, is equipped with water pressure switch on the pipe wall of hybrid chamber, sets up the agitator in the connecting pipe behind the built-in agitator of hybrid chamber or the hybrid chamber, and the power is connected with ozone generator and high-pressure pump, and the access connection of high-pressure pump is intake, and the export of high-pressure pump links to each other with ejector income water cavity, and ozone that ozone generator produced links to each other with the income gas connection of ejector, starting switch is used for controlling the start-stop of high-pressure pump, and when high-pressure pump absorbed water and operates, produces high pressure water and pours into the ejector hybrid chamber into through water pressure switch, connects ozone generator power production ozone in step simultaneously, inhales the hybrid chamber by the produced negative pressure of ejector through income gas connection, and ozone mixes with rivers in the hybrid chamber, the ozone water is formed and flows out after being fully mixed by a stirrer.

Further, the stirrer adopts a dynamic blade stirrer or a static blade stirrer.

Further, the starting switch adopts a manual switch or an inductive switch; the power supply adopts a lithium battery or a DC power supply.

Furthermore, the case comprises a case and a case cover assembled with the case.

Furthermore, an electromagnetic valve is connected between the water inlet and the high-pressure pump and used for connecting a water source when the device works so as to prevent the device from automatically leaking water when the device is stopped.

Furthermore, a water storage tank is arranged in the case and is connected with the high-pressure pump.

Furthermore, a coarse filter tank and an ultrafiltration water purifier are arranged in the water storage tank, wherein the coarse filter tank is communicated with the water filling port, the water outlet of the ultrafiltration water purifier is connected with the inlet of the high-pressure water pump, the coarse filter tank is formed by matching a gland net and filter cotton, the ultrafiltration water purifier is formed by assembling a case sealing joint, a sealing ring and a sealing water outlet gland, and the generated purified water is connected with the inlet of the high-pressure water pump through the joint of the sealing water outlet gland.

Further, the machine is internally provided with a purified water tank and a mixed water tank, the purified water tank is used for guaranteeing the quality of the ozone water, the mixed water tank is used for increasing the concentration of the ozone water at the limit, the inlet of the high-pressure pump is communicated with the purified water tank through a first electromagnetic valve, the inlet of the high-pressure pump is communicated with the mixed water tank through a second electromagnetic valve, the water outlet pump is communicated with the outlet of the mixed water tank, the outlet of the ejector is connected with the inlet of the mixed water tank through a stirrer, in order to guarantee the automatic control and operation of the device, the device further comprises a first water shortage sensor arranged on the purified water tank, a high water level sensor and a second water shortage sensor arranged on the mixed water tank, the first water shortage sensor, the high water level sensor and the second water shortage sensor are all connected with a controller, a starting switch is connected with a power supply and connected with the first electromagnetic valve, the second electromagnetic valve, the high-pressure pump and the water pump through the controller, and the controller is used for controlling the ozone water according to the mixed water tank, The water level of the purified water tank controls the opening and closing of the first electromagnetic valve, the second electromagnetic valve, the high-pressure pump and the water pump, and the elastic safety air valve is arranged on the mixed water tank to enhance the air tightness and prevent ozone gas from leaking outwards under the set pressure.

Furthermore, the ozone water disinfection device also comprises a peripheral matching set connected with the case, wherein the peripheral matching set comprises a matched seven-shaped pipe with a stirrer or a matched hose connected with the women washing device or a matched braided pipe connected with a duckbill gun, and the requirements of different functions of ozone water application are met.

Further, the ozone generator also comprises oxygen supply equipment which is matched and connected with the ozone generator for use, wherein the oxygen supply equipment comprises an oxygen generator or an oxygen bottle.

The utility model can realize the miniaturization of the ozone water device through the arrangement of the subsidiary functions of the miniature high-pressure pump and the ejector, and can generate stable ozone water concentration under the condition of insufficient pressure of a non-pressure water source and tap water, thereby meeting the requirements of clean water quality and various sterilization deodorization and medical functions; the ozone generator can be used indoors, outdoors and outdoors, ozone water with stable concentration can be conveniently generated as long as water exists, water treatment measures are further added, and high-quality ozone water can be generated to meet the requirements of disinfection and medical use.

Drawings

FIG. 1 is a block diagram of the working principle of the self-suction ozone water generator of the present invention;

FIG. 2 is a front view of a housing according to an embodiment of the present invention;

FIG. 3 is a front view of a first embodiment of the present invention;

FIG. 4 is a front view of a second embodiment of the present invention;

FIG. 5 is a front view of a case cover in a second embodiment of the present invention;

fig. 6 is a front view of a third embodiment of the present invention;

FIG. 7 is a front view of a third embodiment of the present invention;

fig. 8 is a view of the main chassis according to the fourth embodiment of the present invention;

FIG. 9 is a view of the inside of a water tank of the fourth embodiment of the present invention;

FIG. 10 is a schematic view of an installation structure of an ultrafiltration water purifier according to a fourth embodiment of the present invention;

fig. 11 is a side view of a water purifier according to a fourth embodiment of the present invention;

fig. 12 is a schematic structural diagram of a fifth embodiment of the present invention;

fig. 13 is a schematic view of an improved structure of the ejector according to the embodiment of the present invention.

In the figure: 1-case, 11-case, 12-case cover, 2-high pressure pump, 21-electromagnetic valve, 201-hose, 3-ejector, 31-water pressure switch, 32-air inlet joint, 33-static blade stirrer, 34-one-way valve, 4-ozone generator, 41-ozone switch, 42-ozone indicator, 5-power, 51-lithium battery, 52-DC power, 53-power indicator, 6-electromagnetic valve, 600-water shortage sensor, 61, 62-first audible and visual alarm, 7-start switch, 71-manual switch, 72-induction switch, 8-water pump, 81-forced switch, 82-speed regulator, 83-water making indicator, 84-ozone water indicator, 85, 86-second audible and visual alarm, 9-mixed water tank, 900-water shortage sensor, 91-high water level sensor, 92-drain valve, 93-elastic safety air valve, 10-purified water tank, water pump, water tank, water pump, water tank, water pump, water tank, water pump, water tank, water pump, water tank, 101-controller, 102-controller, 103-controller, 104-controller, 105-delay controller;

201-flexible pipe, 301-flexible pipe, 302-braided pipe, 303-agitator, 311-women washing device, 312-duckbill gun, 313-seven-shaped pipe, 321-connector;

a-an ultrafiltration water purifier, b-a coarse filtration tank, c-a gland net, d-filter cotton, e-a sealing ring, f-a case sealing joint, g-a sealing ring, h-a sealing water outlet gland, p-a water inlet cavity and q-a mixing cavity.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Fig. 1 shows the utility model discloses from water absorption formula ozone water generator's working principle block diagram, from water absorption formula ozone water generator includes quick-witted case 1, install in quick-witted case 1's high-pressure pump 2, ejector 3, ozone generator 4, power 5, starting switch 7, quick-witted case 1 includes casing 11 and the case lid 12 with casing 11 aggregate erection, is equipped with water pressure switch 31 and income gas connection 32 on the ejector 3, and power 5 is connected with ozone generator 4 and high-pressure pump 2, provides working power supply for ozone generator 4 and high-pressure pump 2, and starting switch 7 is used for controlling the opening and close of high-pressure pump 2, and the import and the water source (for example through hose 201) of high-pressure pump 2 communicate, and the income water cavity intercommunication of ejector 3 of high-pressure pump 2, and the income gas connection 32 intercommunication on the ejector 3 of ozone generator 4 production ozone. Particularly, the structure of the jet device is combined with the use of the device, the length of the peripheral connecting pipe is different, and in order to ensure the effect of fully mixing ozone and water flow, a mixing cavity of the jet device can be improved and provided with a built-in static stirring rod 33 (shown in figure 7) or a stirrer 303 connected behind the jet device. The block diagram of the embodiment further includes a peripheral matching member connected to the cabinet 1, as shown in fig. 1, when the outlet water is needed to flow out the ozone water like a faucet, the peripheral matching member can be matched with a seven-shaped pipe 313 with a stirrer 303; when the ozone water flows out from the hose with longer water outlet connection, the hose 301 or the braided tube 302 can be matched, and then the bidet 311 can be matched for gynecological or other medical functions, or the duck-bill gun 312 can be matched for washing and disinfecting oral cavities or articles.

The first embodiment is as follows: referring to fig. 2 and 3, the ozone water generation device is manually controlled to generate ozone water, and includes a casing 11, a case cover 12, a high-pressure pump 2, a jet device 3, an ozone generator 4, a DC power source 52, and a manual switch 71, where the casing 11 and the case cover 12 are connected to each other to form a case 1, in this embodiment, the power source 5 uses the DC power source 52, the start switch 7 uses the manual switch 71 (e.g., a push-button switch), the manual switch 71 is installed on the case cover 12, the power indicator 53 is connected to a circuit where the DC power source 52 is located to indicate a working state of the DC power source 52, and the ozone indicator 42 is connected to a circuit where the ozone generator 4 is located to indicate a working state of the ozone generator 4. The high-pressure pump 2, the ejector 3, the ozone generator 4, and the DC power supply 52 are mounted on the casing 11, and the ozone switch 41, the ozone indicator lamp 42, the manual switch 71, and the power indicator lamp 53 are mounted on the case cover 12.

The working mechanism of the embodiment is as follows: when the ozone water mixing device works, a water source is connected through the hose 201, the DC power supply 52 is started by the manual switch 71 (the power indicator lamp 53 is on), the high-pressure pump 2 operates to suck water, high-pressure water flows into the ejector 3 through the water pressure switch 31 (an ozone circuit is connected), the ozone generator 4 is synchronously connected (the ozone indicator lamp 42 is on) to generate ozone, the ozone is sucked by negative pressure generated by the ejector 3 through the air inlet connector 32 and is mixed with water flow in the mixing cavity to form ozone water, and then the ozone water flows out. When ozone water generation is not required, the ozone switch 41 may be turned off. When the operation is stopped, the DC power supply 52 is turned off by pressing the manual switch 71 again (the power indicator lamp 53 is turned off), the high-pressure pump 2 stops operating, no water flows into the ejector 3 through the water pressure switch 31, the water pressure switch 31 is turned off, and the synchronous ozone generator 4 stops (the ozone indicator lamp 42 is turned off) to generate ozone, and no water flows out.

Example two: referring to fig. 4 and 5, the ozone generating apparatus is composed of a casing 11, a case cover 12, a high pressure pump 2, a jet device 3, an ozone generator 4, a lithium battery 51, and an inductive switch 72, wherein the power supply 5 is the lithium battery 51, the start switch 7 is the inductive switch 72 (e.g., an infrared human body inductive switch), and the inductive switch 72 is installed on the case cover 12.

The working mechanism is as follows: the embodiment adopts the lithium cell 51 power, when the during operation, connect the water source through connecting pipe 321, inductive switch 72 senses the human body, inductive switch 72 starts (power indicator 53 lights), high-pressure pump 2 operates and absorbs water, high-pressure water flows through water pressure switch 31 (switch on ozone circuit) and flows into ejector 3, switch on ozone generator 4 simultaneously (ozone indicator 42 lights) synchronously and produce ozone, negative pressure that produces by ejector 3 through air inlet connector 32 inhales ozone and rivers mix at the hybrid chamber and form ozone water outflow. When ozone water generation is not required, the ozone switch 41 may be turned off. When a person leaves, the inductive switch 72 is automatically turned off (the power indicator lamp 53 is turned off), the high-pressure pump 2 stops operating, no water flows into the ejector 3 through the water pressure switch 31, the water pressure switch 31 is turned off, and simultaneously the synchronous ozone generator 4 stops (the ozone indicator lamp 42 is turned off) to generate ozone, and no water flows out.

Example three: referring to fig. 6 and 7, the ozone water generation device is controlled manually to generate ozone water, and includes a housing 11, a housing cover 12, an electromagnetic valve 6, a high-pressure pump 2, an ejector 3, an ozone generator 4, a built-in DC power source 52, and a manual switch 71, similar to the embodiment, in which the power source 5 is the built-in DC power source 52, and the start switch 7 is the manual switch 71 (e.g., a push-button switch), but the difference is that the electromagnetic valve 6 is disposed on a pipeline connected to an inlet of the high-pressure pump 2. The electromagnetic valve 6 is used for synchronously connecting a water source when the device works and preventing water from leaking when the device stops.

Example four: referring to fig. 8-11, the present embodiment adopts a simple ozone water generator with a purified water tank, which is similar to the embodiments in composition and control, and is different in that a water storage tank is arranged on a machine case 1, the water storage tank of the machine case 1 comprises an ultrafiltration water purifier a and a coarse filter tank b, the coarse filter tank b is formed by matching a gland net c and filter cotton d, the ultrafiltration water purifier a is assembled in the water tank, the ultrafiltration water purifier a is assembled with a seal ring e, a machine case seal joint f, a seal ring g and a seal water outlet gland h in sequence, wherein the joint of the seal water outlet gland h is connected with the inlet end of a high pressure water pump 2, when the ozone water generator works, water is firstly injected into the water storage tank, impurities in the water are purified by the filter cotton d in the coarse filter tank b, then a manual switch 71 is started, the high pressure water pump 2 operates to suck water, and forms negative pressure to the connected ultrafiltration water purifier a, the added water source continuously flows into the jet device 3 after being ultrafiltered and purified by the ultrafiltration water purifier a, is fully mixed with the generated ozone gas and then flows out for various disinfection purposes. When the ultrafiltration water purifier a needs to be replaced, the ultrafiltration water purifier a can be taken out and updated only by disassembling and assembling the sealed water outlet gland h.

Example five: referring to fig. 12, the embodiment is a high-performance medical-grade high-concentration ozone water generator, in which a mixed water tank 9, a purified water tank 10, an electromagnetic valve 6, an electromagnetic valve 21, and a controller, a water level indicator, a water pump 8, an alarm and the like are additionally disposed in a housing 1, and specifically, the ozone water generator includes a water shortage sensor 600 disposed in the purified water tank 10, a high water level sensor 91 and a water shortage sensor 900 disposed in the mixed water tank 9, a second controller 102 connected to the water shortage sensor 600, a first controller 101 connected to the electromagnetic valve 6 and the high water level sensor 91, a third controller 103 connected to a high-pressure pump 2, a fourth controller 104 connected to the water shortage sensor 900, and a delay controller 105 connected to the third controller 103, the second controller 102 is connected to the first controller 101, the fourth controller 104 is connected to the delay controller 105, the fourth controller 104 is connected to the water pump 8 through a speed regulator 82, the water pump 8 is communicated with the outlet of the mixing water tank 9. The second controller 102 is connected to the first audible and visual alarm (61, 62), and the fourth controller 104 is connected to the second audible and visual alarm (85, 86). The delay controller 105 is connected to the water producing indicator 83 and the ozone water indicator 84. The top of the mixing water tank 9 is also provided with an elastic safety air valve 93, and the bottom is provided with a drain valve 92.

The inlet of the high-pressure pump 2 is communicated with the purified water tank 10 through an electromagnetic valve 6, and the inlet of the high-pressure pump 2 is also communicated with the mixed water tank 9 through an electromagnetic valve 21. The start switch 7 is connected to the second controller 102, the third controller 103, and the power supply 5. A forcing switch 81 is also connected between the power supply 5 and the speed regulator 82. In this embodiment, a stirrer 303 is further provided on a pipeline between the outlet of the ejector 3 and the mixing water tank 9.

The working mechanism is as follows: when the water-saving alarm works, firstly, the purified water tank 10 needs to be filled with water, if the water is short, the water shortage sensor 600 indicates that the water is short, the second controller 102 controls the first audible and visual alarm (61, 62) to give an alarm, and meanwhile, the electromagnetic valve 6 is powered off and closed to remind the user of shutdown and stop running. The starting switch 7 is turned on to switch on the power supply 5, the electromagnetic valve 6 is opened, and the high-pressure pump 2 is started to operate, wherein the high-pressure pump 2 is started by the third controller 103.

The water flow is electrified and opened through the electromagnetic valve 6, the high-pressure pump 2 operates to absorb water, high-pressure water flows into the ejector 3 through the water pressure switch 31 (a switch-on circuit), the ozone generator 4 (the ozone indicator lamp 42) is synchronously switched on to generate ozone, the negative pressure generated by the ejector 3 is sucked into the ozone through the air inlet joint 32 and is mixed with the water flow to form ozone water flow, the ozone water flow is fully mixed and flows into the mixed water tank 9 through the stirrer 303, meanwhile, the third controller 103 of the high-pressure pump 2 is started to control the delay controller 105, the power supply of the speed regulator 82 can be switched on to control the water pump 8 to operate after the delay time reaches the appointed ozone water mixing time (if the speed regulator 82 is forcibly started 81, the speed regulator 82 can be forced to control the water pump 8 to operate, and the water pump 8 can be tested and debugged).

When the mixed water tank 9 is in water shortage, the water shortage sensor 900 sends a signal to the fourth controller 104, the fourth controller 104 cuts off the power supply of the electromagnetic valve 21, the electromagnetic valve 21 is closed to have no water flow, when the water level of the mixed water tank 9 gradually increases and is separated from the water shortage, the fourth controller 104 switches on the power supply of the electromagnetic valve 21 to be opened, at the moment, the water inlet source of the high-pressure pump 2 is provided with both the water of the purified water tank 10 and the ozone water from the mixed water tank 9, at the moment, the repeated and full circulating mixing situation of the ozone and the water is formed, the ozone concentration of the water in the mixed water tank 9 is continuously and circularly increased, at the moment, the water making indicator lamp 83 displays water making, when the preset mixing time is up, the delay controller 105 resets to switch on the water pump 8 circuit, at the moment, the indicator lamp 84 is on, and the ozone water concentration in the mixed water tank 9 reaches the specified standard. At this time, the speed regulator 82 can control the water outlet of the water pump 8 at any time, and ozone water is used for disinfection.

When the water level of the mixed water tank 9 gradually rises and exceeds the high water level sensor 91, the first controller 101 acts, the power supply valve of the electromagnetic valve 6 is switched off, the purified water tank 10 stops supplying water to the device, when the water level of the device for application of disinfection and the like gradually drops below the high water level sensor 91, the connected first controller 101 outputs a signal to switch on the power supply of the electromagnetic valve 6, the electromagnetic valve 6 is switched on again, and the normal water supply working state is recovered; when the water pump 8 works to the water level of the mixed water tank 9 to the water shortage sensor 900, the fourth controller 104 cuts off the power of the water pump 8 to stop, and simultaneously, the second audible and visual alarm (85, 86) gives an alarm to remind a user to either add water to the purified water tank 10 and continue to produce ozone water or close the starting switch 7 to stop operating the high-pressure pump 2, so that the whole ozone water generating device stops operating. The elastic safety air valve 93 on the mixing water tank 9 has the function of ensuring the air tightness of the mixing water tank, and when the air pressure in the container exceeds the standard, the air valve is automatically opened and leaked until the air pressure is reduced to be within a safety value, and then the closing state is recovered.

In the fifth embodiment, in order to increase the concentration of the ozone water to the maximum, the ozone generator 4 may be provided with an oxygen supply device, and the oxygen may be from an oxygen generator or an oxygen bottle, so as to further increase the concentration of the ozone water to the maximum.

Fig. 13 is the improved structure schematic diagram of the ejector in the embodiment of the present invention, the main body of the ejector is composed of a water inlet chamber p, a gas inlet connector 32 and a mixing chamber q, a water pressure switch 31 is arranged on the pipe wall of the water inlet chamber p, the related circuits are synchronously connected when water pressure is available, a check valve 34 is arranged in the gas inlet connector 32 to prevent the ozone generator from being damaged due to accidental leakage of water flow, and a vane type static mixer 33 is arranged in the mixing chamber q to save space and shorten the length of the device, so as to facilitate sufficient mixing of gas and liquid. Dynamic blade agitators may also be used in other embodiments.

In the above embodiment, the practical examples are applied: for example, the self-water-absorption type ozone water generator with the self-water-purification water tank can be matched with a travel vehicle, and during travel, river water and lake water can be used for simply preparing sterile water, so that drinking water can be prevented from being lacked, and other disinfection and sterilization needs can be avoided.

The high-concentration ozone water produced by the utility model can meet the requirements of various physical disinfection and medical disinfection and sterilization purposes, such as gynecological treatment, skin disease treatment, debridement treatment and the like.

The above description is only the specific implementation manner of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A self-water-absorption type ozone water generating device is characterized in that: comprises a case, a high-pressure pump arranged on the case, an ejector, an ozone generator, a power supply and a starting switch, the jet device is provided with a water inlet cavity, a mixing cavity and an air inlet joint, a water pressure switch is arranged on the pipe wall of the mixing cavity, a stirrer is arranged in the mixing cavity or in a connecting pipe behind the mixing cavity, a power supply is connected with an ozone generator and a high-pressure pump, the inlet of the high-pressure pump is connected with water inlet, the outlet of the high-pressure pump is connected with the water inlet cavity of the jet device, ozone generated by the ozone generator is connected with the air inlet joint of the jet device, the starting switch is used for controlling the on-off of the high-pressure pump, when the high-pressure pump pumps water to run, high-pressure water is generated and flows through the water pressure switch to be injected into the mixing cavity of the ejector, simultaneously, the power supply of the ozone generator is synchronously connected to generate ozone, the ozone is sucked into the mixing cavity by the negative pressure generated by the ejector through the air inlet joint, the ozone and the water flow are mixed in the mixing cavity, and the ozone water is formed and flows out after being fully mixed by the stirrer.

2. The self-priming ozone water generator as claimed in claim 1, wherein: the stirrer adopts a dynamic blade type stirrer or a static blade type stirrer.

3. The self-priming ozone water generator as claimed in claim 1, wherein: the starting switch adopts a manual switch or an inductive switch; the power supply adopts a lithium battery or a DC power supply.

4. The self-priming ozone water generator as claimed in claim 1, wherein: the case comprises a case body and a case cover assembled with the case body.

5. The self-priming ozone water generator as claimed in claim 1, wherein: the electromagnetic valve is connected between the water inlet and the high-pressure pump and is used for connecting a water source when the device works to prevent the device from self-flowing and leaking water when the device stops.

6. The self-priming ozone water generator as claimed in claim 1, wherein: the machine case is internally provided with a water storage tank which is connected with a high-pressure pump.

7. The self-priming ozone water generator as claimed in claim 6, wherein: the water storage tank is internally provided with a coarse filter tank and an ultrafiltration water purifier, wherein the coarse filter tank is communicated with a water filling port, a water outlet of the ultrafiltration water purifier is connected with an inlet of the high-pressure water pump, the coarse filter tank is formed by matching a gland net and filter cotton, the ultrafiltration water purifier is formed by assembling a case sealing joint, a sealing ring and a sealing water outlet gland, and the generated purified water is connected with the inlet of the high-pressure water pump through the joint of the sealing water outlet gland.

8. The self-priming ozone water generator as claimed in claim 1, wherein: the machine is characterized in that a purified water tank and a mixed water tank are arranged in the machine case, the purified water tank is used for guaranteeing the quality of ozone water, the mixed water tank is used for increasing the concentration of the ozone water to the maximum extent, the inlet of a high-pressure pump is communicated with the purified water tank through a first electromagnetic valve, the inlet of the high-pressure pump is communicated with the mixed water tank through a second electromagnetic valve, a water outlet pump is communicated with the outlet of the mixed water tank, the outlet of an ejector is connected with the inlet of the mixed water tank through a stirrer, in order to guarantee automatic control and operation of the device, the device further comprises a first water shortage sensor arranged on the purified water tank, a high water level sensor and a second water shortage sensor arranged on the mixed water tank, the first water shortage sensor, the high water level sensor and the second water shortage sensor are all connected with a controller, a starting switch is connected with a power supply and connected with the first electromagnetic valve, the second electromagnetic valve, the high-pressure pump and the water pump through the controller, The water level of the purified water tank controls the opening and closing of the first electromagnetic valve, the second electromagnetic valve, the high-pressure pump and the water pump, and the elastic safety air valve is arranged on the mixed water tank to enhance the air tightness and prevent ozone gas from leaking outwards under the set pressure.

9. The self-priming ozone water generator as claimed in claim 1, wherein: the ozone water disinfection device also comprises a peripheral matching part connected with the case, wherein the peripheral matching part comprises a matched seven-shaped pipe with a stirrer or a matched hose connected with the women washing device or a matched braided pipe connected with a duckbill gun, and the requirements of different functions of ozone water application are met.

10. The self-priming ozone water generator as claimed in claim 1, wherein: the ozone generator is also provided with oxygen supply equipment which is matched and connected with the ozone generator for use, and the oxygen supply equipment comprises an oxygen generator or an oxygen bottle.

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