Hydrolytic ozone disinfection water purifier

By designing a detachable ozone sterilization device and adapter in the water purifier, the problems of traditional water purifiers being unable to disinfect bacteria and ozone generators being non-removable are solved, achieving convenient replacement and efficient sterilization.

CN224477999UActive Publication Date: 2026-07-10SHENZHEN OSAI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN OSAI TECH CO LTD
Filing Date
2025-05-30
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Traditional water purifiers cannot effectively disinfect bacteria in the water, and the ozone generator cannot be disassembled and replaced, resulting in a waste of resources.

Method used

Design a hydrolyzed ozone disinfection water purifier. Use an adapter to make the ozone sterilization device detachably connected to the main body. Purified water flows into the ozone sterilization device for sterilization. When replacing, the ozone sterilization device can be directly removed and replaced.

Benefits of technology

It enables convenient replacement of the ozone generator, improves the utilization rate of the water purifier, and ensures the continuous sterilization effect of the water purifier.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of hydrolysis ozone disinfection water purifier, it is related to water purifier technical field, including main part, adapter, ozone sterilization device, the side of main part is equipped with fixing bracket, adapter is fixedly connected with fixing bracket and is conducted with main part, adapter is electrically connected with main part, ozone sterilization device and adapter form detachable connection and conduction, ozone sterilization device is electrically connected with adapter, the water purification in main part flows into ozone sterilization device and is formed after sterilization straight drinking water reflux to main part;The ozone generator in the water purifier of the hydrolysis ozone disinfection water purifier of the kind can be replaced, to improve the utilization of water purifier.
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Description

Technical Field

[0001] This utility model relates to the field of water purifier technology, and in particular to a water purifier with hydrolysis ozone disinfection. Background Technology

[0002] As people's living standards improve, they are paying more and more attention to the quality and safety of drinking water, and direct drinking water purifiers are gradually becoming common household appliances. Traditional direct drinking water purifiers mostly focus on purifying raw water, removing impurities, heavy metals and other harmful substances from the water through simple filtration devices such as activated carbon filters, ultrafiltration membranes or reverse osmosis membranes to provide relatively pure drinking water. However, this filtration method still cannot disinfect bacteria inside the water, and long-term use will still affect the user's drinking health.

[0003] Ozone generators can produce a certain amount of ozone, which can be dissolved in water to sterilize it. The ozone sterilization water purifier with patent number CN2454368Y uses the principle of ozone sterilization and integrates it into the water purifier to sterilize the water. However, its ozone generator cannot be disassembled and replaced. After long-term use, if the ozone generator is damaged, the user cannot replace the ozone generator and must replace the entire water purifier, which is a serious waste of resources.

[0004] Therefore, it is necessary to propose a hydrolyzed ozone disinfection water purifier to facilitate the replacement of the ozone generator inside the water dispenser, thereby improving the utilization rate of the water dispenser. Utility Model Content

[0005] To address the aforementioned issues, this invention proposes a hydrolyzed ozone disinfection water purifier to facilitate the replacement of the ozone generator within the water dispenser, thereby improving the utilization rate of the water purifier.

[0006] This utility model is achieved through the following technical solution:

[0007] This utility model proposes a hydrolyzed ozone disinfection water purifier, including a main body, an adapter, and an ozone sterilization device. A fixed frame is provided on one side of the main body. The adapter is fixedly connected to the fixed frame and is electrically connected to the main body. The ozone sterilization device is detachably connected to the adapter and is electrically connected to it. The purified water in the main body flows into the ozone sterilization device for sterilization and then returns to the main body as drinking water.

[0008] Furthermore, the adapter includes a fixed housing, a power socket, and an adapter valve port. The fixed housing is fixedly connected to the fixed frame. The power socket and the adapter valve port are both fixedly connected to one end of the fixed housing. The power socket is located on one side of the adapter valve port and is electrically connected to the main body. The adapter valve port forms a liquid connection with the main body. The ozone sterilization device is inserted into the fixed housing and electrically connected to the power socket. The ozone sterilization device forms a liquid connection with the adapter valve port.

[0009] Furthermore, the adapter valve is provided with a first connection port and a second connection port, and the ozone sterilization device is provided with a first port and a second port. The first port and the first connection port form a sealed connection and are conductive, and the second port and the second connection port form a sealed connection and are conductive.

[0010] Furthermore, the adapter valve port is provided with a first connecting pipe and a second connecting pipe. The first connecting pipe is connected to the first connecting port, and the second connecting pipe is connected to the second connecting port. Both the first connecting pipe and the second connecting pipe are in liquid communication with the main body.

[0011] Furthermore, the fixed shell is provided with an insertion slot, and the ozone sterilization device is housed in the insertion slot.

[0012] Furthermore, the ozone sterilization device includes a snap-fit ​​end cap, an ozone generator, and a sealing cover. The sealing cover is fixedly and sealed to one end of the ozone generator. One side of the sealing cover is fixedly connected to the snap-fit ​​end cap. The snap-fit ​​end cap and the fixed shell form a snap-fit ​​connection. The ozone generator is electrically connected to the power socket. The other end of the sealing cover is inserted into the adapter valve port and forms a liquid conduction.

[0013] Furthermore, the sealing cover body is provided with a water circulation chamber, which is connected to the adapter valve port, and the ozone generator is provided with an ozone generating end platform, which is housed in the water circulation chamber.

[0014] Furthermore, one end of the ozone generator is provided with a connector, which is electrically connected to the ozone generator and is inserted into the power socket and electrically connected to the power socket.

[0015] Furthermore, the snap-fit ​​end cap includes a mounting cover and a snap-fit ​​block. The snap-fit ​​block and the mounting cover form a sliding elastic connection. The mounting cover is housed within the fixed shell, and the snap-fit ​​block and the fixed shell form a snap-fit ​​connection.

[0016] Furthermore, the snap-fit ​​block is provided with a snap-fit ​​protrusion, and the fixing shell is provided with a snap-fit ​​groove, wherein the snap-fit ​​protrusion is received within the snap-fit ​​groove.

[0017] The beneficial effects of this utility model are:

[0018] This utility model employs an adapter fixed to the main body's mounting frame, allowing the adapter to be pre-connected to the main body. The ozone sterilization device is detachably connected to and connected to the adapter. During use, the ozone sterilization device must first be installed on the adapter, allowing purified water from the main body to flow into the ozone sterilization device for sterilization, before returning to the main body as drinking water. When replacing the ozone sterilization device, the flow of purified water into the ozone sterilization device is turned off, and then the ozone sterilization device is removed from the adapter and replaced. This design is convenient and practical. In summary, this hydrolyzed ozone disinfection water purifier facilitates the replacement of the ozone generator within the water purifier, thereby improving the utilization rate of the water purifier. Attached Figure Description

[0019] Figure 1 This is an exploded view of a hydrolyzed ozone disinfection water purifier according to the present invention.

[0020] Figure 2 This is a cross-sectional view of a hydrolyzed ozone disinfection water purifier according to the present invention;

[0021] Figure 3 This is a schematic diagram of the adapter device for a hydrolyzed ozone disinfection water purifier according to the present invention;

[0022] Figure 4 This is a schematic diagram of the ozone sterilization device of a hydrolyzed ozone disinfection water purifier according to the present invention;

[0023] Figure 5 This is a schematic diagram of the ozone generator of a hydrolyzed ozone disinfection water purifier according to the present invention;

[0024] Figure 6 This is a schematic diagram of the sealing cover of a hydrolyzed ozone disinfection water purifier according to the present invention.

[0025] The attached figures are labeled as follows:

[0026] Main body 1, fixing frame 11, filter element 12, water passage device 13, circuit board 14, booster pump 15, switching power supply 16;

[0027] Adapter 2, fixed housing 21, insertion slot 211, snap-fit ​​slot 212, power socket 22, adapter valve port 23, first connection port 231, second connection port 232, first connection pipe 233, second connection pipe 234.

[0028] Ozone sterilization device 3, first port 31, second port 32, snap-fit ​​end cap 33, mounting cover 331, snap-fit ​​block 332, snap-fit ​​boss 3321, ozone generator 34, ozone generating end platform 341, plug connector 342, sealing cover 35, water circulation chamber 351. Detailed Implementation

[0029] To more clearly and completely illustrate the technical solution of this utility model, the following description, in conjunction with the accompanying drawings, will further explain this utility model.

[0030] Please refer to Figures 1-6 This utility model proposes a water purifier with ozone disinfection, comprising a main body 1, a connecting device 2, and an ozone sterilization device 3. The main body 1 is a water purifier, and a fixing frame 11 is provided on one side of the main body 1. The connecting device 2 is fixedly connected to the fixing frame 11 and is electrically connected to the main body 1. The ozone sterilization device 3 is detachably connected to the connecting device 2 and is electrically connected to it. The purified water in the main body 1 flows into the ozone sterilization device 3 for sterilization and then returns to the main body 1 as drinking water. The main body 1 contains a filter element 12, a water passage device 13, a circuit board 14, a booster pump 15, and a switching power supply 16. There are two filter elements 12, which are connected to and electrically connected to the water passage device 13. The water passage device 13 is connected to and electrically connected to the connecting device 2 through a flexible hose. The circuit board 14 is electrically connected to the booster pump 15, the switching power supply 16, and the connecting device 2, respectively. That is, the ozone sterilization device 3 is connected to the circuit board through the connecting device 2. Circuit board 14 is used to make electrical connections. Circuit board 14 is used to issue operation commands to ozone sterilization device 3 and booster pump 15 for corresponding operation. Booster pump 15 is connected to water passage device 13 through pipe and is conductive. Switching power supply 16 is used to convert mains power into DC power to supply circuit board 14. Water passage device 13 has multiple pipes inside, which are isolated from each other and do not affect each other. When main body 1 is operating, external tap water is supplied to water passage device 13 through booster pump 15. The pipes in water passage device 13 first guide tap water into filter element 12 for filtration. The purified water filtered by filter element 12 is then guided into one of the pipes in water passage device 13 and then guided to transfer device 2. Ozone sterilization device 3 sterilizes the purified water. Then the sterilized water becomes drinking water and flows back to another pipe in water passage device 13. This pipe is connected to external drinking water pipe. Users can directly draw drinking water through the drinking water pipe for drinking.

[0031] In this embodiment, an adapter 2 is fixed to the mounting bracket 11 of the main body 1, so that the adapter 2 is pre-connected to the main body 1. The adapter 2 serves as a structure for installation and connection with the ozone sterilization device 3. The ozone sterilization device 3 is detachably connected and connected to the adapter 2. When in use, the ozone sterilization device 3 must first be installed on the adapter 2. After installation, the ozone sterilization device 3 will be connected to the main body 1. After the main body 1 turns on the water purification, the purified water in the main body 1 flows into the ozone sterilization device 3 for sterilization and then forms drinking water that flows back into the main body 1. When the ozone sterilization device 3 needs to be replaced, the purified water flowing into the ozone sterilization device 3 in the main body 1 is turned off, and then the ozone sterilization device 3 is removed from the adapter 2 and replaced. It is convenient and practical.

[0032] In summary, this hydrolyzed ozone disinfection water purifier allows for easy replacement of the ozone generator inside the water dispenser, thereby improving the utilization rate of the water purifier.

[0033] In this embodiment, the adapter 2 includes a fixed housing 21, a power socket 22, and an adapter valve port 23. The fixed housing 21 is fixedly connected to the fixed frame 11. The power socket 22 and the adapter valve port 23 are both fixedly connected to one end of the fixed housing 11. The power socket 22 is located on one side of the adapter valve port 23 and is electrically connected to the main body 1. The adapter valve port 23 forms a liquid connection with the main body 1. The ozone sterilization device 3 is inserted into the fixed housing 21 and electrically connected to the power socket 22. The ozone sterilization device 3 and the adapter valve port 23 form a liquid connection. Liquid conduction; the fixed housing 21 provides a stable mounting structure for the power socket 22 and the adapter valve port 23, and also provides a structure for easy installation of the ozone sterilization device 3. When replacing the ozone sterilization device 3, simply pull the ozone sterilization device 3 out of the fixed housing 21, and then insert the new ozone sterilization device 3 into the fixed housing 21. After full insertion, the ozone sterilization device 3 will be electrically connected to the power socket 22 and form liquid conduction with the adapter valve port 23, thus completing the replacement of the ozone sterilization device 3.

[0034] In this embodiment, the adapter valve 23 is provided with a first connection port 231 and a second connection port 232, and the ozone sterilization device 3 is provided with a first port 31 and a second port 32. When the ozone sterilization device 3 is fully inserted into the fixed shell 21, the first port 31 and the first connection port 231 form a sealed connection and conduction, and the second port 32 and the second connection port 232 form a sealed connection and conduction. When the main body 1 is in operation, the purified water can flow into the ozone sterilization device 3 for sterilization, and after sterilization, it flows back into the main body 1.

[0035] In this embodiment, the adapter valve 23 is provided with a first connecting pipe 233 and a second connecting pipe 234. The first connecting pipe 233 is connected to the first connecting port 231, and the second connecting pipe 234 is connected to the second connecting port 232. Both the first connecting pipe 233 and the second connecting pipe 234 are in liquid communication with the main body 1. When the adapter device 2 is installed, the first connecting pipe 233 and the second connecting pipe 234 on the adapter valve 23 need to be connected to the water passage device 13 in the main body 1 through a hose. When the main body 1 is in operation, the purified water will flow through the first connecting pipe 233 to the first connecting port 231 and then to the ozone sterilization device 3 for sterilization, forming direct drinking water. Then the direct drinking water flows through the second connecting port 232 to the second connecting pipe 234 and then into the return water passage device 13.

[0036] In this embodiment, the fixed shell 21 is provided with an insertion slot 211, and the ozone sterilization device 3 is housed in the insertion slot 211. When installing the ozone sterilization device 3, simply align the ozone sterilization device 3 with the insertion slot 211 and insert it into the bottom of the insertion slot 211.

[0037] In this embodiment, the ozone sterilization device 3 includes a snap-fit ​​end cap 33, an ozone generator 34, and a sealing cover 35. The sealing cover 35 is fixedly and sealed to one end of the ozone generator 34. One side of the sealing cover 35 is fixedly connected to the snap-fit ​​end cap 33. The snap-fit ​​end cap 33 is engaged with the fixed housing 21. The ozone generator 34 is electrically connected to the power socket 22. The other end of the sealing cover 35 is inserted into the adapter valve port 23 and forms a liquid conduction. The snap-fit ​​end cap 33 is used to engage with the fixed housing 21, so that the ozone generator 34 and the sealing cover 35 can be fixedly installed in the insertion slot 211. The first port 31 and the second port 32 are both provided on the sealing cover 35. During operation, purified water enters the sealing cover 35 from the first port 31, and then the ozone generator 34 generates a preset amount of ozone that dissolves in the water to sterilize the purified water and form drinking water. Then the drinking water flows out from the second port 32 into the main body 1.

[0038] In this embodiment, a water circulation chamber 351 is provided inside the sealing cover 35. The water circulation chamber 351 is connected to the adapter valve port 23. An ozone generating end station 341 is provided on the ozone generator 34. The ozone generating end station 341 is electrically connected to the ozone generator 34. The ozone generating end station 341 is housed in the water circulation chamber 351. The first port 31 and the second port 32 are both connected to the water circulation chamber 351. The purified water flows into the water circulation chamber 351. The ozone generated by the ozone generating end station 341 dissolves in the water and sterilizes it to form drinking water. Then the drinking water flows out from the second port 32 into the main body 1.

[0039] In this embodiment, one end of the ozone generator 34 is provided with a connector 342, which is electrically connected to the ozone generator 34. The connector 342 is inserted into the power socket 22 and electrically connected to the power socket 22. In order to facilitate the electrical connection of the ozone generator 34, the connector 342 is provided to form an electrical connection with the power socket 22, which facilitates the removal or installation of the ozone sterilization device 3.

[0040] In this embodiment, the snap-fit ​​end cap 33 includes a mounting cover 331 and a snap-fit ​​block 332. The snap-fit ​​block 332 and the mounting cover 331 form a sliding elastic connection. When the ozone sterilization device 3 is installed on the adapter 2, the snap-fit ​​end cap 33 and the fixed shell 21 are snap-fitted together. During the snap-fit ​​connection, the mounting cover 331 is housed inside the fixed shell 21, and the snap-fit ​​block 332 is snap-fitted together with the fixed shell 21. When the ozone sterilization device 3 is pulled out of the adapter 2, the user can manually press the snap-fit ​​block 332 to make it slide toward the mounting cover 331, so that the snap-fit ​​block 332 disengages from the snap-fit ​​connection with the fixed shell 21. Then, the entire ozone sterilization device 3 can be pulled out to complete the disassembly.

[0041] In this embodiment, the snap-fit ​​block 332 has an L-shaped structure and is provided with a snap-fit ​​protrusion 3321. The fixed shell 21 is provided with a snap-fit ​​groove 212. The snap-fit ​​protrusion 3321 is received in the snap-fit ​​groove 212. During the snap-fit ​​connection process, the snap-fit ​​protrusion 3321 extends into the snap-fit ​​groove 212, so that the ozone sterilization device 3 is stably installed in the insertion groove 211. When it is necessary to pull out the ozone sterilization device 3, the snap-fit ​​block 332 is pressed towards the mounting cover 331, so that the snap-fit ​​block 332 slides. The sliding of the snap-fit ​​block 332 drives the snap-fit ​​protrusion 3321 to slide backward, thereby causing the snap-fit ​​protrusion 3321 to disengage from the snap-fit ​​groove 212, and at this time the snap-fit ​​connection is disengaged.

[0042] Of course, there may be other implementations of this utility model. Based on this implementation, other implementations obtained by those skilled in the art without any creative effort are all within the scope of protection of this utility model.

Claims

1. A hydrolyzed ozone disinfection water purifier, characterized in that, The device includes a main body, an adapter, and an ozone sterilization device. A fixing frame is provided on one side of the main body. The adapter is fixedly connected to the fixing frame and is electrically connected to the main body. The ozone sterilization device is detachably connected to the adapter and is electrically connected to it. The purified water in the main body flows into the ozone sterilization device for sterilization and then returns to the main body as drinking water.

2. The hydrolyzed ozone disinfection water purifier according to claim 1, characterized in that, The adapter includes a fixed housing, a power socket, and an adapter valve. The fixed housing is fixedly connected to the fixed frame. The power socket and the adapter valve are both fixedly connected to one end of the fixed housing. The power socket is located on one side of the adapter valve and is electrically connected to the main body. The adapter valve forms a liquid connection with the main body. The ozone sterilization device is inserted into the fixed housing and electrically connected to the power socket. The ozone sterilization device forms a liquid connection with the adapter valve.

3. The hydrolyzed ozone disinfection water purifier according to claim 2, characterized in that, The adapter valve is provided with a first connection port and a second connection port. The ozone sterilization device is provided with a first port and a second port. The first port and the first connection port form a sealed connection and are conductive. The second port and the second connection port form a sealed connection and are conductive.

4. The hydrolyzed ozone disinfection water purifier according to claim 3, characterized in that, The adapter valve is provided with a first connecting pipe and a second connecting pipe. The first connecting pipe is connected to the first connecting port, and the second connecting pipe is connected to the second connecting port. Both the first connecting pipe and the second connecting pipe are in liquid communication with the main body.

5. A hydrolyzed ozone disinfection water purifier according to claim 2, characterized in that, The fixed shell is provided with an insertion slot, and the ozone sterilization device is housed in the insertion slot.

6. A hydrolyzed ozone disinfection water purifier according to claim 2, characterized in that, The ozone sterilization device includes a snap-fit ​​end cap, an ozone generator, and a sealing cover. The sealing cover is fixedly and sealed to one end of the ozone generator. One side of the sealing cover is fixedly connected to the snap-fit ​​end cap. The snap-fit ​​end cap and the fixed shell form a snap-fit ​​connection. The ozone generator is electrically connected to the power socket. The other end of the sealing cover is inserted into the adapter valve port and forms a liquid conduction.

7. A hydrolyzed ozone disinfection water purifier according to claim 6, characterized in that, The sealing cover body is provided with a water circulation chamber, which is connected to the adapter valve port. The ozone generator is provided with an ozone generating end platform, which is housed in the water circulation chamber.

8. A hydrolyzed ozone disinfection water purifier according to claim 6, characterized in that, One end of the ozone generator is provided with a connector, which is electrically connected to the ozone generator. The connector is inserted into the power socket and is electrically connected to the power socket.

9. A hydrolyzed ozone disinfection water purifier according to claim 6, characterized in that, The snap-fit ​​end cap includes a mounting cover and a snap-fit ​​block. The snap-fit ​​block and the mounting cover form a sliding elastic connection. The mounting cover is housed within the fixed shell, and the snap-fit ​​block and the fixed shell form a snap-fit ​​connection.

10. A hydrolyzed ozone disinfection water purifier according to claim 9, characterized in that, The snap-fit ​​block is provided with a snap-fit ​​protrusion, and the fixing shell is provided with a snap-fit ​​groove, wherein the snap-fit ​​protrusion is received in the snap-fit ​​groove.