CN218279852U

CN218279852U - Self-made ozone water tooth flushing device with ultrasonic cleaning function

Info

Publication number: CN218279852U
Application number: CN202221699938.3U
Authority: CN
Inventors: 陈玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-04
Filing date: 2022-07-04
Publication date: 2023-01-13
Anticipated expiration: 2032-07-04

Abstract

The utility model discloses a self-made ozone water tooth-rinsing device with ultrasonic cleaning function, which comprises a shell main body, a water tank, a control device, a pumping device and a water spray nozzle, wherein the water tank, the control device, the pumping device and the water spray nozzle are arranged on the shell main body; the water tank comprises a base, a partition plate and a tank body, the tank body and the partition plate are arranged on the base, and the inner wall of the lower end of the tank body is hermetically connected with the partition plate; the ozone generating module is arranged on the upper side of the partition plate, and the control device is electrically connected with the ozone generating module so as to control the ozone generating module to electrolyze water to produce ozone; the lower side of the partition board is provided with an ultrasonic transduction module, and the control device is electrically connected with the ultrasonic transduction module so as to control the ultrasonic transduction module to generate ultrasonic waves and clean the ozone generation module through the ultrasonic waves; and a separated photoelectric liquid level sensor used for sensing whether water exists in the water tank is arranged on the partition plate. The utility model discloses an ozone generation module can self-control ozone water, and ultrasonic wave transduction module can produce the ultrasonic wave, makes ozone generation module in time obtain wasing after using.

Description

Self-made ozone water tooth flushing device with ultrasonic cleaning function

Technical Field

The utility model relates to a towards tooth ware technical field, in particular to take self-control ozone water of ultrasonic cleaning function to wash tooth ware.

Background

The tooth flushing device is an auxiliary tool for cleaning the oral cavity, and utilizes a pulse water flow impact mode to clean teeth and tooth gaps. In the prior art, the structure of the tooth flushing device comprises a water tank, a water inlet pipe, a nozzle, a piston pump and a motor, wherein the water inlet pipe and the nozzle are respectively connected to a hydraulic cavity of the piston pump, the motor drives the piston pump to move, and water in the water tank enters the hydraulic cavity of the piston pump through the water inlet pipe and then is sprayed out from the nozzle. However, the tooth rinsing device in the prior art can not quickly and effectively kill tubercle bacillus, colibacillus, gonococcus, typhoid bacillus and other virus bacteria and harmful microorganisms at tooth parts and in the oral cavity, so that the tooth rinsing device is difficult to remove halitosis, bleach teeth and remove dirt.

With the progress of technology, the tooth washing device of self-made ozone water gradually appeared, see patent CN202121671919.5, which discloses a tooth washing device, comprising a tooth washing device body, wherein the tooth washing device body comprises a water tank and a nozzle, a negative plate and an anode plate which are mutually spaced are arranged at the bottom of the water tank, the negative plate and the anode plate are respectively and electrically connected with the negative pole and the positive pole of a power supply component of the tooth washing device body, a water outlet of the water tank is positioned at the bottom of the water tank, and water in the water tank is electrolyzed by the negative plate and the anode plate to generate ozone water and hydrogen-rich water, and then flows out from the water outlet to the nozzle of the tooth washing device body for spraying. The tooth washing device disclosed by the patent can be used for self-preparing ozone water to quickly and effectively kill tubercle bacillus, escherichia coli, gonococcus, typhoid bacillus and other virus bacteria and harmful microorganisms at tooth parts and in oral cavity, and can be used for removing halitosis, bleaching teeth and removing dirt.

However, the above-mentioned ozone water tooth-rinsing device has no self-descaling function in the process of self-producing ozone water, and tap water or ordinary water contains calcium and magnesium ions, so that when the ozone is produced by electrolyzing water, the ozone generating module is easy to form scale, especially on the side of the negative plate close to the positive plate, the scale is easy to form, and the long-term deposition of scale affects the ozone generating amount, thereby affecting the ozone water concentration and failing to achieve the ozone water disinfection and sterilization effect. After the ozone water tooth-washing device is used for a long time, the ozone-making effect is more and more greatly influenced by water scale, the normal work of an ozone generating module is difficult to ensure, and the stability of the concentration of ozone water cannot be ensured.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to provide a self-made ozone water tooth-washing device with ultrasonic cleaning function according to the deficiencies of the prior art, which has an ozone generation module on one hand, and can self-make ozone water to quickly and effectively kill tubercle bacillus, escherichia coli, gonococcus, typhoid bacillus and other virus bacteria and harmful microorganisms at tooth parts and in oral cavity, and can remove halitosis, bleach teeth and remove dirt; this tooth flusher on the other hand has ultrasonic wave transduction module, and ultrasonic wave transduction module can produce the ultrasonic wave to through ultrasonic cleaning ozone generation module, make ozone generation module in time obtain wasing after using, prevent that ozone generation module deposit incrustation scale, especially prevent that negative plate from leaning on one side of positive plate to form the incrustation scale.

In order to solve the technical problem, the technical scheme of the utility model is that: a self-made ozone water tooth-washing device with an ultrasonic cleaning function comprises a shell main body, a water tank, a control device, a pumping device and a water nozzle, wherein the water tank, the control device, the pumping device and the water nozzle are arranged on the shell main body; the control device is electrically connected with the pumping device, a water pipe is arranged at the liquid inlet end of the pumping device and extends into the water tank, and the liquid outlet end of the pumping device is connected with a water nozzle; the water tank comprises a base, a partition plate and a tank body, the tank body and the partition plate are arranged on the base, and the inner wall of the lower end of the tank body is hermetically connected with the partition plate; the ozone generating module is arranged on the upper side of the partition plate, and the control device is electrically connected with the ozone generating module so as to control the ozone generating module to electrolyze water to produce ozone; the ultrasonic transduction module is arranged on the lower side of the partition plate, and the control device is electrically connected with the ultrasonic transduction module so as to control the ultrasonic transduction module to generate ultrasonic waves and clean the ozone generation module through the ultrasonic waves; the separating photoelectric liquid level sensor is used for sensing whether water exists in the water tank or not and is electrically connected with the control device.

Preferably, the control device comprises a main control PCBA and a driving PCBA, the main control PCBA is electrically connected with the driving PCBA, the driving PCBA is arranged between the partition plate and the base of the water tank, and the driving PCBA is electrically connected with the ozone generation module and the ultrasonic wave transduction module respectively; still install the sensor that is used for responding to the water tank and whether have water on the baffle of water tank, the sensor is connected with master control PCBA electricity.

Preferably, the ozone generating module comprises an anode plate, an anode connecting rod, a cathode plate, a cathode connecting rod and a porous cover plate; an anode plate positioning table, a cathode positioning table and a cover plate positioning table are arranged on the separator, the anode plate is arranged on the anode plate positioning table, the cathode plate is arranged on the cathode plate positioning table, and the porous cover plate is arranged on the cover plate positioning table; the anode connecting rod penetrates through the partition plate upwards and is connected with the partition plate in a sealing mode, the upper end of the anode connecting rod is electrically connected with the anode plate, and the lower end of the anode connecting rod is electrically connected with the driving PCBA; the negative pole connecting rod up passes the baffle and with baffle sealing connection, the upper end and the negative plate electricity of negative pole connecting rod are connected, the lower extreme and the drive PCBA electricity of negative pole connecting rod are connected.

Preferably, the gap between the anode plate and the cathode plate is 0.4mm-0.6mm, the anode plate is a porous anode plate, and the cathode plate is a porous cathode plate; the anode plates and the cathode plates are arranged at intervals, the number of the anode plates is N, N is more than or equal to 1, and the number of the cathode plates is N + 1.

Preferably, the middle part of baffle seals to inlay and is equipped with the metal sheet, ultrasonic wave transduction module is installed in the downside of metal sheet, and ultrasonic wave energy that ultrasonic wave transduction module produced upwards conveys behind the metal sheet.

Preferably, the casing main body is further provided with a power supply device, the power supply device comprises a rechargeable battery, a battery rack and a USB Type-C charging port, the rechargeable battery is arranged on the battery rack and used for supplying power to the control device, the pumping device, the ozone generation module and the ultrasonic transduction module, and the USB Type-C charging port is electrically connected with the control device and can charge the rechargeable battery after passing through the control device.

Preferably, the pumping device comprises a motor and a piston pump, the power output end of the motor is connected with the piston pump, the liquid inlet end of the piston pump is connected with the water pipe, and the liquid outlet end of the piston pump is connected with the water spray nozzle; the upper end of shell main part is equipped with water spout mount pad, water spout buckle, buckle spring and buckle button, the lower extreme detachably of water spout installs on the water spout mount pad, the water spout buckle is used for blocking to fix the water spout or loosens the fixed to the water spout, water spout buckle movable mounting is in the water spout mount pad, the buckle spring is connected to the one end of water spout buckle, the buckle button is connected to the other end of water spout buckle.

Preferably, the front side of master control PCBA is equipped with control button and LED pilot lamp, the control button includes ozone button, combination formula button and pumping mode button, the ozone button is used for alone starting or closing ozone generation module electrolysis water system ozone, combination formula button is used for starting or closing pumping device and starts or closes ozone generation module or ultrasonic wave transducer module, pumping mode button is used for switching pumping device's pumping mode, the LED pilot lamp is equipped with a plurality ofly, is used for instructing towards the operating condition of tooth ware and pumping device's pumping mode.

The utility model has the advantages that: one, because the utility model discloses a water tank includes base, baffle and box, and box and baffle are installed on the base, the lower extreme inner wall and the baffle sealing connection of box, and ozone generation module is installed to the baffle upside, and controlling means electricity connection ozone generation module to control ozone generation module electrolysis water system ozone, therefore, the utility model discloses can carry out electrolysis water system ozone to the water in the box through the ozone generation module of baffle upside, make pumping installations can pump by the ozone water, with the tubercle bacillus, escherichia coli, gonococcus, virus bacterium such as typhoid bacillus and harmful microorganism of killing tooth position and intraoral fast effectively, can remove halitosis, can bleach the tooth and get rid of the dirt; secondly, because the ultrasonic transduction module is arranged at the lower side of the partition plate, the control device is electrically connected with the ultrasonic transduction module to control the ultrasonic transduction module to generate ultrasonic waves, and the ozone generation module is cleaned through the ultrasonic waves generated by the ultrasonic transduction module, the ozone generation module can be cleaned in time after the ozone generation module is used, the ozone generation module is prevented from depositing water scales, and particularly, the water scales are prevented from being formed on one side of the negative plate close to the anode plate; thirdly, a separating photoelectric liquid level sensor used for sensing whether water exists in the water tank is further installed on a partition plate of the water tank, the separating photoelectric liquid level sensor is electrically connected with a control device, before the ozone generation module is started, the separating photoelectric liquid level sensor on the partition plate of the water tank senses whether water exists in the water tank, if the water does not exist in the water tank, a switch of the ozone generation module is automatically switched off, after a combined key is turned on, the sensor on the partition plate of the water tank senses whether water exists in the water tank, and if the water does not exist in the water tank, the switch of the ozone generation module is automatically switched off or the switch of the ultrasonic transduction module is automatically switched off; thus, the utility model discloses it has the water shortage protect function to make the tooth flushing device, prevents to cause ozone generation module and ultrasonic wave transduction module to damage under the anhydrous condition, has guaranteed the stability of electrolysis system ozone volume and the stability of ultrasonic wave transduction module.

Drawings

Fig. 1 is one of the overall structural diagrams of the present invention.

Fig. 2 is a second overall structure diagram of the present invention.

Fig. 3 is a view showing a dispersion structure of the present invention.

FIG. 4 is a schematic diagram of the water tank, drive PCBA, ozone generation module, ultrasonic transducer module and sensor.

Fig. 5 is a second dispersion structure diagram of the water tank, the driving PCBA, the ozone generating module, the ultrasonic wave transducing module and the sensor.

Fig. 6 is a preferred structural view of the separator.

Fig. 7 is a dispersion view of a preferred structure of the separator.

FIG. 8 is a view showing a structure of a water nozzle.

Detailed Description

The structure and operation of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, the utility model relates to a self-made ozone water tooth-washing device with ultrasonic cleaning function, which comprises a housing body 100, a water tank 2 arranged on the housing body 1, a control device 3, a pumping device 4 and a water nozzle 5. The control device 3 is electrically connected with the pumping device 4, a water pipe 41 is installed at the liquid inlet end of the pumping device 4, the water pipe 41 extends into the water tank 2, and the liquid outlet end of the pumping device 4 is connected with the water spray nozzle 5; the water tank 2 comprises a base 21, a partition plate 22 and a tank body 23, wherein the tank body 23 and the partition plate 22 are arranged on the base 21, the inner wall of the lower end of the tank body 23 is hermetically connected with the partition plate 22, in the application, a circle of clamping grooves 233 are formed in the inner wall of the lower end of the tank body 23, and the partition plate 22 is hermetically clamped in the clamping grooves 233; the case 23 is a transparent case, the side of the case 23 is provided with a volume scale 231 and a liquid injection hole cover 232, and after the liquid injection hole cover 232 is opened, water can be injected into the case 23. The ozone generating module 6 is installed on the upper side of the partition plate 22, and the control device 3 is electrically connected with the ozone generating module 6 so as to control the ozone generating module 6 to electrolyze water to prepare ozone; ultrasonic wave transduction module 7 is installed to baffle 22 downside, ultrasonic wave transduction module 7 is connected to controlling means 3 electricity to control ultrasonic wave transduction module 7 and produce the ultrasonic wave, the ultrasonic wave that ultrasonic wave transduction module 7 produced can see through the baffle and up convey, and through ultrasonic cleaning ozone generation module 6. The utility model discloses the ultrasonic wave that ultrasonic wave transduction module 7 produced indicates that the frequency is higher than 20 kHz's mechanical wave, and it has that the propagation directionality is good, the penetrating power is strong, propagate the little advantage of decay in solid and liquid, and the ultrasonic wave hinders dirty and removes the continuous on-line operation of ability, does not need chemical agent, and is pollution-free.

As shown in fig. 1 to 5, the control device includes a main control PCBA31 and a drive PCBA32, the main control PCBA31 is electrically connected to the drive PCBA32, the drive PCBA32 is disposed between the partition plate 22 and the base 21 of the water tank 2, and the drive PCBA32 is electrically connected to the ozone generation module 6 and the ultrasonic wave transduction module 7 respectively; and a sensor 9 for sensing whether water exists in the water tank is also arranged on the partition plate 22 of the water tank 2, and the sensor 9 is electrically connected with a main control PCBA 32. The utility model discloses a sensor 9 is preferred disconnect-type photoelectricity level sensor, the utility model discloses a baffle 22 is preferred to be transparent partition, and injection moulding has prism 225 on baffle 22, and disconnect-type photoelectricity level sensor sees through prism 225 transmission and receipt laser to whether the response box has water, its accuracy is high.

As shown in fig. 4 and 5, the ozone generating module 6 includes an anode plate 61, an anode connecting rod 62, a cathode plate 63, a cathode connecting rod 64, and a porous cover plate 65; an anode plate positioning table 231, a cathode positioning table 232 and a cover plate positioning table 233 are arranged on the separator 22, the anode plate 61 is arranged on the anode plate positioning table 231, the cathode plate 63 is arranged on the cathode plate positioning table 232, and the porous cover plate 65 is arranged on the cover plate positioning table 233; the anode connecting rod 62 penetrates through the partition plate 22 upwards and is connected with the partition plate 22 in a sealing mode, the upper end of the anode connecting rod 62 is electrically connected with the anode plate 61, and the lower end of the anode connecting rod 62 is electrically connected with the driving PCBA 32; the cathode connecting rod 64 passes upwardly through the separator 22 and is in sealed connection with the separator 22, the upper end of the cathode connecting rod 64 is electrically connected to the cathode plate 63, and the lower end of the cathode connecting rod 64 is electrically connected to the drive PCBA 32. As a preferred mode of the present invention, the gap between the anode plate 61 and the cathode plate 63 is 0.4mm to 0.6mm, preferably 0.5mm, the anode plate 61 is a porous anode plate, and the cathode plate 63 is a porous cathode plate; the anode plates 61 and the cathode plates 63 are arranged at intervals, the number of the anode plates 61 is N, N is more than or equal to 1, and the number of the cathode plates 63 is N + 1; for example, when the number of the anode plates is 1, 1 cathode plate is provided above and below the anode plate; when the number of the anode plates is 2, the number of the cathode plates is 3, and so on.

As shown in fig. 6 and 7, as a preferred embodiment of the present invention, a metal plate 224 is hermetically embedded in the middle of the partition 22, the ultrasonic transducer module 7 is installed at the lower side of the metal plate 224, and the ultrasonic wave generated by the ultrasonic transducer module 7 is transmitted upward after passing through the metal plate 224, so that the ultrasonic wave can be optimally transmitted upward. The metal plate 224 is preferably mounted directly and integrally with the partition 22 in an injection mold of the partition 22, which increases the mounting stability and sealing performance of the metal plate 224 and the partition 22.

As shown in fig. 1 to 3, a power supply device 8 is further mounted on the housing main body 1, the power supply device 8 includes a rechargeable battery 81, a battery holder 82 and a USB Type-C charging port 83, the rechargeable battery 81 is mounted on the battery holder 82, the rechargeable battery 81 is used for supplying power to the control device 3, the pumping device 4, the ozone generating module 6 and the ultrasonic transducer module 7, and the USB Type-C charging port 83 is electrically connected with the control device 3 and can charge the rechargeable battery 81 after passing through the control device 3. In the present application, the number of the rechargeable batteries 81 is two.

As shown in fig. 1 to fig. 3, the pumping device 4 includes a motor 42 and a piston pump 43, a power output end of the motor 42 is connected to the piston pump 43, a liquid inlet end of the piston pump 43 is connected to the water pipe 41, and a liquid outlet end of the piston pump 43 is connected to the water nozzle 5; the upper end of shell main part 1 is equipped with water spout mount pad 51, water spout buckle 52, buckle spring 53 and buckle button 54, the lower extreme detachably of water spout 5 is installed on water spout mount pad 51, water spout buckle 52 is used for blocking and fixes water spout 5 or loosens the fixed to water spout 5, water spout buckle 52 movable mounting is in water spout mount pad 51, buckle spring 53 is connected to the one end of water spout buckle 52, buckle button 54 is connected to the other end of water spout buckle 52, and water spout mount pad 51 inlet end is connected with the joint 55 that is used for connecting piston pump 43.

As shown in fig. 1 to 3, a control key and a plurality of LED indicator lamps are arranged on the front side of the main control PCBA31, the control key includes an ozone key 331, a combined key 332 and a pumping mode key 333, the ozone key 331 is used for individually starting or closing the ozone generation module 6 to electrolyze water to produce ozone, the combined key 332 is used for starting or closing the pumping device 4 and starting or closing the ozone generation module 6 or the ultrasonic transduction module 7, the pumping mode key 333 is used for switching the pumping mode of the pumping device 4, and the LED indicator lamps are provided for indicating the working state of the tooth flusher and the pumping mode of the pumping device 4. In the present invention, the pumping mode of the pumping device 4 includes a normal mode, a soft mode and a pulse mode, and the LED indicator includes a normal mode indicator 334, a soft mode indicator 335, a pulse mode indicator 336 and a power indicator 337.

The utility model discloses take self-control ozone water of ultrasonic cleaning function to wash tooth ware towards tooth method includes following step:

s1, opening an ozone key, independently starting an ozone generation module by a control device to electrolyze water to prepare ozone, and pausing the operation of the ozone generation module after a seconds; in the utility model, the time for the ozone generating module to work alone is set to be 120 seconds, and after 120 seconds, the ozone generating module stops working; the working premise of the ozone generating module is that water exists in the water tank, when an ozone button is turned on, a sensor on a partition plate of the water tank senses whether water exists in the water tank or not before the ozone generating module is started, if no water exists in the water tank, a switch of the ozone generating module is automatically turned off, and then an alarm buzzer is controlled to give out 3-time dripping alarm sound; after the sensor senses that the water tank is not water for 3 seconds, the power supply of the sensor is cut off;

s2, opening the combined key, controlling the pumping device to work, conveying water in the water tank to the water spray nozzle by the pumping device and spraying the water from the water spray nozzle, and controlling the ozone generation module to electrolyze the water to prepare ozone by the control device; in the step, the pumping mode of the pumping device is adjusted by a pumping mode button 333, the pumping mode (normal mode/soft mode/pulse mode) can be independently selected, the pumping mode is indicated by an LED indicator lamp, the last-time gear selection memory is memorized, and the LED indicator lamp is turned off 3 seconds after the gear selection of the LED indicator lamp is finished; before the ozone generating module is started, a sensor on a water tank partition board senses whether water exists in the water tank or not, and if the water tank does not contain water, the switch of the ozone generating module is automatically switched off;

s3, after the pumping device works for b seconds, the set working time of the utility model is 20 seconds, the ozone generating module stops working, the control device controls the ultrasonic wave energy conversion module to generate ultrasonic waves, and the ozone generating module is cleaned by the ultrasonic waves; because the ozone generating module and the ultrasonic transduction module are functional modules with large energy consumption, the ozone generating module needs to pause to work when the ultrasonic transduction module works;

s4, after the ultrasonic transduction module works for c seconds, the set time of the utility model is 15 seconds, and the ultrasonic transduction module stops working;

s5, the pumping device continues to work, and the ozone generating module starts to work again;

s6, pressing the combined key, and stopping the pumping device and the ozone generating module.

When the electric quantity is lower than 20-30%, charging is reminded, the water pump/ozone indicator lamp flickers (red light), and normally, the water pump/ozone indicator lamp is white and is normally on.

The above, only the utility model discloses preferred embodiment, all be according to the utility model discloses a technical scheme does any slight modification, the equivalent change and the modification to above embodiment, all belong to the utility model discloses technical scheme's within range.

Claims

1. The utility model provides a take self-control ozone water of ultrasonic cleaning function towards tooth ware which characterized in that: comprises a shell main body, a water tank, a control device, a pumping device and a water nozzle, wherein the water tank, the control device, the pumping device and the water nozzle are arranged on the shell main body; the control device is electrically connected with the pumping device, a water pipe is arranged at the liquid inlet end of the pumping device and extends into the water tank, and the liquid outlet end of the pumping device is connected with a water nozzle; the water tank comprises a base, a partition plate and a tank body, the tank body and the partition plate are arranged on the base, and the inner wall of the lower end of the tank body is hermetically connected with the partition plate; the ozone generating module is installed on the upper side of the partition plate, and the control device is electrically connected with the ozone generating module so as to control the ozone generating module to electrolyze water to produce ozone; the ultrasonic transduction module is installed on the lower side of the partition plate, the control device is electrically connected with the ultrasonic transduction module to control the ultrasonic transduction module to generate ultrasonic waves, and the ozone generation module is cleaned through the ultrasonic waves; the separating type photoelectric liquid level sensor is used for sensing whether water exists in the water tank or not and is electrically connected with the control device.

2. The self-made ozone water tooth-rinsing device with the ultrasonic cleaning function according to claim 1, which is characterized in that: the control device comprises a main control PCBA and a drive PCBA, wherein the main control PCBA is electrically connected with the drive PCBA, the drive PCBA is arranged between the partition plate and the base of the water tank, and the drive PCBA is electrically connected with the ozone generation module and the ultrasonic transduction module respectively.

3. The self-made ozone water tooth-washing device with ultrasonic cleaning function as claimed in claim 2, wherein: the ozone generation module comprises an anode plate, an anode connecting rod, a cathode plate, a cathode connecting rod and a porous cover plate; an anode plate positioning table, a cathode positioning table and a cover plate positioning table are arranged on the separator, the anode plate is arranged on the anode plate positioning table, the cathode plate is arranged on the cathode plate positioning table, and the porous cover plate is arranged on the cover plate positioning table; the anode connecting rod penetrates through the partition plate upwards and is in sealed connection with the partition plate, the upper end of the anode connecting rod is electrically connected with the anode plate, and the lower end of the anode connecting rod is electrically connected with the driving PCBA; the cathode connecting rod upwards passes through the partition plate and is in sealed connection with the partition plate, the upper end of the cathode connecting rod is electrically connected with the cathode plate, and the lower end of the cathode connecting rod is electrically connected with the driving PCBA.

4. The self-made ozone water tooth-rinsing device with the ultrasonic cleaning function according to claim 3, which is characterized in that: the gap between the anode plate and the cathode plate is 0.4mm-0.6mm, the anode plate is a porous anode plate, and the cathode plate is a porous cathode plate; the anode plates and the cathode plates are arranged at intervals, the number of the anode plates is N, N is more than or equal to 1, and the number of the cathode plates is N + 1.

5. The self-made ozone water tooth-washing device with ultrasonic cleaning function as claimed in claim 1, wherein: the middle part of baffle seals to inlay and is equipped with the metal sheet, ultrasonic wave transduction module installs in the downside of metal sheet, and the ultrasonic wave energy that ultrasonic wave transduction module produced upwards conveys behind the metal sheet.

6. The self-made ozone water tooth-washing device with ultrasonic cleaning function as claimed in claim 1, wherein: still install power supply unit in the shell main part, power supply unit includes rechargeable battery, battery frame and USBType-C charging mouth, rechargeable battery installs on the battery frame, and rechargeable battery is used for supplying power to controlling means, pumping device, ozone generation module and ultrasonic wave transducer module, the control device is connected to the USB BType-C charging mouth electricity, can charge to rechargeable battery after through controlling means.

7. The self-made ozone water tooth-rinsing device with the ultrasonic cleaning function according to claim 1, which is characterized in that: the pumping device comprises a motor and a piston pump, the power output end of the motor is connected with the piston pump, the liquid inlet end of the piston pump is connected with the water pipe, and the liquid outlet end of the piston pump is connected with the water spray nozzle; the upper end of shell main part is equipped with water spout mount pad, water spout buckle, buckle spring and buckle button, the lower extreme detachably of water spout installs on the water spout mount pad, the water spout buckle is used for blocking the fixed water spout of fixing or unclamping the fixed to the water spout, water spout buckle movable mounting is in the water spout mount pad, the buckle spring is connected to the one end of water spout buckle, the buckle button is connected to the other end of water spout buckle.

8. The self-made ozone water tooth-rinsing device with the ultrasonic cleaning function according to claim 2, which is characterized in that: the front side of master control PCBA is equipped with control button and LED pilot lamp, the control button includes ozone button, combination formula button and pumping mode button, the ozone button is used for starting alone or closes ozone generation module electrolysis water system ozone, combination formula button is used for starting or closing pumping device and starts or close ozone generation module or ultrasonic wave transduction module, the pumping mode button is used for switching pumping device's pumping mode, the LED pilot lamp is equipped with a plurality of for instruct towards the operating condition of tooth ware and pumping device's pumping mode.