CN216377593U - Preparation device of hydrogen-rich ozone sterilization water for pedicure - Google Patents

Abstract

The utility model discloses a preparation device of hydrogen-rich ozone sterilization water for pedicure.A controller shell of the preparation device is provided with an AC power socket, a generator power socket, a storage groove, a digital display tube, a time adjusting key and a start-stop key; a control circuit is arranged in the device; covering on the generator and being equipped with evenly distributed's a plurality of upper cover hole, generator casing bottom is equipped with evenly distributed's a plurality of bottom hole, is equipped with a plurality of negative plate and anode plate of interval arrangement evenly distributed in the hydrogen-rich ozone water generator, and negative plate and anode plate are connected with generator power cable, and generator power cable is connected to generator supply socket, and commercial power is connected to AC supply socket. The utility model has the advantages of extremely simple structure and low cost, simultaneously generates hydrogen-rich water and ozone water, never generates harmful gases such as oxynitride and the like, can kill various pathogenic bacteria such as dermatophytosis and the like in the foot bath basin and eliminate peculiar smell, and simultaneously has the treatment effect on various foot skin diseases. Also can be applied to the fields of bath tubs, pet bath tubs and the like.

Description

Preparation device of hydrogen-rich ozone sterilization water for pedicure

Technical Field

The utility model relates to a preparation device of hydrogen-rich ozone sterilization water for pedicure, belonging to the technical field of electrolytic ozone technology and application.

Background

In China, people, particularly northern residents, have the habit of foot bath, but foot diseases are more frequently treated in China, the most common foot diseases are tinea pedis, the tinea pedis is the tinea pedis of common people, the tinea pedis is caused by fungal infection, cross infection of foot diseases among families is common, the cross infection probability is greatly increased by using a common bathtub, the hidden danger of cross infection of foot bath shops in public places is more serious, the existing electric foot bath basin which is declared to be sterilized by ozone in the market is lower in ozone quantity because the high-voltage discharge method is adopted to ionize air, and the mixing efficiency of the electric foot bath basin which is pumped into water by an air pump is low, so that the ozone concentration in water is very low, the ozone concentration is only in the range of 0.1-0.2 ppm, and the sterilization effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a preparation device of hydrogen-rich ozone sterilization water for pedicure.

The technical scheme provided by the utility model is as follows: a preparation device of hydrogen-rich ozone sterilization water for pedicure comprises a controller and a hydrogen-rich ozone water generator, and is characterized in that the controller comprises a controller shell and a controller bottom cover which are connected with each other; the controller shell is provided with an AC power socket and a generator power socket; a control panel on the controller shell is provided with a digital display tube, a time adjusting key and a start-stop key; a control circuit is arranged in the controller shell; the hydrogen-rich ozone water generator comprises a generator shell and a generator upper cover which are connected with each other, a plurality of upper cover holes which are uniformly distributed are formed in the generator upper cover, a plurality of bottom holes which are uniformly distributed are formed in the bottom of the generator shell, a plurality of cathode plates which are uniformly distributed and a plurality of anode plates which are uniformly distributed are arranged on the generator shell inside the hydrogen-rich ozone water generator, the cathode plates and the anode plates are arranged at intervals and fixed on the generator shell through electrode fixing frames, the cathode plates and the anode plates are connected with a generator power cable, the generator power cable is connected to a generator power socket on the controller, and a mains supply is connected to an AC power socket on the controller through a power line.

Furthermore, the upper cover hole is a long hole.

Furthermore, the total pore area of the upper cover hole accounts for 60-80% of the total area of the upper cover of the generator.

Further, the total pore area of the bottom hole accounts for 20-40% of the total bottom area of the generator shell.

Furthermore, the anode plate is a tin dioxide coating anode plate coated with antimony doped on a titanium substrate, and the cathode plate is a titanium cathode plate or a stainless steel cathode plate;

further, the control circuit includes a power module POW1, a control chip U1, a voltage regulation chip U2, a power supply control module N1, an electrolytic capacitor E1, an electrolytic capacitor E2, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4, and a resistor bank RP1, wherein a commercial power is connected to an AC power socket, pins 1 and 2 of the AC power socket are respectively connected to an input terminal L, N of the power module POW1, an output terminal V + of the power module POW1 is connected to a pin 3 of the voltage regulation chip U2 and a pin 1 of a generator power socket, an output terminal V-of the power module POW1 is connected to a pin 1 of the voltage regulation chip U2 and a pin 2 of the power supply control module N1, an anode of the electrolytic capacitor E1 and a pole of the capacitor C1 are connected to a pin 3 of the voltage regulation chip U1, a cathode of the electrolytic capacitor E1 and the other pole of the capacitor C1 are connected to a pin 1 of the voltage regulation chip U1, a positive pole of the voltage regulation chip 1 and a positive pole of the electrolytic capacitor E1, One pole of a capacitor C2, a capacitor C3 and a capacitor C4 is connected to a pin 2 of a voltage stabilizing chip U2, the other pole of an electrolytic capacitor E2, a capacitor C2, a capacitor C3 and a capacitor C4 is connected to a pin 1 of the voltage stabilizing chip U2, a pin 1 of a voltage stabilizing chip U2 is connected to a pin 3 of a control chip U1, a pin 1 of a power supply control module N1 is connected to a pin 4 of the control chip U1, a pin 3 of a power supply control module N1 is connected to a pin 2 of a generator power socket, a time adjusting key and a start-stop key are respectively connected to pins 16 and 15 of the control chip U1, pins 28-21 of the control chip U1 are respectively connected to pins 1-8 of a resistor row RP1, pins 9-16 of the resistor row RP1 are respectively connected to data pins of a digital display tube, and pins 20-17 of the control chip U1 are respectively connected to a four-digit common terminal pin of the digital display tube.

Furthermore, a hydrogen-rich ozone water generator accommodating groove is arranged on the controller shell.

The utility model has the beneficial effects that: the hydrogen-rich ozone water generator directly electrolyzes tap water, and has the advantages of extremely simple structure and low cost. A hydrogen-rich ozone water generator for directly electrolyzing tap water can simultaneously generate hydrogen-rich water and ozone water, and never generate harmful gases such as oxynitride and the like, and the water is rich in hydrogen. When the device is used, only the hydrogen-rich ozone water generator is immersed into the foot tub, the controller is arranged at other positions which are dry and convenient to operate, a user can set the working time through a time adjustment key on the controller according to the self requirement, and the start-stop key is pressed to start the work.

When the ozone generator works, ozone gas micro bubbles are generated on the anode side, and are quickly dissolved and mixed in water to directly generate ozone water. Meanwhile, the cathode side generates hydrogen microbubbles, and the hydrogen microbubbles are also quickly dissolved in water to generate hydrogen-rich water.

The ozone water concentration increases with time, the ozone water can reach more than 3ppm after a period of time, and various pathogenic bacteria in beriberi of the foot bath basin and the like can be killed and peculiar smell can be eliminated when the foot bath basin is used for soaking feet. And also has therapeutic effect on foot dermatoses.

Drawings

FIG. 1 is a schematic diagram of a controller according to the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a control circuit diagram of the controller of the present invention;

FIG. 5 is a schematic diagram of the structure of the hydrogen-enriched ozone water generator of the present invention;

FIG. 6 is a front view of FIG. 5;

FIG. 7 is a rear view of FIG. 5;

FIG. 8 is a longitudinal cross-sectional view of FIG. 5;

fig. 9 is an internal structural view of fig. 5 of the present invention.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings in which:

as shown in fig. 1 to 9, a preparation device of hydrogen-rich ozone sterilization water for pedicure comprises a controller 1 and a hydrogen-rich ozone water generator 2, wherein the controller 1 comprises a controller shell 1-1 and a controller bottom cover 1-2 which are connected with each other. The top end of the controller shell 1-1 is provided with an AC power socket 1-3 and a generator power socket 1-4; the controller shell 1-1 is provided with a hydrogen-rich ozone water generator accommodating groove 1-1-1 and a control panel, and the control panel is provided with a digital display tube 1-5-2, a time adjusting key 1-5-1 and a start-stop key 1-5-3. A control circuit 1-5 is arranged in the controller housing 1-1, as shown in fig. 4, the control circuit 1-5 includes a power module POW1, a control chip U1, a voltage stabilizing chip U2, a power supply control module N1, an electrolytic capacitor E1, an electrolytic capacitor E2, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4, and a resistor bank RP1, and the power module POW1 is a G capacitor C30U constant current switching power supply produced by minweu (guangzhou) electronics limited company. The control chip U1 adopts an S capacitor C92F8463B singlechip manufactured by Shenzhen Seiyuan microelectronic Limited company, and adopts an LM1117-5.0 voltage-stabilizing chip U2 to supply power to the singlechip. The power supply control module N1 adopts a capacitor CJU4410 FET manufactured by Jiangsu Crystal growth technology Co. The utility model is characterized in that the utility power is connected to AC power sockets 1-3 through power lines, pins 1 and 2 of the AC power sockets 1-3 are respectively connected with an input end L, N of a constant current switch power supply POW1, an output end V + of the constant current switch power supply POW1 is connected to a pin 3 of a voltage stabilizing chip U2 and a pin 1 of a generator power socket 1-4 through leads and a connector L2, an output end V-of the constant current switch power supply POW1 is connected to a pin 1 of the voltage stabilizing chip U2 and a pin 2 of a field effect tube N1 through leads and a connector L2, the anode of an electrolytic capacitor E1 and one pole of a capacitor C1 are connected to the pin 3 of the voltage stabilizing chip U2, the cathode of the electrolytic capacitor E1 and the other pole of the capacitor C1 are connected to the pin 1 of the voltage stabilizing chip U2, the pin 2 of the voltage stabilizing chip U2 outputs 5V direct current to the pin (power input port) of a control chip U1, the anode of the electrolytic capacitor E2, the capacitor C2 and the capacitor C3, One pole of the capacitor C4 is connected to the pin 2 of the voltage stabilizing chip U2, the negative pole of the electrolytic capacitor E2, the capacitor C2 and the capacitor C3, the other electrode of the capacitor C4 is connected to a pin 1 of a voltage stabilization chip U2, a pin 1 of a voltage stabilization chip U2 is connected to a pin 3 of a control chip U1, a pin 1 of a field effect transistor N1 is connected to a pin 4 of a control chip U1, a pin 3 of a field effect transistor N1 is connected to a pin 2 of a generator power socket 1-4 through a lead and a connector L3, a time adjustment key 1-5-1 and a start-stop key 1-5-3 are respectively connected to pins 16 and 15 of the control chip U1, pins 28-21 of a control chip U1 are respectively connected to pins 1-8 of a resistor bank RP1, pins 9-16 of the resistor bank RP1 are respectively connected to data pins of a digital display tube 1-5-2, and pins 20-17 of the control chip U1 are respectively connected to a four-digit common terminal pin of the digital display tube 1-5-2.

When the generator is in standby, a low-level signal is provided by the pin 4 of the voltage stabilizing chip U2, the power supply control module N1 is cut off, no power supply loop exists, no current is provided for the electrode of the generator, and the generator is in a stop working state.

The hydrogen-rich ozone water generator 2 comprises a generator shell 2-1 and a generator upper cover 2-2 which are connected with each other, wherein a plurality of upper cover holes are uniformly distributed on the generator upper cover 2-2, the upper cover holes are long holes, the total pore area of the upper cover holes accounts for more than 60%, preferably 60% -80% of the total pore area of the generator upper cover 2-2, a plurality of bottom holes are uniformly distributed at the bottom of the generator shell 2-1, the pore shape of the bottom holes has no special requirement, and the total pore area of the bottom holes accounts for more than 20%, preferably 20% -40% of the total pore area of the generator shell 2-1. A generator shell 2-1 in the hydrogen-rich ozone water generator 2 is provided with a plurality of cathode plates 2-5 and a plurality of anode plates 2-6 which are uniformly distributed, the cathode plates 2-5 and the anode plates 2-6 are arranged at intervals and fixed on the generator shell 2-1 through electrode fixing frames 2-4, the cathode plates 2-5 and the anode plates 2-6 are connected with a generator power cable 2-3, the generator power cable 2-3 is connected to a generator power socket 1-4 on the controller 1, and the commercial power is connected to an AC power socket 1-3 on the controller 1 through a power line.

The anode plates 2-6 are tin dioxide coating anode plates coated with antimony doped titanium substrates, and the cathode plates 2-5 are titanium cathode plates or stainless steel cathode plates.

When the device is used, the hydrogen-rich ozone water generator 2 is flatly placed at the bottom of water in the water tank of the foot tub, the upper cover 2-2 of the generator is upward, the power cable 2-3 of the generator is connected to the power socket 1-4 of the generator on the controller 1, mains supply supplies power to the control circuit through the AC power socket 1-3, when the device is used and operated, the working time is set through the time adjusting key 1-5-1, the set working time is displayed on the digital display tube 1-5-2, the start-stop key 1-5-3 is pressed for starting, the 4 feet of the voltage stabilizing chip U2 provide high level signals, the power supply control module N1 is switched on, the output end V-of the constant current switch power supply POW1 is connected to the 2 feet of the power socket 1-4 through the power supply control module N1, and the cathode plate 2-5 and the anode plate 2-6 of the hydrogen-rich ozone water generator 2 placed in water are switched on through the power socket 1-4 of the generator and the generator The power supply cable 2-3 is powered, the generator enters a working state, and the digital display tube 1-5-2 starts to count down; water is electrolyzed under the action of an electric field, and oxygen ions on the anode side generate ozone gas micro bubbles under the action of an antimony-doped tin dioxide catalyst on the anode. Ozone gas microbubble dissolves rapidly and mixes to aquatic, directly generates ozone water, and the cathode side produces the hydrogen microbubble simultaneously, and the hydrogen microbubble also dissolves in aquatic fast and generates hydrogen-rich water. Undissolved hydrogen and oxygen carry hydrogen-rich water and ozone water to rise through the holes of the generator upper cover 2-2 to mix with water in the water tank, and simultaneously, water is supplemented through the holes at the bottom of the generator shell 2-1. The concentration of hydrogen-rich water and ozone water is gradually increased along with the time, thereby playing the roles of sterilization, disinfection and health care for feet immersed in water. When the countdown is finished or the start-stop key 1-5-3 is pressed to stop working, the pin 4 of the voltage stabilizing chip U2 provides a low level signal, the power supply control module N1 is cut off to stop supplying power to the hydrogen-rich ozone water generator 2, and the hydrogen-rich ozone water generator 2 enters a stop working state.

After the use is finished, the hydrogen-rich ozone water generator 2 is cleaned, drained and then placed in the hydrogen-rich ozone water generator receiving groove 1-1-1.

It should be understood that parts of the specification not set forth in detail are well within the prior art. The above embodiments are merely illustrative of the preferred embodiments of the present invention, and the present invention is not limited to the scope of the present invention, and the present invention can be applied to the fields of the bath tub and the pet bath tub, and various modifications and improvements of the technical solution of the present invention by those skilled in the art without departing from the design spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (6)

1. A preparation device of hydrogen-rich ozone sterilization water for pedicure comprises a controller (1) and a hydrogen-rich ozone water generator (2), and is characterized in that the controller (1) comprises a controller shell (1-1) and a controller bottom cover (1-2) which are connected with each other; the controller shell (1-1) is provided with an AC power socket (1-3) and a generator power socket (1-4); a control panel on the controller shell (1-1) is provided with a digital display tube (1-5-2), a time adjusting key (1-5-1) and a start-stop key (1-5-3); a control circuit (1-5) is arranged in the controller shell (1-1); the hydrogen-rich ozone water generator (2) comprises a generator shell (2-1) and a generator upper cover (2-2) which are connected with each other, a plurality of upper cover holes which are uniformly distributed are arranged on the generator upper cover (2-2), a plurality of bottom holes which are uniformly distributed are arranged at the bottom of the generator shell (2-1), a plurality of cathode plates (2-5) which are uniformly distributed and a plurality of anode plates (2-6) which are uniformly distributed are arranged on the generator shell (2-1) in the hydrogen-rich ozone water generator (2), the cathode plates (2-5) and the anode plates (2-6) are arranged at intervals and are fixed on the generator shell (2-1) through electrode fixing frames (2-4), and the cathode plates (2-5) and the anode plates (2-6) are connected with a generator power cable (2-3), the generator power cable (2-3) is connected to a generator power socket (1-4) on the controller (1), and the commercial power is connected to an AC power socket (1-3) on the controller (1) through a power line.

2. The apparatus for preparing hydrogen-rich ozone sterilizing water for foot therapy according to claim 1, wherein the hole of the upper cover is a long hole.

3. The apparatus for preparing hydrogen-rich ozone sterilization water for pedicure as claimed in claim 1 or 2, wherein the total pore area of the upper cover hole accounts for 60% -80% of the total area of the generator upper cover (2-2).

4. The apparatus for preparing hydrogen-rich ozone sterilization water for pedicure as claimed in claim 1, wherein the total pore area of the bottom holes accounts for 20% -40% of the total bottom area of the generator housing (2-1).

5. The device for preparing hydrogen-rich ozone sterilizing water for foot therapy according to claim 1, wherein the control circuit (1-5) comprises a power module POW1, a control chip U1, a voltage stabilizing chip U2, a power supply control module N1, an electrolytic capacitor E1, an electrolytic capacitor E2, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4 and a resistor bank RP1, wherein mains supply is connected to an AC power socket, pins 1 and 2 of the AC power socket are respectively connected to an input terminal L, N of the power module POW1, an output terminal V + of the power module POW1 is connected to a pin 3 of the voltage stabilizing chip U2 and a pin 1 of a generator power socket, an output terminal V-of the power module POW1 is connected to a pin 1 of the voltage stabilizing chip U2 and a pin 2 of the power supply control module N1, an anode of the electrolytic capacitor E1 and a cathode of the capacitor C1 are connected to a pin 3 of the voltage stabilizing chip U2, a cathode of the electrolytic capacitor E1 and a cathode of the capacitor C8653 are connected to another pin 861 of the voltage stabilizing chip U8427, pin 2 of the voltage stabilizing chip U2 is connected to pin 1 of the control chip U1, one of the positive pole of the electrolytic capacitor E2, the capacitor C2, the capacitor C3 and the capacitor C4 is connected to pin 2 of the voltage stabilizing chip U2, the negative pole of the electrolytic capacitor E2 and the capacitor C2, the other electrodes of the capacitor C3 and the capacitor C4 are connected to a pin 1 of a voltage stabilization chip U2, a pin 1 of the voltage stabilization chip U2 is connected to a pin 3 of a control chip U1, a pin 1 of a power supply control module N1 is connected to a pin 4 of a control chip U1, a pin 3 of the power supply control module N1 is connected to a pin 2 of a generator power socket, a time adjustment key and a start-stop key are respectively connected to pins 16 and 15 of the control chip U1, pins 28-21 of the control chip U1 are respectively connected to pins 1-8 of a resistor row RP1, pins 9-16 of the resistor row RP1 are respectively connected to data pins of a digital display tube, and pins 20-17 of the control chip U1 are respectively connected to four-digit common terminal pins of the digital display tube.

6. The device for preparing hydrogen-rich ozone sterilizing water for pedicure as claimed in claim 1, wherein the controller housing (1-1) is provided with a hydrogen-rich ozone water generator receiving tank (1-1-1).

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