CN212076516U

CN212076516U - Floating antibacterial liquid generator

Info

Publication number: CN212076516U
Application number: CN202020215452.2U
Authority: CN
Inventors: 朱君秋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-26
Filing date: 2020-02-26
Publication date: 2020-12-04
Anticipated expiration: 2030-02-26

Abstract

The utility model discloses a float formula's antibacterial liquid generates appearance, which comprises a body, the body is including the casing that has the confined inner chamber, anode member and negative pole spare are installed to the casing is external, the inner chamber has set firmly battery pack, battery pack's output with anode member with negative pole spare electricity is connected, the quality of the liquid of discharging when the complete submergence of body is in liquid is greater than the quality of body. The utility model aims at providing a float formula inhibit bacterial liquid and generate appearance, inhibit bacterial liquid and generate appearance when floating on the liquid level, the antibacterial active ingredient that the electrolysis produced sinks the process, because the disturbance of liquid can spread and dissolve in liquid to obtain homodisperse's no sedimentary bacteriostatic agent.

Description

Floating antibacterial liquid generator

Technical Field

The utility model relates to an antibacterial liquid generates the appearance, especially relates to a showy formula antibacterial liquid generates appearance.

Background

Silver is a natural antibacterial material used by human for thousands of years, has a wide antibacterial spectrum and is not easy to generate drug resistance. Since silver is expensive, silver is first replaced by thiamine, then penicillin, and then antibiotic. The use of antibiotics has accelerated the evolution of bacteria. The silver can reduce bacterial load of the wound surface, accelerate the healing of the wound surface and treat infection. The silver ions can be applied to wound dressing, infusion tubes and the like, and are mainly used for treating chronic wounds which are commonly damaged and repaired after operations. The silver ion bacteriostatic agent is proved to be used for treating foot diseases such as foot odor, dermatophytosis and the like caused by fungi, and relieving and treating foot diseases such as foot erosion and the like caused by diabetes. The silver ion antibacterial agent on the market at present is a bottled product and is expensive.

In view of the above, the present inventors have conducted extensive studies to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a float formula inhibit bacterial liquid and generate appearance, inhibit bacterial liquid and generate appearance when floating on the liquid level, the antibacterial active ingredient that the electrolysis produced sinks the process, because the disturbance of liquid can spread and dissolve in liquid to obtain homodisperse's no sedimentary bacteriostatic agent.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a float formula's antibacterial liquid generates appearance, includes the body, the body is including the casing that has the confined inner chamber, anode member and negative pole spare are installed to the casing is external, the inner chamber has set firmly battery pack, battery pack's output with anode member with negative pole spare electricity is connected, the quality of the liquid of discharging when the body is complete to submerge in the liquid is greater than the quality of body.

Further, the casing installation anode spare with a terminal surface of cathode spare is the bottom surface, the body in the below of bottom surface is provided with the dress trim cover, dress trim cover fixed mounting is on the casing, just dress trim cover can shelter from anode spare with the cathode spare, the dress trim cover is last to have seted up the intercommunication the inside and outside lower through-hole of dress trim cover.

Further, the shell comprises an upper shell and a lower shell which are in sealed fit connection, the lower end face of the upper shell is upwards concavely arranged, the upper end face of the lower shell is downwards concavely arranged, and the upper shell is connected with the lower shell to form the inner cavity.

Furthermore, the peripheral edge of the upper end surface of the upper shell extends outwards to form a flange, and the peripheral edge of the flange extends upwards to form a first convex edge.

Furthermore, the anode piece and the cathode piece are both of plate-shaped structures, and a partition wall is convexly arranged between the anode piece and the cathode piece on the shell.

Furthermore, the anode part and the cathode part are both in an annular structure, and a partition wall is convexly arranged between the anode part and the cathode part of the shell.

Furthermore, the lower shell is embedded into the upper shell, an upper through hole is formed in the bottom of the upper shell, and the maximum horizontal height of the upper through hole is not smaller than the maximum horizontal heights of the anode piece and the cathode piece.

Furthermore, the edge of the decorative cover protrudes upwards to form a second convex edge, the second convex edge is fixedly installed on the shell, and an annular gap is formed in the bottom surface between the anode piece and the cathode piece and between the second convex edge and the bottom surface.

Further, the battery pack includes a rechargeable battery and a charging part, and the charging part is a wired type charging part or a wireless type charging part.

Further, the anode member is a silver anode, a silver alloy anode, a titanium-based metal oxide coated anode, a carbon anode, or a titanium-platinized anode.

Further, the output of battery pack is connected with the circuit board, the input of circuit board is connected battery pack's output, the output of circuit board is connected the anode spare with the cathode spare, be provided with on the circuit board and improve the inflow the anode spare with the power module that steps up of the voltage of cathode spare, and/or can regularly break off the inflow the anode spare with the timing outage protection module of the electric current of cathode spare.

Further, the output end of the battery pack is connected with a circuit board, the input end of the circuit board is connected with the output end of the battery pack, the output end of the circuit board is connected with the anode piece and the cathode piece, a power on-off button capable of switching on or off current flowing into the anode piece and the cathode piece is arranged on the circuit board, and the power on-off button is provided with a button portion located outside the inner cavity.

Further, battery pack's output is connected with the circuit board, battery pack's output is connected to the input of circuit board, the output of circuit board is connected the anode member with the cathode member, the inner chamber has set firmly temperature sensor and/or microbial sensor, temperature sensor's output and/or microbial sensor's output is connected the input of circuit board, temperature sensor has to extend to the outer temperature detection portion of inner chamber, microbial sensor has to extend to the outer microbial detection portion of inner chamber.

Further, the system comprises a high-temperature early warning device, and the temperature sensor and/or the microorganism sensor are/is in communication connection with the early warning device.

Further, battery pack's output is connected with the circuit board, the input of circuit board is connected battery pack's output, the output of circuit board is connected the anode member with the cathode member, the circuit board is provided with intelligent control monitored control system, intelligent monitored control system is including the detecting element who detects and gather data and right the data that detecting element gathered carry out the treater of processing analysis, detecting element is including being used for detecting and gathering the anode member with the detecting element of the operating current intensity of cathode member, the detecting element of the accumulative total power-on quantity, the detecting element of continuous operation duration, the detecting element of operational environment temperature and the detecting element of operational environment bacterial colony quantity.

Furthermore, the outside of casing sets firmly display module, display module's input is connected the output of circuit board, intelligent monitoring system's output information is carried to display module is last and is shown.

Furthermore, the circuit board is also provided with a WIFI chip or a Bluetooth chip which can send the data processed by the processor to the terminal intelligent equipment; the terminal intelligent device comprises an intelligent mobile phone, a tablet personal computer, an intelligent bracelet, an intelligent sound box, a computer or an intelligent remote control.

Furthermore, the intelligent control monitoring system further comprises a reminding module for reminding a user of regularly replacing the anode, and the reminding module is communicated with the terminal intelligent device through the WIFI chip or the Bluetooth chip.

Furthermore, the circuit board is also provided with a reminding module for reminding a user of regularly replacing the anode, and the output end of the reminding module is connected with the input end of the display module.

Furthermore, the input end of the intelligent control monitoring system is connected with the output end of the WIFI chip or the output end of the Bluetooth chip.

Further, the casing is in the installation positive pole spare with negative pole spare department has set firmly an embedded screw or buried nut respectively, embedded screw or buried nut intercommunication the inner chamber with the casing outer wall, embedded screw or be provided with on the embedded nut respectively rather than complex lock nut or lock screw, positive pole spare with negative pole spare all passes through embedded screw with lock nut fixes on the casing, or positive pole spare with negative pole spare all passes through embedded nut with lock screw fixes on the casing.

Furthermore, a sealing gasket is arranged between the embedded screw and the locking nut, and a sealing gasket is arranged between the embedded screw and the locking screw.

The utility model provides a float formula's antibacterial liquid generates appearance, includes the body, the body is including the casing that has the confined inner chamber, anode member and negative pole spare are installed to the casing is external, the inner chamber is close to anode member with negative pole spare department has set firmly battery pack, battery pack's output with anode member with negative pole spare electricity is connected, the up end of casing is the undercut and is established and form the recess, the quality of the liquid of arranging when the body submerges completely in liquid with the maximum mass sum of the liquid that the recess can hold is greater than the quality of body.

Adopt above-mentioned technical scheme, the utility model discloses a when using, the showy formula inhibit bacterial liquid and generate appearance will inhibit bacterial liquid and generate the appearance and put into the liquid in the container, can the automatic operation, take out the automatic stop from liquid.

The working principle is as follows: when put into the liquid, the anode piece and the cathode piece form a loop with the battery assembly through the liquid, so that the electrolysis is automatically carried out, namely, the work is automatically started.

The utility model relates to a float formula inhibit bacterial liquid and generate appearance small in size, portable. And because the mass of the liquid discharged when the body (namely the antibacterial liquid generator) is completely immersed in the liquid is larger than that of the body, the body is in a floating state in the liquid. This is convenient for taking out the body from the liquid and is convenient for use.

When preparing the silver ion antibacterial liquid by electrolysis, the body is in a floating state, and the silver ions generated by electrolysis can be hydrolyzed to form hydrosol, and the hydrosol can sink and diffuse around under the action of gravity. When the body floats on the liquid surface, the silver ion hydrosol generated by electrolysis can be dispersed into the liquid until being dissolved in the liquid due to the disturbance of the liquid in the process of sinking, so that the uniformly dispersed silver ion bacteriostatic agent without precipitation can be obtained. The foot bath device is particularly suitable for being placed into a foot bath basin for foot bath, and silver ions are released into foot bath water in the foot bath process, so that foot bacteria can be killed, and foot odor, foot erosion and the like can be prevented and treated. If the body sinks at the bottom of the container to prepare the silver ion antibacterial liquid through electrolysis, the silver ion hydrosol can be collected at the bottom of the container, and even if the liquid in the container is disturbed, the silver ion hydrosol cannot be diffused, is accumulated at the bottom and is converted into black precipitate, so that the antibacterial effect is lost. In addition, the floating state is convenient for taking out the body from the liquid, and the use is convenient.

Drawings

Fig. 1 is a schematic cross-sectional structure diagram of a first embodiment of the present invention;

fig. 2 is a schematic view of a partial three-dimensional structure according to a first embodiment of the present invention;

fig. 3 is a schematic view of a partially exploded structure according to a first embodiment of the present invention;

fig. 4 is a schematic view of the upper case structure of the present invention;

fig. 5 is a schematic cross-sectional structure diagram of a second embodiment of the present invention;

fig. 6 is a schematic perspective view of a second embodiment of the present invention;

fig. 7 is a schematic perspective sectional view of a second embodiment of the present invention;

fig. 8 is an exploded schematic view of a second embodiment of the present invention;

fig. 9 is a schematic cross-sectional structure diagram of a third embodiment of the present invention.

Description of reference numerals:

inner cavity 2 of body 1

Battery pack 21 circuit board 22

Temperature sensor 23 temperature detection unit 231

Microorganism sensor 24 microorganism detection part 241

Case 3

Anode member 31 and cathode member 32

Bottom surface 33 annular indentation 331

Flash 341 of upper shell 34

First convex edge 342 lower shell 35

Partition 36 with embedded nuts 37

Locking screw 371 embedded screw 38

Through hole 39 of lock nut 381

Lower through hole 41 of decorative cover 4

Second ledge 42

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail with reference to the accompanying drawings and specific embodiments.

The first embodiment is as follows:

the utility model relates to a floating antibacterial liquid generates appearance, the embodiment is as shown in fig. 1 to 4, including body 1, body 1 is including the casing 3 that has confined inner chamber 2, and casing 3 installs positive pole piece 31 and negative pole piece 32 outward. The battery assembly 21 is fixedly arranged in the inner cavity 2 close to the anode piece 31 and the cathode piece 32, the battery assembly 21 is the heaviest part in the body 1, and the center of gravity of the body 1 is close to the anode piece 31 and the cathode piece 32 by fixedly arranging the battery assembly 21 close to the anode piece 31 and the cathode piece 32. When the body 1 is floated, the anode member 31 and the cathode member 32 can be always positioned downward by gravity. The output end of the battery assembly 21 is electrically connected with an anode member 31 and a cathode member 32, wherein the anode member 31 is connected with the positive electrode of the power supply of the battery assembly 21, and the cathode member 32 is connected with the negative electrode of the power supply of the battery assembly 21. The mass of liquid displaced when the body 1 is fully submerged in liquid is not less than the mass of the body 1.

The utility model relates to a float formula inhibit bacterial liquid and generate appearance will inhibit bacterial liquid and generate appearance and put into the liquid in the container when using, can the automatic operation, take out from liquid and stop automatically.

The working principle is as follows: when put in the liquid, the anode member 31 and the cathode member 32 form a circuit with the cell assembly 21 through the liquid, so that electrolysis is automatically performed, i.e., the operation is automatically started.

The utility model relates to a float formula inhibit bacterial liquid and generate appearance small in size, portable. And the mass of the liquid discharged when the body 1 (namely the bacteriostatic liquid generator) is completely immersed in the liquid is larger than that of the body 1. The body 1 is in a floating state in the liquid, which facilitates taking out the body 1 from the liquid and is convenient to use.

In the use, if use when being used for soaking foot, it is very important that body 1 is the floating state, because the silver ion that the electrolysis produced can hydrolyze at first and form hydrosol, and hydrosol can sink and spread all around under the action of gravity. When the body 1 floats on the liquid surface, silver ion hydrosol generated by electrolysis can be dispersed into the liquid all around until being dissolved in the liquid in the process of sinking, so that the uniformly dispersed silver ion bacteriostatic agent without precipitation can be obtained.

If the body 1 sinks at the bottom of the container to prepare the silver ion antibacterial liquid through electrolysis, the silver ion hydrosol can be collected at the bottom of the container, and even if the liquid in the container is disturbed, the silver ion hydrosol cannot be diffused, accumulated at the bottom and changed into black precipitate, so that the antibacterial effect is lost.

The casing 3 includes the epitheca 34 and the inferior valve 35 that sealed cooperation is connected, and the lower extreme of epitheca 34 upwards is sunken to be established, and the upper end of inferior valve 35 is downwards sunken to be established, and epitheca 34 connects inferior valve 35 and forms inner chamber 2. After the components disposed in the cavity 2 are assembled before the upper and

lower cases

34 and 35 are coupled together, the upper and

lower cases

34 and 35 are sealingly coupled together. The sealing fit connection is for example a rotary sealing construction of a bottle and a bottle cap.

The upper end surface of the upper shell 34 has a flange 341 extending outward from the peripheral edge thereof, and the flange 341 has a first flange 342 extending upward from the peripheral edge thereof, so that the upper end of the upper shell 34 forms a basin-shaped structure, which can increase the buoyancy of the body 1 in the liquid.

The anode 31 and the cathode 32 are both plate-shaped structures, and the housing 3 is provided with a partition wall 36 protruding between the anode 31 and the cathode 32. The partition wall 36 prevents conductive foreign matters from entering into a gap between the anode member 31 and the cathode member 32, resulting in a short circuit between the anode member 31 and the cathode member 32.

An end face of the casing 3 for installing the anode piece 31 and the cathode piece 32 is a bottom face 33, the body 1 is provided with a decorative cover 4 below the bottom face 33, the decorative cover 4 is fixedly installed on the casing 3, the decorative cover 4 can shield the anode piece 31 and the cathode piece 32, the anode piece 31 and the cathode piece 32 can be protected, and a lower through hole 41 communicated with the inside and the outside of the decorative cover 4 is formed in the decorative cover 4. Liquid enters into dress trim cover 4 through-hole 41 down, after liquid contacts positive pole piece 31 and negative pole piece 32 the utility model relates to a float formula bacteriostasis liquid generates appearance and begins work.

The edge of the decorative cover 4 protrudes upward to form a second protruding edge 42, the second protruding edge 42 is fixedly installed on the housing 3, and the bottom surface 33 is provided with an annular gap 331 upward between the anode member 31 and the cathode member 32 and the second protruding edge 42. The annular gap 331 provides a space for storing air in the liquid when the body 1 is put in the liquid, so that the air in the liquid is prevented from blocking the anode member 31 and the cathode member 32 from contacting the liquid.

Anode member 31 is a titanium-based metal oxide coated anode, a silver alloy anode, a carbon anode, or a titanium-platinized anode. Cathode member 32 is a carbon cathode. The utility model relates to a float formula inhibit bacterial liquid and generate appearance can change the positive pole piece 31 of different materials through dismantling and installing to prepare out different and inhibit bacterial liquid. For example, the anode 31 can be replaced by a titanium-based metal oxide coating anode, a carbon anode or a titanium platinized anode, and can be used for electrolyzing saline solution to prepare sodium hypochlorite disinfectant. For example, when the foot is soaked, a small amount of salt is added into the foot soaking water, then the floating antibacterial liquid generator of the utility model is put into the foot soaking water, and sodium hypochlorite is produced through electrolysis to obtain the foot soaking water which can be disinfected and sterilized. The antibacterial liquid generator floats in water, and has the advantage of facilitating the convection of electrolyte at the cathode of the electrode, thereby improving the electrolysis efficiency.

The battery assembly 21 includes a rechargeable battery, a battery box and a charging component, the charging component is a conventional wired charging component or a conventional wireless charging component, for example, a wired charger, a wireless charger and a wireless charging receiving module for a mobile phone are used, and other existing wireless chargers and wireless charging receiving modules can also be used, and details thereof are not described herein.

The output of battery pack 21 is connected with circuit board 22, and circuit board 22 is the PCB circuit board, and the output of battery pack 21 is connected to the input of circuit board 22, and anode piece 31 and negative pole piece 32 are connected to the output of circuit board 22, are provided with the power module that steps up that can improve the voltage of the electric current that flows into anode piece 31 and negative pole piece 32 on the circuit board 22, and/or can regularly break off the timing outage protection module of the electric current that flows into anode piece 31 and negative pole piece 32.

The boosting power module can boost the voltage of the battery to a predetermined voltage and then output it to the anode member 31 and the cathode member 32, and boost the electrolysis voltage of the anode member 31 and the cathode member 32 to increase the speed of producing the bacteriostatic agent. The boost power supply module is a conventional boost power supply system. Such as a DC-DC 2A/9V boost power supply module.

The normal working voltage of the lithium ion battery is about 3.7V. For occasions needing emergency disinfection and sterilization, serious injury or serious bacterial and viral pollution, sometimes the occasion is necessary for minutes and seconds, and the high voltage brings the advantage of quickly producing the disinfectant. For example, the electrolytic voltage of the anode member 31 and the cathode member 32 is increased from 3.7V to 9V. The speed of producing the silver ion antibacterial liquid can be improved by more than 10 times.

The circuit board 22 is provided with a power on/off button capable of turning on or off the current flowing into the anode member 31 and the cathode member 32, and the power on/off button has a button portion located outside the inner chamber 2. The button part is arranged on the outer wall of the shell 3 outside the inner cavity 2 to facilitate the operation of the instrument.

The inner cavity 2 is fixedly provided with a temperature sensor 23 and/or a microorganism sensor 24, the output end of the temperature sensor 23 and/or the output end of the microorganism sensor 24 are connected with the input end of the circuit board 22, and the temperature sensor 23 is provided with a temperature detection part 231 extending out of the inner cavity 2 so as to detect the temperature of liquid on the outer wall of the shell 3 in real time; the microorganism sensor 24 has a microorganism detecting portion 241 extending to the outside of the inner cavity 2 to detect the number of colonies of the liquid on the outer wall of the housing 3 in real time.

The temperature sensor 23 is a conventional temperature sensor 23, such as a Risym DS18B20 digital temperature sensor. The microbial sensor 24 is a conventional microbial sensor 24, such as an Rs485 microbial sensor.

The utility model relates to a float formula's antibacterial liquid generates appearance still includes the high temperature precaution device, and temperature sensor 23 and/or microbial sensor 24 are connected with the precaution device communication, and when 1 ambient temperature of body was monitored to temperature sensor 23 and is higher than the predetermined value, the precaution device sent tip information with modes such as sound, light signal.

When the body 1 is put into the water higher than the preset temperature, the bacteriostatic nursing instrument sends out warning and reminding, so that the bacteriostatic nursing instrument is helpful for consumers to guide the water temperature in time.

The circuit board 22 is provided with an intelligent control monitoring system, the intelligent monitoring system comprises a detection element for detecting and acquiring data and a processor for processing and analyzing the data acquired by the detection element, the detection element comprises a detection element (such as an INA226AIDGS current shunt monitor) for detecting and acquiring the working current intensity of the anode piece 31 and the cathode piece 32, a detection element for accumulating the energization amount (such as a BQ3060PWR TI electricity quantity monitoring meter), a detection element (such as a DS1302 clock chip) for continuous working time, a temperature sensor 23 for working environment temperature and a microbial sensor 24 for working environment colony number.

The outside of casing 3 sets firmly display module, and display module's input connection circuit board 22's output, and intelligent monitoring system's output information is carried to display module and is shown. Therefore, the user can obtain various detection data in real time and make adjustment in time. The display module adopts a loudspeaker and/or a led indicator light and/or a screen to send out prompt information such as sound, light signals or images.

The circuit board 22 is further provided with a WIFI chip, such as an ESP8266 chip or a bluetooth chip, such as a QN9021 bluetooth chip, which can send data processed by the processor to the terminal intelligent device; the terminal intelligent device comprises an intelligent mobile phone, a tablet personal computer, an intelligent bracelet, an intelligent sound box, a computer or an intelligent remote control.

The intelligent control monitoring system further comprises a reminding module for reminding a user of regularly replacing the anode, the reminding module is communicated with the terminal intelligent device through a WIFI chip or a Bluetooth chip, and/or the output end of the reminding module is connected with the input end of the display module.

When the intelligent controller monitors that the accumulated working time of the body 1 is higher than a preset value or the working current intensity of the anode piece 31 and the cathode piece 32 is lower than the preset value, the intelligent controller sends prompt information to the terminal intelligent equipment through the WIFI chip or the Bluetooth chip so as to remind a user to replace the anode piece 31 or charge the battery; or a signal is released through the display module to remind the user to replace the anode member 31 or charge the battery.

The input end of the intelligent control monitoring system is connected with the output end of the WIFI chip or the Bluetooth chip. The user can send command signal to WIFI chip or bluetooth chip through terminal intelligent equipment, and WIFI chip or bluetooth chip carry command signal to intelligent accuse monitored control system again to behind the command signal that is received by intelligent accuse monitored control system analysis, send corresponding command signal.

Casing 3 has set firmly an embedded nut 37 respectively in installation anode 31 and negative pole 32 punishment, and embedded nut 37 intercommunication

inner chamber

2 and 3 outer walls of casing are provided with rather than complex locking screw 371 on the embedded nut 37 respectively, and anode 31 and negative pole 32 are all fixed on casing 3 through embedded nut 37 and locking screw 371.

A sealing gasket is arranged between the embedded nut 37 and the locking screw 371. The gasket is able to block the entry of liquid into the cavity 2 through possible gaps between the nut 37 and the casing 3.

Example two:

the utility model relates to a float formula's antibacterial liquid generates appearance, embodiment two is shown as fig. 5 to 8, its difference with embodiment one lies in: the anode 31 and the cathode 32 are both ring-shaped, and the housing 3 is provided with a partition wall 36 protruding between the anode 31 and the cathode 32. The lower shell 35 is embedded in the upper shell 34, the bottom of the upper shell 34 is provided with an upper through hole 39, and the maximum horizontal height of the upper through hole 39 is not less than the maximum horizontal height of the anode piece 31 and the cathode piece 32. So that the liquid can flow into the bottom surface 33 through the upper through-hole 39 and submerge the anode member 31 and the cathode member 32.

Example three:

the utility model relates to a float formula's antibacterial liquid generates appearance, embodiment three is shown as figure 9, its difference with embodiment one and two lies in: the casing 3 is respectively and fixedly provided with an embedded screw 38 at the position where the anode member 31 and the cathode member 32 are installed, the embedded screw 38 is communicated with the inner cavity 2 and the outer wall of the casing 3, the embedded screw 38 is provided with a locking nut 381 matched with the embedded screw 38, and the anode member 31 and the cathode member 32 are both fixed on the casing 3 through the embedded screw 38 and the locking nut 381.

A sealing gasket is arranged between the embedded screw 38 and the locking nut 381, and the sealing gasket can prevent liquid from entering the inner cavity 2 through a possible gap between the embedded screw 38 and the shell 3.

The utility model also provides a float formula's antibacterial liquid generates appearance, which comprises a body, body 1 is including casing 3 that has confined inner chamber 2, and casing 3 installs positive pole piece 31 and negative pole piece 32 outward, and inner chamber 2 is close to positive pole piece 31 and negative pole piece 32 department and has set firmly battery pack 21, and battery pack 21's output is connected with positive pole piece 31 and negative pole piece 32 electricity, and casing 3's up end is the undercut and is established the formation recess, then casing 3's upper end is the basin column structure, can increase the buoyancy of body. The sum of the mass of the liquid discharged when the body is completely immersed in the liquid and the maximum mass of the liquid which can be contained in the groove is larger than the mass of the body.

The utility model comprises a basin-shaped structure which is made of a material with high density and is used for manufacturing the shell 3 and enabling the body 1 to float in the liquid.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications according to the prior art, and all belong to the protection scope of the present invention.

Claims

1. The utility model provides a float formula bacteriostasis liquid generates appearance which characterized in that: the liquid discharge device comprises a body, the body is including the casing that has the confined inner chamber, install anode spare and negative pole spare outside the casing, the inner chamber has set firmly battery pack, battery pack's output with anode spare with the negative pole spare electricity is connected, the quality of the liquid of discharging when the body is complete to submerge in liquid is greater than the quality of body.

2. The floating antibacterial liquid generator according to claim 1, wherein: the casing installation positive pole spare with a terminal surface of negative pole spare is the bottom surface, the body in the below of bottom surface is provided with the dress trim cover, dress trim cover fixed mounting is on the casing, just the dress trim cover can shelter from positive pole spare with the negative pole spare, the dress trim is covered and has been seted up the intercommunication the inside and outside lower through-hole of dress trim cover.

3. The floating antibacterial liquid generator according to claim 1, wherein: the shell comprises an upper shell and a lower shell which are connected in a sealing type matching mode, the lower end face of the upper shell is upwards and concavely arranged, the upper end face of the lower shell is downwards and concavely arranged, and the upper shell is connected with the lower shell to form the inner cavity.

4. The floating antibacterial liquid generator according to claim 3, wherein: the periphery of the upper end face of the upper shell extends outwards to form a flange, and the periphery of the flange extends upwards to form a first convex edge.

5. The floating antibacterial liquid generator according to claim 1, wherein: the anode piece and the cathode piece are both of plate-shaped structures, and partition walls are convexly arranged between the anode piece and the cathode piece on the shell.

6. The floating antibacterial liquid generator according to claim 1, wherein: the anode piece with the cathode piece is ring structure, just the casing in anode piece with protruding partition wall that is equipped with between the cathode piece.

7. The floating antibacterial liquid generator according to claim 3, wherein: the lower shell is embedded into the upper shell, an upper through hole is formed in the bottom of the upper shell, and the maximum horizontal height of the upper through hole is not smaller than the maximum horizontal height of the anode piece and the maximum horizontal height of the cathode piece.

8. The floating antibacterial liquid generator according to claim 2, characterized in that: the edge of the decorative cover protrudes upwards to form a second convex edge, the second convex edge is fixedly installed on the shell, and an annular gap is formed in the bottom surface between the anode piece and the cathode piece and between the second convex edge and the bottom surface.

9. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the battery pack includes a rechargeable battery and a charging part, and the charging part is a wired charging part or a wireless charging part.

10. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the anode piece is a silver anode, a silver alloy anode, a titanium-based metal oxide coating anode, a carbon anode or a titanium platinized anode.

11. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the output of battery pack is connected with the circuit board, the input of circuit board is connected battery pack's output, the output of circuit board is connected the positive pole spare with the negative pole spare, be provided with on the circuit board and improve the inflow the positive pole spare with the power module that steps up of the voltage of negative pole spare, and/or can regularly break off the inflow the positive pole spare with the timing outage protection module of the electric current of negative pole spare.

12. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the output end of the battery pack is connected with a circuit board, the input end of the circuit board is connected with the output end of the battery pack, the output end of the circuit board is connected with the anode piece and the cathode piece, a power on-off button capable of switching on or off current flowing into the anode piece and the cathode piece is arranged on the circuit board, and the power on-off button is provided with a button portion located outside the inner cavity.

13. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the output of battery pack is connected with the circuit board, the input of circuit board is connected battery pack's output, the output of circuit board is connected the anode spare with the cathode spare, the inner chamber has set firmly temperature sensor and/or microbial sensor, temperature sensor's output and/or microbial sensor's output is connected the input of circuit board, temperature sensor has and extends to the outer temperature detection portion of inner chamber, microbial sensor has and extends to the outer microbial detection portion of inner chamber.

14. The floating antibacterial liquid generator according to claim 13, wherein: the device comprises a high-temperature early warning device, wherein the temperature sensor and/or the microbial sensor are/is in communication connection with the early warning device.

15. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the output of battery pack is connected with the circuit board, the input of circuit board is connected battery pack's output, the output of circuit board is connected the anode spare with the cathode spare, the circuit board is provided with intelligent monitoring system, intelligent monitoring system is including the detecting element who detects and gather data and right the data that detecting element gathered carry out the treater of processing analysis, detecting element is including being used for detecting and gathering the anode spare with the detecting element of the operating current intensity of cathode spare, the detecting element of the volume of leading to electricity in totalizing, the detecting element of duration, the detecting element of operational environment temperature and the detecting element of operational environment bacterial colony quantity.

16. The floating antibacterial liquid generator according to claim 15, wherein: the intelligent monitoring system is characterized in that a display module is fixedly arranged outside the shell, the input end of the display module is connected with the output end of the circuit board, and output information of the intelligent monitoring system is transmitted to the display module and displayed.

17. The floating antibacterial liquid generator according to claim 15, wherein: the circuit board is also provided with a WIFI chip or a Bluetooth chip which can send the data processed by the processor to the terminal intelligent equipment; the terminal intelligent device comprises an intelligent mobile phone, a tablet personal computer, an intelligent bracelet, an intelligent sound box, a computer or an intelligent remote control.

18. The floating antibacterial liquid generator according to claim 17, wherein: the intelligent control monitoring system further comprises a reminding module for reminding a user of regularly replacing the anode, and the reminding module is communicated with the terminal intelligent device through the WIFI chip or the Bluetooth chip.

19. The floating antibacterial liquid generator according to claim 16, wherein: the circuit board is also provided with a reminding module for reminding a user of regularly replacing the anode, and the output end of the reminding module is connected with the input end of the display module.

20. The floating antibacterial liquid generator according to claim 17, wherein: the input end of the intelligent control monitoring system is connected with the output end of the WIFI chip or the output end of the Bluetooth chip.

21. The floating antibacterial liquid generator according to any one of claims 1 to 8, wherein: the casing is in the installation positive pole spare with negative pole spare department has set firmly an embedded screw or buried nut respectively, embedded screw or buried nut intercommunication the inner chamber with the casing outer wall, embedded screw or be provided with respectively on the embedded nut rather than complex lock nut or lock screw, positive pole spare with negative pole spare all passes through embedded screw with lock nut fixes on the casing, or positive pole spare with negative pole spare all passes through embedded nut with lock screw fixes on the casing.

22. The floating antibacterial liquid generator according to claim 21, wherein: a sealing gasket is arranged between the embedded screw and the locking nut, and a sealing gasket is arranged between the embedded screw and the locking nut.

23. The utility model provides a float formula bacteriostasis liquid generates appearance which characterized in that: the body comprises a body, the body is including the casing that has the confined inner chamber, anode spare and negative pole spare are installed to the casing is external, the inner chamber is close to anode spare with battery pack has set firmly in negative pole spare department, battery pack's output with anode spare with negative pole spare electricity is connected, the up end of casing is the undercut and is established and form the recess, the quality of the liquid of arranging when the body submerges completely in liquid with the maximum mass sum of the liquid that the recess can hold is greater than the quality of body.