CN213993341U - Food material purifier - Google Patents

Abstract

The utility model relates to the technical field of food material purifying equipment, in particular to a food material purifier, which comprises a purifier body, wherein the purifier body comprises a host computer component, a charging seat component and a charger; the host machine component is arranged on the charging seat component, and the charger is arranged in the charging seat component; two electrode plates are arranged in a host machine assembly, water between the electrode plates is electrolyzed to generate H + ions, the H + ions form hydroxyl free radicals under the action of an electric field between the electrode plates, and the hydroxyl free radicals rapidly destroy the outer walls of bacteria and viruses to enable the bacteria and the viruses to lose original activity; the food purifying agent can rapidly capture covalent bond electrons of molecular chains of organic compounds such as pesticides, hormones and the like, so that the organic compounds are degraded into substances harmless to human bodies, thereby removing pesticide residues and bacterial viruses and playing a role in food purification.

Description

Food material purifier

[ technical field ] A method for producing a semiconductor device

The utility model relates to an eat material clarification plant technical field, concretely relates to eat material clarifier.

[ background of the invention ]

With the improvement of living standard of people, the requirements of people on food safety are higher and higher. Currently, some food materials use more pesticides to prevent and treat various diseases, so after the food materials enter the market, residual pesticides or hormones still remain on the surfaces of the food materials, and the residual pesticides or hormones are only washed by clean water and cannot be removed, so that potential safety hazards exist for human bodies when people eat the food materials with the residual pesticides or hormones. The present application is further innovated on the basis of the above-mentioned problems, and develops a purifier capable of rapidly removing pesticides or hormones on the surface of food materials.

[ Utility model ] content

An object of the utility model is to provide an eat material clarifier to prior art's defect and not enough.

The utility model relates to an edible material purifier, which comprises a purifier body, wherein the purifier body comprises a host machine component, a charging seat component and a charger; the host machine component is arranged on the charging seat component, and the charger is arranged in the charging seat component;

the main machine component comprises a bottom shell, a water induction circuit board, a main circuit board, a battery power supply, a cavity sealing element, a working display lamp panel, a decorative ring, a lamp display element, an upper shell, a charging anode and a charging cathode, an electrolysis anode plate, an electrolysis plate anode and cathode separation net, an electrolysis cathode plate and a face cover;

the upper shell is in an arc frustum shape, the front end face and the rear end edge frame of the upper shell are circular, and the side face of the upper shell is an arc annular wall; a central hole is formed in the middle of the inner wall of the rear surface of the upper shell, two mounting studs I are correspondingly arranged on the left side and the right side of the central hole, two electrode convex cylinders are correspondingly arranged on the left side and the right side of the outer sides of the two mounting studs I, and the front surface and the rear surface of each electrode convex cylinder are open; annular convex plates are arranged on the peripheries of the outer sides of the two electrode convex cylinders, and a plurality of mounting studs II are arranged on the peripheries of the outer sides of the annular convex plates; four clamping grooves are uniformly formed in the periphery of the front of the upper shell, and a charging positive electrode, a charging negative electrode, an electrolysis positive electrode plate, an electrolysis plate positive-negative separation net, an electrolysis negative electrode plate and a face cover are sequentially arranged in the front of the upper shell from inside to outside; the periphery of the back of the face cover is uniformly provided with clamping heads matched with the four clamping grooves on the periphery of the front of the upper shell; the face cover is fixed in a clamping groove of the upper shell through four clamping heads of the face cover in a clamping manner; the upper shell is arranged on the bottom shell and is fixed through upper and lower shell screws to form a main machine shell, and the water induction circuit board, the main circuit board, the battery power supply and the working display lamp panel are arranged on the front surface of the bottom shell and are adhered and fixed by glue; the bottom shell is in an inverted arc frustum shape, the front end frame and the rear end face of the bottom shell are circular, and the side face of the bottom shell is an arc annular wall; the cavity sealing element is an O-shaped sealing ring and is arranged on an annular convex plate at the back of the upper shell, and a sealing cavity is formed in the area of the annular convex plate of the upper shell corresponding to the bottom shell; the lamp display part is fixed on the upper shell by glue; a plurality of second through holes are uniformly formed in the periphery of the back of the bottom shell; two parallel charging guide convex ribs are correspondingly arranged on the left side and the right side of the back of the bottom shell;

the charging seat component comprises a base, a charging circuit board bracket and a base cover plate; the upper part of the base is in an opening shape, the front of the upper part of the base is a semicircular groove, the back of the upper part of the base is provided with a sleeve which protrudes outwards, and the left side and the right side of the sleeve are provided with guide groove barrels which are matched with two charging guide convex ribs of the bottom shell; the charging circuit board is arranged on a charging circuit board support, the charging plate support is fixed by screws, the charging circuit board support is arranged on the inner wall of the guide groove cylinder, a cylinder cover plate is arranged on the guide groove cylinder, and the cylinder cover plate is clamped or fixed by screws; the base cover plate is arranged on the bottom surface of the base and is fixed by using a base cover screw;

the host machine assembly is inserted into the two guide groove cylinders of the guide groove cylinder on the base of the charging seat assembly through the two charging guide convex ribs.

Furthermore, a plurality of square through holes are formed in the surface of the face cover.

Furthermore, a decorative ring is arranged between the upper shell and the bottom shell.

Furthermore, two shockproof pads are installed between the charging circuit board support and the inner wall of the guide groove barrel of the base.

Furthermore, the four corners of the base cover plate are provided with groove cylinders, and four base suckers are clamped in the four groove cylinders.

After the structure is adopted, the utility model discloses beneficial effect does: the utility model discloses an edible material purifier, it adopts and is provided with two electrode slices in the host computer subassembly, utilizes the water electrolysis between the electrode slice to generate H + ion, and H + ion forms hydroxyl free radical under the electric field effect between the electrode slice, and hydroxyl free radical destroys bacterium, virus outer wall rapidly, makes it lose original activity; the food purifying agent can rapidly capture covalent bond electrons of molecular chains of organic compounds such as pesticides, hormones and the like, so that the organic compounds are degraded into substances harmless to human bodies, thereby removing pesticide residues and bacterial viruses and playing a role in food purification.

[ description of the drawings ]

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, do not constitute a limitation of the invention, and in which:

fig. 1 is a schematic diagram of the explosion structure of the present invention;

fig. 2 is a schematic perspective view of the assembled structure of the present invention;

fig. 3 is a topological structure diagram of the control system of the present invention;

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

fig. 5 is an electrode driving and electrical control circuit of the present invention;

fig. 6 is a battery voltage detection circuit of the present invention;

FIG. 7 shows a voltage regulator circuit of the present invention;

fig. 8 is an indicator light control circuit of the present invention;

fig. 9 is an electrode voltage driving circuit of the present invention;

fig. 10 is a charge control circuit of the present invention;

fig. 11 is a water detection circuit of the present invention.

Description of reference numerals:

a bottom shell-1; a water induction circuit board-2; a main circuit board-3; a battery power supply-4; a cavity seal-5; a working display lamp panel-6; a decorative ring-7; a light display-8; an upper shell-9; charging the positive electrode and the negative electrode to-10; electrolyzing the positive plate-11; an electrolytic sheet positive and negative separation net-12; electrolytic negative plate-13; a face cover-14; base suction cup-15; a base-16; a charging circuit board-17; a charging circuit board holder-18; a base cover-19; a shock pad-20; electrolytic sheet nut-21.

[ detailed description ] embodiments

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

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-2, the food material purifier of the present embodiment includes a purifier body, which includes a main unit assembly, a charging socket assembly and a charger; the host machine component is arranged on the charging seat component, and the charger is arranged in the charging seat component;

the host machine component comprises a bottom shell 1, a water induction circuit board 2, a main circuit board 3, a battery power supply 4, a cavity sealing piece 5, a work display lamp panel 6, a decorative ring 7, a lamp display piece 8, an upper shell 9, charging positive and negative electrodes 10, an electrolysis positive plate 11, an electrolysis plate positive and negative separation net 12, an electrolysis negative plate 13 and a surface cover 14;

the upper shell 9 is in an arc frustum shape, the front end face and the rear end edge frame of the upper shell are circular, and the side face of the upper shell 9 is an arc annular wall; a central hole is formed in the middle of the inner wall of the rear surface of the upper shell 9, two mounting studs I are correspondingly arranged on the left side and the right side of the central hole, two electrode convex cylinders are correspondingly arranged on the left side and the right side of the outer sides of the two mounting studs I, and the front surface and the rear surface of each electrode convex cylinder are open; annular convex plates are arranged on the peripheries of the outer sides of the two electrode convex cylinders, and a plurality of mounting studs II are arranged on the peripheries of the outer sides of the annular convex plates; four clamping grooves are uniformly formed in the periphery of the front of the upper shell 9, and a charging positive electrode 10, an electrolysis positive electrode plate 11, an electrolysis plate positive and negative separation net 12, an electrolysis negative electrode plate 13 and a face cover 14 are sequentially arranged in the front of the upper shell 9 from inside to outside; the periphery of the back of the face cover 14 is uniformly provided with clamping heads matched with the four clamping grooves on the periphery of the front of the upper shell 9; the face cover 14 is fixed in a clamping groove of the upper shell 9 through four clamping heads;

in the design, a charging positive electrode 10, an electrolysis positive electrode plate 11, an electrolysis sheet positive and negative separation net 12 and an electrolysis negative electrode plate 13 are respectively fixed on the front surface of the upper shell 9 through an electrolysis sheet nut 21, an electrolysis sheet screw and an electrolysis positive and negative electrode screw, and a surface cover 14 is buckled in a clamping groove around the front surface of the upper shell 9.

The upper shell 9 is arranged on the bottom shell 1 and is fixed through upper and lower shell screws to form a host shell; the water induction circuit board 2, the main circuit board 3, the battery power supply 4 and the work display lamp panel 6 are installed on the front surface of the bottom shell 1 and are adhered and fixed by glue; in the design, a water induction circuit board 2 is arranged at the bottom of the front surface of a bottom shell 1, a battery power supply 4 is arranged above the water induction circuit board 2, a main circuit board 3 is arranged above the water induction circuit board 2, and a work display lamp panel 6 is arranged on one side of the water induction circuit board 2; the bottom shell 1 is in an inverted arc frustum shape, the front end frame and the rear end face of the bottom shell 1 are circular, and the side face of the bottom shell 1 is an arc annular wall; the cavity sealing element 5 is an O-shaped sealing ring and is arranged on an annular convex plate at the back of the upper shell 9, and a sealing cavity is formed in the area of the annular convex plate of the upper shell 9 corresponding to the bottom shell 1; the lamp display member 8 is fixed on the upper shell 9 by glue; in the design, the inner parts of the cavities of the upper shell 9 and the lower shell 1 are subjected to circuit board pouring sealant pouring treatment; a plurality of second through holes are uniformly formed in the periphery of the back of the bottom shell 1; two parallel charging guide convex ribs are correspondingly arranged at the left side and the right side of the back of the bottom shell 1;

the charging seat assembly comprises a base sucker 15, a base 16, a charging circuit board 17, a charging circuit board support 18, a base cover plate 19 and a shockproof pad 20; the upper part of the base 16 is in an opening shape, the front of the upper part of the base 16 is a semicircular groove, the back of the upper part of the base 16 is provided with a sleeve which protrudes outwards, and the left side and the right side of the sleeve are provided with guide groove cylinders which are matched with two charging guide convex ribs of the bottom shell 1; the charging circuit board 17 is arranged on a charging circuit board support 18, the charging panel support is fixed by screws, the charging circuit board support 18 is arranged on the inner wall of the guide groove cylinder, a cylinder cover plate is arranged on the guide groove cylinder, and the cylinder cover plate is clamped or fixed by screws; the base cover plate 19 is arranged on the bottom surface of the base 16 and is fixed by using a base cover screw;

the host machine assembly is inserted into the two guide groove cylinders of the guide groove cylinder on the base 16 of the charging seat assembly through the two charging guide convex ribs of the host machine assembly.

Further, a plurality of square through holes are arranged on the surface of the surface cover 14.

Further, a decorative ring 7 is arranged between the upper shell 9 and the bottom shell 1.

Further, two vibration-proof pads 20 are installed between the charging circuit board support 18 and the inner wall of the guide groove cylinder of the base 16.

Furthermore, four corner ends of the base cover plate 19 are provided with groove cylinders, and four base suckers 15 are clamped in the four groove cylinders.

The working principle of the utility model is as follows:

as shown in fig. 1-2, in the present design, the purifier body is composed of a host assembly, a charging socket assembly and a charger.

Wherein: the host computer subassembly includes drain pan 1, water response circuit board 2, main circuit board 3, battery power 4, cavity sealing member 5, work display lamp plate 6, decorate circle 7, lamp display 8, epitheca 9, positive negative pole 10 that charge, electrolysis positive plate 11, electrolysis piece positive and negative separate net 12, electrolysis negative pole piece 13, face lid 14.

The mounting and assembling sequence is as follows: placing the circuit boards of the water induction circuit board 2, the main circuit board 3, the battery power supply 4 and the work display lamp panel 6 on the bottom shell 1; the induction surface of the water induction circuit board 2 is attached to the bottom of the bottom shell 1, and the charging positive and negative electrode terminals are connected to the charging positive and negative electrodes 10; and placing the cavity sealing element 5 on the outer end frame of the annular convex plate of the upper shell 9, wherein the annular convex plate of the upper shell 9 and the bottom shell 1 correspond to each other in position area to form a sealing cavity. The electrolytic positive plate 11 and the electrolytic negative plate 13 form an electrolytic plate, and an electrolytic plate positive and negative separation net 12 is arranged between the electrolytic positive plate 11 and the electrolytic negative plate 13. The lamp display member 8 is fixed on the upper case 9 by glue; after the working display lamp panel 6 is arranged on the upper shell 9, the electrolytic sheets are connected with the positive and negative electrodes of the main circuit board 3, and the upper shell 9 and the bottom shell 1 are installed. And finally, performing circuit board pouring sealant pouring treatment on the interiors of the upper shell cavity and the bottom shell cavity. After the complete solidification, an electrolytic positive plate 11, an electrolytic plate positive and negative separation net 12 and an electrolytic negative plate 13 are sequentially installed, and a surface cover 14 is covered. The whole host computer assembly is installed.

Wherein: the charging seat assembly comprises a base sucker 15, a base 16, a charging circuit board 17, a charging circuit board support 18, a base cover plate 19 and a shockproof pad 20.

The installation sequence is as follows: the charging circuit board 17 is arranged on the charging circuit board bracket 18 and then arranged on the base 16; two shock-proof pads 20 are arranged between the charging circuit board bracket 18 and the inner wall of the guide groove cylinder of the base 16; then, the base cover plate 19 is mounted on the bottom surface of the base 16, and is fixed by base cover screws, thereby completing the mounting. The four corners of the base cover plate 19 are provided with groove cylinders, and four base suckers 15 are clamped in the four groove cylinders, so that the fixing is convenient.

In the design, the whole machine combination placement method comprises the following steps: two parallel charging guide convex ribs are correspondingly arranged on the left side and the right side of the back of a bottom shell 1 of the host machine assembly, the host machine assembly is placed into a guide groove drum with one charging end facing downwards to the base, and the host machine assembly is placed down along the situation.

As shown in fig. 3, the control system of the present design includes a processor module, which is connected to a water level detection module, a voltage boosting module, a battery management module, a battery charging module, a power output module, a working state display module, and a power output detection module through wires, respectively; the power output module is connected with the positive electrode and the negative electrode. The control circuit of the design comprises the working module, and the processor module controls the working, data operation and timing functions of each part of the circuit. The water level detection module is used for detecting whether a product enters water or not, generating water data and transmitting the water data to the processor after the product enters the water, controlling all parts of circuits after the processor analyzes and processes the data, and visually displaying the working state of the product through the working state display module; the battery management module detects and tracks the charging and boosting of a battery built in the product; the processor controls and adjusts the output power of the product after analyzing the data transmitted back by the power output detection module so that the product electrode can adapt to work in different water qualities.

As shown in fig. 4 to 10, the present design relates to the following circuit boards: water induction circuit board 2, main circuit board 3, work display lamp plate 6, charging circuit board 17.

Wherein: the main circuit board 3 comprises a main control circuit, an electrode driving and electric control circuit, a battery voltage detection circuit, a power supply voltage stabilizing circuit and an electrode voltage driving circuit;

as shown in fig. 4, the main control circuit includes a U3 chip, the U3 chip is a MCU431 chip, and its specific model is a microprocessor chip of STM32L431CBT6 or STM32L431RCT 6. Pins 2, 4, 6-8, 10, 14 and 18 of the U3 chip are respectively connected with a light end, an RST end, a K1 end, a grounding end, an ICPDA end, a PWM5 end, an electric end and an ICPCK end, a pin 9 of the U3 chip is connected with a capacitor C10 in parallel, one end of the capacitor C10 receives a +5V power supply, and the other end of the capacitor C10 is grounded; the resistor R14 is connected in parallel with the 4 th pin of the U3 chip, and the other end of the resistor R14 is connected with a +5V power supply; the 4 th pin of the U3 chip is connected in series with a capacitor C9, and the other end of the capacitor C9 is grounded.

As shown in fig. 5, the electrode driving and electric control circuit includes a U2 chip, a low power consumption single-channel operational amplifier chip with model LM321 of the U2 chip; the 1 st pin of the U2 chip is connected in series with a resistor R4, and a capacitor C5, a capacitor C4, a resistor R7 and a resistor R4 are connected in parallel; one end of a MOS1 tube is connected with a resistor R7 in series, the other end of a MOS1 tube is connected with a resistor R2 in series, and the resistor R2 is connected with the PWM5 end; the other end of the MOS1 tube is connected with the 2 nd pin of the electrode plate, and the 1 st pin of the electrode plate is connected with a DC22V power supply; the 2 nd pin of the U2 chip is grounded, the 3 rd pin is connected with the resistor R11 in series, the 4 th pin of the U2 chip is connected with the resistor R8 in series, the resistor R9 is connected between the resistors R8 and R11 in parallel, and the other end of the resistor R11 is grounded; the U2 chip is connected with a +5V power supply.

As shown in fig. 6, the battery voltage detection circuit includes a resistor R19, one end of a resistor R19 is connected to an electric terminal, capacitors C11 and C12, and a resistor R20 are connected in parallel to a resistor R19, one end of a resistor R17 is connected in parallel to a resistor R19, the other end of the resistor R17 is connected to a BATT terminal, and the other end of the resistor R20 is grounded.

As shown in FIG. 7, the power supply voltage stabilizing circuit comprises a U4 power supply, and a U4 power supply is a 5V direct-current power supply; the 1 st pin of the U4 power supply is grounded, a capacitor C13 is connected between the 1 st pin and the 2 nd pin in parallel, the other end of the capacitor C13 is connected with the BATT end, the 1 st pin and the 3 rd pin are connected with a capacitor C14 in parallel, and the other end of the capacitor C14 is connected with a +5V power supply.

Work shows lamp plate 6 and is provided with pilot lamp control circuit, as shown in fig. 8, pilot lamp control circuit includes triode Q4, and triode Q4's B utmost point and resistance R21 are established ties, and resistance R21's the other end links to each other with the light end, and triode Q4's e utmost point ground connection, triode Q4's C utmost point and diode D6, resistance R18 are established ties, and resistance R18's the other end links to each other with +5V end.

As shown in fig. 9, the electrode voltage driving circuit includes a U5 power supply, and the U5 power supply is a dc22V power supply; the 1 st pin of the U5 power supply is grounded, and the 2 nd pin is connected with the BOOSTER OUT end; the resistors R12 and R13 are connected in series and then connected in parallel with the 5 th pin of the U5 power supply, and the electrolytic capacitor EC2 and the capacitor C8 are connected in parallel and then connected with the 4 th pin of the U5 power supply; an inductor FB2 and a diode D5 are connected in series and then connected in parallel with the 3 rd pin of a U5 power supply, the other ends of an electrolytic capacitor EC2 and the inductor FB2 are connected with a BATT end, a capacitor C7 and an electrolytic capacitor EC1 are connected in parallel between the 1 st pins of the diode D5 and the U5 power supply, and the other ends of an electrolytic capacitor EC1 and a diode D5 are connected with a DC 22V.

As shown in fig. 10, a charging control circuit is disposed on the charging circuit board 17, the charging control circuit includes a U1 chip, and the U1 chip is a charging chip with a model of DSC 3763; the 1 st pin of a U1 chip is connected with a capacitor C1 in series, the 2 nd pin of a U1 chip is grounded, the 3 rd pin of the U1 chip is connected with a diode D3 and a resistor R1 in series, the 4 th pin of a U1 chip is connected with a diode D2 in series, the other end of the diode D2 is connected with a VDD _ LED end, the other end of the resistor R1 is connected with a DCIN12.5V end, the 5 th pin of a U1 chip is connected with a resistor R5 in series, and the other end of the resistor R5 is grounded; the 6 th pin of a U1 chip is connected with a resistor R10 in series, the 9 th pin of a U1 chip is connected with the DCIN12.5V end, the 10 th pin of a U1 chip is connected with the 2 nd pin of a U11 chip, and the other end of a capacitor C1 is connected with the 6 th pin of a MOS2 tube in parallel; the resistor R6, the inductor FB and the diode D1 are connected in series and then connected in parallel between the resistor R10 and the No. 2 pin of the chip.

As shown in fig. 11, a water sensing circuit is disposed on the water sensing circuit board 2, the water sensing circuit includes a temperature control chip MCU, a 1 st pin of the temperature control chip MCU is respectively connected to a switch K1, a 2 nd pin is grounded, a 3 rd pin is connected to a temperature controller T1, one end of a capacitor C11 is connected in parallel to the temperature controller T1, and the other end of the capacitor C11 is grounded; the 5 th pin of the temperature control chip MCU is connected in parallel with the 2 nd pin of the 3.3V direct current power supply; the capacitor C13 is connected in series with the resistor R15 and then connected in parallel with the 3 rd pin of the 3.3V DC power supply, and the 1 st pin of the 3.3V DC power supply is grounded.

When the charger is used, the host computer assembly is firstly charged on the charging seat assembly by the charger. Then after the host machine assembly is put into water to work, two electrode plates in the host machine assembly are electrified, so that water between the electrode plates is electrolyzed: H2O → H + and OH-, H + ion forms hydroxyl radical (-OH) under the action of electric field between the pole pieces, and the hydroxyl radical (-OH) can destroy the outer wall of bacteria and virus rapidly to make them lose original activity; quickly deprives covalent bond electrons of molecular chains of organic compounds such as pesticides, hormones and the like, so that the organic compounds are degraded into substances harmless to human bodies. Thereby removing pesticide residues and bacterial viruses.

The charger in this design is a 15V2A specification charger. The model of the battery power supply is 18650-12V2500 mah. The upper shell and the bottom shell are made of ABS materials. The positive electrode and the negative electrode of the battery are made of gold-plated brass; the positive and negative separation nets of the electrolytic sheet are made of black silica gel; the base sucker is made of primary color silica gel.

The design is developed based on the fact that a large amount of food materials contain various harmful minerals and chemical substances. The product can effectively decompose and separate harmful substances in food materials by electrolyzing the titanium alloy electrolytic sheet in water. The product is convenient to use and has small volume. The appearance is delicate and easy to carry. Becoming a healthy food material guard.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (5)

1. A food material purifier is characterized in that: the purifier comprises a purifier body, wherein the purifier body comprises a host assembly, a charging seat assembly and a charger; the host machine component is arranged on the charging seat component, and the charger is arranged in the charging seat component;

the main machine component comprises a bottom shell, a water induction circuit board, a main circuit board, a battery power supply, a cavity sealing element, a working display lamp panel, a decorative ring, a lamp display element, an upper shell, a charging anode and a charging cathode, an electrolysis anode plate, an electrolysis plate anode and cathode separation net, an electrolysis cathode plate and a face cover;

the upper shell is in an arc frustum shape, the front end face and the rear end edge frame of the upper shell are circular, and the side face of the upper shell is an arc annular wall; a central hole is formed in the middle of the inner wall of the rear surface of the upper shell, two mounting studs I are correspondingly arranged on the left side and the right side of the central hole, two electrode convex cylinders are correspondingly arranged on the left side and the right side of the outer sides of the two mounting studs I, and the front surface and the rear surface of each electrode convex cylinder are open; annular convex plates are arranged on the peripheries of the outer sides of the two electrode convex cylinders, and a plurality of mounting studs II are arranged on the peripheries of the outer sides of the annular convex plates; four clamping grooves are uniformly formed in the periphery of the front of the upper shell, and a charging positive electrode, a charging negative electrode, an electrolysis positive electrode plate, an electrolysis plate positive-negative separation net, an electrolysis negative electrode plate and a face cover are sequentially arranged in the front of the upper shell from inside to outside; the periphery of the back of the face cover is uniformly provided with clamping heads matched with the four clamping grooves on the periphery of the front of the upper shell; the face cover is fixed in a clamping groove of the upper shell through four clamping heads of the face cover in a clamping manner; the upper shell is arranged on the bottom shell and is fixed through upper and lower shell screws to form a main machine shell, and the water induction circuit board, the main circuit board, the battery power supply and the working display lamp panel are arranged on the front surface of the bottom shell and are adhered and fixed by glue; the bottom shell is in an inverted arc frustum shape, the front end frame and the rear end face of the bottom shell are circular, and the side face of the bottom shell is an arc annular wall; the cavity sealing element is an O-shaped sealing ring and is arranged on an annular convex plate at the back of the upper shell, and a sealing cavity is formed in the area of the annular convex plate of the upper shell corresponding to the bottom shell; the lamp display part is fixed on the upper shell by glue; a plurality of second through holes are uniformly formed in the periphery of the back of the bottom shell; two parallel charging guide convex ribs are correspondingly arranged on the left side and the right side of the back of the bottom shell;

the charging seat component comprises a base, a charging circuit board bracket and a base cover plate; the upper part of the base is in an opening shape, the front of the upper part of the base is a semicircular groove, the back of the upper part of the base is provided with a sleeve which protrudes outwards, and the left side and the right side of the sleeve are provided with guide groove barrels which are matched with two charging guide convex ribs of the bottom shell; the charging circuit board is arranged on a charging circuit board support, the charging plate support is fixed by screws, the charging circuit board support is arranged on the inner wall of the guide groove cylinder, a cylinder cover plate is arranged on the guide groove cylinder, and the cylinder cover plate is clamped or fixed by screws; the base cover plate is arranged on the bottom surface of the base and is fixed by using a base cover screw;

the host machine assembly is inserted into the two guide groove cylinders of the guide groove cylinder on the base of the charging seat assembly through the two charging guide convex ribs.

2. The food material purifier of claim 1, wherein: the surface of the face cover is provided with a plurality of square through holes.

3. The food material purifier of claim 1, wherein: and a decorative ring is arranged between the upper shell and the bottom shell.

4. The food material purifier of claim 1, wherein: two shockproof pads are arranged between the charging circuit board support and the inner wall of the guide groove cylinder of the base.

5. The food material purifier of claim 1, wherein: four corner ends of the base cover plate are provided with groove cylinders, and four base suckers are clamped in the four groove cylinders.

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