CN109336299B - Multifunctional integrated purifier and use method thereof - Google Patents

Abstract

A multifunctional integrated purifier and a use method thereof comprise a purifying box, a box bin, a control panel, a water catalyst generator, a lossless phase-change conduction water pump, a self-cleaning component, a drainage component, a water feeding component, a filter screen plate and a slag collecting basket; the water catalyst generator is vertically arranged on the side wall of the cartridge bin; the two lossless phase-change conduction water pumps are respectively arranged at two sides of the water catalyst generator; the self-cleaning component comprises a purifying box self-cleaning module and a box bin self-cleaning module which are respectively arranged on the side walls of the purifying box and the box bin; the drainage component is arranged on a drainage port at the bottom of the purifying box; the water feeding component is arranged on the outer side wall of the cartridge bin; the filter screen plate is paved on the connecting end surface of the purifying box and the box bin; the slag collecting basket is arranged in a slag collecting basket mounting hole of the filter screen plate. The purifier can simultaneously realize multiple functions of food material purification, automatic water feeding and draining, hydrodynamic circulation, filtering and slag collection, self cleaning and the like, is convenient, safe and sanitary to operate by one key, and greatly improves user experience.

Description

Multifunctional integrated purifier and use method thereof

Technical Field

The invention belongs to the technical field of purifiers, and particularly relates to a multifunctional integrated purifier and a use method thereof.

Background

At present, the common purifier in market, the function is single, and many products still do not realize automatic water feeding or automatic drainage, and many complete machines do not have self-cleaning function yet simultaneously, need the manual work to additionally use the spray gun to carry out the cleanness of case wall cleaning or purification subassembly, and in addition, many domestic purifiers still have the difficult problem of clearance of filtration collection sediment module.

Disclosure of Invention

In order to solve the technical problems, the invention provides the multifunctional integrated purifier and the use method thereof, which not only realize the main purifying function of food materials, but also can automatically feed water before purifying, realize hydrodynamic circulation during purifying, realize self-cleaning functions of a tank wall, a purifying component and a box bin after purifying, and filter residue collection and automatic water discharge functions, and can complete the whole purifying process by a user only through one-key operation, thereby reducing the additional operation of the user and bringing convenience to the user.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the utility model provides a multi-functional integrated form purifier, includes purifying box and casket storehouse that is linked together, purifying box top one side is equipped with controls the panel, its characterized in that:

the device also comprises a water catalyst generator, a lossless phase-change conduction water pump, a self-cleaning component, a drainage component, a water feeding component, a filter screen plate and a slag collecting basket;

the water catalyst generator is vertically arranged on the side wall of the cartridge bin, and a control terminal of the water catalyst generator is electrically connected with the control panel;

the two lossless phase-change conduction water pumps are respectively arranged at two sides of the water catalyst generator, and the control terminal of the lossless phase-change conduction water pumps is electrically connected with the control panel;

the self-cleaning component comprises a purifying box self-cleaning module and a box bin self-cleaning module, the purifying box self-cleaning module is arranged on the side wall of the purifying box, and the box bin self-cleaning module is arranged on the side wall of the box bin;

the drainage assembly is arranged on a drainage outlet at the bottom of the purifying box; the water feeding component is arranged on the outer side wall of the cartridge bin;

the filter screen plate is laid on the connecting end surfaces of the purifying box and the box bin and is assembled on a connecting position between the purifying box and the box bin in a buckling mode; the filter screen plate is reserved with a slag collecting basket mounting hole site, and the slag collecting basket is arranged in the slag collecting basket mounting hole site.

As the preferable technical scheme of the invention, the water catalyst generator is vertically arranged on the side wall of the cartridge bin and comprises a negative plate group, a positive plate group, a fixed shell and a screw column; the negative plate group is formed by vertically arranging a negative conductive copper sheet at one end of a negative plate and mechanically connecting the negative conductive copper sheet with the negative plate, and the positive plate group is formed by vertically arranging a positive conductive copper sheet at one end of a positive plate and mechanically connecting the positive conductive copper sheet with the positive plate; the fixed shell is a vertically arranged offset box body and comprises a fixed seat on one side and a sealing cover on the other side, and the sealing cover is arranged on the outer side of the fixed seat; the fixing seat comprises a bottom plate and side walls, a series of square slots are formed in the middle of the bottom plate, the negative plates and the positive plates are alternately inserted into the square slots at intervals to be fixed, at the moment, the conductive copper sheets are positioned in a cavity in the middle of the fixing seat, and the negative conductive copper sheets and the positive conductive copper sheets are arranged on two sides of the cavity in parallel; the screw column sequentially penetrates through the fixing seat, the conductive copper sheet and the sealing cover to be connected into a whole, and pouring sealant is poured into a gap between the fixing seat and the sealing cover; the corresponding position of the inner side surface of the box bin is provided with holes for the screw columns to pass through, and the outer side of the box bin is provided with a conductive connecting sheet which is connected with a power supply.

Further, the bottom plate of the fixing seat is a round-corner rectangular plate, four corners of the bottom plate are correspondingly provided with four bosses, and two ends of the negative conductive copper sheet and the positive conductive copper sheet are respectively erected on the corresponding bosses; correspondingly, the number of the screw columns is four, the screw columns are correspondingly screwed into holes in the boss to be fixed, and mounting positions of the positive plate group and the negative plate group are reserved on the fixing seat and are used for the subsequent equal-proportion increase of the positive plate group and the negative plate group.

Further, the lossless phase-change conduction water pump comprises a pump cover and a pump body; the center of the pump cover is provided with a water inlet mesh, and a diversion channel is arranged beside the water inlet mesh; the water inlet at the bottom of the guide channel is arranged on the pump cover, the water outlet direction of the water outlet hole at the top is parallel to the mounting side surface of the pump body upwards, and the water outlet direction of the water outlet hole is vertical to the water inlet direction of the water inlet; a buckle is arranged at the joint of the pump cover and the pump body; a drain hole is arranged right below the pump cover and the pump body; an impeller is arranged in a pump body cavity of the pump body, and the center of the impeller is opposite to the center of a water inlet mesh of the pump cover; a cavity special-shaped port is arranged in the pump body cavity, and the cavity special-shaped port is opposite to water inlets of two diversion channels of the pump cover; the periphery of the pump body cavity is correspondingly provided with a clamping groove by a buckle, and the outer side of the pump body is fixed by a locking nut after the pump body is clamped with the pump cover; a second sealing ring is arranged between the lock nut and the pump body shell for sealing; the lossless phase-change conduction water pumps are respectively arranged on the other two side walls of the cartridge bin, which are close to the water catalyst generator, wherein the water outlet of the pump cover is communicated with the purifying box.

Further, the self-cleaning module of the purifying box is arranged at the bottom of the purifying box and comprises a first water feeding valve, a first nozzle and a first hose, wherein the first nozzle is fixed on the inner box wall of the purifying box, and holes are formed in the corresponding positions of the inner box wall for the first nozzle to be inserted and fixed from outside to inside; one end of the first hose is connected with the first nozzle, and the other end of the first hose is connected with the first water feeding valve; the control wiring terminal of the first water feeding valve is connected with the control panel, the external threaded water inlet is connected with the water feeding assembly, and the water feeding assembly is connected with the faucet for water feeding; the total number of the nozzles is 1-20, the number of the first nozzles installed on each surface of the inner box wall is 0-6, the angles of the water outlet holes of the nozzles and the installation surface are 0-180 degrees, and the injection angles of at least two first nozzles are different.

Further, the cartridge self-cleaning module is horizontally arranged on the opposite side wall of the installation surface of the water catalyst generator and comprises a second water feeding valve, a second nozzle and a second hose, wherein the second nozzle is fixed on the inner side wall of the cartridge and is opposite to the water catalyst generator; one end of the second hose is connected with the second nozzle, and the other end of the second hose is connected with the second water feeding valve; the control wiring terminal of the water feeding valve II is connected with the control panel, the external threaded water inlet is connected with the water feeding assembly, and the water feeding assembly is connected with the faucet for water feeding.

Further, the drainage assembly comprises a drainage valve and a tractor, the main drainage outlet of the drainage valve is connected with the drainage pipe, the overflow drainage outlet is connected with the overflow hose, the other end of the overflow hose is arranged on the overflow port of the purifying box, the traction buckle extending out of the tail end of the drainage valve is connected with the traction rope of the tractor, and the control terminal of the tractor is electrically connected with the control panel.

Further, the water feeding assembly comprises a water feeding electromagnetic valve III, a water inlet hose and a water level sensor, a threaded water inlet of the water feeding electromagnetic valve III is connected with the water feeding assembly, and the water feeding assembly is connected with a faucet; the water outlet of the upper water valve III is connected with a water inlet hose, and the other end of the water inlet hose is connected to the water inlet of the side wall of the cartridge bin; the water level sensor is arranged on the inner side wall of the purifying box; and the wiring terminal of the upper water solenoid valve III is electrically connected with the control panel.

Further, a series of strip gaps are formed in parallel on the filter screen plate; the cross section of the strip gap is trapezoid with narrow upper part and wide lower part.

In addition, the invention also provides a using method of the multifunctional integrated purifier, which is characterized by comprising the following steps:

step one, switching on a power supply;

step two, starting a water feeding assembly: starting a water tap and a water separator, starting a start key, providing an electric signal for a three-inlet control end of a water feeding electromagnetic valve according to a button key indication of a control panel, pressing down tap water, starting automatic water feeding, receiving a closing signal after water is fed to a set position of a water tank, and closing a three-inlet valve core of the water feeding electromagnetic valve;

step three, placing the food materials to be purified into a purifying box;

starting the water catalyst generator and the lossless phase-change conduction water pump: according to the button indication of the control panel, starting the water catalyst generator and the lossless phase-change conduction water pump to start working, and enabling a purification functional group generated after the water catalyst generator acts with water to enter a purification box along with high-speed water flow formed by the lossless phase-change conduction water pump to pass through a trapezoid hole of the filter screen plate so as to purify food;

step five, starting a drainage assembly: after purification, the water catalyst generator and the lossless phase-change conduction water pump stop running at the same time, a drainage assembly is started, a drainage command is given to a drainage valve signal, a control panel receives the drainage command and sends a signal to electrify a tractor, the tractor overcomes the spring force in the drainage valve through an internal gear driving mechanism, so that a valve core in the drainage valve is pulled by an externally-extending traction rope to conduct drainage action, waste water is discharged out of a purification box through a drainage pipe, and solid residues cannot be left above a filter screen plate through a positive small end gap of a trapezoid hole of the filter screen plate;

step six, collecting residues: after the water drainage is finished, collecting residues on the filter screen plate, enabling the residues to enter a residue collecting basket for uniform pouring, and then lightly wiping the positive upper surface of the filter screen plate by using a rag;

step seven, starting a self-cleaning module of the purifying box: firstly, a self-cleaning module of the purifying box is started to clean the purifying box, a signal is given to a water feeding valve I, a port connected with a nozzle I is opened, tap water is pressed down, atomized water flow is sprayed out from the nozzle I through water flow, and self-cleaning of the inner box wall of the purifying box is carried out; during the period, the drain valve of the drain assembly is switched on and off according to a set program to better finish the self-cleaning function, and the filter screen plate always plays a role in filtering and collecting slag;

step eight, starting a box bin self-cleaning module: starting a cartridge self-cleaning module to clean the water catalyst generator and the cartridge, giving a signal to a water feeding electromagnetic valve II, opening a port connected with a nozzle II, pressing tap water downwards, enabling water to flow through the nozzle II to form atomized water flow to spray water on a negative plate and a positive plate of the water catalyst generator and between the positive plates for flushing, and simultaneously cleaning other side surfaces of the cartridge by the sprayed water flow to finish self-cleaning of the water catalyst generator and the cartridge; so far, the purifier operation is ended.

Compared with the prior art, the invention has the technical advantages that:

1. the water catalyst generator module has simple structure, convenient and quick assembly, disassembly and maintenance and high installation efficiency; the spare mounting positions are reserved, the modules can be increased according to different requirements in equal proportion, and the adaptability is high.

2. The lossless phase-change conduction water pump can be quickly installed, disassembled and cleaned, the lossless phase-change conduction water kinetic energy can be realized at the outlet of the pump cover, and the water kinetic energy can be transmitted to any required position in a lossless manner according to the requirement;

3. the automatic water feeding and automatic water discharging can be realized, the water feeding port is arranged more hidden, the system defaults to have the lowest water level and the highest water level, and a user can intelligently control the water feeding quantity through the liquid level sensor according to the quantity of purified food materials, so that the utilization rate of tap water is improved, and the purpose of saving water is realized; the risk of blockage of the drain valve is reduced, and the drain efficiency is greatly improved;

4. the self-cleaning function of the box bin and the box wall is set, municipal tap water pressure is used, extra pressure is not needed to be increased, the self-cleaning of the box bin and the purifying box is convenient to realize, the structure is simple, the spray nozzle is pressed down by tap water, mist water flow is formed to be sprayed into the box wall, on the polar plate of the water catalyst generator and between the polar plates to be flushed, one-key operation is realized, the cleaning cost is greatly reduced, the maintenance time of the water catalyst generator is prolonged, the user experience effect is improved, and the self-cleaning device is suitable for household, commercial and industrial equipment which needs to realize the fruit and vegetable purifying/cleaning function;

5. a filter screen plate is arranged between the purifying box and the box bin, a filter gap with a trapezoid cross section is arranged on the filter screen plate, most of residues can be filtered through the forward gap, and the problem of blockage of a drainage pipeline caused by large-particle residues entering a drainage system is reduced; the reverse large end of the bottom is convenient for the high-speed water flow formed by the bottom power functional component to go upwards, pass through the filter screen plate and enter the purification cavity; the cleaning is easy, the operation is convenient, the safety and the sanitation are realized, and the use experience of a user is greatly improved; after the purification is finished, the purification residues are collected through the residue collecting basket and then uniformly poured out, so that the time and the labor are saved.

Drawings

The foregoing and/or other aspects and advantages of the present invention will become more apparent and more readily appreciated from the detailed description taken in conjunction with the following drawings, which are meant to be illustrative only and not limiting of the invention, wherein:

FIG. 1 is a schematic perspective view of a multifunctional integrated purifier according to the present invention;

FIG. 2 is a right side view of FIG. 1;

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

FIG. 4 is a top view of FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 4 after the filter screen has been removed;

FIG. 6 is a schematic view showing the internal construction of a cartridge of the multifunctional integrated purifier according to the present invention;

FIG. 7 is a schematic view of the overall structure of the water catalyst generator according to the present invention;

FIG. 8 is a schematic view showing the internal structure of a water catalyst generator according to the present invention;

fig. 9 is a schematic perspective view of a fixing base according to the present invention;

FIG. 10 is a schematic view of the internal connection structure of the fixing base according to the present invention;

FIG. 11 is a schematic view of the structure of a separator bar according to the present invention;

FIG. 12 is a schematic diagram of the overall structure of a non-destructive phase-change conductive water pump according to the present invention;

FIG. 13 is a schematic view of the internal structure of the non-destructive phase-change conductive water pump according to the present invention;

FIG. 14 is a schematic perspective view of a pump cover of a non-destructive phase-change conductive water pump according to the present invention;

FIG. 15 is a schematic perspective view of the pump body of the lossless phase-change conduction water pump according to the present invention;

FIG. 16 is a schematic view of the structure of a screen panel according to the present invention;

FIG. 17 is a schematic cross-sectional view of the structure of A-A in FIG. 16;

FIG. 18 is a schematic view of the enlarged partial structure of D in FIG. 17;

FIG. 19 is a schematic cross-sectional view of B-B in FIG. 16;

FIG. 20 is a schematic view of the structure of the slag collecting basket in accordance with the present invention;

FIG. 21 is a schematic view of the overall structure of the slag collecting basket after being buckled with the filter screen plate;

FIG. 22 is a schematic cross-sectional view of the cross-section C-C of FIG. 21;

fig. 23 is an enlarged schematic view of the portion E in fig. 22.

Description of the drawings: 1-purifying box, 2-cartridge, 3-control panel, 4-water catalyst generator, 41-negative plate, 42-positive plate, 43-conductive copper sheet, 431-negative conductive copper sheet, 432-positive conductive copper sheet, 44-screw column, 45-fixing seat, 451-bottom plate, 452-Fang Caokong, 453-cavity, 454-boss, 46-sealing cap, 47-nut, 48-sealing ring one, 49-pouring sealant, 410-separating strip, 5-lossless phase-change conduction water pump, 51-pump body, 511-cavity special-shaped port, 512-pump cavity, 513-impeller, 52-pump cover, 521-blowdown hole, 522-diversion channel, 523-water inlet mesh, 524-water outlet hole, 54-locking nut, 53-sealing ring two 6-self-cleaning component, 61-purifying tank self-cleaning module, 611-upper water valve I, 612-nozzle I, 613-hose I, 614-pipe clamp, 615-three-way connector, 62-cartridge self-cleaning module, 621-upper water valve II, 622-nozzle II, 623-hose II, 7-drainage component, 71-drainage valve, 72-haulage rope, 73-tractor, 74-overflow hose, 75-drainage pipe, 8-upper water component, 81-upper water valve III, 811-thread water inlet, 812-water outlet, 813-binding post, 82-water inlet hose, 83-water level sensor, 9-filter screen, 91-strip gap, 92-slag collecting basket mounting hole site, 10-slag collecting basket.

Detailed Description

Hereinafter, embodiments of the multifunctional integrated purifier and the method of using the same of the present invention will be described with reference to the accompanying drawings.

The examples described herein are specific embodiments of the present invention, which are intended to illustrate the inventive concept, are intended to be illustrative and exemplary, and should not be construed as limiting the invention to the embodiments and scope of the invention. In addition to the embodiments described herein, those skilled in the art can adopt other obvious solutions based on the disclosure of the claims and specification of the present application, including those adopting any obvious substitutions and modifications to the embodiments described herein. The drawings in the present specification are schematic views, which assist in explaining the concept of the present invention, and schematically show the shapes of the respective parts and their interrelationships. Note that, in order to clearly show the structures of the components of the embodiments of the present invention, the drawings are not drawn to the same scale. Like reference numerals are used to denote like parts.

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

As shown in fig. 1 to 6, a multifunctional integrated purifier comprises a purifying box 1 and a cartridge 2 which are mutually communicated, wherein one side of the top surface of the purifying box 1 is provided with a control panel 3, and the multifunctional integrated purifier also comprises a water catalyst generator 4, a lossless phase-change conduction water pump 5, a self-cleaning member 6, a drainage assembly 7, a water supply assembly 8, a filter screen plate 9 and a slag collecting basket 10; the water catalyst generator 4 is vertically arranged on the side wall of the cartridge 2, and a control terminal of the water catalyst generator is electrically connected with the control panel 3; the two lossless phase-change conduction water pumps 5 are respectively arranged at two sides of the water catalyst generator 4, and the control terminal of the lossless phase-change conduction water pumps is electrically connected with the control panel 3; the self-cleaning member 6 comprises a purifying box self-cleaning module 61 and a box cabin self-cleaning module 62, wherein the purifying box self-cleaning module 61 is arranged on the side wall of the purifying box 1, and the box cabin self-cleaning module 62 is arranged on the side wall of the box cabin 2; the drainage assembly 7 is arranged on a drainage outlet at the bottom of the purifying box 1; the water feeding component 8 is arranged on the outer side wall of the cartridge 2; the filter screen plate 9 is paved on the connecting end surfaces of the purifying box 1 and the cartridge 2 and is assembled on the connecting position between the purifying box 1 and the cartridge 2 in a buckling mode; the filter screen plate 9 is reserved with a slag collecting basket mounting hole site 92, and the slag collecting basket 10 is arranged in the slag collecting basket mounting hole site 92.

Wherein as shown in fig. 7 and 8, the water catalyst generator 4 is vertically installed on the side wall of the cartridge 2, and comprises a negative plate group, a positive plate group, a fixed shell and a screw column 44; the negative plate group is formed by vertically arranging a negative conductive copper sheet 431 at one end of the negative plate 41 and mechanically connecting the negative conductive copper sheet 431 with the negative conductive copper sheet, and the positive plate group is formed by vertically arranging a positive conductive copper sheet 432 at one end of the positive plate 42 and mechanically connecting the positive conductive copper sheet 432 with the positive conductive copper sheet; referring to fig. 7, the fixed housing is a vertically arranged flat box body, and includes a fixed seat 45 on one side and a cover 46 on the other side, wherein the cover 46 is arranged outside the fixed seat 45; referring to fig. 9 and 10, the fixing base 45 includes a bottom plate 451 and a side wall, a series of square slots 452 are formed in the middle of the bottom plate 451, and the negative electrode plate 41 and the positive electrode plate 42 are alternately inserted into the square slots 452 to fix the two slots, at this time, the conductive copper sheet 43 is located in a cavity 453 in the middle of the fixing base 45, where the negative electrode conductive copper sheet 431 and the positive electrode conductive copper sheet 432 are parallel arranged on two sides of the cavity; the screw column 44 sequentially passes through the fixing seat 45, the conductive copper sheet 43 and the sealing cover 46 to be connected into a whole, a nut 47 is arranged between the conductive copper sheet 43 and the sealing cover 46 to be pressed and fixed, and a sealing ring I48 is arranged at one side of the sealing cover 46 far away from the negative electrode sheet 41 and the positive electrode sheet 42 to be sealed; pouring sealant 49 is poured into the gap between the fixing seat 45 and the sealing cover 46. As shown in fig. 9 and 10, the bottom plate 451 of the fixing seat 45 is a rounded rectangular plate, four corners of the bottom plate are correspondingly provided with four bosses 454, and two ends of the negative conductive copper sheet 431 and the positive conductive copper sheet 432 are respectively erected on the corresponding bosses 454; correspondingly, the number of the screw columns 5 is four, and the screw columns are correspondingly screwed into holes in the boss 454 for fixing; the conductive copper sheet 43 is a round-angle long strip plate, a row of mounting holes are formed in the round-angle long strip plate, screw column round holes are formed in the two outermost ends, and rivet penetrating holes are formed in the middle of the round-angle long strip plate. And mounting positions of the positive plate group and the negative plate group are reserved on the fixing seat 45 for the subsequent equal-proportion addition of the positive plate group and the negative plate group.

As shown in fig. 11, 1-3 separate strips 410 are arranged on the negative electrode plate 41 and the positive electrode plate 42 for further fixation; the separation strip comprises an upper separation strip and a lower separation strip, the upper separation strip and the lower separation strip are U-shaped and are connected in a buckling manner on the side face to form a closed ring, and the whole pole piece is fixed in a ring-shaped surrounding manner; both are provided with positioning grooves on the bottom surfaces contacting the negative electrode plate 41 and the positive electrode plate 42.

When the water catalyst generator 4 is installed, the side face is vertically installed, holes are formed in the inner side wall of the cartridge 2 at positions corresponding to the screw columns 44 for the screw columns 44 to pass through, and conductive connecting sheets are arranged on the outer side of the cartridge and are connected with a power supply. The screw column 44 is firstly installed and screwed into the corresponding hole position of the fixed seat 45; then the positive and negative pole pieces are respectively and crosswise combined, the pole pieces are inserted into corresponding square slot holes of the fixed seat 45, two end holes of the two conductive copper sheets 43 respectively penetrate through screw posts 44 at two ends at the moment, and then nuts 47 are screwed to be used as first-time installation and fixation conductive copper sheets; the positive pole piece group is added with an upper separation strip and a lower separation strip of the pole piece, pouring sealant 49 is poured into a cavity of the fixed seat 45, the pouring sealant is used for fixing the conductive copper sheet for the second time and playing a certain role in fixing the screw column, the upper sealing cover 46 is buckled on the premise that the pouring sealant is thoroughly solidified and does not deform, the sealing cover 46 is fixedly connected with the fixed seat 45 at one time, finally a sealing ring is arranged on the screw column, a decorative cap is arranged at the other end of the screw column 44, the water catalyst generator module is assembled, the water catalyst generator module is integrated into a module after the assembly is completed, the water catalyst generator module is not easy to disassemble, and when the water catalyst generator module is assembled and used, after a special screw column through hole is designed on a structural surface required to be installed, the four extended screw columns 44 on the generator module are directly inserted into a structural surface required to be installed, and after a conductive gasket, a wiring terminal and a nut are installed on the outer side surface, and the water catalyst generator module can be electrified and used after the screw column is fastened.

As shown in fig. 3 and 6, two lossless phase-change conduction water pumps 5 are respectively arranged at two sides of the water catalyst generator 4; as shown in fig. 12 and 13, the lossless phase change conductive water pump 5 includes a pump cover 52 and a pump body 51; as shown in fig. 14, the center of the pump cover 52 is provided with a water inlet mesh 523, and a diversion channel 522 is arranged beside the water inlet mesh 523; the flow guide channel 522 is an L-shaped pipe with an arc bending part, a water inlet at the bottom of the flow guide channel is arranged on the pump cover 52, and a water outlet at the top of the flow guide channel is parallel to the installation side surface of the pump body upwards and is perpendicular to the water inlet direction of the water inlet; a buckle is arranged at the joint of the pump cover 52 and the pump body 51; a drain hole 521 is arranged right below the pump cover 52 and the pump body; as shown in fig. 15, an impeller 513 is disposed in the pump cavity 512 of the pump body 51, and the center of the impeller 513 is opposite to the center of the water inlet mesh 523 of the pump cover; a cavity special-shaped port 511 is arranged in the pump body cavity 512, and the cavity special-shaped port 511 is opposite to the water inlets of the two diversion channels 522 of the pump cover; the periphery of the pump body cavity 512 is correspondingly provided with a clamping groove by a buckle, and the outer side of the pump body 51 is fixed by a locking nut 54 after being clamped with a pump cover; a second sealing ring 53 is arranged between the lock nut 54 and the pump body 51 shell for sealing; the non-destructive phase-change conduction water pumps 5 are respectively arranged on the other two side walls of the cartridge 2, which are close to the water catalyst generator 4, wherein the water outlet of the pump cover 52 is communicated with the purifying box 1.

When in use, the static water outside the pump cover 52 is sucked into the pump cavity 512 through the water inlet mesh 523 in the center of the pump cover 52 under the high-speed rotation action of the impeller 513 in the pump body 51, and is thrown to the wall surface around the pump cavity 512 under the centrifugal force action, the accelerated water flow is centrally beaten into the two diversion channels 522 on the pump cover 52 along the position of the special-shaped port 511 of the cavity and vertically and upwards ejected along the curved surface of the flow channel, and finally the water surface is beaten to drive the static water flow around to move. After the pump body 51 is powered off, residual water in the pump body cavity 512 naturally flows out along the inner wall surface of the cavity under the action of dead weight through a drain hole 521 designed at the lowest part of the pump cover 52, so that the water accumulation-free effect is realized.

The self-cleaning module 61 of the purifying box is arranged at the bottom of the purifying box 1 and comprises a first upper water solenoid valve 611, a first nozzle 612 and a first hose 613, wherein the first nozzle 612 is fixed on the inner box wall of the purifying box 1, and holes are formed in the corresponding positions of the inner box wall for the first nozzle 612 to be inserted and fixed from outside; one end of the first hose 613 is connected with the first nozzle 612, and the other end is connected with the first water feeding electromagnetic valve 611; the control terminal of the first water feeding valve 611 is connected with the control panel 3, the external threaded water inlet is connected with a water feeding assembly, and the water feeding assembly is connected with a water tap for water feeding, and the concrete structure is shown in figure 1; the total number of the first nozzles 612 is 1-20, the number of the first nozzles 612 installed on each surface of the inner box wall is 0-6, the angles of the nozzle water outlet holes and the installation surface are 0-180 degrees, and the injection angles of at least two first nozzles are different. The first nozzles 612 on opposite or adjacent surfaces of the inner box wall are arranged at different heights, and the first nozzles 612 on opposite surfaces are staggered in a horizontal direction with a horizontal distance difference.

The cartridge self-cleaning module 62 is horizontally arranged on the opposite side wall of the installation surface of the water catalyst generator 4 and comprises a water feeding valve two 621, a nozzle two 622 and a hose two 623, wherein the nozzle two 622 is fixed on the inner side wall of the cartridge 2 and is opposite to the water catalyst generator 4; one end of the second hose 623 is connected with the second nozzle 622, and the other end is connected with the second water feeding electromagnetic valve 621; the control terminal of the water feeding valve two 621 is connected with the control panel 3, the external thread water inlet is connected with a water feeding component, and the water feeding component is connected with a water tap for water feeding, and the concrete structure is shown in figure 2. The number of the second nozzles 622 is 2-8, and the nozzles are arranged at the upper part, the middle part and the lower part of the narrow edge corresponding to the vertical direction of the narrow edge of the pole piece for cleaning, and are atomizing nozzles, preferably in a conical water outlet mode.

The drainage assembly 7 comprises a drainage valve 71 and a tractor 73, wherein a main drainage outlet of the drainage valve 71 is connected with a drainage pipe 75, an overflow drainage outlet is connected with an overflow hose 74, the other end of the overflow hose 74 is arranged on an overflow port of the purification tank 1, a traction buckle extending out of the tail end of the drainage valve 71 is connected with a traction rope 72 of the tractor 73, and a control terminal of the tractor 73 is electrically connected with the control panel 3, and the specific structure is shown in fig. 3.

The water feeding assembly 8 comprises a water feeding electromagnetic valve III 81, a water feeding hose 82 and a water level sensor 83, wherein a threaded water inlet 811 of the water feeding electromagnetic valve III 81 is connected with the water feeding assembly, and the water feeding assembly is connected with a water tap; the water outlet 812 of the upper water valve III 81 is connected with a water inlet hose 82, and the other end of the water inlet hose 82 is connected to the water inlet on the side wall of the cartridge bin 2; the water level sensor 83 is arranged on the inner side wall of the purifying box; the wiring terminal 813 of the upper water valve III 81 is electrically connected with the control panel 3, and the specific structure is shown in fig. 1.

As shown in fig. 16 to 23, a series of strip gaps 91 are formed in parallel on the filter screen plate 9; the cross section of the strip gap 91 is trapezoid with a narrow upper part and a wide lower part. The shape and the size of the filter screen plate 9 are matched with the upper opening of the cartridge, a protruding arc part is added for square shape, the filter screen plate is paved on the end surface between the purifying box 1 and the cartridge 2, and the filter screen plate is assembled on the connecting position between the purifying box and the cartridge through a buckling mode; a slag collecting basket mounting hole position 92 is reserved on the protruding arc part of the filter screen plate 9, and a slag collecting basket 10 is arranged in the slag collecting basket mounting hole position 92; the slag collecting basket 10 is arranged flush with the upper surface of the filter screen plate 9, and a series of strip gaps 91 are formed in parallel on the filter screen plate 9; the cross section of the elongated gap 91 is trapezoidal with a narrow upper portion and a wide lower portion, as shown in fig. 18. When placing purification subassembly and power functional part in filter screen plate 9 below, filter screen plate 9 is under the prerequisite that plays the basic function of filtration collection sediment, not only can not influence the diffusion of the purification functional group that purification subassembly produced and the delivery of hydrodynamic force that power functional part produced, easily clean moreover, has convenient operation, safety and sanitation's advantage, promotes user's use experience greatly.

The application method of the multifunctional integrated purifier comprises the following steps:

step one, switching on a power supply;

step two, starting a water supply assembly 8: starting a water tap and a water separator, starting a start key, feeding an electric signal to a water feeding control end of a water feeding electromagnetic valve III 81 according to the button indication of the control panel 3, pressing down tap water, starting automatic water feeding, receiving a closing signal after water is fed to a set position of a water tank, and closing a water feeding valve core of the water feeding electromagnetic valve III 81;

step three, putting the food materials to be purified into a purifying box 1;

step four, starting the water catalyst generator 4 and the lossless phase-change conduction water pump 5: according to the button indication of the control panel 3, starting the water catalyst generator 4 and the lossless phase-change conduction water pump 5 to start working, and enabling a purification functional group generated after the water catalyst generator 4 acts with water to enter the purification box 1 along with high-speed water flow formed by the lossless phase-change conduction water pump 5 to pass through the trapezoid holes of the filter screen plate 9 so as to purify food materials;

step five, starting a drainage assembly 7: after the purification is finished, the water catalyst generator 4 and the lossless phase-change conduction water pump 5 stop running at the same time, the water drainage assembly 7 is started, signals are sent to the water drainage valve 71, the control panel 3 receives a water drainage instruction and sends a signal to the tractor 73, the tractor 73 overcomes the spring force in the water drainage valve 71 through an internal gear driving mechanism, the outwards-extending traction rope 72 pulls a valve core in the water drainage valve 71 to conduct water drainage action, the waste water is discharged out of the purification tank 1 through the water drainage pipe 75, and solid residues cannot be left above the filter screen 9 through a positive small end gap of a trapezoid hole of the filter screen 9;

step six, collecting residues: after the water drainage is finished, residues on the filter screen plate 9 are collected and enter a residue collecting basket 10 to be uniformly poured out, and then the front upper surface of the filter screen plate 9 is gently wiped by a rag;

step seven, starting the self-cleaning module 61 of the purifying box: firstly, a self-cleaning module 61 of the purifying box is started to clean the purifying box 1, a signal is given to a first water feeding valve 611, a port connected with a first nozzle 612 is opened, tap water is pressed down, atomized water flow is sprayed out from the water flow through the first nozzle 612, and self-cleaning of the wall in the purifying box is carried out; during the period, the drain valve 71 of the drain assembly 7 is switched on and off according to a set program to better complete the self-cleaning function, and the filter screen plate 9 always plays a role in filtering and collecting slag;

step eight, starting a cartridge self-cleaning module 62: starting a cartridge self-cleaning module 62 to clean the water catalyst generator 4 and the cartridge 2, giving a signal to a water feeding valve two 621, opening a port connected with a nozzle two 622, enabling tap water to be pressed down, enabling water to flow through the nozzle two 622 to form atomized water flow to be sprayed into the negative plate 41 and the positive plate 42 of the water catalyst generator 4 and between the pole pieces to be flushed, and enabling the water flow sprayed out to clean other side surfaces of the cartridge to finish self-cleaning of the water catalyst generator 4 and the cartridge 2, wherein during the self-cleaning period, a drain valve 71 of a drain assembly 7 is turned on and off according to a set program to finish the self-cleaning function well, and a filter screen 9 always plays a role in filtering and collecting slag; so far, the purifier operation is ended.

The foregoing is only illustrative of the present invention and is not to be construed as limiting thereof, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims (6)

1. The utility model provides a multi-functional integrated form purifier, includes purifying box (1) and casket storehouse (2) that are linked together, casket storehouse (2) are located the water tank bottom, purifying box (1) top surface one side is equipped with controls panel (3), its characterized in that:

the device also comprises a water catalyst generator (4), a lossless phase-change conduction water pump (5), a self-cleaning component (6), a water draining component (7), a water feeding component (8), a filter screen plate (9) and a slag collecting basket (10);

the water catalyst generator (4) is vertically arranged on the side wall of the cartridge (2) and comprises a negative plate group, a positive plate group, a fixed shell and a screw column (44); the control terminal is electrically connected with the control panel (3); the negative plate group is formed by vertically arranging a negative conductive copper sheet (431) at one end of a negative plate (41) and mechanically connecting the negative conductive copper sheet with the negative plate, and the positive plate group is formed by vertically arranging a positive conductive copper sheet (432) at one end of a positive plate (42) and mechanically connecting the positive conductive copper sheet with the positive plate; the fixed shell is a vertically arranged offset box body and comprises a fixed seat (45) on one side and a sealing cover (46) on the other side, and the sealing cover (46) is arranged on the outer side of the fixed seat (45) in a covering manner; the fixing seat (45) comprises a bottom plate (451) and side walls, a series of square slots (452) are formed in the middle of the bottom plate (451), the negative electrode plates (41) and the positive electrode plates (42) are alternately inserted into the square slots (452) at intervals to be fixed, at the moment, the conductive copper plates (43) are positioned in a cavity (453) in the middle of the fixing seat (45), and the negative electrode conductive copper plates (431) and the positive electrode conductive copper plates (432) are arranged on two sides of the cavity in parallel; the screw column (44) sequentially penetrates through the fixing seat (45), the conductive copper sheet (43) and the sealing cover (46) to be connected into a whole, and pouring sealant (49) is poured into a gap between the fixing seat (45) and the sealing cover (46); the corresponding position of the inner side surface of the box bin (2) is provided with holes for the screw columns (44) to pass through, and the outer side of the box bin is provided with a conductive connecting sheet which is connected with a power supply;

the bottom plate (451) of the fixing seat (45) is a round-angle rectangular plate, four corners of the bottom plate are correspondingly provided with four bosses (454), and two ends of the negative conductive copper sheet (431) and the positive conductive copper sheet (432) are respectively erected on the corresponding bosses (454); correspondingly, the number of the screw columns (44) is four, the screw columns are correspondingly screwed into holes in the boss (454) to be fixed, and mounting positions of the positive plate group and the negative plate group are reserved on the fixing seat (45) for the subsequent equal-proportion increase of the positive plate group and the negative plate group;

the two lossless phase-change conduction water pumps (5) are respectively arranged at two sides of the water catalyst generator (4), and the control wiring terminal of the lossless phase-change conduction water pumps is electrically connected with the control panel (3); the lossless phase-change conduction water pumps (5) are respectively arranged on the other two side walls, close to the water catalyst generator (4), in the cartridge (2), wherein water outlets (524) of the pump covers (52) are communicated with the purifying box (1), and the lossless phase-change conduction water pumps (5) comprise pump covers (52) and pump bodies (51); the center of the pump cover (52) is provided with a water inlet mesh (523), and a diversion channel (522) is arranged beside the water inlet mesh (523); the diversion channel (522) is an L-shaped pipe with an arc-shaped bending part, a water inlet at the bottom of the diversion channel is arranged on the pump cover (52), and a water outlet direction of the top water outlet hole (524) is parallel to the mounting side surface of the pump body and is upwards and perpendicular to the water inlet direction of the water inlet; a buckle is arranged at the joint of the pump cover (52) and the pump body (51); a drain hole (521) is arranged under the connection of the pump cover (52) and the pump body; an impeller (513) is arranged in a pump body cavity (512) of the pump body (51), and the center of the impeller (513) is opposite to the center of a water inlet mesh (523) of the pump cover; a cavity special-shaped port (511) is arranged in the pump body cavity (512), and the cavity special-shaped port (511) is opposite to water inlets of two diversion channels (522) of the pump cover; the periphery of the pump body cavity (512) is correspondingly provided with a clamping groove in a clamping way, and the outer side of the pump body (51) is fixed through a locking nut (54) after being clamped with the pump cover; a second sealing ring (53) is arranged between the lock nut (54) and the shell of the pump body (51) for sealing;

the self-cleaning component (6) comprises a purifying box self-cleaning module (61) and a box bin self-cleaning module (62), wherein the purifying box self-cleaning module (61) is arranged on the side wall of the purifying box (1), and the box bin self-cleaning module (62) is arranged on the side wall of the box bin (2); the cartridge self-cleaning module (62) is horizontally arranged on the opposite side wall of the installation surface of the water catalyst generator (4);

the drainage assembly (7) is arranged on a drainage outlet at the bottom of the purifying box (1); the water feeding component (8) is arranged on the outer side wall of the cartridge bin (2);

the filter screen plate (9) is paved on the connecting end surfaces of the purifying box (1) and the cartridge bin (2) and is assembled on a connecting position between the purifying box and the cartridge bin in a buckling mode; a slag collecting basket mounting hole site (92) is reserved on the filter screen plate (9), and the slag collecting basket (10) is arranged in the slag collecting basket mounting hole site (92);

the self-cleaning module (61) of the purifying box is arranged at the bottom of the purifying box (1) and comprises a first water feeding valve (611), a first nozzle (612) and a first hose (613), wherein the first nozzle (612) is fixed on the inner box wall of the purifying box (1), and holes are formed in the corresponding positions of the inner box wall for the first nozzle (612) to be inserted and fixed from outside; one end of the first hose (613) is connected with the first nozzle (612), and the other end of the first hose is connected with the first upper water valve (611); the control wiring end of the first water feeding valve (611) is connected with the control panel (3), the first water feeding valve (611) is externally connected with a threaded water inlet and is connected with a water feeding assembly, and the water feeding assembly is connected with a faucet for water feeding;

the cartridge self-cleaning module (62) comprises a water feeding valve II (621), a nozzle II (622) and a hose II (623), wherein the nozzle II (622) is fixed on the inner side wall of the cartridge (2) and is opposite to the water catalyst generator (4); one end of the second hose (623) is connected with the second nozzle (622), and the other end of the second hose is connected with the second upper water valve (621); the control wiring end of the water feeding valve II (621) is connected with the control panel (3), the water feeding valve II (621) is connected with a water feeding component through an external threaded water inlet, and the water feeding component is connected with a faucet for water feeding.

2. A multi-functional integrated purifier as recited in claim 1, wherein: the total number of the first nozzles (612) is 1-20, the number of the first nozzles (612) installed on each surface of the inner box wall is 0-6, the angles of the nozzle water outlet holes and the installation surface are 0-180 degrees, and the injection angles of at least two first nozzles are different.

3. A multi-functional integrated purifier as recited in claim 2, wherein: the drainage assembly (7) comprises a drainage valve (71) and a tractor (73), wherein a main drainage outlet of the drainage valve (71) is connected with a drainage pipe (75), an overflow water outlet is connected with an overflow hose (74), the other end of the overflow hose (74) is arranged on an overflow port of the purification box (1), a traction buckle extending out of the tail end of the drainage valve (71) is connected with a traction rope (72) of the tractor (73), and a control terminal of the tractor (73) is electrically connected with the control panel (3).

4. A multi-functional integrated purifier as recited in claim 3, wherein: the water feeding assembly (8) comprises a water feeding valve III (81), a water inlet hose (82) and a water level sensor (83), wherein a threaded water inlet (811) of the water feeding valve III (81) is connected with the water feeding assembly, and the water feeding assembly is connected with a faucet; a water outlet (812) of the upper water valve III (81) is connected with a water inlet hose (82), and the other end of the water inlet hose (82) is connected to a water inlet on the side wall of the cartridge bin (2); the water level sensor (83) is arranged on the inner side wall of the purifying box; the wiring terminal (813) of the upper water solenoid valve III (81) is electrically connected with the control panel (3).

5. The multi-functional integrated purifier of claim 4 wherein: a series of strip gaps (91) are formed in parallel on the filter screen plate (9); the cross section of the strip gap (91) is trapezoid with narrow upper part and wide lower part.

6. The method of using a multifunctional integrated purifier as recited in claim 5, wherein:

step one, switching on a power supply;

step two, starting a water feeding assembly (8): starting a water tap and a water separator, starting a start key, feeding an electric signal to a water feeding control end of a water feeding electromagnetic valve III (81) according to a button key indication of a control panel (3), pressing down tap water, starting automatic water feeding, adding water to a set position of a water tank, receiving a closing signal, and closing a water feeding valve core of the water feeding electromagnetic valve III (81);

step three, placing food materials to be purified into a purifying box (1);

step four, starting a water catalyst generator (4) and a lossless phase-change conduction water pump (5): according to the button indication of the control panel (3), starting the water catalyst generator (4) and the lossless phase-change conduction water pump (5) to start working, and enabling a purification functional group generated after the water catalyst generator (4) acts with water to enter the purification box (1) along with high-speed water flow formed by the lossless phase-change conduction water pump (5) to pass through the trapezoid holes of the filter screen plate (9) so as to purify food;

step five, starting a drainage assembly (7): after purification, the water catalyst generator (4) and the lossless phase-change conduction water pump (5) stop running at the same time, the water drainage assembly (7) is started, a water drainage command is received by the control panel (3), a signal is sent to electrify the tractor (73), the tractor (73) overcomes the spring force in the water drainage valve (71) through an internal gear driving mechanism, a valve core in the water drainage valve (71) is pulled by an externally extending traction rope (72) to conduct water drainage action, waste water is discharged out of the purification box (1) through the water drainage pipe (75), and solid residues cannot be reserved above the filter screen plate (9) through a positive small end gap of a trapezoid hole of the filter screen plate (9);

step six, collecting residues: after the water drainage is finished, residues on the filter screen plate (9) are collected and enter a residue collecting basket (10) to be uniformly poured out, and then the front upper surface of the filter screen plate (9) is gently wiped by a rag;

step seven, starting a self-cleaning module (61) of the purifying box: firstly, a self-cleaning module (61) of the purifying box is started to clean the purifying box (1), a signal is given to a first water feeding valve (611) to enable a port connected with a first nozzle (612) to be opened, tap water is pressed down, atomized water flow is sprayed out from the water flow through the first nozzle (612), and self-cleaning of the wall of the purifying box is carried out; during the period, the drain valve (71) of the drain assembly (7) is switched on and off according to a set program to better finish the self-cleaning function, and the filter screen plate (9) always plays a role in filtering and collecting slag;

step eight, starting a cartridge self-cleaning module (62): starting a cartridge self-cleaning module (62) to clean the water catalyst generator (4) and the cartridge (2), giving a signal to a water feeding valve II (621), enabling a port connected with a nozzle II (622) to be opened, enabling tap water to be pressed down, enabling water to flow through the nozzle II (622) to form mist water flow, spraying the mist water flow to enter the water catalyst generator (4), flushing the negative electrode plate (41) and the positive electrode plate (42) and between the electrode plates, and cleaning other side surfaces of the cartridge by the water flow sprayed out, so as to finish self-cleaning of the water catalyst generator (4) and the cartridge (2), wherein during the self-cleaning, a drain valve (71) of a drain assembly (7) is opened and closed according to a set program so as to better finish self-cleaning function, and a filter screen (9) always plays a role in filtering and collecting slag; so far, the purifier operation is ended.