CN109092771B

CN109092771B - Purifier with self-cleaning function and use method thereof

Info

Publication number: CN109092771B
Application number: CN201811038223.1A
Authority: CN
Inventors: 谭燕; 白云光; 牟波
Original assignee: China National Food Purification Technology Beijing Co ltd
Current assignee: China National Food Purification Technology Beijing Co ltd
Priority date: 2018-09-06
Filing date: 2018-09-06
Publication date: 2023-04-21
Anticipated expiration: 2038-09-06
Also published as: CN109092771A

Abstract

A purifier with self-cleaning function and a use method thereof are provided, which comprises a water tank, a control module, a purification component and a self-cleaning component, wherein the purification component comprises a water catalyst generator and a lossless phase-change conduction water pump; the water catalyst generator is vertically arranged on the side wall of the cartridge bin; the lossless phase-change conduction water pumps are arranged on two sides of the water catalyst generator; the self-cleaning assembly is arranged on the side wall of the water tank and comprises a water feeding valve, a nozzle and a hose, wherein the nozzle is fixed on the inner wall of the water tank, and the spray angle, the installation height, the horizontal distance and the like of the nozzle are flexibly arranged, so that no dead angle cleaning of the water tank is realized, and holes are formed in the corresponding positions of the inner tank wall for the nozzle to be inserted into and fixed from outside; the upper water solenoid valve is electrically connected with the control panel. The self-cleaning device for the water tank has the advantages of realizing the self-cleaning function of the water tank, realizing one-key operation, reducing the manual cleaning difficulty of the purifier, improving the cleanliness of the wall of the inner tank, prolonging the maintenance time and the service life of the generator, effectively guaranteeing the sanitary requirement of food processing equipment and improving the user experience.

Description

Purifier with self-cleaning function and use method thereof

Technical Field

The invention relates to the technical field of purifiers, in particular to a purifier with a self-cleaning function and a use method thereof.

Background

At present, the present purification or cleaning machine of a lot of models in the market has realized the intellectuality of purification process to a certain extent, has made things convenient for people to live, but it all does not possess interior chamber self-cleaning function, after the purification process is accomplished, interior tank wall of complete machine or food material surface can adhere to a part impurity, common clearance mode is, connect the spray gun that water tap was connected to the use extra configuration and wash interior tank wall or directly use the rag to clean the purpose of interior tank wall, the impurity manual cleaning degree of difficulty to the purification food material surface is great, need the user to wash with water alone further, the cleaning step is loaded down with trivial details, the user's intensity of labour has been increased in intangibly, and auxiliary fittings is many, cause a lot of inconvenience for the user.

Disclosure of Invention

In order to solve the problems, the invention provides a purifier with a self-cleaning function and a use method thereof, and aims to reduce the manual operation difficulty, simplify the cleaning process and realize one-key operation.

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

the utility model provides a purifier with self-cleaning function, includes water tank, control module, purification subassembly and self-cleaning subassembly, control module includes controls the panel, control panel locates water tank top surface one side, purification subassembly side vertical installation is on the lateral wall in the interior casket storehouse of purifier, with control panel electricity connection; the casket storehouse communicates its characterized in that with the water tank: the purification component comprises a water catalyst generator and a lossless phase-change conduction water pump; the water catalyst generator is vertically arranged on the side wall of the cartridge bin; the lossless phase-change conduction water pumps are arranged on two sides of the water catalyst generator; the self-cleaning assembly is arranged on the side wall of the water tank and comprises a water feeding valve, a nozzle and a hose, wherein the nozzle is fixed on the inner tank wall of the water tank, and holes are formed in the corresponding positions of the inner tank wall for the nozzle to be inserted into and fixed from outside; one end of the hose is connected with the nozzle, and the other end of the hose is connected with the water feeding electromagnetic valve; the control wiring terminal of the water feeding electromagnetic valve is connected with the control panel, the external threaded water inlet of the control wiring terminal is connected with the water feeding assembly, and the water feeding assembly is connected with the faucet for water feeding.

As the preferable technical scheme of the invention, the total number of the nozzles is 1-20, 0-6 nozzles are arranged on each surface of the inner box wall, the included angle between the water outlet holes of the nozzles and the mounting surface is 0-180 degrees, and the injection angles of at least two nozzles are different.

Further preferably, the nozzles on the opposite surfaces or adjacent surfaces of the inner box wall have different mounting heights, and the nozzles on the opposite surfaces have horizontal distance differences in a horizontal direction and are staggered.

Further preferably, the hose is connected with the spray water outlet of the upper water solenoid valve through a pipe clamp and a three-way connecting piece.

Further preferably, the water catalyst generator 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 negative plate and the positive plate are provided with dividing strips for further fixation; 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 preferably, 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, and the screw columns are correspondingly screwed into hole sites in the boss for fixing; the screw column is provided with a nut between the conductive copper sheet and the sealing cover for compression fixation, and one side of the sealing cover far away from the negative plate and the positive plate is provided with a first sealing ring for sealing.

Further preferably, the fixing seat is reserved with mounting positions of the positive plate group and the negative plate group for the subsequent equal-proportion addition of the positive plate group and the negative plate group.

Further preferably, the lossless phase-change conduction water pump comprises a pump cover, a pump body and a water spraying sealing cover; 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 guide channel is an L-shaped pipe with an arc bending part, a water inlet at the bottom of the water guide channel is arranged on the pump cover, and the water outlet direction of the water outlet at the top is parallel to the mounting side surface of the pump body upwards and is perpendicular to the water inlet direction of the water inlet; the water spraying sealing cover is arranged above the water outlet of the diversion channel; 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 nondestructive 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 water spraying sealing cover is communicated with the water tank.

More preferably, the water spraying sealing cover is a box type hollow shell horizontally covered on the diversion channel, and comprises a bottom plate, a side plate and a top plate, which are enclosed to form a spraying water storage cavity; a water inlet hole is formed in the bottom plate of the water inlet valve corresponding to the water outlet position of the diversion channel, and a plurality of nozzle openings are formed in the top plate of the water inlet valve; the spray water storage cavity is internally provided with a middle partition, so that each water inlet corresponds to the same number of nozzle openings; the included angle between the water outlet direction of the nozzle opening and the water outlet direction of the diversion channel is a, wherein a is more than or equal to 0 degrees and less than 180 degrees, and the included angle a between the water outlet directions of at least two nozzle openings and the diversion channel is different.

In addition, the invention also provides a using method of the purifier with the self-cleaning function, which is characterized by comprising the following steps:

step one, switching on a power supply;

step two, opening a water tap, injecting water into a water tank, and placing food to be purified into the water tank after adding water to a set position of the water tank;

step three, starting the purifier according to the button indication of the control panel, and starting the water catalyst generator and the lossless phase-change conduction water pump to work at the moment;

step four, after the purification is finished, the control panel is operated to instruct the drain valve to automatically drain water;

step five, starting a self-cleaning component, giving a signal to a water feeding valve, enabling a port connected with a nozzle to be opened, enabling tap water to be pressed down, enabling water to jet atomized water flow through the nozzle, and performing self-cleaning on the inner wall of the tank;

step six, after the flushing is finished, the water supply electromagnetic valve receives a closing signal, and the self-cleaning program is finished;

and step seven, closing a drain valve of the water tank.

According to the invention, the nozzle is designed on the side surface of the inner tank wall of the purifier, and the proper nozzle model is selected and the positions of the nozzles are reasonably arranged, so that if the cleaning of the four sides of the inner tank wall is to be realized, a plurality of nozzles are required to be designed on each single side, the water outlet holes of the nozzles and the mounting surface form a certain angle for spraying, and the mounting nozzle position of each surface has a certain height difference from the opposite surface and the adjacent surface so as to avoid dead angle cleaning failure caused by interference of sprayed water flow; in order to preliminarily realize the self-cleaning function, only one nozzle is required to be arranged on two opposite surfaces, and the nozzles are required to have height differences or horizontal distance differences.

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

1. the municipal tap water pressure is used, extra pressure is not required to be increased, the water inlet end of the nozzle is connected with a water supply hose directly, the water supply hose is connected with the water outlet end of the water supply valve, the water outlet of the nozzle is sprayed and closed by controlling the valve core of the spray interface of the water supply electromagnetic valve, and finally the purposes of self-cleaning of the inner tank wall of the purifying or cleaning machine and surface cleaning treatment of food materials are achieved;

2. the cleaning difficulty of the cleaning or cleaning machine is greatly reduced, the cleaning process is simplified, one-key operation is realized, the cleaning cost is greatly reduced, the user experience effect is improved, and the cleaning or cleaning machine is suitable for household, commercial and industrial equipment which needs to realize the cleaning or cleaning function;

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

4. 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.

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 view of the external structure of a water tank of a purifier with self-cleaning function according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of a water tank of a purifier with self-cleaning function according to the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view of the A-A cross-section of FIG. 2;

FIG. 4 is a schematic view of the overall structure of the water catalyst generator according to the present invention;

fig. 5 is a schematic view showing an internal structure of the water catalyst generator according to the present invention.

Fig. 6 is a schematic perspective view of a fixing base according to the present invention;

FIG. 7 is a schematic view of an internal connection structure of a fixing base according to the present invention;

FIG. 8 is a schematic view showing an installation state of the water catalyst generator according to the present invention;

FIG. 9 is a schematic diagram of the overall structure of the lossless phase-change conduction water pump according to the present invention;

FIG. 10 is a left side view of FIG. 9;

FIG. 11 is a schematic perspective view of the pump body of the lossless phase-change conduction water pump according to the present invention;

FIG. 12 is a schematic perspective view of a pump cap without a water spray closure according to the present invention;

FIG. 13 is a schematic view of a water spray closure according to the present invention;

fig. 14 is a front view of fig. 13.

Description of the drawings: 1-water tank, 11-inner tank wall, 2-cartridge, 3-control panel, 4-water catalyst generator, 41-negative plate, 42-positive plate, 43-conductive copper plate, 431-negative conductive copper plate, 432-positive conductive copper plate, 44-screw post, 45-fixed seat, 451-bottom plate, 452-Fang Caokong, 453-cavity, 454-boss, 46-sealing cap, 47-nut, 48-sealing ring one, 49-pouring sealant, 410-parting strip, 5-lossless phase-change conductive water pump, 51-pump body, 511-cavity special-shaped port, 512-pump cavity, 513-impeller, 52-pump cap, 521-blow-down hole, 522-diversion channel, 523-water inlet mesh, 53-water spray sealing cap, 531-water inlet hole, 532-spray water storage cavity, 533-nozzle opening, 534-middle partition, 54-locking nut, 55-sealing ring two, 6-upper electromagnetic valve, 7-nozzle, 8-hose, 9-pipe clip, 10-three-way connector.

Detailed Description

Hereinafter, embodiments of a self-cleaning purifier with a self-cleaning function and a 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 3, the invention provides a purifier with a self-cleaning function, which comprises a water tank 1, a control module, a purifying component and a self-cleaning component, wherein the control module comprises a control panel 3, the control panel 3 is arranged on one side of the top surface of the water tank 1, and the side surface of the purifying component is vertically arranged on the side wall of a box bin 2 in the purifier and is electrically connected with the control panel 3; the cartridge bin 2 is communicated with the water tank 1, and the purification assembly comprises a water catalyst generator 4 and a lossless phase-change conduction water pump 5; the water catalyst generator 4 is vertically arranged on the side wall of the cartridge 2; the lossless phase-change conduction water pump 5 is arranged on the side edge of the water catalyst generator 4; the self-cleaning assembly is arranged on the side wall of the water tank 1 and comprises an upper water valve 6, a nozzle 7 and a hose 8, wherein the nozzle 7 is fixed on the inner tank wall 11 of the water tank 1, and holes are formed in the corresponding positions of the inner tank wall 11 for the nozzle 7 to be inserted and fixed from outside; one end of a hose 8 is connected with the nozzle 7, and the hose 8 is connected with a spray water outlet of the upper water solenoid valve 6 through a pipe clamp 9 and a three-way connecting piece 10. The control wiring end of the water feeding valve 6 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 faucet for water feeding.

The total number of the nozzles 7 is 1-20, the number of the nozzles 7 arranged on each surface of the inner tank wall 11 is 0-6, the water outlet holes of the nozzles and the installation surface form an angle of 0-180 degrees, and the injection angles of at least two nozzles are different. The nozzles 7 on the opposite or adjacent surfaces of the inner box wall 11 are arranged at different heights, and the nozzles 7 on the opposite surfaces are horizontally arranged in a staggered manner with horizontal distance difference.

As shown in fig. 4 and 5, the water catalyst generator 4 includes a negative electrode sheet set, a positive electrode sheet set, a fixed housing, and a screw post 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; 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, wherein the sealing cover 46 is arranged on the outer side of the fixed seat 45; 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 sheets 43 are positioned in a cavity 453 in the middle of the fixing seat 45, and the negative electrode conductive copper sheets 431 and the positive electrode conductive copper sheets 432 are arranged on two sides of the cavity in parallel; the screw post 44 sequentially passes through the fixing seat 45, the conductive copper sheet 43 and the sealing cover 46, a nut 47 is arranged between the conductive copper sheet 43 and the sealing cover 46 for compression fixation, and a sealing ring I48 is arranged at one side of the sealing cover 46 far away from the negative plate 41 and the positive plate 42 for sealing; pouring sealant 49 is poured into the gap between the fixing seat 45 and the sealing cover 46.

As shown in fig. 6 and 7, the bottom plate 451 of the fixing base 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 111 and the positive conductive copper sheet 112 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. 4 and 5, 1-3 dividing strips 410 are arranged on the negative electrode plate 41 and the positive electrode plate 42 for further fixing; the dividing strip comprises an upper dividing strip and a lower dividing strip, the upper dividing strip and the lower dividing 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.

In use, as shown in fig. 8, the water catalyst generator 4 is installed vertically on its side, holes are formed in the corresponding positions of the inner side of the cartridge 2 for the screw posts 44 to pass through, and conductive connecting pieces are arranged on the outer side and 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.

In addition, a box bin self-cleaning component can be installed in the box bin 2 at the same time, and the box bin self-cleaning component is horizontally installed on the opposite side wall of the installation surface of the water catalyst generator and comprises a water feeding valve, a nozzle and a hose, wherein the nozzle is fixed on the inner side wall of the box bin and is opposite to the water catalyst generator; one end of the hose is connected with the nozzle, and the other end of the hose is connected with the water feeding electromagnetic valve; the control wiring end of the water feeding electromagnetic valve is connected with the control panel, the external thread water inlet is connected with the water feeding component, and the water feeding component is connected with the faucet for water feeding, and the part is not shown in the figure.

As shown in fig. 9 and 10, the lossless phase change conductive water pump 5 includes a pump cover 52 and a pump body 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 the water outlet direction of a water outlet at the top is upwards parallel to the mounting side surface of the pump body and is perpendicular to the water inlet direction of the water inlet; a water spraying sealing cover 53 is arranged above the water outlet of the diversion channel 522; 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. 11, 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 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 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 the pump cover; and a second sealing ring 55 is arranged between the locking nut 54 and the shell of the pump body 51 for sealing.

As shown in fig. 12 to 14, the water spraying cover 53 is a box-shaped hollow shell horizontally covering the diversion channel 522, and comprises a bottom plate, a side plate and a top plate, which are enclosed to form a spraying water storage cavity 532; the bottom plate is provided with water inlet holes 531 corresponding to the water outlet of the diversion channel 10, the top plate is provided with a plurality of nozzle openings 533, and the cavity of the injection water storage cavity 532 is internally provided with a middle partition 534, so that each water inlet hole corresponds to the same number of nozzle openings 533; the included angle between the water outlet direction of the nozzle 533 and the water outlet direction of the diversion channel 522 is a, wherein a is more than or equal to 0 degrees and less than 180 degrees, and the included angle a between the water outlet directions of at least two nozzle 533 and the diversion channel 522 is different. 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 water spraying sealing cover 53 is communicated with the water tank 1.

When in use, under the high-speed rotation action of the impeller 513 in the pump body 51, the water at rest outside the pump cover 52 is sucked into the pump body cavity 512 through the water inlet mesh 523 in the center of the pump cover 52 and is thrown to the wall surface around the pump body cavity 512 under the action of centrifugal force, the accelerated water flows are 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, enter the injection water storage cavity 532 along the curved surface of the flow channel through the water inlet 531, and then are ejected into the purified water tank through the nozzle 533, so that the surrounding rest water flows are stirred 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 51, so that the water accumulation-free effect is realized.

When the purifier with the water catalyst generator cartridge bin self-cleaning function is used, firstly, the power supply is turned on, materials to be purified are placed into the water tank 1, the water faucet is opened for water injection, the water catalyst generator 4 and the lossless phase-change conduction water pump 5 are started to work, and after a program setting and cleaning period, the drain valve of the water tank 1 is opened for draining. After the whole machine program is set, impurities can be adhered to the inner box wall, an operator can realize the self-cleaning function of the inner box wall only by pressing a control key or controlling a rotary knob, the set program automatically opens a valve port connected with a water feeding valve 6 to spray, tap water is pressed down, water is sprayed out of mist water flow through a nozzle 7 to clean the inner box wall 11 (at the moment, a water discharging valve port is in an open state), the impurities are gradually peeled off from the inner box wall due to the acting force of flushing water flow, and finally are discharged along the inclined plane of the bottom of a purifying water tank or gathered in a filter screen basket designed by the whole machine (the self-cleaning effect of the inner box wall is realized by manually taking out the basket to pour out and collect impurities). The surface cleaning treatment of the food material is the same as above. After the program is set to wash for a certain time, the upper water valve 6 receives a closing signal, the spraying valve port is closed, the spraying and washing are stopped, the self-cleaning program of the inner tank wall is finished, and the water draining valve port is closed. The box bin self-cleaning component is arranged and can be started at the same time, tap water is pressed down, water flows through the spray nozzle to form mist water flow to spray the water flow to the negative pole piece and the positive pole piece of the water catalyst generator and to wash the water flow between the negative pole piece and the positive pole piece, and meanwhile, the water flow sprayed out of the water flow washes other side surfaces of the box bin to finish the self-cleaning of the water catalyst generator 4 and the box bin 2.

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

1. The utility model provides a purifier with self-cleaning function, includes water tank (1), control module, purification subassembly and self-cleaning subassembly, control module includes control panel (3), control panel (3) are located water tank (1) top surface one side, purification subassembly side vertical installation is on the lateral wall in purifier inner box storehouse (2), with control panel (3) electricity connection; the box bin (2) is communicated with the water tank (1), and is characterized in that: the purification component comprises a water catalyst generator (4) and a lossless phase-change conduction water pump (5); the water catalyst generator (4) is vertically arranged on the side wall of the cartridge bin (2); the lossless phase-change conduction water pumps (5) are arranged at two sides of the water catalyst generator (4); the self-cleaning assembly is arranged on the side wall of the water tank (1) and comprises a water feeding valve (6), a nozzle (7) and a hose (8), wherein the nozzle (7) is fixed on the inner tank wall (11) of the water tank (1), and holes are formed in the corresponding positions of the inner tank wall (11) for the nozzle (7) to be inserted and fixed from outside; one end of the hose (8) is connected with the nozzle (7), and the other end of the hose is connected with the upper water solenoid valve (6); the control wiring terminal of the water feeding valve (6) is connected with the control panel (3), the external threaded water inlet of the control wiring terminal is connected with a water feeding assembly, and the water feeding assembly is connected with a faucet for water feeding;

the water catalyst generator (4) 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 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 negative electrode plate (41) and the positive electrode plate (42) are provided with dividing strips (410) for further fixation; 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 total number of the nozzles (7) is 1-20, 0-6 nozzles are arranged on each surface of the inner box wall (11), the included angle between the water outlet holes of the nozzles and the mounting surface is 0-180 degrees, and the injection angles of at least two nozzles are different;

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, and the screw columns are correspondingly screwed into holes in the boss (454) for fixing; a nut (47) is arranged between the conductive copper sheet (43) and the sealing cover (46) on the screw column (44) for compression fixation, and a sealing ring I (48) is arranged on one side of the sealing cover (46) far away from the negative plate (41) and the positive plate (42) for sealing;

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.

2. The purifier with self-cleaning function as recited in claim 1, wherein: the nozzles (7) on opposite surfaces or adjacent surfaces of the inner box wall (11) are different in mounting height, and the nozzles (7) on the opposite surfaces are staggered in a horizontal direction with horizontal distance difference.

3. The purifier with self-cleaning function as recited in claim 1, wherein: the hose (8) is connected with a spray water outlet of the upper water solenoid valve (6) through a pipe clamp (9) and a three-way connecting piece (10).

4. The purifier with self-cleaning function as recited in claim 1, wherein: the lossless phase-change conduction water pump (5) comprises a pump cover (52), a pump body (51) and a water spraying sealing cover (53); 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 guide channel (522) is an L-shaped pipe with an arc bending part, a water inlet at the bottom of the guide channel is arranged on the pump cover (52), and the water outlet direction of the water outlet at the top is parallel to the mounting side surface of the pump body upwards and is perpendicular to the water inlet direction of the water inlet; the water spraying sealing cover (53) is arranged above the water outlet of the diversion channel (522); 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 (55) is arranged between the lock nut (54) and the shell of the pump body (51) for sealing; 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 the water outlet of the water spraying sealing cover (53) is communicated with the water tank (1).

5. The purifier with self-cleaning function as recited in claim 4, wherein: the water spraying sealing cover (53) is a box-type hollow shell horizontally covered on the diversion channel (522), and comprises a bottom plate, a side plate and a top plate, and the bottom plate, the side plate and the top plate are enclosed to form a spraying water storage cavity (532); a water inlet (531) is arranged on the bottom plate of the water inlet and the top plate of the water inlet are corresponding to the water outlet of the diversion channel (522), and a plurality of nozzle openings (533) are arranged on the top plate of the water inlet and the top plate; a middle partition (534) is arranged in the cavity of the jet water storage cavity (532), so that each water inlet corresponds to the same number of nozzle openings (533); the included angle between the water outlet direction of the nozzle openings (533) and the water outlet direction of the diversion channel (522) is a, wherein a is more than or equal to 0 degrees and less than 180 degrees, and the included angle a between the water outlet directions of at least two nozzle openings (533) and the diversion channel (522) is different.

6. The method of using a self-cleaning purifier according to any one of claims 1-5, comprising the steps of:

step one, switching on a power supply;

step two, opening a water tap, injecting water into the water tank (1), and placing food to be purified into the water tank (1) after adding water to a set position of the water tank;

starting the purifier according to the button indication of the control panel (3), and starting the water catalyst generator (4) and the lossless phase-change conduction water pump (5) to work at the moment;

step four, after the purification is finished, the operation control panel (3) is operated to instruct the drain valve to automatically drain;

step five, starting a self-cleaning assembly, signalling a water feeding valve (6) to open a port connected with a nozzle (7), enabling tap water to be pressed down, enabling water to jet atomized water flow through the nozzle (7), and performing self-cleaning on an inner tank wall (11);

step six, after the flushing is finished, the water feeding valve (6) receives a closing signal, and the self-cleaning program is finished;

and step seven, closing a drain valve of the water tank (1).