CN209915898U

CN209915898U - Water tank type dish washer based on magnetic suspension technology

Info

Publication number: CN209915898U
Application number: CN201920185394.0U
Authority: CN
Inventors: 蓝剑
Original assignee: Guangdong Meiji Intelligent Technology Co Ltd
Current assignee: Guangdong Meiji Intelligent Technology Co Ltd
Priority date: 2019-02-01
Filing date: 2019-02-01
Publication date: 2020-01-10
Anticipated expiration: 2029-02-01

Abstract

The utility model discloses a water tank type dish washing machine based on magnetic suspension technology, which comprises a tank body embedded in a kitchen table, wherein the tank body is provided with a spraying tank and a washing tank; the intelligent touch control system also comprises a water inlet system, a water drainage system and an intelligent touch control system; the bottom surface of the cleaning tank is provided with an ultrasonic vibrator; the bottom surface of the spraying tank is provided with a magnetic suspension motor, the upper side surface of the bottom surface of the spraying tank is provided with a spraying rotating unit, the spraying blade is provided with a plurality of spraying nozzles, water in the inner cavity of the spraying blade is continuously sprayed out from the spraying nozzles in the process of being continuously pumped into the spraying blade, and the spraying blade automatically rotates under the action of water negative pressure. The utility model discloses can solve the problem of washing dishes of chinese meal family well, can also be applied to the washing that sprays of eating the material, design the basin formula simultaneously and be favorable to saving the kitchen space.

Description

Water tank type dish washer based on magnetic suspension technology

Technical Field

The utility model belongs to the kitchen equipment field, concretely relates to basin formula dish washer based on magnetic suspension technique.

Background

Dish washing is a necessary program after meals, and is generally not favored by people, and later, a dish washing machine appears, which helps people to solve the family contradiction of who washes dishes to a certain extent.

Early dish washer is not ideal, and the cleaning performance is not good, and the structure is complicated, washs the trouble, and some dish washers for example utilize the axis of rotation of motor directly to run through to the dish washer inner chamber, and the inner chamber also is equipped with and spouts the arm soon, but this kind of structure often can not unpick and wash, or unpick and wash very trouble, use the back throughout the year, on the contrary because dish washer itself is unclean to cause secondary pollution.

The dish washing machine is popular in Europe and America at first, but the food in Europe and America is single and plain due to the dietary habit, the specification of the tableware is single (mainly a dinner plate), after the Europe and America family finishes eating, the food is not seriously stained with the dinner plate, and the dish washing machine is easy to clean, so the dish washing machine with simple cleaning effect can meet the use requirements of most Europe and America families, and the monotonous specification of the tableware is convenient for machine cleaning. But this is not suitable for Chinese meals.

Chinese food is characterized by the diversification of cooking, frying, stewing slowly, baking and salt baking, and the like, the cooking skills of the five-flower eight-door type are studied, Chinese food is also diversified, the specifications of Chinese dishes are various, the attached pollution of heavy oil sticky food residues to tableware is very hard, the aspect is greatly different from western tableware, and the dish-washing machine popular in Europe and America is completely unsuitable for Chinese food families.

Chinese meal family requires more than a grade to the cleaning performance of dish washer than western-style family, except that the cleaning performance requires more highly, the residue of Chinese meal is more difficult to clear away, also very serious to "pollution" of dish washer itself, the residue of staying at sanitary dead angle very easily will breed the germ very fast, so the daily clearance of Chinese meal dish washer is maintained also very important partly, if do not do well will cause the pollution that the secondary is more serious, have bigger health and health hidden danger.

In addition, some dishwashers in the prior art are desktop machines which are not practical to be placed independently and used for kitchen space temporarily. Some dish washers are water tank type dish washers, and are integrated in a water tank, so that the space can be greatly saved.

Further, as described in chinese patent application No. cn201810998174.x, an apparatus for food disinfection and purification treatment is disclosed, which uses the principle of water catalyst, water is ionized and water catalyst is used to decompose water into free hydroxyl and hydrogen ions, and the food is mainly treated by removing pesticide residue through the free hydroxyl.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a problem to exist among the prior art, design a basin formula dish washer based on magnetic suspension technique, the utility model discloses can solve the problem of washing dishes of chinese meal family well, can also be applied to the washing that sprays of eating the material, design basin formula simultaneously and be favorable to saving the kitchen space.

Realize the utility model discloses the scheme that the purpose adopted does: a water tank type dish washing machine based on a magnetic suspension technology comprises a tank body embedded in a kitchen table, wherein a spray tank and a washing tank are arranged on the left and right of the tank body respectively;

the intelligent touch control device is characterized by further comprising a water inlet system, a water drainage system and an intelligent touch control system, wherein the water inlet system comprises a water faucet which is arranged on the upper side of the tank body; the sewage system comprises a first sewage pipe connected to a sewage port of the cleaning tank, a second sewage pipe connected to the spraying tank and a main sewage pipe, and the first sewage pipe and the second sewage pipe are converged at the main sewage pipe;

the intelligent touch system comprises an electric control box and a touch panel, the electric control box is arranged on one side of the cleaning tank, the touch panel is arranged on the upper surface of the tank body, and the electric control box is connected with the touch panel;

the spraying groove comprises a bottom surface, a side wall and a cover, the side wall is arranged along the periphery of the bottom surface, the side wall and the bottom surface form a lower groove, the cover is arranged at an upper opening of the spraying groove, and the cover is used for closing the spraying groove when closed;

the lower side surface of the bottom surface of the spraying tank is provided with a heating module and a magnetic suspension motor, the upper side surface of the bottom surface of the spraying tank is provided with a spraying rotating unit, and the spraying rotating unit corresponds to the magnetic suspension motor; the spraying rotating unit comprises a spraying base, a filter screen and a spraying blade, a spraying channel is arranged in the spraying base, the spraying channel extends upwards and is communicated to the inner cavity of the spraying blade, and a first rotor is arranged in the spraying channel; the first rotor comprises a first rotating shaft, spiral blades and a first magnet, the first magnet is positioned at the lower end of the rotating shaft and close to the position of the magnetic suspension motor, and the spiral blades are radially distributed in space around the first rotating shaft; the spraying base is provided with a circulating water inlet which is communicated with the spraying channel, and the periphery of the circulating water inlet is sleeved with the filter screen; the spraying blade is rotatably arranged at the upper end of the spraying base, the inner cavity of the spraying blade is communicated with the spraying channel, the spraying blade is provided with a plurality of spraying nozzles, and water in the inner cavity of the spraying blade is continuously sprayed out of the spraying nozzles in the continuous pumping process;

a bowl basket frame is arranged in the inner cavity of the spraying groove and is positioned above the spraying rotating unit;

and an ultrasonic vibrator is arranged on the lower side surface of the bottom surface of the cleaning tank and connected with the electric control box.

As a further improvement of the scheme, a side groove communicated with the cleaning groove is arranged on one side of the cleaning groove, and a hydroxyl generating device is arranged in the side groove.

As a further improvement of the scheme, a first holding strip and a second holding strip are arranged on two opposite inner walls of the cleaning tank in pairs and used for holding the sub-tanks of the cleaning tank, and the two ends of each sub-tank are held on the two holding strips and are placed in the inner cavity of the cleaning tank.

As a further improvement of the scheme, an integrated water control unit is arranged outside the overflow port of the spraying groove;

the integrated water control unit comprises a water inlet bin and an overflow bin which are arranged on the left and right sides, a water inlet pipe is arranged on one side of the lower end of the water inlet bin, which is far away from the overflow bin, a pressurizing water bin, an intelligent temperature control water bin and a buffering water bin are sequentially arranged in the water inlet bin along the water inlet direction, and the buffering water bin is transversely communicated to the overflow bin;

the aperture of the water channel is gradually narrowed along the water inlet direction of the pressurizing water sump, and the aperture is narrowest at the connection part with the intelligent temperature control water sump; a thermal control unit is arranged in the intelligent temperature control water sump, and the internal volume of the intelligent temperature control water sump is larger than that of the pressurizing water sump and the buffering water sump; the diameter of the water channel is gradually widened along the water inlet direction of the buffering water bin, the connection position of the buffering water bin and the intelligent temperature control water bin is narrowest, and the connection position of the buffering water bin and the overflow water bin is widest;

the outer side of the overflow bin is closed, one side of the overflow bin, facing the overflow port of the spraying groove, is open, and the size of an opening of the open side of the overflow bin is matched with the overflow port and is used for being connected with the overflow port in a matched mode; a mixed water bin and an overflow pipe opening are arranged in the overflow bin, one side of the mixed water bin, facing the overflow opening, is communicated to the spraying groove, and the mixed water bin is transversely communicated with the buffering water bin; the overflow pipe opening is positioned inside the mixing water bin and positioned at the upper part inside the mixing water bin, and the overflow pipe opening extends downwards and is connected to the overflow channel.

As a further improvement of the scheme, the water inlet bin is square box-shaped, the pressurizing water bin, the intelligent temperature control water bin and the buffering water bin are sequentially formed by separating a first baffle plate and a second baffle plate, and the water inlet direction is in an S-shaped trend in the water inlet bin;

the thermal control unit extends along the waterway direction and is positioned on one side of the advancing direction of the waterway;

the height of the water inlet bin is higher than that of the overflow bin, the connecting opening of the pressurizing water bin and the intelligent temperature control water bin is higher than that of an overflow pipe opening in the overflow bin, and the height of the overflow pipe opening is higher than that of the connecting opening of the intelligent temperature control water bin and the buffering water bin.

As a further improvement of the scheme, a second rotor is arranged in the magnetic suspension motor, and the second rotor comprises a second rotating shaft and a second magnet; the second magnet is positioned at the position where the upper end of the rotating shaft is close to the bottom surface of the spraying tank.

As a further improvement of the scheme, the spray base comprises a unit base and a spray channel shell, the unit base comprises a fixed bottom plate, the fixed bottom plate is arranged on the bottom surface of the spray channel, a concave limiting groove is arranged in the middle of the fixed bottom plate, and a plurality of first clamping columns are arranged on the outer side of the limiting groove;

the first magnet of the first rotor is placed in the limiting groove;

the lower end of the spray channel shell is provided with a second clamping column, the second clamping column is buckled with the first clamping column, the clamping column raises a gap between a fixed bottom plate of the unit base and the spray channel shell, and the gap is formed into the circulating water inlet;

the spraying channel is arranged in the spraying channel shell, the spraying channel is communicated up and down, and the first rotor is arranged in the spraying channel.

As a further improvement of the scheme, the fixed bottom plate of the unit base is detachably fixed on the bottom surface of the spraying groove.

As a further improvement of the scheme, the fixed bottom plate is detachably fixed on the bottom surface of the spraying groove in a magnetic attraction or buckling mode.

As a further improvement of the scheme, the spraying blades are rotatably connected to the upper end of the spraying channel shell through the rotating sleeve, and the spraying blades can freely rotate in the horizontal plane around the upper end of the spraying channel shell.

As a further improvement of the scheme, the spraying blade comprises an upper cover and a lower cover which are combined up and down, and a pre-spraying space is formed between the upper cover and the lower cover; the spraying swing arm comprises a plurality of swing arms along the horizontal direction and is radially distributed around the rotating center;

the middle of the lower cover is provided with an upper water gap corresponding to the spraying channel; a first surrounding dam is arranged along the edge of the upper water gap and protrudes upwards out of the upper surface of the lower cover, one end of the first surrounding dam extends to one side of the edge of the lower cover, a first pressurizing narrow opening is arranged between the other end of the first surrounding dam and the other side of the edge of the lower cover, and the first pressurizing narrow opening is communicated with the upper water gap and the pre-spraying space;

the top surface of the middle part of the upper cover is closed, a second dam is arranged at the corresponding position of the lower surface of the upper cover, the second dam protrudes downwards out of the lower surface of the upper cover, one end of the second dam extends to one side of the edge of the upper cover, a second pressurizing narrow opening is arranged between the other end of the second dam and the other side of the edge of the upper cover, and the second pressurizing narrow opening is communicated with the spraying channel and the pre-spraying space;

the second box dam and the mutual corresponding lock of first box dam are sealed, and second pressure boost slot and the mutual corresponding intercommunication of first pressure boost slot.

As a further improvement of the scheme, the water faucet comprises a cold water faucet and a hot water faucet; the cold and hot water faucet is positioned between the spraying tank and the cleaning tank and comprises a cold and hot water toggle switch, a faucet fixing frame and a pull faucet, wherein the pull faucet is also provided with a button switch, and can be taken down from the faucet fixing frame and pulled for extension use; the water purification faucet is arranged on one side of the cleaning tank and comprises a water purification switch and a water purification pipeline, and the water purification pipeline is communicated to the lower part of the tank body and is connected to the water purifier.

The utility model discloses a solve other schemes of prior art problem design: a magnetic suspension technology-based spray cleaning system comprises a spray tank, wherein the spray tank is provided with a water outlet, the side wall of the spray tank is provided with an overflow port,

the lower side surface of the bottom surface of the spraying groove is provided with a heating module and a magnetic suspension motor, and the magnetic suspension motor is positioned in the middle of the lower side surface of the bottom surface of the spraying groove;

the upper side surface of the bottom surface of the spraying groove is provided with a spraying rotating unit, and the spraying rotating unit corresponds to the bottom surface of the magnetic suspension motor separated from the spraying groove in the vertical direction;

the spraying rotating unit sequentially comprises a spraying base, a filter screen and a spraying blade from bottom to top, a spraying channel is arranged in the spraying base, the spraying channel extends upwards and is communicated to an inner cavity of the spraying blade, and a first rotor is arranged in the spraying channel;

the first rotor comprises a first rotating shaft, spiral blades and a first magnet, the first magnet is positioned at the lower end of the rotating shaft and close to the position of the magnetic suspension motor, and the spiral blades are radially distributed in space around the first rotating shaft;

the lower end of the spraying base is provided with a circulating water inlet which is communicated with the spraying channel, and the periphery of the circulating water inlet is sleeved with the filter screen; when the first rotor is driven to rotate by the magnetic suspension motor, water passes through the filter screen and is driven by the helical blades to flow upwards along the spraying channel from the circulating water inlet and flows into the inner cavity of the spraying blades;

the spraying blade is arranged at the upper end of the spraying base and is rotatably and movably connected with the spraying base, the inner cavity of the spraying blade is communicated with the spraying channel, a plurality of spraying nozzles are arranged on the spraying blade, water in the inner cavity of the spraying blade is continuously sprayed out from the spraying nozzles in the continuous pumping process, and the spraying blade automatically rotates under the action of water flow negative pressure;

and a bowl basket frame is arranged in the inner cavity of the spraying groove and is positioned above the spraying rotating unit.

Preferably, an integrated water control unit is arranged outside the overflow port of the spraying groove;

Preferably, the water inlet bin is square box-shaped, the pressurizing water bin, the intelligent temperature control water bin and the buffering water bin are sequentially formed by separating a first baffle plate and a second baffle plate, and the water inlet direction is in an S-shaped trend in the water inlet bin;

Preferably, a second rotor is arranged in the magnetic suspension motor, and the second rotor comprises a second rotating shaft and a second magnet; the second magnet is positioned at the position where the upper end of the rotating shaft is close to the bottom surface of the spraying tank.

Preferably, the spraying base comprises a unit base and a spraying channel shell, the unit base comprises a fixed bottom plate, the fixed bottom plate is arranged on the bottom surface of the spraying groove, a concave limiting groove is arranged in the middle of the fixed bottom plate, and a plurality of first clamping columns are arranged on the outer side of the limiting groove;

the first magnet of the first rotor is placed in the limiting groove;

Preferably, the fixing bottom plate of the unit base is detachably fixed on the bottom surface of the spray groove.

Preferably, the fixed bottom plate is detachably fixed on the bottom surface of the spraying tank in a magnetic attraction or buckling mode.

Preferably, the spray blade is rotatably connected to the upper end of the spray channel housing through a rotary sleeve, and the spray blade can freely rotate in the horizontal plane around the upper end of the spray channel housing.

Preferably, the spraying blade comprises an upper cover and a lower cover which are combined up and down, and a pre-spraying space is formed between the upper cover and the lower cover; the spraying swing arm comprises a plurality of swing arms along the horizontal direction and is radially distributed around the rotating center;

Preferably, the intelligent touch control system further comprises an intelligent touch control system, the intelligent touch control system comprises an electric control box and a touch control panel, the electric control box is connected with the heating module and the magnetic suspension motor, and the touch control panel is connected with the electric control box.

Drawings

Figure 1 is the embodiment of the utility model provides a spatial structure sketch map of cleaning system sprays

FIG. 2 is a schematic view of the three-dimensional structure of the trough body in the embodiment of the present invention

FIG. 3 is another schematic perspective view of the trough body according to an embodiment of the present invention

FIG. 4 is a schematic view of the three-dimensional structure of the spray tank in the embodiment of the present invention

FIG. 5 is a schematic view of a three-dimensional structure of an integrated water control unit in an embodiment of the present invention

FIG. 6 is a schematic view of the rear side structure of the integrated water control unit in the embodiment of the present invention

FIG. 7 is a schematic view of the bottom structure of the spray tank in the embodiment of the present invention

FIG. 8 is another schematic view of the bottom structure of the spray tank of the embodiment of the present invention

FIG. 9 is a schematic view of the inner structure of the spray tank of the embodiment of the present invention

FIG. 10 is a schematic structural view of a basket rack according to an embodiment of the present invention

FIG. 11 is a schematic view of the spraying rotary unit located in the spraying trough according to the embodiment of the present invention

FIG. 12 is a schematic structural view of a spray driving system according to an embodiment of the present invention

FIG. 13 is a schematic perspective view of the spraying rotation unit in the embodiment of the present invention

FIG. 14 is another schematic perspective view of the spray rotating unit according to the embodiment of the present invention

Fig. 15 is a schematic perspective view of a magnetic levitation motor according to an embodiment of the present invention

Fig. 16 is a schematic perspective view of a second rotor of a magnetic levitation motor according to an embodiment of the present invention

FIG. 17 is a schematic view of an exploded structure of a spraying rotation unit in an embodiment of the present invention

FIG. 18 is a schematic view of the water control direction of the spraying rotary unit in the embodiment of the present invention

FIG. 19 is a schematic view of the water control direction of another angle of the spraying rotary unit in the embodiment of the present invention

FIG. 20 is a schematic view of an installation structure of the first rotor and the unit base according to an embodiment of the present invention

FIG. 21 is a schematic structural view of a unit base according to an embodiment of the present invention

FIG. 22 is a schematic structural diagram of the first rotor in the embodiment of the present invention

FIG. 23 is a schematic structural view of the lower cover of the spray blade in the embodiment of the present invention

FIG. 24 is a schematic structural view of the upper cover of the spray blade in the embodiment of the present invention

Detailed Description

The following describes the embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 to 11, the water tank type dishwasher based on the magnetic levitation technology of the present embodiment includes a tank body embedded in a kitchen countertop, and a spray tank 1 and a cleaning tank 2 are respectively disposed on the left and right of the tank body.

The basin formula dish washer of this embodiment still includes into water system, lower water system and intelligent touch system.

The water inlet system comprises a cold and hot water faucet 3, a water purification faucet 4 and a water inlet part of an integrated water control unit 6.

Cold and hot tap 3 installs on the cell body, is located between spray tank 1 and washing tank 2, and it includes hot and cold water toggle switch 30, tap mount 31, and pull tap 32 is equipped with button switch 320 again on the pull tap 32, and pull tap 32 can be followed and taken off on tap mount 31 and the pull extends the use.

The purified water tap 4 is arranged at one side of the cleaning tank 2 and comprises a purified water switch 40 and a purified water pipeline 41, and the purified water pipeline 41 is communicated to the lower part of the tank body and is connected to the water purifier.

The sewage system includes a sewage piping system 5, an overflow port 230 of the wash bowl 2, and an overflow portion of the integrated water control unit 6.

The sewer piping system 5 includes a main sewer pipe 54 located at a rear section of the sewer piping system 5 and connected to a sewer line of the house; a first downcomer 51 is communicated with a downcomer of the cleaning tank 2 and a main downcomer 54, a second downcomer 52 is communicated with a downcomer of the spraying tank 1 and the

main downcomer

54, and 2 overflow pipes 53 are respectively connected to overflow ports of the two tanks; since the sink depth of the cleaning tank 2 is shallower than that of the spray tank 1, the second down pipe 52 is laterally extended to the lower side of the

cleaning tank

2, and 2 overflow pipes 53 are connected to the second down pipe 52. Between the lower mouth of a river of second downcomer 52 and spray groove 1, be equipped with the intelligence and control down water unit 55, the intelligence is controlled down water unit 55 and is connected with spray groove 1 and intelligent touch-control system, and the intelligent control sprays the on-off state of the mouth of a river under groove 1.

The overflow port 230 of the washing tub 2 is provided at a high position of the side wall of the washing tub, the overflow port 230 penetrates the inner wall 23 and the outer wall 22 of the washing tub, and when the inside of the tub is filled up to the overflow port, water overflows from the overflow port 230, and the overflow port 230 is connected to one of the overflow pipes.

The integrated water control unit 6 is arranged at an overflow port 16 of the outer side wall 12 of the spraying groove 1, particularly at one side facing the cleaning groove 2, and is positioned between the crack of the two grooves; the overflow port 16 of the spray tank 1 penetrates through the inner side wall 122 and the outer side wall 12 of the spray tank; as in fig. 1, 4, 5, 6, 9 and 11.

Integrative accuse water unit 6 is equipped with oral siphon 61 including controlling income water storehouse 610 and the overflow storehouse 620 that sets up, the one side that the overflow storehouse 620 was kept away from to income water storehouse 610 lower extreme, oral siphon 61 downwardly extending is connected to the link of intelligence switch inlet tube. Along the water inlet direction, a pressurized water bin 610a, an intelligent temperature control water bin 610b and a buffer water bin 610c are sequentially arranged in the water inlet bin, and the buffer water bin 610c is transversely communicated to the overflow water bin 620.

The diameter of the water path of the pressurizing water sump 610a is gradually narrowed along the water inlet direction, and the connecting position of the pressurizing water sump 610a and the intelligent temperature control water sump 610b is narrowest; a thermal control unit 611 is arranged in the intelligent temperature control water sump 610b (in other embodiments, the thermal control unit 611 may further include a liquid level sensing module for sensing a height of a water level in the spray tank), and a sump volume of the intelligent temperature control water sump 610b is greater than the pressurized water sump 610a and the buffer water sump 610 c; the diameter of the water channel of the buffering water bin 610c is gradually widened along the water inlet direction, the connection position of the buffering water bin 610c and the intelligent temperature control water bin 610b is narrowest, and the connection position of the buffering water bin 610c and the overflow bin 620 is widest.

The water inlet bin 610 is square box-shaped, the pressurizing water bin 610a, the intelligent temperature control water bin 610b and the buffering water bin 610c are formed by sequentially separating a first baffle 612 and a second baffle 613, and the water inlet direction is in an S-shaped trend in the water inlet bin 610.

The thermal control unit 611 extends along the water path direction and is located at one side of the water path advancing direction.

The height of the water inlet bin 610 is higher than that of the overflow bin 620, the height of a connecting port between the pressurized water bin 610a and the intelligent temperature-control water bin 610b is higher than that of an overflow pipe 621 in the overflow bin 620, and the height of the overflow pipe 621 is higher than that of a connecting port between the intelligent temperature-control water bin 610b and the buffer water bin 610 c.

The outer side of the overflow bin 620 is closed, one side of the overflow opening 16 facing the outer side wall 12 of the spray tank 1 is open, and the size of the opening of the open side of the overflow bin is matched with that of the overflow opening 16 and is used for being connected with the overflow opening 16 in a matched mode.

A mixed water bin 622, an overflow pipe orifice 621 and a mounting screw hole 623 are arranged in the overflow bin 620; one side of the mixed water bin 622 facing the overflow port 16 is communicated to the spraying groove 1, and the mixed water bin 622 is transversely communicated with the buffering water bin 610 c; the overflow pipe orifice 621 is located inside the mixing water bin 622 and at the upper part inside the mixing water bin 622, so that the height of the overflow pipe orifice 621 is higher than the connecting port between the mixing water bin 622 and the buffer water bin 610 c; the overflow pipe hole 621 is connected with an overflow passage 62 downward, and the overflow passage 62 is connected to one of the overflow pipes of the sewage system.

As shown by the dotted arrows in fig. 5 and 6, the water flow direction inside the integrated water control unit 6.

The upper surface 20 of the cleaning tank 2 is flush with the upper surface 10 of the spraying tank, the bottom surface 231 of the cleaning tank 2 is not a plane but an inclined surface, the lower water gap 232 is arranged at the lowest part of the inclined surface, and in other embodiments, a plurality of radial indentations centered on the lower water gap 232 can be further arranged on the bottom surface 231 of the cleaning tank, and the indentations extend along the bottom surface 231 for guiding the water to drain.

On two opposite inner walls 23 of the cleaning tank 2, a first rack 233 and a second rack 234 are provided in pairs for placing the sub-tank 24 of the cleaning tank, and both ends of the sub-tank 24 are placed on the two racks and placed in the inner cavity of the cleaning tank. Ultrasonic vibrators are arranged on the lower side surface of the bottom surface of the cleaning tank 2, preferably 2 ultrasonic vibrators are arranged, and a resonance loop is formed; when the cleaning tank 2 is used, food materials to be cleaned, such as vegetables and fruits, can be put into the tank, water is stored, the ultrasonic vibrator is turned on, and the food materials are cleaned by ultrasonic waves.

And a side groove communicated with the cleaning groove is arranged on one side of the cleaning groove, and a hydroxyl generating device is arranged in the side groove.

At the front side of washing tank 2, the side that is close to the user is equipped with intelligent touch system's automatically controlled box 21, built-in touch-control circuit and circuit module, and the top of automatically controlled box 21 is equipped with touch panel 201, and touch panel 201's surface flushes with the upper surface of washing tank 2. Through touch panel, steerable the utility model discloses an all automatically controlled switches, for example ultrasonic vibrator switch, water unit switch under intelligence accuse, integrative accuse water unit switch that entries sprays groove operating condition switch etc.

The upper surface of the spraying groove 1 is provided with a cover 11, the cover 11 is provided with an uncovering handle 110, the cover 11 is used for sealing the spraying groove 1, articles needing to be sprayed and cleaned, such as tableware of bowls and chopsticks, vegetables and fruits and food materials and the like, can be placed in the spraying groove 1, and the cover 11 is used for sealing and sealing the spraying groove when the spraying and washing are carried out. The upper surface of the lid 11 is flush with the upper surface 10 of the spray channel 1.

As shown in fig. 9 and 10, a bowl basket frame 17 is arranged in the spray tank 1, and the bowl basket frame 17 is placed in the spray tank through a support leg 170 and is lifted up, so that the bowl basket frame is kept away from the spray rotating unit 8 in the spray tank.

The lower side surface of the bottom surface 120 of the spray tank 1 is provided with a heating module 14, a magnetic suspension motor 15 and a water outlet 121. The bottom surface 121 of the spray groove is not a plane but an inclined surface, and the drain port 121 is arranged at the lowest position of the inclined surface. The magnetic levitation motor 15 is disposed at the center of the bottom surface, and a mounting plane 150 is disposed at the bottom surface. The heating module 14 is also provided with a mounting plane position 140 on the bottom surface, which can be used for heating the bottom surface of the spray tank, so that the water in the spray tank 1 can be heated, and the water sprayed by the spray rotating unit 8 is hot water.

As shown in fig. 12, the spray driving system for the spray tank includes a magnetic suspension motor 15 installed at the lower side of the spray tank bottom 120, and a spray rotating unit 8 installed at the upper side of the spray tank bottom 120 corresponding to the position of the magnetic suspension motor, wherein the magnetic suspension motor 15 and the spray rotating unit 8 are hermetically separated by the spray tank bottom 120.

As shown in fig. 8, 15 and 16, a second rotor 151 is disposed in the magnetic levitation motor 15, and the second rotor 151 includes a second rotating shaft 1512 and a second magnet 1511; the second magnet 1511 is positioned at the upper end of the shaft proximate to the bottom surface 120 of the spray tank.

As shown in fig. 22, a first rotor 82 is provided in the shower rotating unit 8, the first rotor 82 includes a first rotating shaft 820, a spiral blade 821 and a first magnet 822, the first magnet 822 is located at a lower end of the rotating shaft and is adjacent to the second magnet 1511, the spiral blade 821 is radially distributed in a space around the first rotating shaft 820, and when the first rotor rotates, water is driven by the spiral blade to flow upward.

As shown in fig. 13 to 24, the spraying rotation unit 8 sequentially includes a spraying base 80, a filter screen 9 and a spraying blade 81 from bottom to top, a spraying passage is provided in the spraying base 80, the spraying passage extends upward and communicates with an inner cavity of the spraying blade 81, the first rotor is provided in the spraying passage, and the spraying base is fixed on the bottom surface of the spraying tank. The lower end of the spraying base 80 is provided with a circulating water inlet, and the filter screen 9 is sleeved on the periphery of the circulating water inlet. When the first rotor 82 rotates, water passes through the screen and is driven by the spiral blades of the first rotor from the circulation water inlet, so that the water flows upward in the direction driven by the spiral blades 821 and flows into the inner cavity of the shower blade 81.

The spray blade 81 is arranged at the upper end of the spray base 80 and is rotatably and movably connected with the spray base, the inner cavity of the spray blade 81 is communicated with the spray channel, and water is sequentially pumped into the inner cavity of the spray blade from the outside of the filter screen, the circulating water inlet and the spray channel by the helical blade; the spraying blade is provided with a plurality of spraying nozzles 7, and water in the inner cavity of the spraying blade is continuously sprayed out from the spraying nozzles 7 in the continuous pumping process.

As indicated by the black arrows in fig. 18 and 19, the water flow direction.

The spraying base 80 comprises a unit base 803 and a spraying channel shell 802, as shown in fig. 21, the unit base 803 is used for being fixed on the bottom surface of a spraying tank during spraying operation, and can be conveniently detached for cleaning when not in operation, the unit base 803 and the bottom surface of the spraying tank are not fixed but are detachable, for example, the unit base can be fixed on the bottom surface of the spraying tank in an absorption mode by magnetic attraction, and can also be fixed in a buckling mode, so that the unit base is fixed during spraying operation and can be conveniently detached, and therefore the bottom surface of the spraying tank and the spraying rotating unit 8 are cleaned; the unit base 803 comprises a fixed bottom plate fixed on the bottom surface of the spray tank, a concave limiting groove 8032 is arranged in the middle of the fixed bottom plate, and a plurality of first clamping columns 8031 are arranged outside the limiting groove 8032. The first magnet 822 of the first rotor is placed in the limit slot 8032.

The lower end of the spray channel housing 802 is provided with a second clamping column 8021, the second clamping column 8021 and the first clamping column 8031 are buckled with each other, the clamping column raises a gap between the fixed bottom plate of the unit base 803 and the spray channel housing 802, the gap is formed into the circulating water inlet, and water enters the spray channel from the circulating water inlet.

The spraying channel is arranged in the spraying channel shell 802, the spraying channel is communicated up and down, the first rotor 82 is arranged in the spraying channel, the first rotor 82 is driven by the magnetic suspension motor to rotate at a high speed in the spraying channel, and water is pumped into the spraying blades upwards along the spraying channel.

The spraying blade 81 is rotatably connected to the upper end of the spraying channel housing 802 through a rotating sleeve 801, and the spraying blade 81 can freely rotate in the horizontal plane around the upper end of the spraying channel housing 802.

The spraying blade 81 includes an upper cover 810 and a lower cover 811 which are combined with each other, as shown in fig. 23 and 24, the spraying blade of the present embodiment is a straight-line shape, and includes a left swing arm and a right swing arm, and in other embodiments, may further include a plurality of swing arms radially distributed along the center.

The upper surface 8114 of the lower cap 811 faces the upper cap 810, and the lower surface 8104 of the upper cap 810 faces the lower cap.

A first convex dam 8113 is arranged along the peripheral side of the lower cover 811, and the first convex dam 8113 protrudes upwards from the upper surface 8114 of the lower cover; a second convex dam 8105 is arranged along the peripheral side of the upper cover 810, and the second convex dam 8105 protrudes downwards from the lower surface 8104 of the upper cover; first protruding dam 8113 and second protruding dam 8105 have raised the distance between upper cover and the lower cover, make and form the space that sprays in advance between upper cover and the lower cover, the mutual lock of first protruding dam and second protruding dam seals the periphery in space sprays in advance.

An upper water gap 8110 is arranged in the middle of the lower cover 811, and the upper water gap 8110 corresponds to the spraying channel; be equipped with first box dam 8112 along the edge of upper nozzle 8110, first box dam 8112 upwards protrudes out upper surface 8114 of lower cover, and first box dam 8112 one end extends to the first protruding dam of one side, is equipped with first pressure boost slot 8111 between the first protruding dam of the other end and opposite side, and first pressure boost slot 8111 communicates upper nozzle 8110 and pre-spray space.

The middle top surface 8101 of the upper cover is closed, a second box dam 8103 is arranged at a position corresponding to the lower surface 8104 of the upper cover, the second box dam 8103 protrudes downwards out of the lower surface 8104 of the upper cover, one end of the second box dam 8103 extends to a second convex dam at one side, a second pressurizing narrow opening 8102 is arranged between the other end of the second box dam and the second convex dam at the other side, and the second pressurizing narrow opening 8102 is communicated with the spray channel and the pre-spray space; the second box dam 8103 is correspondingly buckled and sealed with the first box dam 8112, and the second pressurizing narrow opening 8102 is correspondingly communicated with the first pressurizing narrow opening 8111.

The

narrow pressurizing openings

8102 and 8111 are arranged on one sides close to the

convex dams

8105 and 8113, on one hand, the negative pressure of water flow is utilized to drive the spraying blades 81 to rotate spontaneously, and on the other hand, the spraying force can be improved.

A water outlet 812 is further arranged in the lower cover 811, and the water outlet 812 penetrates through the upper surface and the lower surface of the lower cover and can be used for draining accumulated water in the pre-spraying space.

As shown in fig. 13 and 24, a plurality of spray nozzles 7 are provided on the upper cover 810, and the spray nozzles 7 penetrate the upper and lower surfaces of the upper cover and communicate with the pre-spray space in the spray blade 81. The arrangement of the plurality of spray nozzles 7 on the upper cover is asymmetric, the spray directions of the spray nozzles are different, the spray nozzles and the vertical direction form different angles to emit, and the distances between the spray nozzles and the rotation center of the spray blade are different. Considering that the water jet column needs to be upwards jetted to the bowl and other articles in the bowl basket frame above, and considering the self-rotation of the spraying blades 81, the number, the distribution position and the emergent angle of the spraying nozzles can be reasonably designed, and the multi-angle and dead-angle-free spraying cleaning is realized to the greatest extent.

This embodiment is basin formula dish washer based on magnetic suspension technique, and the washing tank can use as daily kitchen basin, has increased the ultrasonic cleaning function in addition, can put into wherein eating the material during the use to with water submergence edible material, open the ultrasonic vibrator and open the washing mode, can carry out ultrasonic cleaning to edible materials such as vegetables and fruits. Bowls, food materials and the like can be placed in the spraying groove for cleaning, after the cover is covered, according to the water temperature requirement, for example, the bowls can be washed by high-temperature water, and the food materials can be washed by normal-temperature water; the during operation sprays, and the lower mouth of a river that the water unit closed the groove of spraying is controlled to the intelligence, and water is sprayed the rotary unit and is sprayed away the back, falls back and sprays the tank bottom, is sprayed the rotary unit again and sprays away, makes water obtain cyclic utilization, washs more water conservation than traditional. After the spraying work is finished, the cleaning object can be taken out, the bowl basket frame is taken out, the whole spraying rotary unit is taken down, other sanitary dead angles are not formed at the bottom of the spraying tank except for a water outlet, the conventional maintenance and cleaning of the spraying tank are very convenient, and the taken-down spraying rotary unit is also convenient to clean.

The spraying and cleaning system can also utilize a timing function, and utilize the intelligent touch system to control the spraying and cleaning system to start a spraying and cleaning program at regular time, for example, the spraying and cleaning system can be controlled to start the spraying and cleaning program at 1-3 points every morning every day, and the automatic spraying and cleaning can be controlled to be performed once every 5 hours, so that the spraying groove can be used as a storage space, bowls and the like can be stored in the spraying and cleaning system for a long time, and the daily life is facilitated.

The magnetic suspension unobstructed cleaning module is based on the principle that a magnetic suspension rotor has no friction and physical scouring, so that the defects that the traditional dish-washing machine cannot clean up and consumes more energy can be greatly overcome under the condition that fresh food, bowls and chopsticks are scoured by larger physical scouring. The multi-frequency ultrasonic cleaning module is based on an ultrasonic technology, utilizes ultrasonic waves to clean the surfaces of fresh food or bowls and chopsticks, and has great cleaning capability on visible and invisible surface adsorbates. The platinum ion purification technology is an innovative technology which is developed based on a core technology of physical electrocatalysis, water is used as a medium, the platinum ion purification technology is applied to removing fresh antibiotics and pesticide residues, and the data obtained by detection indicates that the removal rate of the pesticide residues and the antibiotic hormones of food is as high as 99.9 percent, the platinum ion purification technology is a great gospel for the food safety of people, and an insurance is provided for the food safety of China. The following is the specific information for the three modules:

the utility model discloses a magnetic suspension technique relies on the electromagnetic force with the object suspension technique that does not have mechanical contact, and the magnetic suspension rotor is one kind does not have the bearing, need not lubricating oil and does not have the frictional electromagnetic induction drive rotor of mechanical part. Compared with the traditional rolling bearing, sliding bearing and oil film bearing, the rotor and the stator of the magnetic bearing do not have mechanical contact, the rotor can run to a very high rotating speed, and water has larger energy for physical scouring of fresh food and bowls and chopsticks after being accelerated. And the rotor has no friction in the rotating process, and has the advantages of small mechanical wear, low energy consumption, low noise, long service life, no need of lubrication, no oil pollution and the like. The risk of generating pollution particles is avoided, the working efficiency is improved, and the energy is saved. The rotor effectively reduces the installation space of the water tank due to the fact that the stator, the driving unit and the sensor are integrated, the rotor can be transferred, and the function of the multifunctional integrated water tank can be well achieved.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention.

Claims

1. A water tank type dish washing machine based on a magnetic suspension technology comprises a tank body embedded in a kitchen table, wherein a spray tank and a washing tank are arranged on the left and right of the tank body respectively; it is characterized in that the preparation method is characterized in that,

2. The water trough type dishwasher based on magnetic levitation technology as claimed in claim 1, wherein a side trough communicating with the washing trough is provided at one side of the washing trough, and a hydroxyl group generating device is provided in the side trough.

3. The water trough type dishwasher based on magnetic levitation technology as claimed in claim 1, wherein a first rack and a second rack are provided in pairs on two opposite inner walls of the washing trough for placing the subslot of the washing trough, both ends of the subslot being placed on the two racks and in the inner cavity of the washing trough.

4. The water trough type dish washer based on the magnetic suspension technology as claimed in claim 1, wherein an integrated water control unit is provided outside the overflow port of the spray trough;

5. The water tank type dish washing machine based on the magnetic suspension technology as claimed in claim 4, wherein the water inlet bin is square box-shaped, the pressurizing water bin, the intelligent temperature control water bin and the buffering water bin are sequentially formed by separating a first baffle plate and a second baffle plate, and the water inlet direction is S-shaped in the water inlet bin;

6. The water tank type dishwasher based on magnetic levitation technology as claimed in claim 1, wherein a second rotor is provided in the magnetic levitation motor, the second rotor comprising a second rotating shaft and a second magnet; the second magnet is positioned at the position where the upper end of the rotating shaft is close to the bottom surface of the spraying tank.

7. The trough type dish washer based on magnetic levitation technology as claimed in claim 1, wherein the spray base comprises a unit base and a spray channel housing, the unit base comprises a fixed bottom plate, the fixed bottom plate is arranged on the bottom surface of the spray channel, a concave limiting groove is arranged in the middle of the fixed bottom plate, and a plurality of first clamping columns are arranged outside the limiting groove;

the first magnet of the first rotor is placed in the limiting groove;

8. The sink dishwasher according to claim 7, wherein the spray blade is rotatably connected to the upper end of the spray channel housing by a rotary sleeve, and the spray blade is freely rotatable in a horizontal plane around the upper end of the spray channel housing.

9. The trough type dishwasher based on magnetic levitation technology as claimed in claim 1, wherein the spray blade comprises an upper cover and a lower cover combined up and down, a pre-spray space is formed between the upper cover and the lower cover; the spraying swing arm comprises a plurality of swing arms along the horizontal direction and is radially distributed around the rotating center;

10. The sink dishwasher according to claim 1, wherein the water tap comprises a hot and cold water tap and a clean water tap; the cold and hot water faucet is positioned between the spraying tank and the cleaning tank and comprises a cold and hot water toggle switch, a faucet fixing frame and a pull faucet, wherein the pull faucet is also provided with a button switch, and can be taken down from the faucet fixing frame and pulled for extension use; the water purification faucet is arranged on one side of the cleaning tank and comprises a water purification switch and a water purification pipeline, and the water purification pipeline is communicated to the lower part of the tank body and is connected to the water purifier.