CN219109358U - High-capacity embedded full-automatic cleaning machine - Google Patents

Abstract

The utility model provides a high-capacity embedded full-automatic cleaning machine, which comprises a frame component, a box body component arranged above the frame component, an electromechanical component arranged in the frame component, a cleaning water flow system for supplying cleaning water and a hot air system for drying, wherein the box body component is provided with a washing space divided by a plurality of layers of baskets, and each layer of washing space is correspondingly provided with a spray arm component; the cleaning water flow system comprises a breather assembly and a multi-way pipeline which are arranged on the same side of the outer wall of the box body assembly, and each pipeline of the multi-way pipeline is respectively communicated with an external water source, the breather assembly and a distribution module of the electromechanical assembly so as to realize the supply of the cleaning water of the spray arm assembly in the corresponding multi-layer washing space. According to the utility model, under the condition of not changing the occupied volume of the cleaning machine, the circulating waterway installation structure is optimized, and the space utilization rate of the multi-layer washing space is improved, so that the washing efficiency of the cleaning machine is improved.

Description

High-capacity embedded full-automatic cleaning machine

Technical Field

The utility model relates to the technical field of kitchen electricity, in particular to a high-capacity embedded full-automatic cleaning machine.

Background

In recent years, with the improvement of the living standard of people and the continuous popularization of household appliances, various kitchen cleaning devices are coming into the home, including dish cleaning devices such as embedded dish washers, and the convenience and quality effects of kitchen cleaning work are effectively improved. The radial arm spray technique used in the embedded dish washer has been several decades old, and has remained a stable and reliable solution for dish washing, however, the design of the circulating waterway for supplying the washing water is not reasonable, the installation structure is complex, the whole structure is bulky, the washing space utilization rate of the washing machine is low, the washing efficiency of the washing machine is low, and the requirement of a plurality of layers of washing spaces of customers is difficult to be matched.

Disclosure of Invention

According to the embedded full-automatic cleaning machine with the large capacity, the problem that the space utilization rate of a washing space is low due to the fact that a circulating waterway installation structure in the prior art is duplicated is solved, the circulating waterway installation structure is optimized, the space utilization rate of a multi-layer washing space is improved, and therefore the washing efficiency of the cleaning machine is improved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the high-capacity embedded full-automatic cleaning machine comprises a frame component, a box body component arranged above the frame component, an electromechanical component arranged in the frame component, a cleaning water flow system for supplying cleaning water and a hot air system for drying, wherein the box body component is provided with a washing space divided by a plurality of layers of baskets, and each layer of washing space is correspondingly provided with a spray arm component; the cleaning water flow system comprises a breather assembly and a multi-way pipeline which are arranged on the same side of the outer wall of the box body assembly, and each pipeline of the multi-way pipeline is respectively communicated with an external water source, the breather assembly and a distribution module of the electromechanical assembly so as to realize the supply of the cleaning water of the spray arm assembly in the corresponding multi-layer washing space.

By adopting the technical scheme, the breather assembly and the multi-way pipeline of the cleaning water flow system are arranged on the outer wall of the same side of the box body assembly, and the water path pipeline installation among an external water source, the breather assembly and the electromechanical assembly is simplified under the condition that the occupied volume of the cleaning machine is not changed, the supply structure of the spray arm assembly cleaning water in the multi-layer cleaning space is optimized, and the space utilization rate of the multi-layer cleaning space is improved, so that the cleaning efficiency of the cleaning machine is improved.

The electromechanical assembly comprises a mounting base, and a main water pump, a tubular heater, a distributing valve and a drainage pump which are annularly arranged on the mounting base.

Through adopting above-mentioned technical scheme, electromechanical subassembly includes mounting base, locates and is main water pump, tubular heater, distributing valve and the drain pump that the annular set up on the mounting base: the electromechanical assembly has high integration level and compact structure, reduces the occupied volume of the electromechanical assembly in the rack assembly, and increases the volume of the box assembly for accommodating tableware and kitchen ware.

The electromechanical assembly comprises a mounting base, the spray arm assembly comprises a water flow conveying pipeline, a lower spray arm, an upper spray arm and a top spray arm, wherein the water outlet of the lower spray arm is upwards, the upper spray arm is upwards, the water outlet of the upper spray arm is downwards, the top spray arm is downwards connected with the water flow conveying pipeline in sequence, a bottom spray opening is arranged at the center of one side, connected with the spray arm assembly, of the mounting base, an upper spray opening and a top spray opening are arranged at the joint of the mounting base and the water flow conveying pipeline, the bottom spray opening is communicated with the lower spray arm, the upper spray opening is communicated with the upper spray arm, and the top spray opening is communicated with the top spray arm.

By adopting the technical scheme, different water outlets are respectively connected with different spray arms, so that the water outlet of each spray arm is not interfered with each other.

The filter assembly is installed to the inboard that the mounting base faces the box subassembly.

Through adopting above-mentioned technical scheme, the filter component can prevent tableware, kitchen utensils and appliances's impurity from getting into electromechanical subassembly thereby hinder electromechanical subassembly's operation.

The inside washing basket subassembly that is equipped with of box subassembly, washing basket subassembly includes upper basket, upper basket includes first basket, lifting button, the spring buckle, lifting support and guide pulley board, lifting button locates on the first basket and with be fixed in the spring buckle cooperation on the first basket, lifting support is fixed in on the first basket and with be fixed in the guide pulley board cooperation on the inside wall face of box subassembly, be equipped with the bayonet socket on the guide pulley board, the spring buckle include with stretch into the cardboard in the bayonet socket and with lifting button's lower terminal surface complex limiting plate, and the spring buckle articulates on the first basket.

Through adopting above-mentioned technical scheme, press lifting button, make lifting button's lower terminal surface from offset with the up end of cardboard become not offset with the up end of cardboard, because of the spring buckle articulates on first basket, rotate the spring buckle, make the cardboard shift out the bayonet socket on the guide pulley board, thereby realize reciprocating upper basket, change and confirm lifting support and guide pulley board's relative position, rotate the spring buckle, make the cardboard stretch into in the buckle, and release lifting button, make the up end of limiting plate offset with lifting button's lower terminal surface, make upper basket fix in one of high, low two positions, in order to adjust the whole space in inside in order to utilize box subassembly better.

The cleaning basket assembly comprises a bottom layer basket, wherein the bottom layer basket comprises a second basket frame, a movable railing arranged on the second basket frame and a position buckle for fixing the movable railing on the second basket frame, the movable railing can be adjusted to vertically erect or horizontally topple through loosening the position buckle, and when the movable railing topples horizontally, the upper end face of the bottom of the second basket frame is propped against the side wall of the movable railing and the movable railing is fixed through the position buckle to keep a horizontal toppling state; when the movable railing is vertically erected, the movable railing is kept in a vertical erected state by fastening the position buckle.

Through adopting above-mentioned technical scheme, when movable railing department level topples over the state, the up end of supporter offsets with movable railing's lateral wall, prevents that movable railing from continuing to rotate down, through the vertical state of keeping of movable basket pole or keep the level to topple over the state to fix two kinds of state adjustable space separation with the position buckle, make the bottom basket can make up and break apart into a plurality of units, adjust the thing volume of putting of each unit, so as to utilize the space better, hold various dishes tableware and kitchen utensils and appliances such as turner with the maximum scope.

The electromechanical assembly comprises a main motor between the mounting base and the main water pump, the main motor is connected with the main water pump, two sides of the main water pump are respectively communicated with the tubular heater and the drainage pump, one side of the tubular heater is connected with the distribution valve, and the tubular heater is connected with the safety sensor and the temperature sensor.

Through adopting above-mentioned technical scheme, main motor drives main water pump and will pour into the washing water push in the box subassembly through tubular electric heater heating, safety sensor leads to safety sensor's probe to be covered region size change through the change of response liquid level, make capacitance change, safety sensor judges the output signal, thereby the control ensures only when there is a certain amount of washing water in the bottom of box subassembly, main motor and tubular electric heater just start the work, ensure system operation safety, temperature sensor control ensures tubular electric heater only work when the temperature is less than the appointed temperature, rivers from main water pump and tubular electric heater get into the spray arm subassembly through each delivery port after setting up the distribution according to the distribution valve, promote the spray arm rotation and spray washing rivers, the rivers that fall back to the bottom of box subassembly are through main water pump and tubular electric heater and constantly recycle, when needs to change washing water or wash and accomplish, stop the circulation.

The distribution valve comprises a position motor and a distribution pore plate, the distribution valve comprises three waterway distribution mechanisms, the distribution pore plate rotates to a specific position under the driving of the position motor, waterways of all three spray arms can be opened, and cleaning of all cleaning baskets is carried out; or only the waterways of the lower spray arm and the top spray arm are opened, and only the bottom basket is cleaned; or only open the upper spray arm and the top spray arm waterway therein, only wash to the upper basket and the top basket, thereby realizing the space division cleaning mode of the whole space and the upper and lower half spaces.

By adopting the technical scheme, a space division cleaning mode for the whole space and the upper and lower half spaces is realized.

The respirator assembly comprises a water inlet for injecting cleaning water, a flow runner and a flow sensor for controlling the water inflow of the water inlet, the water inlet for injecting the cleaning water into the box assembly and the electromechanical module, and a steam outlet arranged at the uppermost part of the respirator assembly and used for removing rising steam generated during cleaning.

Through adopting above-mentioned technical scheme, the respirator subassembly is through the inflow of flow runner and flow sensor control from the washing water of water intaking valve, and the washing water is through the water injection mouth injection box and in the electric module of cleaning machine, and the steam outlet is in the top, gets into drainage pipe in the rising vapor that produces when getting rid of the washing, after the cleaning machine accomplished the washing, reduces the inside gas humidity of cleaning machine, improves drying efficiency.

The front of the box body component is provided with a door body module, the dried hot air system comprises a steam exhaust component arranged on the door body module, the steam exhaust component comprises a valve electromagnetic switch, a water blocking valve, a fan motor, a centrifugal impeller, a steam exhaust channel and a steam exhaust port, when the cleaning machine is finished, the steam exhaust component can start the water blocking valve through the valve electromagnetic switch and rotate the centrifugal impeller through the fan motor after the cleaning machine is finished and cleaning water is emptied, so that water-containing steam in the box body component is pumped into the cleaning water at the bottom through the steam exhaust channel at the steam exhaust port.

Through adopting above-mentioned technical scheme, make the aqueous vapor in the box subassembly take out to the washing water of bottom in the exhaust port through the exhaust duct to reduce the gaseous humidity in the box, help by the evaporation drying process of washd object under the effect of heat.

The steam exhaust assembly comprises a hot air inlet and an exhaust window, a hot air assembly is arranged in the rack assembly, the hot air assembly comprises a heating element, a hot air fan and a hot air outlet, the hot air assembly can open a water blocking valve through a valve electromagnetic switch, and the heating element and the hot air fan are started to enable hot air to enter the box assembly through the hot air inlet, the water blocking valve and the exhaust window.

By adopting the technical scheme, the washed articles are dried and disinfected through the hot air component.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic top view of the electromechanical assembly of the present utility model;

FIG. 3 is a schematic view of a door module and a steam exhaust assembly according to the present utility model;

FIG. 4 is a schematic structural view of a respirator assembly of the present utility model;

FIG. 5 is a schematic view of the structure of the exhaust assembly of the present utility model;

FIG. 6 is a schematic view of another angle of the exhaust assembly of the present utility model;

FIG. 7 is a schematic view of a hot air module according to the present utility model;

FIG. 8 is a schematic diagram of the structure of the electromechanical assembly of the present utility model in a lower view;

FIG. 9 is a schematic view of another angle of the underside of the electromechanical assembly of the present utility model;

FIG. 10 is a schematic view of a spray arm assembly according to the present utility model;

FIG. 11 is a schematic view of the structure of the cleaning basket assembly of the present utility model;

FIG. 12 is a schematic view of the structure of the upper basket of the present utility model;

FIG. 13 is an enlarged schematic view of the portion A of the upper basket of the present utility model;

FIG. 14 is a schematic view of the structure of the bottom basket of the present utility model.

In the figure: 1. a door body module; 2. a frame assembly; 3. a housing assembly; 4. an electromechanical assembly; 4.1, mounting a base; 4.1.1, top water jets; 4.1.2, upper water jet; 4.1.3, bottom water jet; 4.2, a main motor; 4.3, a main water pump; 4.4, a tubular heater; 4.4.1, a safety sensor; 4.4.2, a temperature measuring sensor; 4.5, a dispensing valve; 4.5.1 position motor; 4.5.2 dispensing orifice plates; 4.6, draining pump; 4.6.1, a water outlet; 4.7, a filtering component; 4.8, turbidity sensor; 5. a spray arm assembly; 5.1, a top spraying arm; 5.2, an upper spray arm; 5.3, lower spray arm; 5.4, a water flow conveying pipeline; 5.5, a water flow distribution pipeline; 6. a cleaning basket assembly; 6.1, top basket; 6.2, upper basket; 6.2.1, a first basket; 6.2.2, lifting button; 6.2.3, spring catch; 6.2.3.1, a clamping plate; 6.2.3.2, limiting plates; 6.2.4, lifting support; 6.2.5, guide wheel plates; 6.2.5.1 and a bayonet; 6.3, bottom basket; 6.3.1, a second basket; 6.3.2, movable rails; 6.3.3, position buckle; 7. a respirator assembly; 7.1, a water injection port; 7.2, a flow runner; 7.3, a flow sensor; 7.4, a water inlet; 7.5, steam outlet; 8. a steam exhaust assembly; 8.1, an exhaust window; 8.2, a water-blocking valve; 8.3, a hot air inlet; 8.4, a centrifugal impeller; 8.5, a steam exhaust port; 8.6, electromagnetic switch of valve; 8.7, a fan motor; 8.8, exhaust passage; 9. a hot air assembly; 9.1, a hot air fan; 9.2, heating element; 9.3, a hot air outlet; 10. a multi-way pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-14, in this embodiment: the high-capacity embedded full-automatic cleaning machine comprises a frame component 2, a box body component 3 arranged above the frame component, an electromechanical component 4 arranged in the frame component 2, a cleaning water flow system for supplying cleaning water and a hot air system for drying, wherein the box body component 3 is provided with a washing space divided by a plurality of layers of baskets, and each layer of washing space is correspondingly provided with a spray arm component 5; the cleaning water flow system comprises a breather assembly 7 and a multi-way pipeline 10 which are arranged on the same side of the outer wall of the box body assembly 3, wherein each pipeline of the multi-way pipeline 10 is respectively communicated with an external water source, the breather assembly 7 and a distribution valve 4.5 of the electromechanical assembly 4 so as to realize the supply of cleaning water of the spray arm assembly 5 in the corresponding multi-layer washing space.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the breather assembly 7 and the multi-way pipeline 10 are arranged on the same side of the outer wall of the box assembly 3, each pipeline of the multi-way pipeline 10 is respectively communicated with an external water source, the breather assembly 7 and a distribution module of the electromechanical assembly 4 to realize the supply of the cleaning water of the spray arm assembly 5 in the corresponding multi-layer washing space, and the multi-way pipeline 10 is arranged on the same side of the breather assembly 7 which is positioned on the outer wall of the box assembly 3, so that the occupied volume of the cleaning machine is unchanged, but the occupied volume of the electromechanical assembly 4 in the rack assembly 2 is reduced, and the cleaning space of kitchen ware and tableware is increased.

The respirator assembly 7 comprises a water inlet 7.4 for injecting cleaning water, a flow runner 7.2 and a flow sensor 7.3 for controlling the water inflow of the water inlet 7.1, a water injection port 7.1 for injecting the cleaning water into the tank assembly 3 and the electromechanical module, and a steam outlet 7.5 arranged at the uppermost part of the respirator assembly 7 for removing rising steam generated during cleaning.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the breather assembly 7 controls the water inflow of the cleaning water from the water inlet valve through the flow rotating wheel 7.2 and the flow sensor 7.3, the cleaning water is injected into the box body and the cleaning machine electric module through the water inlet 7.1, the steam outlet 7.5 is at the uppermost part, rising steam generated during cleaning is removed, and the rising steam enters the drainage pipeline, so that after the cleaning machine finishes cleaning, the gas humidity in the cleaning machine is reduced, and the drying efficiency is improved.

The front of the box body assembly 3 is provided with a door body module 1, the dried hot air system comprises a steam exhaust assembly 8 arranged on the door body module 1, the steam exhaust assembly 8 comprises a valve electromagnetic switch 8.6, a water-blocking valve 8.2, a fan motor 8.7, a centrifugal impeller 8.4, a steam exhaust channel 8.8 and a steam exhaust port 8.5, when the cleaning machine is finished, the steam exhaust assembly 8 can open the water-blocking valve 8.2 through the valve electromagnetic switch 8.6 and rotate the centrifugal impeller 8.4 through the fan motor 8.7 after the cleaning water is discharged, so that the water-containing steam in the box body assembly 3 is pumped into the cleaning water at the bottom through the steam exhaust channel 8.8 and the steam exhaust port 8.5.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the water-containing gas in the box body assembly 3 is pumped into the cleaning water at the bottom through the gas exhaust channel 8.8 at the gas exhaust port 8.5, so that the gas humidity in the box body is reduced, and the evaporation drying process of the cleaned object under the action of heat is assisted.

The steam exhaust assembly 8 comprises a hot air inlet 8.3 and an exhaust window 8.1, a hot air assembly 9 is arranged in the rack assembly 2, the hot air assembly 9 comprises a heating element 9.2, a hot air fan 9.1 and a hot air outlet 9.3, the hot air assembly 9 can open a water blocking valve 8.2 through a valve electromagnetic switch 8.6, and the heating element 9.2 and the hot air fan 9.1 are started to enable hot air to enter the box assembly 3 through the hot air inlet 8.3, the water blocking valve 8.2 and the exhaust window 8.1.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the cleaned articles are dried and sterilized by the hot air assembly 9.

The cleaning basket assembly 6 comprises a top basket 6.1, an upper basket 6.2 arranged below the top basket 6.1 and a bottom basket 6.3 arranged below the upper basket 6.2, wherein the top basket 6.1 is of a flat structure.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the top basket 6.1 is of a flat structure, can be used for cleaning tableware with lower heights such as chopsticks, knives and forks and the like on kitchen ware, and improves the space utilization rate.

The spray arm assembly 5 comprises a lower spray arm 5.3 arranged below the bottom layer basket 6.3 and with an upward water outlet, an upper spray arm 5.2 arranged below the upper layer basket 6.2 and with an upward water outlet button, and a top spray arm 5.1 arranged above the top layer basket 6.1 and with a downward water outlet.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: during cleaning, water flows of the lower spray arm 5.3 and the upper spray arm 5.2 are sprayed upwards, and water flows of the top spray arm 5.1 are sprayed downwards, so that tableware and kitchen ware can be cleaned in an omnibearing manner.

The electromechanical assembly 4 comprises a mounting base 4.1, a main water pump 4.3, a tubular heater 4.4 and a distributing valve 4.5 which are annularly arranged on the mounting base 4.1.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the electromechanical assembly 4 comprises a mounting base 4.1, and a main water pump 4.3, a tubular heater 4.4, a distributing valve 4.5 and a draining pump 4.6 which are arranged on the mounting base 4.1 in an annular mode: the electromechanical assembly 4 has high integration level and compact structure, reduces the occupied volume of the electromechanical assembly 4 in the rack assembly 2, and increases the volume of the box assembly 3 for accommodating tableware and kitchen ware.

The spray arm assembly 5 comprises a water flow conveying pipeline 5.4, a lower spray arm 5.3, an upper spray arm 5.2 and a top spray arm 5.1, wherein a water outlet of the lower spray arm 5.3 is upwards, a water outlet of the upper spray arm 5.2 is upwards, a water outlet of the top spray arm 5.1 is downwards, a bottom spray nozzle 4.1.3 is arranged at the center of one side, connected with the spray arm assembly 5, of the mounting base 4.1, an upper spray nozzle 4.1.2 and a top spray nozzle 4.1.1 are arranged at the joint of the mounting base 4.1 and the water flow conveying pipeline 5.4, the bottom spray nozzle 4.1.3 is communicated with the lower spray arm 5.3, the upper spray nozzle 4.1.2 is communicated with the upper spray arm 5.2, and the top spray nozzle 4.1.1 is communicated with the top spray arm 5.1.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the water is discharged through different water outlets, so that the water discharged by each spray arm is not interfered with each other.

The inside of the mounting base 4.1 facing the tank assembly 3 is provided with a filter assembly 4.7.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the filter assembly 4.7 prevents foreign objects of tableware and kitchen ware from entering the electromechanical assembly 4 and thus obstructing the operation of the electromechanical assembly 4.

The electromechanical assembly 4 comprises a main motor 4.2 arranged between a mounting base 4.1 and a main water pump 4.3, the main motor 4.2 is connected with the main water pump 4.3, two sides of the main water pump 4.3 are respectively communicated with a tubular heater 4.4 and a drainage pump 4.6, one side of the tubular heater 4.4 is connected with a distributing valve 4.5, and the tubular heater 4.4 is connected with a safety sensor 4.4.1 and a temperature measuring sensor 4.4.2.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the main motor 4.2 drives the main water pump 4.3 to push the cleaning water injected into the tank assembly 3 to be heated by the tubular electric heater, the safety sensor 4.4.1 senses the change of the liquid level to cause the change of the covered area of the probe of the safety sensor 4.4.1, so that the capacitance value is changed, the safety sensor 4.4.1 judges output signals, the main motor 4.2 and the tubular electric heater are started to operate only when a certain amount of cleaning water exists at the bottom of the tank assembly 3, the system operation safety is ensured by monitoring, the temperature sensor 4.4.2 monitors and ensures that the tubular electric heater is operated only when the water temperature is lower than the specified temperature, the water flow from the main water pump 4.3 and the tubular electric heater enters the spray arm assembly 5 through each water outlet after being distributed according to the arrangement, the spray arm is pushed to rotate and spray the cleaning water flow, and the water flow falling back to the bottom of the tank assembly 3 is continuously recycled through the main water pump 4.3 and the tubular electric heater, and the circulation is stopped when the cleaning water needs to be replaced or the cleaning is completed.

The drain opening 4.6.1 of the drain pump 4.6 is provided with a turbidity sensor 4.8.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: when the water at the bottom of the box body assembly 3 passes through the main water pump 4.3 and the tubular electric heater to stop circulation, the drainage pump 4.6 is started, the water is discharged through the drainage port 4.6.1, the turbidity sensor 4.8 is connected with the pipe through infrared rays arranged in the turbidity sensor 4.8, when light passes through a certain amount of water, the light transmission quantity of the light depends on the turbidity degree of the water, the water is more polluted, the transmitted light is less, the turbidity sensor 4.8 is internally provided with a light receiving end, the intensity of the transmitted light is converted into corresponding current, the transmitted light is less, the current is less, and conversely, the more transmitted light is, the current is greater, the pollution degree of the water can be calculated by measuring the current of the receiving end, so that the turbidity sensor 4.8 continuously detects residual impurities in the cleaning water in a rinsing flow to judge whether the rinsing process is clean or not.

The distribution valve 4.5 comprises a position motor 4.5.1 and a distribution orifice plate 4.5.2, the distribution valve 4.5 comprises a three-state waterway distribution mechanism, and the distribution orifice plate 4.5.2 rotates to a specific position under the driving of the position motor 4.5.1 so as to open waterways of all three spray arms to clean all cleaning baskets; or only the waterways of the lower spray arm 5.3 and the top spray arm 5.1 are opened, and only the bottom basket 6.3 is cleaned; or only open the upper spray arm 5.2 and the top spray arm 5.1 waterway therein, only wash for the upper basket 6.2 and the top basket 6.1, thus realizing the space division cleaning mode for the whole space and the upper and lower half spaces.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: the method for cleaning the whole space and the upper and lower half spaces in different spaces is realized.

The cleaning machine comprises a cleaning basket assembly 6 arranged in the box body assembly 3, the cleaning basket assembly 6 comprises an upper basket 6.2, the upper basket 6.2 comprises a first basket frame 6.2.1, a lifting button 6.2.2, a spring buckle 6.2.3, a lifting bracket 6.2.4 and a guide plate 6.2.5, the lifting button 6.2.2 is arranged on the first basket frame 6.2.1 and is matched with a spring buckle 6.2.3 fixed on the first basket frame 6.2.1, the lifting bracket 6.2.4 is fixed on the first basket frame 6.2.1 and is matched with a guide plate 6.2.5 fixed on the inner side wall surface of the box body assembly 3, a bayonet 6.2.5.1 is arranged on the guide plate 6.2.5, the spring buckle 6.2.3 comprises a clamping plate 2 stretching into the bayonet 6.2.5.1 and a limiting plate 6.2.3.2 matched with the lower end surface of the lifting button 6.2.2, and the spring buckle 6.2.3 is hinged on the first basket frame 6.2.1 and controls whether the clamping plate stretches into the bayonet 6.2.3.1 4 by whether the lower end surface of the spring button abuts against the upper end surface of the limiting plate 6.2.2.2.1.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: pressing the lift button 6.2.2 changes the lower end surface of the lift button 6.2.2 from abutting against the upper end surface of the clamping plate 6.2.3.1 to not abutting against the upper end surface of the clamping plate 6.2.3.1, and because the spring buckle 6.2.3 is hinged on the first basket support 6.2.1, the spring buckle 6.2.3 is rotated to enable the clamping plate 6.2.3.1 to move out of the bayonet 6.2.5.1 on the guide wheel plate 6.2.5, thereby realizing up-and-down movement of the upper basket 6.2, changing and determining the relative position of the lift bracket 6.2.4 and the guide wheel plate 6.2.5, rotating the spring buckle 6.2.3 to enable the clamping plate 6.2.3.1 to extend into the buckle, and releasing the lift button 6.2.2, so that the upper end surface of the limiting plate 6.2.3.2 abuts against the lower end surface of the lift button 6.2.2, and enabling the upper basket 6.2 to be fixed at one of a high position and a low position, so as to be adjusted to better utilize the whole space inside the box assembly 3.

The cleaning basket assembly 6 comprises a bottom basket 6.3, the bottom basket 6.3 comprises a second basket frame 6.3.1, a movable railing 6.3.2 arranged on the second basket frame 6.3.1 and a position buckle 6.3.3 used for fixing the movable railing 6.3.2 on the second basket frame 6.3.1, the position buckle 6.3.3 can be loosened to adjust the vertical standing or horizontal dumping state of the movable railing 6.3.2, the second basket frame 6.3.1 comprises a rack arranged for placing objects, when the movable railing 6.3.2 is horizontally dumped, the upper end face of the rack is propped against the side wall of the movable railing 6.3.2, and the movable railing 6.3.2 is fixed through the position buckle 6.3.2 to keep the horizontal dumping state; when the movable railing 6.3.2 is vertically erected, the movable railing 6.3.2 is kept in a vertical erected state by fastening the movable railing 6.3.2 at the tightening position.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: when the movable railing 6.3.2 is in a horizontal toppling state, the upper end face of the rack is propped against the side wall of the movable railing 6.3.2, the movable railing 6.3.2 is prevented from continuously rotating downwards, the movable basket rod is kept in a vertical state or in a horizontal toppling state, and the two states are fixed by the position buckle 6.3.3 to adjust the space separation, so that the bottom basket 6.3 can be combined and split into a plurality of units, the storage volume of each unit is adjusted, and the space is better utilized, so that various dishes, tableware, turners and other kitchen ware can be accommodated in the largest range.

The foregoing is illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the claims. The present utility model is not limited to the above embodiments, and the specific structure thereof is allowed to vary. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. The high-capacity embedded full-automatic cleaning machine comprises a frame component (2), a box body component (3) arranged above the frame component, an electromechanical component (4) arranged inside the frame component (2), a cleaning water flow system for supplying cleaning water and a hot air system for drying, wherein the box body component (3) is provided with a cleaning space divided by a plurality of layers of baskets, and each layer of cleaning space is correspondingly provided with a spray arm component (5); the method is characterized in that: the cleaning water flow system comprises a breather assembly (7) and a multi-way pipeline (10) which are arranged on the same side of the outer wall of the box assembly (3), wherein each pipeline of the multi-way pipeline (10) is respectively communicated with an external water source, the breather assembly (7) and a distribution module of the electromechanical assembly (4) so as to realize the supply of cleaning water of the spray arm assembly (5) in the corresponding multi-layer washing space.

2. The high capacity flush type full automatic cleaning machine according to claim 1, wherein: the electromechanical assembly (4) comprises a mounting base (4.1), a main water pump (4.3), a tubular heater (4.4), a distributing valve (4.5) and a drainage pump (4.6), wherein the main water pump (4.3), the tubular heater (4.4) and the distributing valve (4.5) are annularly arranged on the mounting base (4.1).

3. The high capacity flush type full automatic cleaning machine according to claim 2, wherein: the spray arm assembly (5) comprises a water flow conveying pipeline (5.4) and a lower spray arm (5.3) with an upward water outlet, an upper spray arm (5.2) with an upward water outlet and a top spray arm (5.1) with a downward water outlet, which are sequentially connected with the water flow conveying pipeline (5.4), wherein a bottom water spray opening (4.1.3) is arranged at the center of one side, connected with the spray arm assembly (5), of the mounting base (4.1), an upper water spray opening (4.1.2) and a top water spray opening (4.1.1) are arranged at the joint of the water flow conveying pipeline (5.4), the bottom water spray opening (4.1.3) is communicated with the lower spray arm (5.3), the upper water spray opening (4.1.2) is communicated with the upper spray arm (5.2), and the top water spray opening (4.1.1) is communicated with the top spray arm (5.1).

4. A high capacity flush type full automatic cleaning machine according to claim 3, wherein: the filter assembly (4.7) is arranged on the inner side of the mounting base (4.1) facing the box assembly (3).

5. The high capacity flush type full automatic cleaning machine according to claim 4, wherein: the novel multifunctional basket comprises a box body assembly (3), wherein a cleaning basket assembly (6) is arranged inside the box body assembly (3), the cleaning basket assembly (6) comprises an upper basket (6.2), the upper basket (6.2) comprises a first basket frame (6.2.1), a lifting button (6.2.2), a spring buckle (6.2.3), a lifting support (6.2.4) and a guide wheel plate (6.2.5), the lifting button (6.2.2) is arranged on the first basket frame (6.2.1) and is matched with the spring buckle (6.2.3) fixed on the first basket frame (6.2.1), the lifting support (6.2.4) is fixed on the first basket frame (6.2.1) and is matched with the guide wheel plate (6.2.5) fixed on the inner side wall surface of the box body assembly (3), a bayonet (6.2.5.1) is arranged on the guide wheel plate (6.2.5), and the spring buckle (6.2.3) comprises a clamping plate (69) extending into the bayonet (95) and a clamping plate (6.2.2.1) and a limit plate (3.43.2.2.43.

6. The high capacity flush type full automatic cleaning machine according to claim 5, wherein: the cleaning basket assembly (6) comprises a bottom basket (6.3), the bottom basket (6.3) comprises a second basket frame (6.3.1), a movable railing (6.3.2) arranged on the second basket frame (6.3.1) and a position buckle (6.3.3) used for fixing the movable railing (6.3.2) on the second basket frame (6.3.1), the movable railing (6.3.2) can be adjusted to be in a vertical or horizontal toppling state by loosening the position buckle (6.3.3), and when the movable railing (6.3.2) is horizontally toppled, the upper end face of the bottom of the second basket frame (6.3.1) is propped against the side wall of the movable railing (6.3.2) and the movable railing (6.3.2) is fixed by the position buckle (6.3.3) to keep a horizontal toppling state; when the movable railing (6.3.2) is vertically erected, the movable railing (6.3.2) is kept in a vertically erected state by adjusting the position buckle (6.3.3).

7. The high capacity flush type full automatic cleaning machine according to claim 6, wherein: the electromechanical assembly (4) comprises a mounting base (4.1) and a main motor (4.2) between the main water pump (4.3), the main motor (4.2) is connected with the main water pump (4.3), two sides of the main water pump (4.3) are respectively communicated with a tubular heater (4.4) and a drainage pump (4.6), one side of the tubular heater (4.4) is connected with a distribution valve (4.5), and the tubular heater (4.4) is connected with a safety sensor (4.4.1) and a temperature sensor (4.4.2).

8. The high capacity flush type full automatic cleaning machine according to claim 6, wherein: the distribution valve (4.5) comprises a position motor (4.5.1) and a distribution pore plate (4.5.2), the distribution valve (4.5) comprises a waterway distribution mechanism in three states, and the distribution pore plate (4.5.2) rotates to a specific position under the driving of the position motor (4.5.1) so as to open waterways of all three spray arms to clean all cleaning baskets; or only open the water paths of the lower spray arm (5.3) and the top spray arm (5.1) in the water paths, and only clean the bottom basket (6.3); or only open the water route of upper spray arm (5.2) and top spray arm (5.1) wherein, only to upper basket (6.2) and top layer basket (6.1) wash to realize the branch space cleaning mode to full space and upper and lower half space.

9. The high capacity flush type full automatic cleaning machine according to claim 1, wherein: the front of box subassembly (3) be equipped with door body module (1), the hot-blast system of stoving including locating on door body module (1) exhaust subassembly (8), exhaust subassembly (8) include valve electromagnetic switch (8.6), valve (8.2) block water, fan motor (8.7), centrifugal impeller (8.4), exhaust duct (8.8), exhaust mouth (8.5), when the cleaning machine washs and finishes, exhaust subassembly (8) can be after wasing and the evacuation washing water, through valve electromagnetic switch (8.6) open valve (8.2) and rotate centrifugal impeller (8.4) through fan motor (8.7), make the steam that contains in box subassembly (3) take out in the washing water of bottom through exhaust duct (8.8) in exhaust mouth (8.5).

10. The high capacity flush type full automatic cleaning machine according to claim 9, wherein: the steam exhaust assembly (8) comprises a hot air inlet (8.3) and an exhaust window (8.1), a hot air assembly (9) is arranged in the rack assembly (2), the hot air assembly (9) comprises a heating element (9.2), a hot air fan (9.1) and a hot air outlet (9.3), the hot air assembly (9) can open a water blocking valve (8.2) through a valve electromagnetic switch (8.6), the heating element (9.2) and the hot air fan (9.1) are started, and hot air enters the box assembly (3) through the hot air inlet (8.3), the water blocking valve (8.2) and the exhaust window (8.1).

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