CN212729729U - Bottom support assembly of dish washer - Google Patents

Abstract

The utility model provides a dish washer collet assembly relates to dish washer technical field, and the dish washer structure that exists is complicated for solving among the prior art, when assembling or maintaining dish washer, wastes time and energy, and the great problem of operating personnel work load designs. The utility model provides a dishwasher collet assembly, include: the dish washer comprises a water collecting container, a water treatment mechanism, a washing pump and a bottom support main body arranged below an inner container of the dish washer. The water collecting container, the water position mechanism and the washing pump are all arranged on the bottom support main body. The water treatment mechanism can soften and purify the water body; the washing pump can drive the washing water in the water collecting container to flow to the inner container of the dish washing machine; the bottom support main body can collect and collect the washing water flowing out of the inner container of the dish-washing machine into the water collecting container.

Description

Bottom support assembly of dish washer

Technical Field

The utility model belongs to the technical field of the dish washer structure technique and specifically relates to a dish washer collet assembly is related to.

Background

With the social development and the continuous progress of the scientific and technical level, people have higher and higher requirements on food, and people also enjoy the fun of cooking by themselves more and more, but cooking is natural without leaving kitchen appliances, and with the higher and higher automation degree of the kitchen appliances, people have continuous change of understanding of cooking. Along with the promotion of people to cooking requirement, people also more and more high to kitchen appliance's clean and tidy degree, intelligent degree, degree of automation and convenient degree requirement.

The cleaning of the bowl and chopstick cookware has been a problem that people are very worried after enjoying the cooking process and the delicious food. The advent of the dish washer makes people not worry about cleaning bowls, chopsticks and pots any more. The dish washer is used to automatically clean tableware such as dish, chopsticks, dish, knife and fork. The dish washer can clean, disinfect, dry and store greasy dirt-containing bowls and chopsticks and the like. Greatly saves the processing time of people on greasy bowls and chopsticks pots, etc.

The inner container of the dish-washing machine in the prior art is provided with other mechanisms such as a water collecting container for collecting washing water, a washing pump for driving the circulation of the washing water and the like, and the dish-washing machine has a complex structure, so that the time and the labor are wasted when the dish-washing machine is assembled or maintained, and the workload of an operator is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dish washer collet assembly to the dish washer structure that exists is complicated among the solution prior art, when assembling or maintaining dish washer, wastes time and energy, the great technical problem of operating personnel work load.

The utility model provides a dishwasher collet assembly, include: the dish washer comprises a water collecting container, a water treatment mechanism, a washing pump and a bottom support main body arranged below an inner container of the dish washer.

The water collecting container, the water treatment mechanism and the washing pump are all installed on the bottom support main body.

The water treatment mechanism can soften and purify the water body; the washing pump can drive the washing water in the water collecting container to flow to the inner container of the dish washing machine; the bottom support main body can collect and collect the washing water flowing out of the inner container of the dishwasher into the water collecting container.

Further, the washing pump is provided with a first water inlet and a first water outlet communicated with the inner container of the dishwasher; the water collecting container is provided with a circulating water port and a water discharging port, and the circulating water port is communicated with the first water inlet;

the water treatment mechanism comprises a soft water component arranged at the bottom of the bottom support main body;

the soft water assembly comprises a second water outlet, a resin cavity and a second water inlet which is communicated with an external water source, and the second water outlet is communicated with the inner container of the dishwasher; the resin chamber is used for holding soft water resin, the resin chamber with the second water inlet with the second delivery port all communicates.

Further, the soft water assembly still includes the salt chamber that is used for holding the salt class of regeneration resin, the salt chamber with the second water inlet with the resin chamber all communicates.

Further, the soft water assembly comprises an upper shell and a lower shell used for buckling the upper shell.

A lower resin cavity, a lower water overflowing cavity and a lower salt cavity are formed in the lower shell; the lower end part of the lower water overflowing cavity is provided with a first opening communicated with the lower resin cavity; the second water outlet is arranged in the lower resin cavity.

The upper shell is formed with an upper resin cavity, an upper water overflowing cavity and an upper salt cavity; the upper end part of the upper water diffusion cavity is provided with a second opening communicated with the upper salt cavity.

When the lower shell is buckled on the upper shell, the lower resin cavity and the upper resin cavity form the resin cavity, the lower water overflowing cavity and the upper water overflowing cavity form the water overflowing cavity, and the lower salt cavity and the upper salt cavity form the salt cavity.

Further, still the shaping has on the casing down the soft water subassembly still includes intake antrum and valve body, the salt chamber with the resin chamber all with the intake antrum intercommunication.

The second water inlet is communicated with the water inlet cavity, the water inlet cavity is provided with a valve port, the valve port is used for communicating the water inlet cavity and the salt cavity, and the valve body can open or close the valve port.

Furthermore, a lower water inlet cavity and a lower water inlet channel are formed in the lower shell; the second water inlet is communicated with the lower water inlet cavity, and the valve port is arranged in the lower water inlet cavity; the lower end portion of the lower water inlet passage has a third opening communicating with the lower resin chamber.

The upper shell comprises an upper water inlet cavity and an upper water inlet channel, and the upper end part of the upper water inlet cavity is provided with a fourth opening communicated with the upper water inlet channel.

When the lower shell is buckled on the upper shell, the lower water inlet cavity and the upper water inlet cavity form the water inlet cavity, and the lower water inlet channel and the upper water inlet channel form a water inlet channel.

Further, the upper shell is arranged at the bottom of the bottom support main body and is integrally formed with the bottom support main body.

Further, the soft water component is of an integral structure and is detachably mounted at the bottom of the bottom support main body.

Furthermore, the bottom support main body is provided with a salt adding hole communicated with the salt cavity, and the salt adding hole cover is provided with a detachable sealing cover.

Further, the water treatment mechanism comprises a water ion generator for purifying the water body.

The mounting hole for mounting the water ion generator is formed in the bottom support main body, and the water ion generating end of the water ion generator is located above the bottom support main body.

The utility model provides a beneficial effect that dish washer collet assembly brought is:

the utility model provides a dishwasher collet assembly, include: the dish washer comprises a water collecting container, a water treatment mechanism, a washing pump and a bottom support main body arranged below an inner container of the dish washer. The water collecting container, the water position mechanism and the washing pump are all arranged on the bottom support main body. The water treatment mechanism can soften and purify the water body; the washing pump can drive the washing water in the water collecting container to flow to the inner container of the dish washing machine; the bottom support main body can collect and collect the washing water flowing out of the inner container of the dish-washing machine into the water collecting container.

By utilizing the structure, in the assembling process, the water collecting container, the water treatment mechanism and the washing pump are all arranged on the bottom support main body, and the bottom support main body is arranged below the inner container of the dish-washing machine. So that the water collecting container, the water treatment mechanism and the washing pump are arranged below the inner container of the dish washing machine. In the course of the work, water treatment mechanism can turn into soft water with hard water and carry out purification treatment to the water, utilizes the water after handling to wash the kitchen utensils and appliances in the dish washer inner bag. The collet main part will be collected from the washing water that the dish washer inner bag flows to converge into the collecting vessel with the washing water, the washing pump starts, and the water of drive collecting vessel gets into the washing pump, discharges to the dish washer inner bag side by side, washs the dish chopsticks pan etc. in the dish washer inner bag. After washing, the washing water of the inner container of the dish washing machine is collected in the water collecting container through the bottom support main body and is discharged through a water outlet of the water collecting container.

In the structure, the water collecting container, the water treatment mechanism and the washing pump are integrally mounted in the bottom support main body, when the water collecting container, the water treatment mechanism and the washing pump are assembled, the water collecting container, the water treatment mechanism and the washing pump are mounted in the bottom support main body, then the bottom support main body with the water collecting container, the water treatment mechanism and the washing pump is integrally mounted below the inner container of the dish washing machine, and when the water collecting container, the water treatment mechanism and the washing pump are dismounted and maintained as a whole, the bottom support main body with the water collecting container, the water treatment mechanism and the washing. Need compare catchmenting container, water treatment mechanism and washing pump respectively in the structure of dishwasher inner bag with among the prior art, above-mentioned structure carries out integrated installation under the environment that breaks away from dishwasher earlier to wholly assemble in dishwasher inner bag, simplified near dishwasher inner bag structure, the simple operation reduces the process of installing respectively simultaneously, and labour saving and time saving has alleviateed operating personnel's work burden.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is one of schematic structural diagrams of a dishwasher mounting assembly according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a dishwasher mounting assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of a dishwasher tray assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of a portion of a water softening assembly of a dishwasher mounting assembly according to an embodiment of the present invention;

FIG. 5 is a partial schematic view of a portion of a dishwasher mounting assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the dishwasher tray assembly and the dishwasher liner provided by the embodiment of the present invention.

Icon: 100-a shoe body; 110-a transport channel; 120-a water collecting port; 130-salt adding holes; 131-a sealing cover; 200-a soft water module; 210-a water inlet cavity; 211-upper water inlet cavity; 212-a fourth opening; 213-lower water inlet cavity; 214-valve port; 220-a water inlet channel; 221-an upper water inlet channel; 222-a lower water inlet channel; 223-a third opening; 230-a resin cavity; 231-upper resin chamber; 232-lower resin chamber; 240-salt chamber; 241-salt feeding cavity; 242-lower salt chamber; 250-water diffusion cavity; 251-upper water overflowing cavity; 252-a second opening; 253-a first opening; 254-lower water-overflowing cavity; 260-a second water inlet; 270-a second water outlet; 280-a valve body; 281-an output terminal; 300-a water collection container; 310-a circulating water gap; 320-a water outlet; 400-a washing pump; 410-a first water inlet; 420-a first water outlet; 500-dishwasher liner.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "first", "second", "third" and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless expressly stated or limited otherwise, the terms "connected" and "attached" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be directly connected or connected through an intermediate medium; either mechanically or electrically. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

The specific structure is shown in fig. 1-6.

The embodiment provides a dishwasher mounting assembly, includes: a water collecting container 300, a water treatment mechanism, a washing pump 400 and a bottom support main body 100 installed below a dishwasher inner container 500.

The water collecting container 300, the water treating mechanism, and the washing pump 400 are mounted to the bottom bracket main body 100.

The water treatment mechanism can soften and/or purify the water body; the washing pump 400 can drive the washing water in the water collection container 300 to flow toward the dishwasher liner 500; the bottom bracket body 100 can collect and collect the washing water flowing out of the dishwasher tub 500 into the water collecting container 300.

With the above structure, in the assembling process, the water collecting container 300, the water treatment mechanism and the washing pump 400 are all installed on the bottom support main body 100, and the bottom support main body 100 is installed below the dishwasher liner 500. So that the water collecting container 300, the water treating mechanism and the washing pump 400 are installed under the inner tub 500 of the dishwasher. In the course of the work, water treatment mechanism can turn into the soft water with hard water and carry out purification treatment to the water, utilizes the water after handling to wash the kitchen utensils and appliances in the dish washer inner bag 500. The bottom support main body 100 collects the washing water flowing out from the dishwasher liner 500, and collects the washing water into the water collecting container 300, the washing pump 400 is started, the water in the water collecting container 300 is driven to enter the washing pump 400, the water is discharged to the dishwasher liner 500, and the bowls and chopsticks pots and the like in the dishwasher liner 500 are cleaned. After the washing is completed, the washing water in the inner tub 500 of the dishwasher is collected in the water collecting container 300 through the bottom bracket body 100 and discharged through the water discharge port 320 of the water collecting container 300.

In the above-mentioned structure, collecting container 300, water treatment mechanism and washing pump 400 are all integrated to be installed in collet main part 100, when assembling, earlier collecting container 300, water treatment mechanism and washing pump 400 are installed in collet main part 100, will install collecting container 300 afterwards, the collet main part 100 bulk mounting of water treatment mechanism and washing pump 400 is in dishwasher inner bag 500 below, when dismantling and maintaining, will install collecting container 300, the collet main part 100 of water treatment mechanism and washing pump 400 dismantles as a whole and maintains. Need respectively with catchment container 300, water treatment mechanism and washing pump 400 among the prior art and compare in the structure of dishwasher inner bag 500, the integrated installation under the environment that breaks away from dishwasher is earlier gone on to above-mentioned structure to wholly assemble in dishwasher inner bag 500, simplified near dishwasher inner bag 500 structure, the simple operation simultaneously reduces the process of installing respectively, and labour saving and time saving has alleviateed operating personnel's work burden.

In an optional technical solution of this embodiment, the washing pump 400 has a first water inlet 410 and a first water outlet 420 communicated with the dishwasher liner 500; the water collecting container 300 has a circulation water port 310 and a drain port 320, and the circulation water port 310 communicates with the first water inlet 410.

The water treatment mechanism includes a water softening assembly 200 mounted at the bottom of the shoe main body 100.

The soft water assembly 200 includes a second water outlet 270, a resin chamber 230, and a second water inlet 260 for communicating with an external water source, the second water outlet 270 communicating with the dishwasher liner 500; the resin chamber 230 is used to contain soft water resin, and the resin chamber 230 is communicated with both the second water inlet 260 and the second water outlet 270.

Specifically, soft water resin is provided in the resin chamber 230, when water from an external water source flows into the soft water assembly 200 through the second water inlet 260 and flows into the resin chamber 230, hard water is converted into soft water under the action of the soft water resin, and the soft water is discharged into the dishwasher liner 500 through the second water outlet 270, so that the dishwasher washes dishes, pots, and the like using the soft water.

The hard water softening process is a process for removing soluble salts such as calcium, magnesium and the like in hard water, and the softening resin is used for exchanging calcium and magnesium ions in the hard water by adopting an ion exchange method, so that the calcium and magnesium ions are attached to the softening resin, and sodium ions in the softening resin enter water to soften the water body.

Preferably, the washing water of the dishwasher is softened, so that the scale generation in the dishwasher can be reduced, and the dishwasher is prevented from being blocked by the scale or even from being out of order. In addition, calcium and magnesium ions in the softened water are reduced, so that the calcium and magnesium ions are prevented from reacting with detergent ingredients to influence the decontamination effect of the detergent.

The softening resin is a special resin special for softening hard water, and the hardness of the water is less than 50mg/L (CaCO3) by an ion exchange technology. Ion exchange is a special dynamic adsorption process, which is generally carried out in an electrolyte solution by using a water-insoluble ion exchanger, namely a softening resin.

Preferably, the commonly used softening resins include vinyl resins and meta-benzene type resins.

Preferably, the second water outlet 270 communicates with the dishwasher liner 500 through a pipe.

Preferably, the washing water collected in the water collection container 300 through the bottom support main body 100 enters the first water inlet 410 of the washing pump 400 through the circulating water inlet under the driving of the washing pump 400, and the washing pump 400 pumps the washing water into the dishwasher liner 500 through the first water outlet 420.

In an alternative embodiment of the present embodiment, the soft water module 200 further includes a salt chamber 240 for containing salts of the regenerated resin, and the salt chamber 240 is communicated with both the second water inlet 260 and the resin chamber 230.

Specifically, in the water softening stage, the water in the external water source flows into the resin chamber 230 through the second water inlet 260, the water is softened by the softening action of the softened resin, and the softened water is discharged to the dishwasher liner 500 through the second water outlet 270. The dishwasher can utilize softened water to clean kitchen utensils such as bowls and chopsticks in the dishwasher liner 500. When the water amount in the dishwasher liner 500 meets the washing requirement, the water stops softening, the water stops supplying to the second water inlet 260, and the water softening stage is finished and enters the washing stage. After the washing is completed, the softened resin regeneration stage is performed, and the external water is re-flowed into the second water inlet 260 and flows to the salt chamber 240. The water body contacts with the salt in the salt cavity 240, the salt is dissolved to form a salt solution, the salt solution flows out of the salt cavity 240 and enters the resin cavity 230, the softened resin and the salt solution are subjected to ion exchange, and calcium and magnesium ions in the softened resin are replaced by sodium ions in the salt solution, so that the regeneration of the softened resin is realized, and the softened resin is ready for the next water body softening stage. The displaced water flows from the resin chamber 230 into the dishwasher liner 500, then flows out of the dishwasher liner 500 and collects in the water collection container 300 through the shoe body 100, and is discharged through the drain port 320.

Utilize above-mentioned structure, soften the hard water of outside water source input through the water softening stage, utilize the soft water after softening to wash kitchen utensils and appliances. In the regeneration stage of the softening resin, the softening resin which has replaced calcium and magnesium ions is regenerated, and the calcium and magnesium ions in the softening resin are replaced again to recover the softening function.

Preferably, the salt for regenerating the softening resin is sodium chloride.

In an alternative embodiment of the present embodiment, the water softening assembly 200 includes an upper housing and a lower housing for fastening the upper housing.

A lower resin cavity 232, a lower water overflowing cavity 254 and a lower salt cavity 242 are formed on the lower shell; the lower end of the lower flooding cavity 254 is provided with a first opening 253 communicated with the lower resin cavity 232; the second water outlet 270 opens into the lower resin chamber 232.

The upper case is formed with an upper resin chamber 231, an upper flooding chamber 251, and an upper salt chamber 241. The upper end of the upper flood chamber 251 has a second opening 252 communicating with the upper salt chamber 241.

When the lower housing is fastened to the upper housing, the lower resin cavity 232 and the upper resin cavity 231 form a resin cavity 230, the lower water-overflowing cavity 254 and the upper water-overflowing cavity 251 form a water-overflowing cavity 250, and the lower salt cavity 242 and the upper salt cavity 241 form a salt cavity 240.

In an optional technical solution of this embodiment, the soft water assembly 200 further includes a water inlet chamber 210 and a valve body 280, and the salt chamber 240 and the resin chamber 230 are both communicated with the water inlet chamber 210.

The second water inlet 260 is communicated with the water inlet chamber 210, the water inlet chamber 210 is provided with a valve port 214, the valve port 214 is used for communicating the water inlet chamber 210 and the salt chamber 240, and the valve body 280 can open or close the valve port 214.

Preferably, the opening of the valve port 214 is utilized to control the second water inlet 260 to communicate with the salt cavity 240 to realize that the soft water assembly 200 enters the resin regeneration stage; or the closing of the valve port 214 is utilized to control the second water inlet 260 to communicate with the resin chamber 230 to realize the water softening assembly 200 entering the water softening stage.

Specifically, the inlet chamber 210 communicates with the second inlet port 260, and the water in the external water source flows into the inlet chamber 210 through the second inlet port 260. In the water softening stage, the valve body 280 closes the valve port 214, so that the water in the water inlet chamber 210 enters the resin chamber 230, the water is changed into softened water by the softening action of the softened resin, and the softened water is discharged to the dishwasher liner 500 through the second water outlet 270. The dishwasher can utilize softened water to clean kitchen utensils such as bowls and chopsticks in the dishwasher liner 500. When the water quantity in the dishwasher liner 500 meets the washing requirement, the water body is stopped from softening, the water supply to the water inlet cavity 210 is stopped, and the water body softening stage is finished and the washing stage is started. Enter the resin of softening regeneration stage after the washing, outside water source flows into intake antrum 210 again, at this moment, valve body 280 opens valve port 214 for the water flows into salt chamber 240, the water contacts with the salt in salt chamber 240, salt dissolves and forms the salt solution, the salt solution flows out salt chamber 240 and enters resin chamber 230, the resin of softening carries out ion exchange with the salt solution, utilize the sodium ion replacement in the salt solution to go out the calcium magnesium ion in the resin of softening, thereby realize the regeneration of the resin of softening, use in the next water softening stage. The displaced water flows from the resin chamber 230 into the dishwasher liner 500, then flows out of the dishwasher liner 500 and collects in the water collection container 300 through the shoe body 100, and is discharged through the drain port 320.

Preferably, the valve body 280 is an electromagnetic push rod, the output end 281 of the electromagnetic push rod can be controlled to extend and retract, and when the output end 281 of the electromagnetic push rod extends, the output end 281 abuts against the valve port 214, so that the valve port 214 is closed. When the output 281 of the electromagnetic push rod is retracted, the output 281 is separated from the valve port 214, so that the valve port 214 is opened.

In addition, two second water inlets 260 can be arranged and communicated with the resin cavity 230 and the salt cavity 240 respectively to form two paths for controlling the water inflow of the resin cavity 230 and the salt cavity 240 respectively.

In an optional technical solution of this embodiment, the lower housing is further formed with a lower water inlet cavity 213 and a lower water inlet channel 222; the second water inlet 260 is communicated with the lower water inlet cavity 213, and the valve port 214 is arranged in the lower water inlet cavity 213; the lower end portion of the lower water inlet passage 222 has a third opening 223 communicating with the lower resin chamber 232.

The upper housing includes an upper water inlet chamber 211 and an upper water inlet passage 221 the upper end portion of the upper water inlet chamber 211 has a fourth opening 212 communicating with the upper water inlet passage 221.

When the lower housing is fastened to the upper housing, the lower inlet cavity 213 and the upper inlet cavity 211 form an inlet cavity 210, and the lower inlet channel 222 and the upper inlet channel 221 form an inlet channel 220.

Specifically, the fourth opening 212 has been seted up to the upper end of going up inlet chamber 211, after the water of outside water source entered inlet chamber 210 through second water inlet 260, the water level rose gradually, if this stage is the softening stage, valve port 214 is closed, the water level continues rising after flooding valve port 214, until the water level rose to fourth opening 212, rivers got into inhalant canal 220 through fourth opening 212, inhalant canal 220 played certain cushioning effect to rivers, prevent that rivers from directly getting into resin chamber 230 with higher velocity of flow, avoid softening insufficient problem. The water in the water inlet passage 220 flows into the resin chamber 230 through the third opening 223, is sufficiently softened in the resin chamber 230, and flows out of the resin chamber 230 and enters the dishwasher liner 500 through the second water outlet 270.

If the regeneration stage is a regeneration stage of the softened resin, the valve port 214 is opened, after the water level in the water inlet cavity 210 rises to the position of the valve port 214, the water directly enters the salt cavity 240 through the valve port 214, the water level in the salt cavity 240 gradually rises, the salt is dissolved in the water to form a salt solution, the salt solution gradually rises to the second opening 252, flows into the water diffusion cavity 250 through the second opening 252, and flows into the resin cavity 230 through the first opening 253, so that the softened resin is regenerated, and the water level of the solution gradually rises and is discharged to the inner container 500 of the dishwasher through the second water outlet 270.

Preferably, the fourth opening 212 of the inlet chamber 210 is higher than the valve port 214, so that during the regeneration phase, the water flow enters the salt chamber 240 preferentially through the valve port 214 and is prevented from entering the inlet passage 220 through the fourth opening 212.

In an alternative solution of this embodiment, the upper housing is disposed at the bottom of the shoe main body 100 and is integrally formed with the shoe main body 100.

Preferably, the upper housing is integrally formed with the shoe main body 100, and the water softening assembly 200 is a separable split structure of the upper and lower housings, and the structure is convenient for separating and maintaining the upper and lower housings, cleaning impurities in the water softening assembly 200, and replacing and maintaining the water softening resin.

Preferably, go up casing and collet main part 100 integrated into one piece, reduced the assembly process between last casing and the collet main part 100, the operating personnel assembly operation of being convenient for makes the direct lock of lower casing can accomplish the assembly of soft water component 200 in last casing simultaneously, has also accomplished the installation between soft water component 200 and collet main part 100 simultaneously.

In another alternative embodiment of the present embodiment, the water softening assembly 200 is a unitary structure and is detachably mounted on the bottom of the shoe body 100.

Specifically, the water softener has an integrated structure, and the water softener has a water inlet chamber 210, a resin chamber 230 and a salt chamber 240. The water softener is detachably mounted on the shoe main body 100 as a whole, so that the mounting process is simplified, and the water softener can be conveniently dismounted and maintained. Preferably, the water softener may be mounted to the shoe body 100 by a screw structure.

In an alternative embodiment of the present embodiment, the shoe body 100 is a disk-like structure, and the edge of the shoe body 100 has an upward flange.

The water collecting container 300 has a water collecting cavity communicated with both the circulating water port 310 and the water outlet 320, the shoe main body 100 is opened with a water collecting port 120, and the water collecting port 120 communicates the water collecting cavity and the upper space of the shoe main body 100.

The dishwasher liner 500 and the first water outlet 420 are communicated through the delivery passage 110.

Preferably, after the softened water enters the dishwasher liner 500, the softened water enters the washing stage, the washing water in the dishwasher liner 500 can be discharged to the upper space of the bottom support main body 100, and the washing water is collected in the water collection cavity through the water collection port 120. The washing pump 400 pumps the washing water in the water collection cavity through the water circulation port 310 and pumps the washing water to the conveying channel 110 through the first water outlet 420, and the washing water is sprayed into the dishwasher liner 500 through the conveying channel 110 and washes the kitchenware. The washing water sprayed down is discharged again from the dishwasher tub 500 to the tray main body 100. The circulation is repeated until the kitchen ware is cleaned, and the washing water is finally discharged from the water outlet 320.

In an optional technical solution of this embodiment, the bottom bracket main body 100 is provided with a salt adding hole 130 communicated with the salt cavity 240, and the salt adding hole 130 is covered with a detachable sealing cover 131.

When the sodium chloride in the salt cavity 240 is completely dissolved and discharged, the bottom support main body 100 is detached, the sealing cover 131 is opened, and the sodium chloride is added into the salt cavity 240 to ensure the normal operation of the dish-washing machine.

Preferably, the salt adding hole 130 is arranged to facilitate the supplement of sodium chloride in the salt cavity 240, and the maintenance is convenient.

In an optional technical solution of this embodiment, the water treatment mechanism includes a water ionizer for purifying the water body. The mounting hole for mounting the water ion generator is formed in the bottom support main body 100, and the water ion generating end of the water ion generator is located above the bottom support main body 100.

Preferably, the water ion generator can directly perform water ionization on the washing water of the bottom support main body 100, purify the water quality, further soften the water quality, and enable the washing water to have a certain deodorizing and bacteriostatic effect.

It should be noted that the working principle of the water ionizer can be referred to the prior art.

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

Claims (10)

1. A dishwasher mount assembly, comprising: the dishwasher comprises a water collecting container (300), a water treatment mechanism, a washing pump (400) and a bottom support main body (100) arranged below a dishwasher liner (500);

the water collecting container (300), the water treatment mechanism and the washing pump (400) are all mounted on the bottom support main body (100);

the water treatment mechanism can soften and purify the water body; the washing pump (400) can drive the washing water in the water collection container (300) to flow to the inner container (500) of the dishwasher; the bottom support main body (100) can collect and collect the washing water flowing out of the dishwasher liner (500) into the water collecting container (300).

2. The dishwasher mounting assembly according to claim 1, wherein the wash pump (400) has a first water inlet (410) and a first water outlet (420) in communication with the dishwasher tub (500); the water collection container (300) is provided with a circulating water port (310) and a water discharge port (320), and the circulating water port (310) is communicated with the first water inlet (410);

the water treatment mechanism comprises a soft water component (200) arranged at the bottom of the bottom support main body (100);

the soft water assembly (200) comprises a second water outlet (270), a resin cavity (230) and a second water inlet (260) for communicating with an external water source, wherein the second water outlet (270) is communicated with the dishwasher liner (500); the resin cavity (230) is used for containing soft water resin, and the resin cavity (230) is communicated with the second water inlet (260) and the second water outlet (270).

3. The dishwasher tray assembly according to claim 2, wherein the water softening assembly (200) further comprises a salt chamber (240) for containing salts of regenerated resin, the salt chamber (240) communicating with both the second water inlet (260) and the resin chamber (230).

4. The dishwasher mounting assembly according to claim 3, wherein the water softening component (200) comprises an upper housing and a lower housing for snap-fitting the upper housing;

a lower resin cavity (232), a lower water overflowing cavity (254) and a lower salt cavity (242) are formed in the lower shell; the lower end part of the lower water overflowing cavity (254) is provided with a first opening (253) communicated with the lower resin cavity (232); the second water outlet (270) is arranged in the lower resin cavity (232);

the upper shell is formed with an upper resin cavity (231), an upper water overflowing cavity (251) and an upper salt cavity (241); the upper end part of the upper water overflowing cavity (251) is provided with a second opening (252) communicated with the upper salt cavity (241);

when the lower shell is buckled on the upper shell, the lower resin cavity (232) and the upper resin cavity (231) form the resin cavity (230), the lower water overflowing cavity (254) and the upper water overflowing cavity (251) form the water overflowing cavity (250), and the lower salt cavity (242) and the upper salt cavity (241) form the salt cavity (240).

5. The dishwasher tray assembly according to claim 4, wherein the water softening assembly (200) further comprises an inlet chamber (210) and a valve body (280) formed on the lower housing, the salt chamber (240) and the resin chamber (230) both communicating with the inlet chamber (210);

the second water inlet (260) is communicated with the water inlet cavity (210), the water inlet cavity (210) is provided with a valve port (214), the valve port (214) is used for communicating the water inlet cavity (210) and the salt cavity (240), and the valve body (280) can open or close the valve port (214).

6. The dishwasher tray assembly according to claim 5, wherein the lower housing is further formed with a lower water inlet chamber (213) and a lower water inlet channel (222); the second water inlet (260) is communicated with the lower water inlet cavity (213), and the valve port (214) is arranged in the lower water inlet cavity (213); a lower end portion of the lower water inlet passage (222) has a third opening (223) communicating with the lower resin chamber (232);

the upper shell comprises an upper water inlet cavity (211) and an upper water inlet channel (221), and the upper end part of the upper water inlet cavity (211) is provided with a fourth opening (212) communicated with the upper water inlet channel (221);

when the lower shell is buckled on the upper shell, the lower water inlet cavity (213) and the upper water inlet cavity (211) form the water inlet cavity (210), and the lower water inlet channel (222) and the upper water inlet channel (221) form a water inlet channel (220).

7. The dishwasher mounting assembly according to any one of claims 4 to 6, wherein the upper housing is provided at the bottom of the mounting body (100) and is integrally formed with the mounting body (100).

8. The dishwasher tray assembly according to any one of claims 2 to 6, wherein the water softening assembly (200) is of unitary construction and is removably mounted to the bottom of the tray body (100).

9. The dishwasher tray assembly according to any one of claims 3 to 6, wherein said tray body (100) is provided with a salt adding aperture (130) communicating with said salt cavity (240), said salt adding aperture (130) being covered with a removable sealing cover (131).

10. The dishwasher tray assembly according to any one of claims 1 to 6, wherein the water treatment mechanism comprises a water ionizer for purifying a body of water;

the water ion generator is characterized in that the bottom support main body (100) is provided with a mounting hole for mounting the water ion generator, and the water ion generating end of the water ion generator is positioned above the bottom support main body (100).

Images