CN113287994B - Residue treatment device of dish washing machine and control method thereof - Google Patents

Abstract

The invention discloses a residue treatment device of a dish washing machine and a control method thereof, the device comprises an outer cover, a slag crushing component, a spray pipe, a slag cleaning water inlet pipeline, a slag crushing driving component and a control module, wherein the outer cover is provided with a cavity with an upward opening and a slag discharge port communicated with the cavity, the slag crushing component is arranged in the cavity and is provided with a grinding inlet, the spray pipe is provided with a plurality of water spray holes which discharge water towards the grinding inlet, the slag crushing driving component comprises a slag cleaning water inlet pipe and a slag cleaning water inlet valve, the spray pipe is communicated with a cleaning water source through the slag cleaning water inlet pipe, the slag cleaning water inlet valve is arranged on the slag cleaning water inlet pipe, a driving shaft of the slag crushing driving component is connected with the slag crushing component, and the control module is electrically connected with the slag cleaning water inlet valve and the slag crushing driving component respectively. When the slag crushing component crushes the residues, the spray pipe sprays water towards the grinding inlet, so that the residues in the slag crushing component are effectively crushed and quickly cleaned, the slag crushing component is prevented from rotating in a blocking mode, and meanwhile the effect of quickly discharging the residues can be achieved.

Description

Residue treatment device of dish washing machine and control method thereof

Technical Field

The invention relates to the technical field of dish-washing machines, in particular to a dish-washing machine residue treatment device and a control method thereof.

Background

The related technology of residue treatment of the existing dish-washing machine mostly adopts a mode of combining a motor with blades, and the normal use of the dish-washing machine is influenced due to the fact that different types of residues are different in thickness and weight and can cause blockage of a residue discharge port and/or blockage of a cutter.

Disclosure of Invention

The invention aims to solve at least one of the problems in the prior related art to a certain extent, and provides a residue treatment device of a dish washing machine, which has a simple structure, can effectively crush and quickly clean residues, and can avoid the rotation blockage of a residue crushing component.

The invention also provides a control method of the residue treatment device of the dish-washing machine, which can realize the matching of the working time of the slag crushing driving component and the slag removing water inlet valve according to the dish washing mode of the dish-washing machine.

According to the above-mentioned residue treatment device for dish-washing machine, it is realized by the following technical scheme:

a residue disposal device for a dishwasher, comprising: the outer cover is provided with a cavity with an upward opening and a slag discharge port, and the slag discharge port is communicated with the cavity; the slag crushing component is arranged in the cavity and used for crushing the residues, and the slag crushing component is provided with a grinding inlet; the spray pipe is arranged in the cavity and positioned on the outer side of the slag crushing assembly, a plurality of water spray holes are formed in the spray pipe, and the water outlet directions of the water spray holes face the grinding inlet; the slag removal water inlet pipeline comprises a slag removal water inlet pipe and a slag removal water inlet valve, the spray pipe is communicated with a cleaning water source through the slag removal water inlet pipe, and the slag removal water inlet valve is arranged on the slag removal water inlet pipe and used for controlling the water passing state of the slag removal water inlet pipe; the driving shaft of the slag crushing driving assembly is connected with the slag crushing assembly and is used for controlling the working state of the slag crushing assembly; the control module is respectively and electrically connected with the slag removal water inlet valve and the slag crushing driving assembly, is used for matching the working time of the slag crushing driving assembly and the slag removal water inlet valve according to a dish washing mode of a dish washer, and is also used for controlling the working states of the slag crushing driving assembly and the slag removal water inlet valve.

In a first embodiment, the nozzle is of an arc or ring configuration, the nozzle is fixedly disposed within the cavity above the abrasive inlet, and all of the water jets are spaced along the length of the nozzle and directed toward the abrasive inlet.

Further, the top of the spray pipe is higher than the top of the slag crushing assembly, and the water spray holes are located between the grinding inlet and the top of the slag crushing assembly.

In a second embodiment, the nozzle is of arcuate or annular configuration, the nozzle being movable up and down within the chamber above the abrasive inlet, all of the water jets being spaced along the length of the nozzle and directed toward the abrasive inlet.

Furthermore, a plurality of vertically arranged limiting grooves are formed in the side wall of the cavity, and the spray pipe is connected with the limiting grooves in a sliding mode through sliding pieces.

Further, the spraying pipe driving device further comprises a spraying pipe driving assembly, wherein the output end of the spraying pipe driving assembly is connected with the spraying pipe and used for driving the spraying pipe to move.

In a third embodiment, the nozzle is disposed within the cavity and is movable in a circumferential direction of the outer shroud, all of the water jets are spaced along a length of the nozzle and are higher than the abrasive inlet, and the water outlet of each water jet is directed toward the abrasive inlet.

Furthermore, the side wall of the cavity is provided with a sliding groove arranged along the circumferential direction, the sliding groove is higher than the grinding inlet, and the spray pipe is movably inserted into the sliding groove or is in sliding connection with the sliding groove through a sliding part.

Further, the spraying pipe driving device further comprises a spraying pipe driving assembly, wherein the output end of the spraying pipe driving assembly is connected with the spraying pipe and used for driving the spraying pipe to move.

Furthermore, the slag removal water inlet pipeline comprises a slag removal water inlet pipe and a slag removal water inlet valve, the water inlet end of the slag removal water inlet pipe is communicated with a cleaning water source, and the water outlet end of the slag removal water inlet pipe is communicated with the spray pipe; the slag removing water inlet valve is arranged on the slag removing water inlet pipe and used for controlling the water passing state of the slag removing water inlet pipe.

In a fourth embodiment, the dishwasher further comprises a water storage module, the water storage module is used for storing the last washing water for washing the dishware of the dishwasher, the outer cover is further provided with a water outlet communicated with the cavity, the water outlet is selectively communicated with the water inlet hole of the water storage module, and the water inlet end of the slag removal water inlet pipeline is communicated with the water outlet hole of the water storage module.

According to the control method of the dishwasher residue treatment device, the control method is realized by the following technical scheme:

a control method of a dishwasher residue treatment apparatus to which a dishwasher residue treatment apparatus as described above is applied, the control method comprising the steps of:

s1, starting a residue treatment program, and matching the working time of the slag driving component and the slag removal water inlet valve according to the tableware cleaning mode;

s2, starting the slag crushing driving assembly to enable the slag crushing assembly to start crushing treatment on the residues, and opening a slag cleaning water inlet valve to enable the spray pipe to start spraying water towards the grinding inlet at the same time or after the slag crushing driving assembly is started;

and S3, finishing the residue treatment process after the working time of the slag crushing driving assembly and the slag cleaning water inlet valve are matched.

Further, the starting residue processing program judges whether the tableware spray cleaning and drying program is finished or not, and if the tableware spray cleaning and drying program is finished, the dishwasher is controlled to start the residue processing program; if not, controlling the dishwasher to continuously execute the tableware spray cleaning and drying program.

Compared with the prior art, the invention at least comprises the following beneficial effects:

according to the invention, the spray pipe with the plurality of water spray holes is additionally arranged in the cavity, and the water outlet direction of the water spray holes is designed to be towards the grinding inlet of the slag crushing component, so that the slag crushing component crushes residues, and the spray pipe sprays water towards the grinding inlet, thereby effectively crushing and quickly cleaning the residues in the slag crushing component, avoiding the slag crushing component from being blocked, and simultaneously achieving the effect of quickly discharging residues by virtue of the water flow sprayed from the spray pipe.

Drawings

FIG. 1 is a schematic structural diagram of a dishwasher according to a first embodiment of the present invention;

FIG. 2 is a sectional view of a residue processing apparatus according to an embodiment of the present invention;

FIG. 3 is a top view of the residue processing apparatus according to one embodiment of the present invention;

FIG. 4 is a sectional view of the residue processing apparatus according to the first embodiment of the present invention, in which the spray pipe is in a state of spraying water toward the grinding inlet;

FIG. 5 is a schematic structural view of a dishwasher according to a second embodiment of the present invention;

FIG. 6 is a sectional view of a residue processing apparatus according to a third embodiment of the present invention;

FIG. 7 is a sectional view of the residue processing apparatus in accordance with the fourth embodiment of the present invention, with the lance drive assembly 61 omitted;

fig. 8 is a flowchart of a control method in the fifth embodiment of the present invention.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. Modifications to the embodiments of the invention or equivalent substitutions of parts of technical features without departing from the spirit of the invention are intended to be covered by the scope of the claims of the invention.

Example one

As shown in fig. 1-4, the present embodiment provides a residue treatment device for a dishwasher, comprising a housing 1, a slag component 2, a nozzle 3, a slag-removing water inlet pipeline (not shown), a slag-removing driving component 62 and a control module (not shown), wherein the housing 1 has a cavity 101 and a slag outlet 102, the cavity 101 is opened upwards and is used for communicating with a washing cavity of the dishwasher, the slag outlet 102 is communicated with the cavity 101, and the slag outlet 102 is selectively communicated with a sewer. The disintegrating slag assembly 2 is arranged in the cavity 101 and used for crushing the residues, the disintegrating slag assembly 2 is provided with a grinding inlet 201 and a grinding outlet 202, the residues enter the disintegrating slag assembly 2 through the grinding inlet 201 to be crushed, the crushed residues are discharged through the grinding outlet 202, and finally the crushed residues are discharged out of the outer cover 1 through the slag discharge port 102. Spray tube 3 sets up in cavity 101 and is located disintegrating slag subassembly 2's the outside, be equipped with a plurality of hole for water sprayings 301 on spray tube 3, hole for water spraying 301's play water direction orientation grinds entry 201, and spray tube 3 communicates the washing water source selectively through the scarfing cinder inlet pipe way, thus, when disintegrating slag subassembly 2 smashes the residue, can follow the hole for water spraying 301 blowout of spray tube 3 with the washing water source, rivers enter into crushing subassembly 2 through grinding entry 201 inside, wash crushing subassembly 2, one can avoid in the 2 course of working of disintegrating slag subassembly by the stifled commentaries on classics of residue, do benefit to and promote the crushing effect of residue, two can reach the effect of quick row's sediment, avoid the residue to remain in disintegrating slag subassembly 2 and dustcoat 1 inside. The slag removal water inlet pipeline comprises a slag removal water inlet pipe 41 and a slag removal water inlet valve 42, the spray pipe 3 is communicated with a cleaning water source through the slag removal water inlet pipe 41, and the slag removal water inlet valve 42 is arranged on the slag removal water inlet pipe 41 and used for controlling the water flowing state of the slag removal water inlet pipe 41, so that whether the cleaning water source is provided for the spray pipe 3 or not can be controlled through logic control over the slag removal water inlet valve 42, and further whether the spray pipe 3 sprays water to wash the slag crushing assembly 2 or not can be controlled. The driving shaft of the slag crushing driving assembly 62 is connected with the slag crushing assembly 2 and is used for controlling the working state of the slag crushing assembly 2. The control module is respectively and electrically connected with the slag cleaning water inlet valve 42 and the slag driving component 62, is used for matching the working time of the slag driving component 62 and the slag cleaning water inlet valve 42 according to the dish washing mode of the dish washer, and is also used for controlling the working state of the slag driving component 62 and the slag cleaning water inlet valve 42.

It is visible, the residue processing apparatus of this embodiment, through nozzle 3 who has a plurality of hole for water sprayings 301 add in cavity 101, and the play water direction design with hole for water sprayings 301 is the grinding entry 201 towards disintegrating slag subassembly 2, when making disintegrating slag subassembly 2 smash the residue, nozzle 3 is towards grinding entry 201 water spray, realize effectively smashing and clear up the residue in disintegrating slag subassembly 2 fast, avoid disintegrating slag subassembly 2 to appear the stall, simultaneously with the help of from 3 spun rivers of nozzle, make dustcoat 1 reach the effect of arranging the sediment fast. In addition, the dishwasher can match the working time of the slag driving component 62 and the slag removal water inlet valve 42 according to the dish washing mode of the dishwasher, thereby improving the self-adaptability of the product.

As shown in fig. 2, the slag crushing assembly 2 preferably comprises an outer crushing cutter 21 and an inner crushing cutter 22, the outer crushing cutter 21 is fixedly arranged inside the cavity 101 and above the slag discharge port 102, and a grinding port is arranged on the crushing cutter 21, and the lower end surface of the grinding port is a grinding outlet 202. The inner crushing cutter 22 is rotatably provided at the grinding port, and the inner crushing cutter 22 is connected with the driving shaft of the slag driving assembly 62 to realize that the inner crushing cutter 22 is driven to rotate by the slag driving assembly 62, so that the outer crushing cutter 21 and the inner crushing cutter 22 relatively move, thereby crushing the residue. The grinding inlet 201 is defined by the cooperation of the upper end of the grinding opening provided to the outer crushing cutter 21 and the outer crushing cutter 21.

As shown in fig. 2-4, preferably, the nozzle 3 is an arc or ring structure, in this embodiment, the nozzle 3 is an annular structure, the nozzle 3 is fixed in the cavity 101 and is higher than the grinding inlet 201, and all the water spraying holes 301 are arranged along the length of the nozzle 3 at intervals and face the grinding inlet 201, so as to increase the water outlet area, ensure uniform water outlet and all-around spraying and washing of residues at the grinding port, and improve the flushing force and flushing effect.

Preferably, the top of spray tube 3 is higher than the top of disintegrating slag subassembly 2, the top of spray tube 3 is higher than the up end of interior crushing cutter 22 promptly, hole for water spraying 301 is located and grinds between the up end of entry 201 and crushing cutter 22, thus, ensure that hole for water spraying 301 can be towards grinding entry 201 water spraying, rivers flow from top to bottom along the cooperation department of outer crushing cutter 21 and interior crushing cutter 22, wash the clearance and grind the mouth, avoid in the work process of disintegrating slag subassembly 2 by the residue lock-rotor, do benefit to and promote the residue and smash the effect, do benefit to simultaneously and arrange sediment fast, avoid the residue to remain inside disintegrating slag subassembly 2 and dustcoat 1.

In this embodiment, the residue pulverization of the residue pulverizing unit 2 and the water-spraying washing operation of the spray pipe 3 may be performed synchronously or asynchronously. When asynchronous going on, can advance through scarfing cinder inlet circuit and intake to make spray tube 3 towards grinding the entry water spray, with wet grinding mouthful and wait to smash the residue, then start disintegrating slag subassembly 2 again and carry out residue shredding. Or, when asynchronous going on, can carry out residue shredding for starting earlier disintegrating slag subassembly 2, intake through scarfing cinder inlet line again to make 3 orientation of spray tube grind the entry water spray, wash disintegrating slag subassembly 2 the grinding mouth and be located the residue that grinds mouth department, avoid the residue to remain or pile up and stifled revolving disintegrating slag subassembly 2, make and reach the effect that the residue was smashed and was arranged sediment fast.

The operation can be stopped simultaneously with the stop of the slag crushing operation of the slag crushing unit 2 and the water-jet washing operation of the nozzle 3, so that the water consumption can be reduced. Certainly, the two can also be that the disintegrating slag subassembly 2 stops working earlier, and the water spray that stops after postponing again, like this, be convenient for utilize the time quantum of postponing the water spray, fully wash disintegrating slag subassembly 2's grinding mouth and dustcoat 1, when guaranteeing to arrange the sediment fast, can avoid the residue to remain on disintegrating slag subassembly 2 and/or dustcoat 1.

In the present embodiment, the residue crushing operation of the residue crushing assembly 2 and the water spraying and washing operation of the spray pipe 3 are related to the dish washing mode of the dishwasher, as shown in the following table:

the dish washing mode of the dish washer has three kinds of fast dish washing, standard dish washing and powerful dish washing. The residue crushing time of the slag crushing assembly is equal to the working time of the slag driving assembly 62, and the water spraying and washing time of the spray pipe is equal to the working time of the slag removing water inlet valve 42 (namely the continuous opening time of the slag removing water inlet valve 42). The residue crushing time of the residue crushing assembly 2 and the water spraying and washing time of the spray pipe 3 are matched with the modes of the dish washing mode one by one, so that the working time of the slag removing water inlet valve 42 and the working time of the residue crushing driving assembly 62 can correspond to or match the dish washing mode. In addition, in the same dish washing mode, the residue pulverizing time period of the residue pulverizing assembly 2 is equal to the water spray washing time period of the spray pipe 3.

The embodiment takes the case that the slag crushing assembly 2 and the spray pipe 3 are synchronously operated and synchronously finished. After the dish washing mode of dish washer ends, the dish washer starts the residue treatment procedure, and crushing cutter 22 rotates in the drive of disintegrating slag drive assembly 62 for outer crushing cutter 21 and interior crushing cutter 22 relative motion realize smashing the residue, and the length of time and dish washing mode phase-match are smashed to the residue of disintegrating slag subassembly 2. While the ballast crushing unit 2 is in operation, the spray pipe 3 starts spraying water to the grinding inlet 201 of the ballast crushing unit 2 to wash the ballast crushing unit 2, and the water spraying washing duration of the spray pipe is also matched with the dish washing mode. From this, spray tube 3 begins the water spray when through starting disintegrating slag subassembly 2, realizes disintegrating slag and residue spray rinsing and goes on in step, can avoid the residue adhesion to influence in disintegrating slag subassembly 2 the residue and smash the effect and take place the locked rotor problem, reaches the residue and smashes and arrange the effect of sediment fast. Because disintegrating slag and residue spray rinsing go on in step, consequently, when disintegrating slag subassembly 2 stopped working, spray tube 3 also can stop the water spray, and remaining water is enough to wash residual residue and arranges away this moment, reaches the using water wisely.

As shown in fig. 1, preferably, the outer cover 1 further has a spray water inlet (not shown) connected to the cavity 1 and a water outlet (not shown) connected to the cavity 1, wherein the spray water inlet of the outer cover 1 is selectively connected to tap water through a spray water inlet pipeline, or the spray water inlet is selectively connected to a mixed water outlet of the mixed water valve through a spray water inlet pipeline, and a hot water inlet of the mixed water valve is connected to a hot water pipe and a cold water pipe of the water heater to be connected to tap water, so that water can be supplied at a set temperature when spraying water. The water outlet of the outer cover 1 is communicated with each spray arm through a spraying water outlet pipe 91 so as to supply water for each spray arm. The spray outlet pipe 91 is provided with a spray outlet valve 92 and a booster pump 93, the spray outlet valve 92 controlling the flow passage of the spray outlet pipe 91, and the booster pump 93 boosting the flow supplied to each spray arm to increase the flushing force.

In this embodiment, the device further comprises a main water inlet pipeline, the main water inlet pipeline comprises a main water inlet pipe 81 and a main water inlet valve 82, a water inlet end of the main water inlet pipe 81 is communicated with an external water source, a water outlet end of the main water inlet pipe 81 is respectively communicated with the slag removing water inlet pipe 41 and the spraying water inlet pipe 51, and the main water inlet valve 82 is arranged on the main water inlet pipe 81 and used for controlling the on-off state of water flow of the main water inlet pipe 81. In other embodiments, the primary water inlet line may be omitted.

Example two

As shown in fig. 5, the difference between the first embodiment and the second embodiment is that the dishwasher further includes a water storage module 7, the water storage module 7 is used for storing the last washing water for washing the dishes of the dishwasher, the water storage module 7 includes a water collector 71 and a connecting pipe 72, the water collector 71 has a water storage cavity, and a water inlet and a water outlet respectively communicated with the water storage cavity, the water inlet of the water collector 71 is selectively communicated with the water outlet of the outer cover 1 through the connecting pipe 72, in the present embodiment, the spray outlet valve 92 is a three-way valve, one water outlet of the three-way valve is communicated with the water inlet of the water collector 71 through the connecting pipe 72, and the other water outlet is communicated with each spray arm through the spray outlet pipe 91. The water outlet of the water collector 71 is communicated with the spray pipe 3 through a slag-removing water inlet pipeline. The other parts are the same as the first embodiment.

When the dish washing program of the dishwasher is operated to the end, the last washing water is stored in the water storage chamber of the sump 71 for use as a washing water source supplied to the spout 3. After the dish washing mode of dish washer is ended, dish washer starts residue treatment procedure, starts disintegrating slag subassembly 2, and in water in the water storage cavity of water collector 71 was carried to spray tube 3 through the scarfing cinder inlet line simultaneously, rivers were followed the hole for water spraying 301 blowout of spray tube 3, entered into disintegrating slag subassembly 2 through grinding entry 201 in, washed clearance disintegrating slag subassembly 2.

It can be seen that the last washing water is stored in the water storage module 7 to be used as a washing water source for the spray pipe 3, so that the last washing water can be fully utilized, and the water-saving effect is better.

EXAMPLE III

As shown in fig. 6, the present embodiment is different from the first or second embodiment in that the nozzle 3 is fixed in a different manner. Specifically, the nozzle 3 is of an arc or ring configuration, the nozzle 3 is movable up and down within the cavity 101 and above the grinding inlet 201, and all of the water jets 301 are spaced along the length of the nozzle 3 and face the grinding inlet 201.

In this embodiment, a plurality of vertically arranged limiting grooves 103 are formed in the side wall of the cavity 101, and the nozzle 3 is slidably connected with the limiting grooves 103 through the sliding member 63, so that the nozzle 3 can move up and down along the length direction of the limiting grooves 103 by matching the limiting grooves 103 with the sliding member 63. The embodiment further comprises a spray pipe driving assembly 61, wherein the output end of the spray pipe driving assembly 61 is in transmission connection with the spray pipe 3 through a gear transmission structure and used for driving the spray pipe 3 to move, so that the height of the spray pipe 3 can be adjusted, and the distance between the water spraying hole 301 and the grinding inlet 201 can be adjusted.

It can be seen that by designing the nozzle 3 to be movable up and down and above the grinding inlet 201, so that the distance between the water jet holes 301 and the grinding inlet 201 can be adjusted, the magnitude of the flushing force for flushing the slag assembly 2 is adjusted.

Example four

As shown in fig. 7, the present embodiment is different from the third embodiment in the fixing manner of the nozzle 3. In the present embodiment, the nozzle 3 is disposed in the cavity 101 and is movable in the circumferential direction of the housing 1. The side wall of the cavity 101 is provided with a sliding groove 104 arranged along the circumferential direction, the sliding groove 104 is higher than the grinding inlet 201, the nozzle 3 is movably inserted into the sliding groove 104, or the nozzle 3 is slidably connected with the sliding groove 104 through the sliding part 63. When the nozzle 3 is driven to rotate along the chute 104 by the nozzle driving assembly, the position of the nozzle 3 can be adjusted to spray water to the grinding inlet 201 from different angles.

It can be seen that through designing spray tube 3 for can following dustcoat 1 circumferential direction and remove, like this, can shorten the length of spray tube 3, practice thrift the material for the manufacturing, realized simultaneously from different angles to grinding entry 201 water spray to reach the residue spray rinsing and arrange the effect of sediment fast.

EXAMPLE five

As shown in fig. 8, the present embodiment provides a method for controlling a dishwasher residue treating apparatus using the dishwasher residue treating apparatus according to any one of embodiments 1 to four, the method comprising the steps of:

s1, starting a residue treatment program, and matching the working time of the slag driving component 62 and the slag-removing water inlet valve 42 according to the tableware cleaning mode;

specifically, the starting residue processing program controls the dishwasher to start the residue processing program by judging whether the tableware spray washing and drying program is finished or not, if so, controlling the dishwasher; if not, controlling the dishwasher to continuously execute the tableware spray cleaning and drying program. Therefore, the residue treatment program is started after the tableware spray cleaning and drying program is finished, so that the phenomenon that the crushing water content of the residue is too high, and the residue is adhered to a cutter to influence the crushing effect of the residue when the residue is treated by the residue crushing component 2 can be avoided; simultaneously, in the tableware stoving in-process, the water content of residue reduces by a wide margin, does benefit to and improves residue crushing efficiency.

The present embodiment takes the dish washing mode as the standard dish washing as an example. When the residue treatment program is started, the control module automatically matches the working time of the slag driving component 62 for 2min and automatically matches the working time of the slag cleaning water inlet valve 42 for 2min according to the standard tableware washing.

S2, activating the slag breaking driving assembly 62 to make the slag breaking assembly 2 start to crush the slag, and opening the slag cleaning water inlet valve 42 at the same time or after the slag breaking driving assembly 62 is activated to make the spray pipe 3 start to spray water towards the grinding inlet 201;

specifically, activation of the slag drive assembly 62 and opening of the slag removal feed valve 42 may be synchronized such that the slag comminution process of the slag assembly 2 is synchronized with the water injection of the lance 3 toward the mill inlet 201. Or, the slag driving assembly 62 is started firstly, then the slag cleaning water inlet valve 42 is opened so as to enable the slag assembly 2 to carry out slag crushing treatment firstly, and then the spray pipe 3 is controlled to spray water towards the grinding inlet 201, so that the residues can be prevented from being wetted by the sprayed water at the initial slag crushing stage, and the slag crushing effect before water spraying can be improved.

S3, when the working time of the slag driving component 62 and the slag-cleaning water inlet valve 42 reach the matched working time, the slag processing procedure is ended.

Specifically, if the activation of the slag driving assembly 62 and the opening of the slag removal water inlet valve 42 can be synchronized, the slag driving assembly 62 and the slag removal water inlet valve 42 are stopped simultaneously, which is beneficial to shortening the time required by the slag treatment process, and the residual water is enough to flush and drain the residual slag. If the slag driving assembly 62 is started firstly and then the slag-cleaning water inlet valve 42 is opened, because the working time of the slag driving assembly 62 and the slag-cleaning water inlet valve 42 is 2min, the slag driving assembly 62 stops working firstly and the slag-cleaning water inlet valve 42 stops working after being delayed, at the moment, the crushing assembly 2 can be fully washed and cleaned by utilizing the water spray after the slag driving assembly 62 stops working, the slag-cleaning effect is improved, and residues are effectively prevented from remaining in the crushing assembly 2 and the outer cover 1.

Therefore, the residue treatment program is started after the tableware spraying cleaning and drying program is finished, so that the phenomenon that the water content of the residue is too high during crushing can be avoided, and the residue crushing effect is influenced by the fact that the residue is adhered to a cutter when the residue is treated by the residue crushing component 2. Furthermore, by matching the operating time of the debris drive assembly 62 and the debris feed valve 42 according to the dishwasher dishwashing mode, the product's adaptivity is improved.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (8)

1. A dishwasher residue treatment device, comprising:

the device comprises a housing (1), wherein the housing (1) is provided with a cavity (101) with an upward opening and a slag discharge port (102), and the slag discharge port (102) is communicated with the cavity (101);

a slag crushing component (2), wherein the slag crushing component (2) is arranged in the cavity (101) and is used for crushing the residues, and the slag crushing component (2) is provided with a grinding inlet (201);

the spray pipe (3) is positioned outside the slag crushing assembly (2), the spray pipe (3) is arranged in the cavity (101) in a vertically movable mode and is positioned above the grinding inlet (201), or the spray pipe (3) is arranged in the cavity (101) in a movable mode along the circumferential direction of the outer cover (1), a plurality of water spraying holes (301) are formed in the spray pipe (3), and the water outlet direction of the water spraying holes (301) faces the grinding inlet (201);

the slag cleaning water inlet pipeline comprises a slag cleaning water inlet pipe (41) and a slag cleaning water inlet valve (42), the spray pipe (3) is communicated with a cleaning water source through the slag cleaning water inlet pipe (41), and the slag cleaning water inlet valve (42) is arranged on the slag cleaning water inlet pipe (41) and used for controlling the water communication state of the slag cleaning water inlet pipe (41);

the driving shaft of the slag crushing driving assembly (62) is connected with the slag crushing assembly (2) and is used for controlling the working state of the slag crushing assembly (2);

and the control module is respectively and electrically connected with the slag removing water inlet valve (42) and the slag driving assembly (62) and is used for matching the working time of the slag driving assembly (62) and the slag removing water inlet valve (42) according to a tableware cleaning mode.

2. A dishwasher residue treatment device according to claim 1, wherein the nozzle (3) is of arcuate or annular configuration, all of the water spray holes (301) being spaced along the length of the nozzle (3) and facing the grinding inlet (201).

3. A dishwasher residue disposal device according to claim 2, wherein the top of the spout (3) is higher than the top of the debris module (2), and the water spray holes (301) are located between the grinding inlet (201) and the top of the debris module (2).

4. The residue treatment device of a dishwasher according to claim 1 or 2, wherein the side wall of the chamber (101) is provided with a plurality of vertically arranged limiting grooves (103), and the spray pipe (3) is slidably connected with the limiting grooves (103) through a sliding part.

5. A dishwasher residue treatment device according to claim 1 or 2, characterized in that a chute (104) is provided in the side wall of the chamber (101) and arranged in the circumferential direction, the chute (104) is higher than the grinding inlet (201), the spray pipe (3) is movably inserted into the chute (104), or the spray pipe (3) is slidably connected with the chute (104) by a sliding member.

6. A dishwasher residue disposal device according to claim 1 or 2, further comprising a spout driving assembly (61), wherein an output end of the spout driving assembly (61) is connected to the spout (3) for driving the spout (3) to move.

7. A method for controlling a dishwasher residue treating apparatus to which a dishwasher residue treating apparatus according to any one of claims 1 to 6 is applied, the method comprising the steps of:

s1, starting a residue treatment program, and matching the working time of the slag driving component (62) and the slag-removing water inlet valve (42) according to the tableware cleaning mode;

s2, starting the slag driving assembly (62), enabling the slag assembly (2) to start to crush the residues, and simultaneously or after starting the slag driving assembly (62), opening the slag cleaning water inlet valve (42) and enabling the spray pipe (3) to start to spray water towards the grinding inlet (201);

and S3, finishing the residue treatment program after the working time of the slag crushing driving assembly (62) and the slag cleaning water inlet valve (42) reaches the matched working time.

8. The control method of claim 7, wherein the starting residue processing program controls the dish washer to start the residue processing program by judging whether the tableware spray washing and drying program is finished, and if so, controlling the dish washer; if not, controlling the dishwasher to continuously execute the tableware spray cleaning and drying program.

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