CN113180563A - Residue treatment device of dish washer and abnormality control method thereof - Google Patents

Abstract

The invention discloses a residue treatment device of a dish washing machine, which comprises an outer cover, a slag crushing component, a flushing component, an image detection component and a control component, wherein the outer cover is provided with an upward opening slag crushing cavity and a slag discharging port, two ends of the slag discharging port are respectively communicated with the slag crushing cavity and a slag discharging pipe, the control component is respectively and electrically connected with the slag crushing component, the flushing component and the image detection component and is used for controlling the working state of the flushing component and determining whether the slag discharging port and/or the slag discharging pipe is blocked or not according to color information detected by the image detection component after the slag crushing cavity is flushed and discharged. The invention realizes the accurate detection of the abnormal state of the slag discharge port and/or the slag discharge pipe, and further can identify whether the slag crushing component is blocked according to the detected abnormal condition, thereby improving the service performance of the product.

Description

Residue treatment device of dish washer and abnormality control method thereof

Technical Field

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

Background

Food waste treatment of the existing dish washing machine mostly adopts a mode of combining a motor with blades, and because food waste of different types is different in thickness and weight, a residue discharge port can be blocked and a cutter can be blocked, so that the normal use of the dish washing machine is influenced. Therefore, the dishwasher having the food waste crushing function particularly needs an abnormality detection function after crushing the food waste to solve the disadvantages of the prior art.

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, effectively and accurately detects the abnormal state of a residue discharge port and/or a residue discharge pipe after residue crushing treatment, and further can identify the abnormal condition of a residue crushing component. The invention also provides an abnormality control method.

According to the dishwasher residue treatment device provided by the above, the treatment device is realized by the following technical scheme:

a dishwasher residue treatment apparatus comprising: the slag crusher comprises an outer cover, a slag discharging pipe and a slag discharging pipe, wherein the outer cover is provided with a slag crushing cavity and a slag discharging port which are upwards opened, and two ends of the slag discharging port are respectively communicated with the slag crushing cavity and the slag discharging pipe; the slag crushing component is used for crushing the residues in the slag crushing cavity; the flushing assembly is used for flushing and deslagging the slag crushing cavity; the image detection assembly is used for detecting color information of the slag discharging port and/or the slag discharging pipe; and the control assembly is respectively and electrically connected with the slag crushing assembly, the flushing assembly and the image detection assembly, is used for controlling the working state of the flushing assembly, and is also used for determining whether the slag discharging port and/or the slag discharging pipe is blocked or not according to the color information after the slag crushing cavity is flushed and discharged.

In some embodiments, the slag discharging port is disposed at the bottom of the slag crushing cavity, and the bottom of the slag crushing cavity and the slag discharging port are white in color.

In some embodiments, the color of the slag tap is white.

In some embodiments, the flushing assembly comprises a water inlet pipe and a water inlet valve electrically connected with the control assembly, the outer cover further comprises a water inlet positioned above the slag discharging port, the water inlet pipe is communicated with the water inlet, and the water inlet valve is arranged on the water inlet or the water inlet pipe.

In some embodiments, the flushing assembly further comprises a water pump and/or a spray head, the water pump is arranged on the water inlet pipe and electrically connected with the control assembly, the spray head is arranged in the slag crushing cavity and communicated with the water inlet, and the water spray direction of the spray head faces the slag discharge port.

In some embodiments, the image detection assembly includes a first image detection unit and a transparent protective cover, the first image detection unit is installed in the slag crushing cavity and electrically connected to the control assembly for detecting color information of the slag discharge opening, and the transparent protective cover is disposed outside the first image detection unit and connected to the outer cover.

In some embodiments, the image detection assembly comprises a second image detection unit electrically connected to the control assembly, and the second image detection unit is installed inside or outside the slag discharging pipe and is used for detecting color information of the slag discharging pipe.

In some embodiments, the slag crushing assembly comprises a crushing module, a driver and a rotating shaft, wherein the crushing module is arranged in the slag crushing cavity and is used for crushing the residues; the driver set up in outside the dustcoat, the one end of pivot is connected the output of driver, and the other end wears to locate the dustcoat is connected smash the module.

According to the above provided abnormality control method, it is realized by the following technical scheme:

an abnormality control method applying the dishwasher residue treatment apparatus as described above, comprising the steps of:

s1: entering a residue treatment mode, starting the slag crushing assembly, and crushing the residue in the slag crushing cavity;

s2: before or after the residue crushing treatment is completed, opening the flushing assembly, and flushing and deslagging the slag crushing cavity;

s3: after the working time of the flushing assembly reaches the preset time, closing the flushing assembly;

s4: acquiring color information of a slag discharging port and/or a slag discharging pipe through an image detection assembly;

s5: comparing the obtained color information with a preset color, if the obtained color information is similar to the preset color, determining that the slag discharge port and the slag discharge pipe are not blocked, and exiting the slag crushing treatment mode; and if the acquired color information is not similar to the preset color, primarily determining that the slag discharging port and/or the slag discharging pipe are blocked.

In some embodiments, after the preliminary determination of the blockage of the slag discharging opening and/or the slag discharging pipe, the method further comprises the following steps:

s6: opening the flushing assembly again, and continuing flushing and deslagging the slag crushing cavity;

s7: after the flushing assembly is closed, the color information of the slag discharging port and/or the slag discharging pipe is obtained again through the image detection assembly;

s8: and comparing the obtained color information with the preset color, and determining whether the slag discharging port and/or the slag discharging pipe is blocked or not based on the comparison result.

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

the residue treatment device of the dish washer has a simple structure, can wash and discharge residues in the residue crushing cavity through the washing component besides the function of crushing food residues, and can determine whether the residue discharge port and/or the residue discharge pipe is blocked or not according to the color information of the residue discharge port and/or the residue discharge pipe after washing and discharging the residues, so that the abnormal state of the residue discharge port and/or the residue discharge pipe can be effectively and accurately detected, the residue treatment device of the dish washer can identify whether the residue crushing component is blocked or not according to the detected abnormal condition, and the service performance of the product is improved.

Drawings

FIG. 1 is a schematic view showing the structure of a dishwasher in accordance with embodiment 1 of the present invention;

FIG. 2 is a schematic view showing the construction of a residue treatment apparatus for a dishwasher in accordance with embodiment 1 of the present invention;

FIG. 3 is a schematic view showing the construction of a residue treatment apparatus for a dishwasher in accordance with embodiment 2 of the present invention;

FIG. 4 is a schematic view showing the construction of a residue treatment apparatus for a dishwasher in accordance with embodiment 3 of the present invention;

FIG. 5 is a flowchart of an abnormality control method in embodiment 4 of the invention;

fig. 6 is a flowchart of an abnormality control method in embodiment 5 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 1

As shown in fig. 1-2, this embodiment provides a dishwasher residue treatment device, including dustcoat 1, row's sediment pipe 2, disintegrating slag subassembly 3, wash subassembly 4, image detection subassembly (not shown in the figure), control assembly 6 and washing chamber 8, wherein dustcoat 1 sets up in the bottom of washing chamber 8 to dustcoat 1 has upwards open-ended disintegrating slag chamber 11, and communicates disintegrating slag chamber 11's row's cinder notch 12, disintegrating slag chamber 11 intercommunication washing chamber 8, arranges cinder notch 12 and communicates the water drainage through row's sediment pipe 2. The slag crushing component 3 is used for crushing the residues in the slag crushing cavity 11, and the crushed residues are discharged through the slag discharge hole 12. The flushing assembly 4 is communicated with the slag crushing cavity 11 and is used for flushing and deslagging the slag crushing cavity 11. The image detection component is used for detecting the color information of the slag discharging port 12 and/or the slag discharging pipe 2. The control component 6 is respectively and electrically connected with the slag crushing component 3, the flushing component 4 and the image detection component, is used for controlling the working state of the flushing component 4, and is also used for determining whether the slag discharging port 12 and/or the slag discharging pipe 2 is blocked or not according to color information after the slag crushing cavity 11 is flushed and discharged.

When food waste needs to be smashed, the smashing processing is carried out on the waste in the waste cavity 11 by starting the waste component 3, so that the dish washing machine has the food waste smashing function. Before or after the residue crushing treatment is completed, the slag crushing cavity 11 is flushed and discharged by opening the flushing assembly 4, and crushed residues are discharged from the slag discharge port 12 under the impact of water flow, so that the crushed residues are prevented from being deposited in the slag crushing cavity 11. In addition, the closing time point of the flushing component 4 is designed to be later than the time point of the completion of the crushing treatment of the residues, so that the situation that the residues after the crushing treatment in the crushing residue cavity 11 are basically flushed away after the flushing component 4 is closed is ensured, the interference of the residual residues on the color information detection of the slag discharge port 12 and/or the slag discharge pipe 2 is avoided, and the accuracy and the reliability of the abnormal judgment are favorably improved. When the flushing assembly 4 is closed, the color information of the slag discharging port 12 and/or the slag discharging pipe 2 is obtained through the image detection assembly, then the obtained color information is compared with the preset color, and whether the slag discharging port 12 and/or the slag discharging pipe 2 is blocked or not can be determined based on the comparison result. From this for dish washer still has the unusual detect function of row's cinder notch 11 and/or row's cinder pipe 2, because food waste thickness, weight are different, can influence the shredding effect of disintegrating slag subassembly 3, and disintegrating slag subassembly 3 can influence the row sediment condition to the fineness of residue treatment, consequently, whether take place to block up according to row's cinder notch 12 and/or row's cinder pipe 2, and then can indirectly discern the abnormal conditions of disintegrating slag subassembly 3, whether the stifled commentaries on classics condition takes place for disintegrating slag subassembly 3 promptly.

It can be seen that the dish washer residue processing apparatus of this embodiment, simple structure, except that possessing food waste shredding function, can also wash row sediment through washing subassembly 4 to disintegrating slag chamber 11, and wash row sediment back through the colour information according to row's cinder notch 12 and/or row's cinder pipe 2 and confirm row's cinder notch 12 and/or row's cinder pipe 2 and whether block up, realized effectively, accurately detect row's cinder notch 12 and/or row's cinder pipe 2 abnormal state, and then can discern disintegrating slag subassembly 3 according to the abnormal conditions who detects and whether take place the lock-rotor, improve the performance of product.

Preferably, the slag discharge port 12 of the present embodiment is disposed at the bottom of the slag crushing chamber 11, so as to improve slag discharge effect and reduce residue. The bottom of disintegrating slag chamber 11 and row cinder notch 12's colour is white, like this for disintegrating slag chamber 11's bottom and row cinder notch 12 are specific single colour, and RGB value is (255, 255, 255) white promptly, ensures that row cinder notch 12 and its edge and the multiple colour of food residue form strong contrast, distinguishes more easily to do benefit to accurately, reliably judge whether row cinder notch 12 blocks up, do benefit to and improve detection accuracy and reliability. More preferably, the cover is formed from a white plastic.

Preferably, the colour of this embodiment scum pipe 2 is white for, like this for scum pipe 2 and food waste multiple colour carry out the contrast and distinguish, and whether the accurate discernment scum pipe 2 of being convenient for more takes place to block up, does benefit to and improves detection accuracy and reliability. More preferably, the slag discharge pipe 2 is a white silicone tube.

As shown in fig. 2, in the present embodiment, the slag crushing assembly 3 includes a crushing module 31, a driver 32 and a rotating shaft 33, and the crushing module 31 is disposed in the slag crushing chamber 11 for crushing the residue. The drive 32 is preferably a motor which is arranged outside the housing 1 and below the bottom of the housing 1. One end of the rotating shaft 33 is connected with the output end of the driver 32, and the other end of the rotating shaft passes through the outer cover 1 and is connected with the crushing module 31, so that the crushing module 31 is in transmission connection with the driver 32 through the rear rotating shaft 33, and the working state of the crushing module 31 is controlled through the driver 32.

Preferably, the crushing module 31 comprises an outer crushing cutter 311 and an inner crushing cutter 312, the outer crushing cutter 311 is disposed inside the slag cavity 11 and above the slag discharge port 12, the inner crushing cutter 312 is rotatably disposed inside the outer crushing cutter 311 and connected to the rotating shaft 33, and the present embodiment crushes the food waste by driving the inner crushing cutter 312 to rotate so that the outer crushing cutter 311 and the inner crushing cutter 312 move relatively.

As shown in fig. 1-2, in the present embodiment, the flushing assembly 4 includes a water inlet pipe 41 and a water inlet valve 42 electrically connected to the control assembly 6, the housing 1 further has a water inlet (not shown) located above the slag discharging port 12, a water outlet end of the water inlet pipe 41 is connected to the water inlet, and a water inlet end is connected to tap water, so that when water is injected into the slag crushing cavity 11 through the water inlet pipe 41 and the water inlet, the slag discharging port 12 can be poured, and the flushing and slag discharging effects of the slag discharging port 12 can be improved. The water inlet valve 42 is arranged on the water inlet or the water inlet pipe 41 and is used for controlling whether water is injected into the slag crushing cavity 11 or not, so that whether the slag crushing cavity 11 is flushed or not is realized.

The embodiment takes the case that the water inlet valve 42 is disposed on the water inlet pipe 41. Preferably, in order to enhance the washing force and improve the washing effect on the residues, the washing component 4 may further include a water pump and/or a nozzle, the water pump is disposed on the water inlet pipe 41 and electrically connected to the control component 6, so that the water pressure is enhanced through the water pump, and the washing effect on the residue discharge port 12 is improved. The shower nozzle sets up in disintegrating slag chamber 11 and communicates the inlet for water to the water spray direction of shower nozzle is towards row cinder notch 12, like this, through the shower nozzle, does benefit to the improvement to row cinder notch 12 wash the dynamics, increases and washes the sediment effect of arranging, reduces row cinder notch 12 and takes place the probability of blockking up.

As shown in fig. 2, in the present embodiment, the image detection assembly includes a first image detection unit 51 and a transparent protection cover 52, the first image detection unit 51 is installed in the slag crushing chamber 11 and electrically connected to the control assembly 6 for detecting the color information of the slag discharge opening 12, and the transparent protection cover 52 is disposed outside the first image detection unit 51 and connected to the housing 1. Preferably, the first image detection unit 51 is an image sensor.

Example 2

As shown in fig. 3, the present embodiment is different from embodiment 1 in that the image detection assembly includes a second image detection unit 53 electrically connected to the control assembly 6, the second image detection unit 53 is installed inside or outside the slag discharging pipe 2 for detecting color information of the slag discharging pipe 2, so that, since the color of the slag discharging pipe 2 is preferably white, the color information of the slag discharging pipe 2 can be detected by the second image detection unit 53 inside or outside the slag discharging pipe 2, the control assembly 6 can determine whether the slag discharging pipe 2 is blocked according to the detected color information of the slag discharging pipe 2, and other parts are the same as embodiment 1.

In the abnormality control method, it may be determined whether the slag hole 12 is clogged only by the color information detected by the first image detecting unit 51 or whether the slag pipe 2 is clogged only by the color information detected by the second image detecting unit 53. It is of course also possible to detect abnormalities in the slag hole 12 and the slag pipe 2 by means of two first and second image detection units, respectively. When any one of the slag discharging port 12 and the slag discharging pipe 2 is blocked, the driver 32 of the slag crushing component 3 can be indirectly detected whether to be blocked or not.

It can be seen that, by providing two image detection units, the abnormality detection function of the dishwasher is not affected when one of the image detection units fails. In addition, the two image detection units are used for respectively detecting the abnormal conditions of the slag discharging port 12 and the slag discharging pipe 2, so that double abnormal detection is realized, and the accuracy and the reliability of the abnormal detection are higher.

In other embodiments, the first image detection unit 51 and the transparent protection cover 52 can be omitted, and only the second image detection unit 53 is needed to detect whether the slag discharging pipe 2 is blocked, so that compared with two image detection units, the cost is lower while the abnormality detection function is realized.

Example 3

As shown in fig. 4, the present embodiment is different from embodiment 1 in that the present embodiment further includes a vibration module 7, where the vibration module 7 is disposed on the slag discharging pipe 2 and electrically connected to the control assembly 6, and is used for when the slag discharging pipe 2 and/or the slag discharging port 12 are blocked, the control assembly 6 controls the vibration module 7 to operate for a period of time, so as to reduce or eliminate the blocking of the slag discharging pipe 2 and the slag discharging port 12. Preferably, the slag crushing cavity 11 is flushed and discharged through the flushing assembly 4, so that the blockage of the slag discharge pipe 2 and the slag discharge opening 12 is reduced or eliminated.

It can be seen that, in the embodiment, by additionally arranging the vibration module 7 on the slag discharging pipe 2, the control component 6 can control the vibration module 7 to work for a period of time, so as to reduce or eliminate the blockage of the slag discharging pipe 2 and the slag discharging port 12.

Example 4

As shown in fig. 5, the present embodiment also provides an abnormality control method which applies the residue treatment apparatus for a dishwasher according to any one of embodiments 1 to 3, the abnormality control method including the steps of:

s1: entering a residue treatment mode, starting the slag crushing component 3, and crushing the residue in the slag crushing cavity 11;

specifically, after the dishwasher enters a residue processing mode, the operation of the slag crushing component 3 is triggered by timing, or the operation of the slag crushing component 3 is triggered by detecting the amount of residue. When the control component 6 receives the trigger signal of the slag crushing component 3, the driver 32 of the slag crushing component 3 is controlled to work, so that the driver 32 drives the slag crushing module 31 to work through the rotating shaft 33, and the crushing treatment of the residue in the slag crushing cavity 11 is started.

S2: before or after the residue crushing treatment is completed, the flushing assembly 4 is opened, and the slag crushing cavity 11 is flushed to discharge slag;

specifically, the starting point of the flushing assembly 4 can be at the same time or after the driver 32 is started, and at the same time or after the residue crushing treatment is started, preferably, after the driver 32 is started, the water inlet valve 42 of the flushing assembly 4 is opened, so that the water injected into the slag crushing cavity 11 is used for improving the treatment efficiency of the slag crushing module 31 on the residues, avoiding the phenomenon that the slag discharging operation is started after the crushed residues are excessively accumulated, and reducing the difficulty of washing and discharging the residues. Of course, the starting point of the operation of the flushing assembly 4 can also be after the drive 32 is switched off, i.e. after the residue crushing process is completed, so that the water consumption can be reduced and the energy can be saved.

S3: after the working time of the flushing component 4 reaches the preset time, closing the flushing component 4;

specifically, before the operating time of the flushing assembly 4 reaches the preset time, the residue crushing processing is completed, the driver 32 is turned off, and the residue crushing operation is ended. After the water inlet valve 42 of the flushing assembly 4 is operated for a preset time, the water inlet valve 42 of the flushing assembly 4 is closed. From this, through the work endpoint that will wash subassembly 4 design for being later than disintegrating slag subassembly 3, be convenient for with the help of washing subassembly 4, with the help of the whole residue of disintegrating slag intracavity 11 is arranged away, reduces the residue volume of remaining, avoids the interference of residual residue to the colour information detection of row's cinder notch 12 and/or row sediment pipe 2, does benefit to the precision and the reliability that improve abnormal judgment.

Preferably, the preset time can be 2-10S, tap water enters the outer cover 1 through the water inlet pipe 41 to wash and discharge residues, and meanwhile, the problem that the water injection height is higher than the water inlet due to overlong water inlet time, and the effect of washing a residue discharge port cannot be achieved is avoided.

S4: acquiring color information of the slag discharging port 12 and/or the slag discharging pipe 2 through the image detection assembly;

specifically, when the image detection assembly includes only the first image detection unit 51 and the transparent protective cover 52, the color information of the slag discharge pipe 2 of the slag discharge opening 12 is acquired by the first image detection unit 51. When the image detection assembly only comprises the second image detection unit 53, the color information of the slag pipe 2 is acquired or discharged by the second image detection unit 53. When the image sensing assembly includes a first image sensing unit 51, a transparent protective cover 52 and a second image sensing unit 53.

S5: comparing the obtained color information with a preset color, if the obtained color information is similar to the preset color, determining that the slag discharge port 12 and the slag discharge pipe 2 are not blocked, and exiting the slag crushing treatment mode; and if the acquired color information is not similar to the preset color, the blockage of the slag discharging port 12 and/or the slag discharging pipe 2 is preliminarily determined.

Specifically, the preset color is white, namely, the colors of the slag discharging port 12 and the slag discharging pipe 2. The color information includes RGB values or LAB values, and in this embodiment, taking the color information includes RGB values as an example, when the color of the slag hole 12 and/or the slag pipe 2 has a plurality of RGB values, it indicates that the obtained color information is not similar to white, and the slag hole 12 and/or the slag pipe 2 is blocked. In the present embodiment, when the color information acquired by the first image detection unit 51 is similar to white, it is determined that the slag discharge port 12 is not blocked; when the color information acquired by the first image detection unit 51 is not similar to white, it is preliminarily determined that the slag hole 12 is clogged. When the color information acquired by the second image detection unit 53 is similar to white, it is determined that the slag discharge pipe 2 is not blocked; when the color information acquired by the second image detecting unit 53 is similar to white, it is preliminarily determined that the slag discharge pipe 2 is clogged.

Therefore, the slag crushing cavity 11 is washed through the washing component 4 to discharge slag, after the washing component 4 is closed, the color information of the slag discharge port 12 and/or the slag discharge pipe 2 is obtained, the slag discharge port 12 and/or the slag discharge pipe 2 is determined to be blocked preliminarily according to the obtained color information and the preset color comparison result, the abnormal state of the slag discharge port 12 and/or the slag discharge pipe 2 is detected effectively and accurately, whether the slag crushing component 3 is blocked or not can be identified according to the detected abnormal condition, and the use performance of the product is improved.

Example 5

As shown in fig. 6, the present embodiment is different from embodiment 4 in that, after preliminarily determining that the slag discharge port 12 and/or the slag discharge pipe 2 is clogged, the abnormality control method further includes the steps of:

s6: the flushing component 4 is opened again, and the slag crushing cavity 11 is continuously flushed and discharged;

s7: after the flushing assembly 4 is closed, the color information of the slag discharging port 12 and/or the slag discharging pipe 2 is obtained again through the image detection assembly;

s8: and comparing the obtained color information with the preset color, and determining whether the slag discharging port 12 and/or the slag discharging pipe 2 is blocked or not based on the comparison result.

Specifically, the determination of whether the slag hole 12 and/or the slag discharging pipe 2 is blocked based on the comparison result includes: if the color information obtained again is similar to the preset color, determining that the slag discharge port 12 and the slag discharge pipe 2 are not blocked, and exiting the slag crushing processing mode; and if the color information acquired again is not similar to the preset color, determining that the slag discharging port 12 and/or the slag discharging pipe 2 are blocked, sending a blocking signal, and exiting the slag crushing processing mode.

It can be seen that this embodiment is through after tentatively confirming slag notch 12 and/or row sediment pipe 2 blocks up, through washing the sediment chamber 11 once more and arrange the sediment to after closing and washing subassembly 4, detect once more and judge whether slag notch 12 and/or row sediment pipe 2 blocks up, do benefit to and further improve the accuracy and the reliability that slag notch 12 and/or row sediment pipe 2 blockked up the judgement, reduce the probability of erroneous judgement.

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 (10)

1. Dishwasher residue treatment apparatus, comprising:

the slag crusher comprises an outer cover (1), wherein the outer cover (1) is provided with a slag crushing cavity (11) and a slag discharging port (12) which are opened upwards, and two ends of the slag discharging port (12) are respectively communicated with the slag crushing cavity (11) and a slag discharging pipe (2);

the slag crushing component (3) is used for crushing the residues in the slag crushing cavity (11);

the flushing assembly (4) is used for flushing and deslagging the slag crushing cavity (11);

the image detection assembly is used for detecting color information of the slag discharging port (12) and/or the slag discharging pipe (2);

the control assembly (6), the control assembly (6) is connected electrically respectively disintegrating slag subassembly (3), wash subassembly (4) and image detection subassembly, be used for control wash the operating condition of subassembly (4), still be used for right disintegrating slag chamber (11) wash after arranging the sediment, according to colour information confirms arrange cinder notch (12) and/or arrange sediment pipe (2) and block up.

2. A dishwasher residue disposal device according to claim 1, wherein the residue outlet (12) is provided at the bottom of the residue chamber (11), the bottom of the residue chamber (11) and the residue outlet (12) being white in color.

3. A dishwasher residue treatment device according to claim 1 or 2, characterized in that the color of the residue discharge pipe (2) is white.

4. The dishwasher residue treatment apparatus according to claim 1, wherein the flushing assembly (4) comprises a water inlet pipe (41) and a water inlet valve (42) electrically connected to the control assembly (6), the housing (1) further having a water inlet positioned above the slag discharge port (12), the water inlet pipe (41) communicating with the water inlet, the water inlet valve (42) being disposed on the water inlet or the water inlet pipe (41).

5. A dishwasher residue handling device according to claim 4, wherein the flushing assembly (4) further comprises a water pump arranged on the water inlet pipe (41) and electrically connected to the control assembly (6) and/or a spray head arranged in the debris chamber (11) and communicating with the water inlet and having a water spray direction towards the debris outlet (12).

6. The dishwasher residue treatment device according to claim 1, wherein the image detection assembly comprises a first image detection unit (51) and a transparent protection cover (52), the first image detection unit (51) is installed in the debris chamber (11) and electrically connected with the control assembly (6) for detecting the color information of the debris discharge opening (12), and the transparent protection cover (52) is arranged outside the first image detection unit (51) and connected with the housing (1).

7. The dishwasher residue treatment device according to claim 1 or 6, wherein the image detection assembly comprises a second image detection unit (53) electrically connected to the control assembly (6), the second image detection unit (53) being mounted inside or outside the residue discharge pipe (2) for detecting color information of the residue discharge pipe (2).

8. The dishwasher residue disposal device according to claim 1, wherein the residue crushing assembly (3) comprises a crushing module (31), a driver (32) and a rotating shaft (33), the crushing module (31) being disposed in the residue crushing chamber (11) for crushing the residue; the driver (32) is arranged outside the outer cover (1), one end of the rotating shaft (33) is connected with the output end of the driver (32), and the other end of the rotating shaft penetrates through the outer cover (1) and is connected with the crushing module (31).

9. An abnormality control method characterized by comprising the steps of:

s1: entering a residue treatment mode, starting the slag crushing assembly (3) and crushing the residue in the slag crushing cavity (11);

s2: before or after the residue crushing treatment is completed, the flushing assembly (4) is opened, and the slag crushing cavity (11) is flushed to discharge slag;

s3: after the working time of the flushing component (4) reaches the preset time, closing the flushing component (4);

s4: color information of the slag discharging port (12) and/or the slag discharging pipe (2) is obtained through the image detection assembly;

s5: comparing the obtained color information with a preset color, if the obtained color information is similar to the preset color, determining that the slag discharge port (12) and the slag discharge pipe (2) are not blocked, and exiting the slag crushing processing mode; and if the acquired color information is not similar to the preset color, primarily determining that the slag discharging port (12) and/or the slag discharging pipe (2) is blocked.

10. An abnormality control method according to claim 9, characterized by the further step, after said preliminary determination of clogging of the slag tap (12) and/or the slag pipe (2), of:

s6: the flushing component (4) is opened again, and the slag crushing cavity (11) is continuously flushed to discharge slag;

s7: after the flushing assembly (4) is closed, the color information of the slag discharging port (12) and/or the slag discharging pipe (2) is obtained again through the image detection assembly;

s8: and comparing the obtained color information with the preset color, and determining whether the slag discharging port (12) and/or the slag discharging pipe (2) is blocked or not based on the comparison result.

Images