CN113197531A - Operation method of residue treatment module, residue treatment module and dish washing machine - Google Patents

Abstract

The invention discloses an operation method of a residue treatment module, the residue treatment module and a dish washing machine. The operation method of the residue treatment module comprises the following steps: step S1, driving the slag crushing cutter set to move in the outer cover of the residue processing module by the slag crushing driving component of the residue processing module, and detecting the displacement variation of the slag crushing cutter set in the preset time; step S2, judging whether the slag cutter set is in a locked-rotor state or not according to the displacement variation; step S3, if the slag crushing cutter set is not in a locked-rotor state, the slag crushing driving component drives the slag crushing cutter set to rotate in the positive direction, so that the slag crushing cutter set moves downwards in the direction close to the bottom of the outer cover and rotates simultaneously to crush the residue in the outer cover; step S4, if the slag crushing cutter set is in a locked-rotor state, the rotating speed of the slag crushing cutter set is increased through the slag crushing driving assembly, and the slag crushing cutter set runs for a preset time; and step S5, judging whether the slag crushing cutter set is in a locked-rotor state at the moment, and executing step S3 if the slag crushing cutter set is not in the locked-rotor state.

Description

Operation method of residue treatment module, residue treatment module and dish washing machine

Technical Field

The invention relates to the technical field of kitchen electricity, in particular to an operation method of a residue treatment module, the residue treatment module and a dish washing machine.

Background

As a new hot-market product, the dishwasher gradually enters the life of people, the functional requirements of consumers on the dishwasher are stronger than those of other products, and an intelligent operation mode is more required by the market.

In the related art, the residue of the dishwasher is generally crushed by combining a motor and blades. Because the thickness and the weight of different types of residues are different, the blockage of a residue discharge port and the blockage of a cutter can be caused, and the normal use of the dish-washing machine is influenced.

Disclosure of Invention

The invention aims to solve the problems in the prior related art at least to a certain extent, and provides a residue processing module, an operation method thereof and a dishwasher, which can acquire the abnormity of the residue processing process and solve the problem of cutter rotation blockage caused by the residue to a certain extent.

The above purpose is realized by the following technical scheme:

a method of operating a residue handling module, comprising the steps of:

step S1, driving a slag crushing cutter set of the residue processing module to move in an outer cover of the residue processing module by a slag crushing driving assembly of the residue processing module, and detecting the displacement variation of the slag crushing cutter set within a preset time by adopting an abnormal detection structure;

step S2, judging whether the slag cutter set is in a locked-rotor state or not according to the displacement variation;

step S3, if the slag crushing cutter set is not in a locked-rotor state, the slag crushing driving component drives the slag crushing cutter set to rotate in the positive direction, so that the slag crushing cutter set moves downwards towards the direction close to the bottom of the outer cover and rotates simultaneously to crush the residue in the outer cover;

step S4, if the slag crushing cutter set is in a locked-rotor state, the rotating speed of the slag crushing cutter set is increased through the slag crushing driving assembly, and the slag crushing cutter set runs for a preset time;

and step S5, judging whether the slag crushing cutter set is in a locked-rotor state at the moment, and if the slag crushing cutter set is not in the locked-rotor state, executing the step S3.

Optionally, in step S1, the specific step of determining whether the slag cutter set is in a locked-rotor state according to the displacement variation includes: if the displacement variation of the slag crushing cutter set in the preset time is smaller than the preset displacement, judging that the slag crushing cutter set is in a locked-rotor state; and if the displacement variation of the slag crushing cutter set in the preset time is equal to the preset displacement, judging that the slag crushing cutter set is not in a locked-rotor state.

Optionally, the abnormality detection module structure in step S1 is specifically a displacement sensor.

Optionally, disintegrating slag knife tackle is including fixing outer crushing cutter and the setting on the dustcoat are in outer crushing cutter inboard interior crushing cutter, disintegrating slag drive assembly with interior crushing cutter transmission is connected, disintegrating slag drive assembly can drive interior crushing cutter moves down towards being close to the direction of the bottom of dustcoat remove simultaneously rotate with outer crushing cutter cooperation is right the residue smashes the operation, displacement sensor is in through detecting the setting the displacement volume of detection target in the time of predetermineeing on the interior crushing cutter, and then obtains interior crushing cutter is at the displacement volume in the time of predetermineeing.

Optionally, step S6 is further included, in which the slag driving assembly drives the inner crushing cutter to rotate in a reverse direction to throw away the slag adhered to the back of the cutting edge of the inner crushing cutter.

Optionally, the cutting edge of the inner crushing cutter is spirally arranged on the outer side of the cutter body of the inner crushing cutter in a clockwise direction or a counterclockwise direction.

Optionally, the method further comprises a step S7, and the step S1, the step S2, the step S3, the step S4, the step S5 and the step S6 are repeated in sequence for a plurality of times to pulverize the residue into preset granular shapes.

Optionally, step S8 is further included, in which, within a preset time, the water inlet assembly and the water outlet assembly, both of which are in communication with the housing, are opened, so that water flows into the housing through the water inlet assembly, and residues in the housing, which have been crushed into preset particles, are discharged from the water outlet assembly, at which point the residue treatment process is ended.

Optionally, in step S5, if the slag breaking blade set is still in the locked state, an alarm is given.

The invention also provides a residue processing module.

According to the residue processing module provided by the above, the following technical scheme is adopted to realize:

the utility model provides a residue processing module, includes the dustcoat, sets up anomaly detection structure on the dustcoat, all with the water inlet assembly and the drainage subassembly of dustcoat intercommunication, setting are in disintegrating slag knife tackle in the dustcoat and with disintegrating slag drive assembly that disintegrating slag knife tackle transmission is connected, disintegrating slag drive assembly can drive disintegrating slag knife tackle is in the motion in the dustcoat, residue processing module adopts above-mentioned method to operate.

The invention also provides a dishwasher.

According to the technical scheme, the dishwasher is realized as follows:

a dishwasher comprises a dishwasher assembly and the residue treatment module.

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

the invention can automatically solve the problem of the locked rotor of the slag breaking cutter set to a certain extent and improve the working efficiency.

Only under the condition that detects the disintegrating slag knife tackle and be in the locked-rotor, just improve the rotational speed of disintegrating slag knife tackle, compare in order to prevent that the disintegrating slag knife tackle from taking place the locked-rotor in the course of the work, and improve the rotational speed of disintegrating slag knife tackle in whole course of the work, more energy saving and consumption reduction does benefit to reduce cost.

Drawings

FIG. 1 is a schematic diagram of a residue processing module according to an embodiment of the present invention;

FIG. 2 is a schematic flow diagram of the operation of the residue handling module in an embodiment of the invention;

FIG. 3 is a top view of an inner crushing cutter of the debris handling module in an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is a schematic view of the structure of a dishwasher in an embodiment of the present invention.

In the figure:

1. a residue processing module; 10. a housing; 11. a slag crushing motor; 12. a drive screw; 13. an inner crushing cutter; 130. a cutter body; 131. a blade; 132. a notch; 14. an outer crushing cutter; 15; a displacement sensor;

2. a water intake assembly; 21. a water inlet pipe; 22. a water inlet valve; 23. a respirator;

3. a drainage assembly; 31. a drain pipe; 32. a drain valve; 33. a water pump;

4. a dish washing and spraying structure; 40. a water supply pipe group; 41. a first spray structure; 42. a second spray structure;

5. a dish washing frame body;

6. a bowl washing cover.

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.

As shown in fig. 1-4, the present invention provides a method for operating a residue processing module, which is used for processing food residues, but may be used for processing other similar residues in other embodiments, which is not limited herein. The operation method of the residue treatment module provided by the invention comprises the following steps:

step S1, driving the slag crushing cutter set of the residue processing module to move in the outer cover 10 of the residue processing module by the slag crushing driving component of the residue processing module, and detecting the displacement variation of the slag crushing cutter set in a preset time by adopting an abnormal detection structure;

step S2, judging whether the slag cutter set is in a locked-rotor state or not according to the displacement variation;

step S3, if the slag crushing cutter set is not in a locked-rotor state, the slag crushing driving component drives the slag crushing cutter set to rotate in the positive direction, so that the slag crushing cutter set moves downwards in the direction close to the bottom of the outer cover 10 and rotates simultaneously to crush the residue in the outer cover 10;

step S4, if the slag crushing cutter set is in a locked-rotor state, the rotating speed of the slag crushing cutter set is increased through the slag crushing driving assembly, and the slag crushing cutter set runs for a preset time;

and step S5, judging whether the slag crushing cutter set is in a locked-rotor state at the moment, and executing step S3 if the slag crushing cutter set is not in the locked-rotor state.

The invention detects the displacement of the slag breaking cutter set in the preset time through the abnormality detection structure to obtain the information whether the slag breaking cutter set is locked. If the disintegrating slag knife tackle takes place the stifled commentaries on classics, then improve the rotational speed of disintegrating slag knife tackle, if stifled degree of changeing is lighter, is in the disintegrating slag knife tackle after improving the rotational speed under the kibbling degree that can, disintegrating slag knife tackle after improving the rotational speed then can solve the shutoff problem automatically. Effectively improved the flexibility of residue processing module, can solve the stifled commentaries on classics problem of disintegrating slag knife tackle to a certain extent voluntarily, improved work efficiency. Meanwhile, the rotating speed of the slag crushing cutter set is increased only when the situation that the slag crushing cutter set is blocked is detected, and compared with the situation that the rotating speed of the slag crushing cutter set is increased in the whole working process in order to prevent the slag crushing cutter set from blocking in the working process, the rotating speed of the slag crushing cutter set is increased, so that the energy is saved, the consumption is reduced, and the cost is reduced.

Optionally, in step S1, the specific step of determining whether the slag breaking blade set is in the locked-rotor state according to the displacement variation includes: if the displacement variation of the slag crushing cutter set in the preset time is smaller than the preset displacement, judging that the slag crushing cutter set is in a locked-rotor state; and if the displacement variation of the slag crushing cutter set in the preset time is equal to the preset displacement, judging that the slag crushing cutter set is not in a locked-rotor state. The judgment principle is as follows: if the slag crushing cutter set is blocked, the slag crushing cutter set stops rotating or the rotating speed is reduced, and if the preset displacement is not reached within the preset time, the slag crushing cutter set is blocked. The technical scheme of detecting the displacement of the slag crushing cutter set within the preset time is simpler, the cost is lower, and the detection precision is higher compared with the preset displacement, so that whether the slag crushing cutter set is in a locked-rotor state or not is obtained.

Alternatively, the abnormality detection die structure in step S1 is embodied as the displacement sensor 15.

Optionally, the disintegrating cutter group is including fixing outer crushing cutter 14 on dustcoat 10 and setting up the interior disintegrating cutter 13 at outer crushing cutter 14 inboard, disintegrating cutter drive assembly is connected with interior disintegrating cutter 13 transmission, disintegrating cutter 13 moves towards the direction that is close to the bottom of dustcoat 10 and rotates simultaneously in order to smash the operation with outer crushing cutter 14 cooperation to the residue in the disintegrating driving assembly can drive in the whereabouts of disintegrating cutter 13, displacement sensor 15 is through detecting the displacement volume of the detection target in the time of predetermineeing that sets up on the inner crushing cutter 13, and then obtains the displacement volume of interior disintegrating cutter 13 in the time of predetermineeing.

Specifically, if the displacement of the inner crushing cutter 13 within the preset time is smaller than the preset displacement, it is determined that the inner crushing cutter 13 is in a locked-rotor state; if the displacement variation of the inner crushing cutter 13 in the preset time is equal to the preset displacement, it is determined that the inner crushing cutter 13 is not in the locked-rotor state.

Optionally, step S6 is further included, in which the slag driving assembly drives the inner crushing cutter 13 to rotate reversely to throw away the slag adhered to the back of the blade 131 of the inner crushing cutter 13, so that the slag adhered to the back of the blade 131 of the inner crushing cutter 13 can be crushed, thereby ensuring the crushing effect of the slag.

Alternatively, the blades 131 of the inner crushing cutter 13 are spirally disposed in a clockwise direction or a counterclockwise direction outside the cutter body 130 of the inner crushing cutter 13. Specifically, when the blades 131 of the inner crushing cutter 13 are spirally disposed outside the cutter body 130 of the inner crushing cutter 13 in the clockwise direction, the inner crushing cutter 13 can crush the residue when rotating in the clockwise direction, and can throw away the residue adhered to the back surface of the inner crushing cutter 13 when rotating in the counterclockwise direction. When the blades 131 of the inner crushing cutter 13 are not spirally disposed outside the cutter body 130 of the inner crushing cutter 13 in the counterclockwise direction, the inner crushing cutter 13 can crush the residue when rotating counterclockwise, and can throw away the residue adhered to the back surface of the inner crushing cutter 13 when rotating clockwise.

Optionally, a step S7 is further included, and the steps S1, S2, S3, S4, S5 and S6 are repeated in sequence for a plurality of times to crush the residue into preset granular shapes, so as to ensure the residue crushing effect.

Optionally, step S8 is further included, in which the water inlet assembly 2 and the water outlet assembly 3, both of which are communicated with the housing 10, are opened within a preset time, so that water flows into the housing 10 through the water inlet assembly 2, and residues in the housing 10, which have been crushed into preset particles, are discharged from the water outlet assembly 3, at which point the residue treatment process is ended. In this embodiment, after the residue was smashed into predetermined graininess, the rethread rivers are washed particulate residue clean, guarantee cleaning process's smoothness nature, avoid drainage component 3 to be blocked by bulky residue.

Optionally, in step S5, if the slag breaking blade set is still in the locked state, an alarm is given to notify the operator to perform manual cleaning.

The invention also provides a residue processing module.

According to the residue processing module provided by the above, the following technical scheme is adopted to realize:

a residue treatment module comprises an outer cover 10, an abnormity detection structure arranged on the outer cover 10, a water inlet assembly 2 and a water outlet assembly 3 which are communicated with the outer cover 10, a slag crushing cutter set arranged in the outer cover 10 and a slag crushing driving assembly in transmission connection with the slag crushing cutter set, wherein the slag crushing driving assembly can drive the slag crushing cutter set to move in the outer cover 10, and the residue treatment module operates by adopting the method.

Specifically, the slag crushing cutter set comprises an outer slag crushing cutter and an inner slag crushing cutter arranged in the outer slag crushing cutter, and the slag crushing driving assembly is in transmission connection with the inner slag crushing cutter.

Further, the slag driving assembly includes a slag motor 11 and a drive screw 12. The disintegrating slag motor 11 is arranged below the outer cover 10, one end of the transmission screw 12 is connected with the output end of the disintegrating slag motor 11, the other end of the transmission screw is connected with the inner disintegrating cutter 13, and when the disintegrating slag motor 11 runs, the disintegrating slag motor 11 drives the inner disintegrating cutter 13 to run through the transmission screw 12.

Alternatively, the abnormality detecting structure is a displacement sensor 15, and the inner crushing cutter 13 is provided with a detection target. When the slag crushing processing module works, the displacement sensor 15 is used for acquiring the displacement variation of the detection target within the preset time.

Alternatively, the detection target is a notch 132 opened in the inner crushing cutter 13.

Optionally, the water inlet assembly 2 comprises a water inlet pipe 21 and a water inlet valve 22 arranged on the water inlet pipe 21. One end of the water inlet pipe 21 is connected with an external water pipe, and the other end is connected with the inner cavity of the outer cover 10. When the inlet valve 22 is opened, the water in the external water pipe line flows into the inner cavity of the housing 10 through the inlet pipe 21.

Optionally, in order to ensure that the water flow of the external water pipeline can stably flow into the inner cavity of the outer cover 10, the water inlet assembly 2 further comprises a breather 23, and the breather 23 is installed on the water inlet pipe 21 and is used for ensuring that the air pressure of the water inlet pipe 21 is the same as the air pressure of the external atmosphere, so as to ensure that the water flow can stably flow into the inner cavity of the outer cover 10 through the water inlet pipe 21.

Optionally, the drain assembly 3 includes a drain pipe 31 and a drain valve 32 disposed on the drain pipe 31. One end of the water discharge pipe 31 is connected with the inner cavity of the housing 10, and the other end is connected with an external water receiving structure. When the drain valve 32 is opened, the granular residue in the inner cavity of the housing 10 flows out to the external water receiving structure through the drain pipe 31.

Optionally, in order to ensure that the granular residues in the inner cavity of the housing 10 can be stably discharged to the external water receiving structure through the water discharge pipe 31, the water discharge assembly 3 further comprises a water pump 33, and the water pump 33 is arranged on the water discharge pipe 31 to pump the granular residues in the inner cavity of the housing 10 to the external water receiving structure from the water discharge pipe 31.

The invention also provides a dishwasher.

According to the technical scheme, the dishwasher is realized as follows:

referring to fig. 1 and 5, a dishwasher includes a dishwasher assembly and a residue treatment module 1 as described above.

Optionally, the dishwasher further comprises a dish washing structure, and the dish washing structure comprises a dish washing cover 6, a dish washing frame body 5 arranged in the dish washing cover 6 and a dish washing spraying structure 4. Wherein, the frame body 5 that washes the dishes is used for placing the tableware, and the spraying structure 4 that washes the dishes is used for spraying clean operation to the tableware of placing on the frame body 5 that washes the dishes.

Further, the dish washing spray structure 4 includes a water supply pipe group 40, a first spray structure 41 and a second spray structure 42. One end and the residue processing module 1 intercommunication of water supply nest of tubes 40, first spray structure 41 and second spray structure 42 all with another tip intercommunication of water supply structure, wherein, first spray structure 41 sets up and is washing the dishes 5 downside, and second spray structure 42 sets up and is washing the dishes 5 upside to guarantee the effect of spraying to the tableware. The water flow of the external water pipe line flows to the water supply pipe group 40 through the outer cover 10 of the residue treatment module 1, and then flows to the first spraying structure 41 and the second spraying structure 42 through the water supply pipe group 40, and then the first spraying structure and the second spraying structure 42 spray and clean the tableware placed on the dish washing frame body 5.

Optionally, the dish washing structure further comprises a booster pump mounted on the water supply pipe set 40 for boosting the water supply pipe set 40, so that the water supply pipe set 40 can stably supply water to the first and second shower structures 41 and 42 during operation.

Specifically, after the residue in the residue treatment module 1 is discharged through the drain pipe 31, the water in the water inlet pipe 21 flows into the water supply pipe group 40 through the housing 10 to ensure the cleanliness of the water flow entering the water supply pipe group 40.

Further, a strainer is provided at an end of the water supply tube group 40 connected to the housing 10 to prevent debris in the inner cavity of the housing 10 from entering the water supply tube group 40.

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 (11)

1. A method of operating a residue handling module, comprising the steps of:

step S1, driving a slag crushing cutter set of the residue processing module to move in an outer cover (10) of the residue processing module by a slag crushing driving component of the residue processing module, and detecting the displacement variation of the slag crushing cutter set in a preset time by adopting an abnormal detection structure;

step S2, judging whether the slag cutter set is in a locked-rotor state or not according to the displacement variation;

step S3, if the slag crushing cutter set is not in a locked-rotor state, the slag crushing driving component drives the slag crushing cutter set to rotate in the positive direction, so that the slag crushing cutter set moves downwards towards the direction close to the bottom of the outer cover (10) and rotates simultaneously to crush the residue in the outer cover (10);

step S4, if the slag crushing cutter set is in a locked-rotor state, the rotating speed of the slag crushing cutter set is increased through the slag crushing driving assembly, and the slag crushing cutter set runs for a preset time;

and step S5, judging whether the slag crushing cutter set is in a locked-rotor state at the moment, and if the slag crushing cutter set is not in the locked-rotor state, executing the step S3.

2. The method of claim 1, wherein the step S1 of determining whether the slag breaking blade set is in a locked state according to the displacement variation includes the specific steps of: if the displacement variation of the slag crushing cutter set in the preset time is smaller than the preset displacement, judging that the slag crushing cutter set is in a locked-rotor state; and if the displacement variation of the slag crushing cutter set in the preset time is equal to the preset displacement, judging that the slag crushing cutter set is not in a locked-rotor state.

3. The method of claim 1, wherein the abnormality detection module of step S1 is a displacement sensor (15).

4. The operating method of the residue processing module according to claim 3, wherein the slag crushing cutter set comprises an outer crushing cutter (14) fixed on the outer cover (10) and an inner crushing cutter (13) arranged inside the outer crushing cutter (14), the slag crushing driving component is in transmission connection with the inner crushing cutter (13), the slag crushing driving component can drive the inner crushing cutter (13) to move downwards and towards the direction close to the bottom of the outer cover (10) and rotate at the same time so as to cooperate with the outer crushing cutter (14) to crush the residue, and the displacement sensor (15) detects the displacement of the detection target (132) arranged on the inner crushing cutter (13) in a preset time, so as to obtain the displacement of the inner crushing cutter (13) in the preset time.

5. The method of operating a residue handling module according to claim 4, further comprising a step S6 of driving the inner crushing cutter (13) to rotate reversely by the debris driving assembly to throw away the debris adhered to the back surface of the blade edge (131) of the inner crushing cutter (13).

6. The method of operating a residue handling module according to claim 5, characterized in that the cutting edges (131) of the inner crushing cutter (13) are helically arranged in a clockwise or counterclockwise direction outside the body (130) of the inner crushing cutter (13).

7. The method of operating a residue processing module according to claim 6, further comprising the step of S7, and sequentially repeating the step of S1, the step of S2, the step of S3, the step of S4, the step of S5, and the step of S6 a plurality of times to pulverize the residue into a preset granular shape.

8. The method for operating a residue processing module according to claim 7, further comprising a step S8 of opening the water inlet assembly (2) and the water outlet assembly (3) both communicating with the housing (10) for a predetermined time to allow water to flow into the housing (10) through the water inlet assembly (2) to discharge the residue in the housing (10) after being crushed into predetermined particles from the water outlet assembly (3), at which time the residue processing procedure is finished.

9. The method of operating a residue processing module according to claim 1, wherein in the step S5, if the slag cutter set is still in a locked state, an alarm is issued.

10. A residue treatment module, comprising a housing (10), an abnormality detection structure arranged on the housing (10), a water inlet assembly (2) and a water discharge assembly (3) both communicated with the housing (10), a slag crushing cutter set arranged in the housing (10), and a slag crushing driving assembly in transmission connection with the slag crushing cutter set, wherein the slag crushing driving assembly can drive the slag crushing cutter set to move in the housing (10), and is characterized in that the residue treatment module is operated by the method of any one of claims 1 to 9.

11. A dishwasher, comprising a dishwashing assembly, further comprising the residue handling module of claim 10.

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