CN217285686U

CN217285686U - Washing control device, dish-washing machine and integrated dish-washing machine

Info

Publication number: CN217285686U
Application number: CN202221143631.5U
Authority: CN
Inventors: 汤勇; 崔玉博; 高飞
Original assignee: Marssenger Kitchenware Co Ltd
Current assignee: Marssenger Kitchenware Co Ltd
Priority date: 2022-05-11
Filing date: 2022-05-11
Publication date: 2022-08-26
Anticipated expiration: 2032-05-11

Abstract

The application relates to a washing control device, dish washer and integrated dish washer, wherein a washing control device includes: the turbidity sensor is arranged in the cavity of the dish-washing machine and used for detecting the turbidity of water in the cavity of the dish-washing machine and sending a feedback voltage; the timing module is used for timing when the dishwasher washes; and the control module is communicated with the turbidity sensor and the timing module and is used for controlling the washing of the dishwasher and controlling the washing time of the dishwasher. The application has the effect of being convenient for when the total washing of dish washer is controlled according to the greasy dirt amount of the articles to be washed.

Description

Washing control device, dish washing machine and integrated dish washing machine

Technical Field

The application relates to the technical field of household appliances, in particular to a washing control device, a dish washing machine and an integrated dish washing machine.

Background

The dish washer is a machine replacing manual tableware washing, and water is heated and then sprayed and washed by a high pressure water pump through a rotary spraying arm.

In the related art, a dishwasher washes articles to be washed (such as a tub) in the dishwasher a plurality of times according to a set washing pattern for a preset total washing time period.

In view of the above-described related art, the inventors found that: washing the articles to be washed in the dish washer according to the preset total washing duration, wherein the articles to be washed with large oil stain amount are easy to be washed unclearly; and the water resource is easily wasted for the articles to be washed with little oil stain.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a washing controlling means, dish washer and integrated dish washer, it is long when being convenient for control the total washing of dish washer according to the greasy dirt volume of waiting to wash article.

In a first aspect, the present application provides a washing control device that employs the following technical solutions.

A washing control device, comprising:

the turbidity sensor is arranged in the cavity of the dish-washing machine and used for detecting the turbidity of water in the cavity of the dish-washing machine and sending a feedback voltage; and (c) a second step of,

the timing module is used for timing when the dishwasher washes; and the number of the first and second groups,

a control module in communication with the turbidity sensor and the timing module, the control module for controlling the dishwasher to wash and controlling a wash duration of the dishwasher;

the control module acquires a first feedback voltage sent by the turbidity sensor when the timing duration of the timing module reaches a first duration, and controls the dishwasher to wash for the Nth time; the control module acquires a second feedback voltage sent by the turbidity sensor when the timing duration of the Nth washing reaches a second duration; the control module controls the duration of the (N + 1) th washing of the dishwasher based on the first and second feedback voltages; and N is a natural number greater than 1.

Optionally, the control module includes: the first comparison submodule, the second comparison submodule and the control submodule;

the first comparison sub-module is in communication with the timing module and the turbidity sensor; a first turbidity comparison value is preset in the first comparison submodule; the first comparison submodule acquires the first feedback voltage; the first comparison sub-module sends a first comparison signal when the first feedback voltage is greater than the first turbidity comparison value;

the second comparison submodule is in communication with the timing module and the turbidity sensor; a second turbidity comparison value is preset in the second comparison submodule; the second comparison submodule acquires the second feedback voltage; the second comparison submodule sends a second comparison signal when the second feedback voltage is greater than the second turbidity comparison value; the second turbidity comparison value is less than the first turbidity comparison value;

a control sub-module in communication with the first comparison sub-module and the second comparison sub-module; when the control submodule receives the first comparison signal and the second comparison signal, the time length of the (N + 1) th washing of the dishwasher is controlled to be a third time length; the third time period is a shortest time period for the dishwasher to perform the (N + 1) th washing.

Optionally, the control module further includes: a third comparison submodule and a fourth comparison submodule;

the third comparison submodule is in communication with the timing module and the turbidity sensor; a third turbidity comparison value is preset in the third comparison submodule; the third comparison submodule acquires the first feedback voltage; the third comparison submodule sends a third comparison signal when the first feedback voltage is smaller than the third turbidity comparison value; the third turbidity comparison value is less than the second turbidity comparison value;

the fourth comparison submodule is in communication with the timing module and the turbidity sensor; a fourth turbidity comparison value is preset in the fourth comparison submodule; the fourth comparison submodule acquires the second feedback voltage; the fourth comparison submodule sends a fourth comparison signal when the second feedback voltage is smaller than the fourth turbidity comparison value; the fourth turbidity comparison value is less than the third turbidity comparison value;

wherein the control submodule is in communication with the third comparison submodule and the fourth comparison submodule; when the control submodule receives the third comparison signal and the fourth comparison signal, the time length of the (N + 1) th washing of the dishwasher is controlled to be fourth time length; when the control sub-module does not receive the first comparison signal and the second comparison signal, or does not receive the third comparison signal and the fourth comparison signal, the control sub-module controls the duration of the (N + 1) th washing of the dishwasher to be a fifth duration; the fourth duration is greater than the third duration; the fifth duration is greater than the fourth duration.

Optionally, the control sub-module is further in communication with a water temperature heating module of the dishwasher;

the control submodule controls the time length of the (N + 1) th washing to be a third time length, and sends a first temperature control signal to the water temperature heating module to enable the water temperature of the washing to reach a first temperature;

the control submodule controls the time length of the (N + 1) th washing to be the fourth time length, and sends a second temperature control signal to the water temperature heating module to enable the water temperature of the washing to reach the second temperature;

the control submodule controls the time length of the (N + 1) th washing to be a fifth time length, and sends a first temperature control signal to the water temperature heating module to enable the water temperature of the washing to reach a third temperature;

wherein the first temperature is less than the second temperature; the second temperature is less than the third temperature.

Optionally, the control sub-module is in communication with a temperature sensing module of the dishwasher; the control submodule controls the water temperature heating module to work according to the signal sent by the temperature sensing module.

Optionally, the control module is in communication with a drain pump, a fill valve, and a wash pump of the dishwasher; the control module can control the opening and closing of the drainage pump, the water inlet valve and the washing pump.

In a second aspect, the present application provides a dishwasher, which adopts the following technical solutions:

a dishwasher comprising any one of the above-described wash control devices.

In a third aspect, the present application provides an integrated dishwasher comprising the dishwasher described above and at least one functional module, the dishwasher being integrated with the functional module.

In this application, detect the turbidity of the water in the cavity of dish washer through turbidity sensor, long when the total washing of control dish washer, on the one hand can the water economy resource, and on the other hand can make the abluent cleaner of the thing that washes in the dish washer that treats.

Drawings

FIG. 1 is a system block diagram of a washing control device of the present application;

FIG. 2 is a block diagram of the internal structure of the control module of the present application;

in the figure, 1, a turbidity sensor; 2. a timing module; 3. a control module; 31. a first comparison sub-module; 32. a second comparison submodule; 33. a control sub-module; 34. a third comparison sub-module; 35. a fourth comparison sub-module; 4. a water temperature heating module; 5. a temperature sensing module; 6. draining pump; 7. a water inlet valve; 8. the pump is washed.

Detailed Description

The present application is further described with reference to the following figures and specific examples:

first, it should be noted here that: in the description of the present application, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, which indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, are used for convenience of description only, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present application; furthermore, the appearances of the numerical terms such as "first," "second," "third," etc. are only for descriptive purposes and not intended to be limiting or to imply relative importance. In addition, in the present application, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, and may be, for example, a fixed connection, a detachable connection, a limit connection such as an interference fit, a transition fit, or an integral connection; can be directly connected or indirectly connected through an intermediate medium; therefore, the specific meanings of the above terms in the present application can be understood according to specific situations by those of ordinary skill in the art.

Referring to fig. 1, the present application provides a washing control apparatus including: turbidity sensor 1, timing module 2 and control module 3. The turbidity sensor 1 is arranged in a cavity of the dish-washing machine, the turbidity sensor 1 is used for detecting the turbidity of water in the cavity of the dish-washing machine and sending out feedback voltage, and one or more turbidity sensors 1 can be arranged; when the turbidity sensor 1 is provided in plural, the above-mentioned feedback voltage is obtained by averaging the sum of the voltage values output from all the turbidity sensors 1. The timing module 2 is used for timing when the dishwasher is washing.

The above timing may be a single timing for each washing or a timing which is always performed after the dishwasher is operated. The control module 3 is in communication with the turbidity sensor 1 and the timing module 2, the control module 3 being configured to control the dishwasher to wash and to control the duration of washing of the dishwasher. The control module 3 acquires a first feedback voltage sent by the turbidity sensor 1 when the timing duration of the timing module 2 reaches a first duration, and controls the dishwasher to wash for the Nth time; the control module 3 acquires a second feedback voltage sent by the turbidity sensor 1 when the timing duration of the Nth washing reaches a second duration; the control module 3 controls the duration of the (N + 1) th washing of the dishwasher based on the first feedback voltage and the second feedback voltage; n is a natural number greater than 1.

In this application, through the turbidity of the water in turbidity sensor 1 detection dish washer's the cavity, long when the total washing of control dish washer, on the one hand can the water economy resource, on the other hand can make the washings abluent cleaner of treating in the dish washer.

As one of the embodiments of the control module 3, the control module 3 includes: a first comparison submodule 31, a second comparison submodule 32 and a control submodule 33. The first comparison sub-module 31 is in communication with the timing module 2 and the turbidity sensor 1. The first comparison submodule 31 is preset with a first turbidity comparison value, where the first turbidity comparison value is a voltage value, and the first turbidity comparison value may correspond to one turbidity or one turbidity interval. The first comparison submodule 31 obtains a first feedback voltage; the first comparison submodule 31 sends a first comparison signal when the first feedback voltage is greater than the first turbidity comparison value.

The second comparison submodule 32 is in communication with the timing module 2 and the turbidity sensor 1; a second turbidity comparison value is preset in the second comparison submodule 32; the second turbidity comparison value is smaller than the first turbidity comparison value; the second turbidity comparison value is a voltage value, and the second turbidity comparison value may correspond to one turbidity or one turbidity interval. The second comparing submodule 32 obtains a second feedback voltage; the second comparison submodule 32 sends a second comparison signal when the second feedback voltage is greater than the second turbidity comparison value.

The control submodule 33 communicates with the first comparison submodule 31 and the second comparison submodule 32; when the control submodule 33 receives the first comparison signal and the second comparison signal, the duration of the (N + 1) th washing of the dishwasher is controlled to be the third duration (i.e. the first comparison signal and the second comparison signal are in a logical and relationship); the third time period is the shortest time period for the dishwasher to perform the (N + 1) th washing.

As another embodiment of the control module 3, the control module 3 further includes: a third comparison submodule 34 and a fourth comparison submodule 35.

The third comparison submodule 34 is in communication with the timing module 2 and the turbidity sensor 1; a third turbidity comparison value is preset in the third comparison submodule 34; the third comparison submodule 34 is preset with a third turbidity comparison value, where the third turbidity comparison value is a voltage value, and the third turbidity comparison value may correspond to one turbidity or one turbidity interval. The third comparison submodule 34 obtains a first feedback voltage; the third comparison submodule 34 sends a third comparison signal when the first feedback voltage is smaller than the third turbidity comparison value; the third turbidity comparison value is less than the second turbidity comparison value.

The fourth comparison submodule 35 is in communication with the timing module 2 and the turbidity sensor 1; a fourth turbidity comparison value is preset in the fourth comparison submodule 35; the fourth comparison submodule 35 has a fourth turbidity comparison value preset, the fourth turbidity comparison value is a voltage value, and the fourth turbidity comparison value may correspond to a turbidity or a turbidity interval. The fourth comparison submodule 35 obtains a second feedback voltage; the fourth comparison submodule 35 sends a fourth comparison signal when the second feedback voltage is smaller than the fourth turbidity comparison value; the fourth turbidity comparison value is less than the third turbidity comparison value.

The control submodule 33 communicates with a third comparison submodule 34 and a fourth comparison submodule 35; when the control sub-module 33 receives the third comparison signal and the fourth comparison signal (i.e. the third comparison signal and the fourth comparison signal are in a logical and relationship), the duration of the (N + 1) th washing of the dishwasher is controlled to be the fourth duration. The control submodule 33 controls the duration of the (N + 1) th washing of the dishwasher to be a fifth duration when the first comparison signal and the second comparison signal are not received, or when the third comparison signal and the fourth comparison signal are not received; the fourth duration is greater than the third duration; the fifth duration is greater than the fourth duration.

In order to enable better washing, the control submodule 33 is also in communication with the water temperature heating module 4 of the dishwasher; the water temperature heating module 4 may be a heater in a dishwasher. The control submodule 33 controls the time length of the (N + 1) th washing to be the third time length, and sends a first temperature control signal to the water temperature heating module 4 to enable the water temperature of the washing to reach the first temperature. The control submodule 33 controls the time length of the (N + 1) th washing to be the fourth time length, and sends a second temperature control signal to the water temperature heating module 4 to enable the water temperature of the washing to reach the second temperature. The control submodule 33 controls the duration of the (N + 1) th washing to be the fifth duration, and sends a first temperature control signal to the water temperature heating module 4 so that the water temperature of the washing reaches the third temperature. Wherein the first temperature is less than the second temperature; the second temperature is less than the third temperature. The washing machine has the advantages that the to-be-washed objects with large oil stains can be washed by using water with higher temperature, the oil stains in the to-be-washed objects can be removed more efficiently, and the to-be-washed objects with small oil stains can be washed by using water with lower use temperature, so that electric energy can be saved.

The control submodule 33 communicates with the temperature sensing module 5 of the dishwasher; the temperature sensing module 5 may be a temperature sensor of the heater, and the control sub-module 33 controls the water temperature heating module 4 to operate according to a signal sent by the temperature sensing module 5, that is, the temperature sensor controls whether the heater heats based on a temperature signal sent by the temperature sensor, so as to control the water temperature of the dishwasher washing.

The control module 3 communicates with a drain pump 6, a water inlet valve 7 and a wash pump 8 of the dishwasher; the control module 3 can control the on and off of the drainage pump 6, the water inlet valve 7 and the washing pump 8. Before the washing is started, the control submodule 33 controls the drainage pump 6 to be started, residual water in the washing cavity is drained, and then the control submodule 3 controls the drainage valve to be closed; then, the control module 3 controls the water inlet valve 7 to be opened, and after the water inlet valve 7 is opened for a preset time, the control module 3 controls the water inlet valve 7 to be closed; thereafter, the control module 3 controls the washing pump 8 to be turned on, so as to wash the laundry.

The application also provides a dishwasher comprising any one of the above-mentioned washing control devices.

The application also provides an integrated dishwasher, which comprises the dishwasher and at least one functional module, wherein the dishwasher is integrated with the functional module, and the functional module can be a water tank.

It should be noted that: although the present application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can make modifications and substitutions on the present application, and all technical solutions and modifications thereof without departing from the spirit and scope of the present application should be covered by the claims of the present application.

Claims

1. A washing control device, comprising:

the turbidity sensor is arranged in the cavity of the dish-washing machine and used for detecting the turbidity of water in the cavity of the dish-washing machine and sending a feedback voltage; and the number of the first and second groups,

the control module acquires a first feedback voltage sent by the turbidity sensor when the timing duration of the timing module reaches a first duration, and controls the dishwasher to wash for the Nth time; the control module acquires a second feedback voltage sent by the turbidity sensor when the timing duration of the Nth washing reaches a second duration; the control module controls the duration of the (N + 1) th washing of the dishwasher based on the first feedback voltage and the second feedback voltage; and N is a natural number greater than 1.

2. A washing control device as claimed in claim 1, wherein the control module comprises: the first comparison submodule, the second comparison submodule and the control submodule;

the first comparison submodule is in communication with the timing module and the turbidity sensor; a first turbidity comparison value is preset in the first comparison submodule; the first comparison submodule acquires the first feedback voltage; the first comparison sub-module sends a first comparison signal when the first feedback voltage is greater than the first turbidity comparison value;

3. A washing control apparatus as claimed in claim 2, wherein: the control module further comprises: a third comparison submodule and a fourth comparison submodule;

wherein the control sub-module is in communication with the third comparison sub-module and the fourth comparison sub-module; when the control submodule receives the third comparison signal and the fourth comparison signal, the time length of the (N + 1) th washing of the dishwasher is controlled to be fourth time length; when the control sub-module does not receive the first comparison signal and the second comparison signal, or does not receive the third comparison signal and the fourth comparison signal, the control sub-module controls the duration of the (N + 1) th washing of the dishwasher to be a fifth duration; the fourth duration is greater than the third duration; the fifth duration is greater than the fourth duration.

4. A washing control device as claimed in claim 3 wherein said control sub-module is also in communication with a water temperature heating module of the dishwasher;

5. A washing control apparatus according to claim 4, wherein the control sub-module is in communication with a temperature sensing module of the dishwasher; the control sub-module controls the water temperature heating module to work according to the signal sent by the temperature sensing module.

6. The washing control apparatus of claim 1, wherein the control module is in communication with a drain pump, a fill valve and a wash pump of the dishwasher; the control module can control the opening and closing of the drainage pump, the water inlet valve and the washing pump.

7. A dishwasher, characterized by comprising a wash control device as claimed in any one of claims 1 to 6.

8. An integrated dishwasher, comprising a dishwasher according to claim 7 and at least one functional module with which the dishwasher is integrated.