CN113925364A - Cleaning control method of food processor - Google Patents

Abstract

The invention provides a cleaning control method of a food processor, wherein the food processor comprises a crushing cavity, materials are made into slurry in the crushing cavity and then discharged out of the crushing cavity, the food processor comprises a control device, a slurry discharge time length t is stored in the control device, the slurry discharge time length t is obtained when a cleaning function is started, the cleaning process adopted by the cleaning function is determined according to the slurry discharge time length t, and different slurry discharge time lengths t correspond to different cleaning processes; and after the cleaning function is finished, resetting the slurry discharge time t to an initial value. The self-adaptive selective cleaning process is realized, and the timely cleaning and cleaning effects of the food processor are ensured.

Description

Cleaning control method of food processor

Technical Field

The invention relates to a control technology of cooking equipment, in particular to a cleaning control method of a food processor.

Background

At present, in order to pursue quality and healthy life, more and more families choose to process food by using food processing machines, such as soybean milk, rice paste, thick soup and the like which are made by using food processing machines such as a wall breaking machine, a soybean milk machine and the like, but the cleaning of the food processing machines is an important factor influencing the user experience and is a difficult problem bothering the user.

In order to solve the problem of difficult cleaning of food processors, food processors capable of automatic cleaning are available on the market, and some methods for automatic cleaning of food processors are also proposed in the related art documents, as disclosed in the patent application No. cn201710280957. x: after slurry in the stirring cup is emptied, the liquid supply system is controlled to add cleaning liquid into the stirring cup for N times, and after the cleaning liquid is added each time, the motor is controlled to drive the crushing cutter to rotate, and the cleaning liquid in the stirring cup is driven by the crushing cutter to surge along the cup wall of the stirring cup to clean the stirring cup, namely, the existing scheme mainly cleans the food processing machine by repeatedly feeding cleaning water, stirring and cleaning and discharging the stirring cup.

However, with the diversification of users, the diversification of food recipes and the environmental impact in the process of food processing machines, the residues formed after food processing treatment have great difference and different self-cleaning difficulty, and in this case, the adoption of the standard cleaning method is not suitable, which either results in the waste of water resources or the problem of incomplete cleaning.

Therefore, how to perform adaptive cleaning is an urgent problem to be solved in a self-cleaning scheme of the food processor.

Disclosure of Invention

The present invention is directed to solving at least one of the above technical problems to some extent, and to overcome the differences in the demands for cleaning methods and the disadvantages and shortcomings of the prior art, so as to enable self-cleaning to be adaptive.

In particular, the application relates to a cleaning control method of a food processor, wherein the food processor comprises a crushing cavity, materials are made into slurry in the crushing cavity and then discharged out of the crushing cavity, the food processor comprises a control device, a slurry discharge time t is stored in the control device,

when a cleaning function is started, obtaining the slurry discharge time t, and determining the cleaning process adopted by the cleaning function according to the slurry discharge time t, wherein different slurry discharge time t corresponds to different cleaning processes;

and after the cleaning function is finished, resetting the slurry discharge time t to an initial value.

Preferably, the food processor comprises a slurry discharge device through which slurry is discharged from the crushing cavity,

starting timing when the slurry discharging device is opened, and stopping timing when the slurry discharging device is closed;

counting the timing duration T1 between the start timing and the stop timing;

and updating the value of the time length T1 to the pulp discharge time length T.

Preferably, the food processor comprises a motor, the motor drives a crushing and stirring device arranged in the crushing cavity, the slurry discharging device is started to work when being opened, the control device detects the working current of the motor, judges the discharging degree of slurry in the crushing cavity according to the working current of the motor, and closes the slurry discharging device after the slurry is discharged.

Preferably, a slurry detection device is arranged at the slurry discharge device, and the control device judges the discharge degree of the slurry in the crushing cavity through the slurry detection device and closes the slurry discharge device after the slurry discharge is completed.

Preferably, the food processor comprises a base, the crushing cavity is detachably arranged in the base, the crushing cavity is taken out of the base and poured out of the prepared slurry,

starting timing when the crushing cavity leaves the base and stopping timing when the crushing cavity is placed in the base;

counting the timing duration T2 between the start timing and the stop timing;

and updating the time length T2 to the slurry discharge time length T.

Preferably, the cleaning process for determining the cleaning function according to the slurry discharge time t includes:

when t < ═ t1, adopting a preset first cleaning process;

when t1< t < ═ t2, a preset second cleaning process is adopted;

when t2< ═ t, a preset third cleaning process is adopted;

wherein t1 is a preset first duration threshold, and t2 is a preset second duration threshold;

the process parameter of the third cleaning process is larger than and/or more than that of the second cleaning process, and the process parameter of the second cleaning process is larger than and/or more than that of the first cleaning process.

Preferably, the process parameters include any one or more of: the cleaning time, the cleaning water temperature and the cleaning times.

Preferably, the first cleaning process includes: washing with water at a first temperature for a preset time; the first temperature is normal temperature;

the second cleaning process comprises the following steps: washing the preset time length by using water at a second temperature; when the number of the slurry discharging time t is larger than the first time threshold t1 and every time the first preset number is increased, the second temperature is increased by a first preset temperature value;

the third cleaning process comprises: washing with water at a third temperature for the preset time, and washing for M times; wherein the third temperature is a boiling water temperature; when the number of the pulp discharging time t is larger than the second time threshold t2 and every time the second preset number is increased, the cleaning frequency M is increased by a first preset frequency, wherein M is a positive integer.

Preferably, the method further comprises:

after each pulping is finished, adding 1 to a preset pulping time counting position X; after the first cleaning process is executed once, adding 1 to a preset first cleaning process statistical bit; after the second cleaning process is executed once, adding 1 to a preset second cleaning process statistical bit; after the third cleaning process is executed once, adding 1 to a preset third cleaning process statistical bit;

and when the numerical value of the pulping time counting position X is greater than or equal to a preset time threshold value and the numerical value of the third cleaning process counting position is 0, forcibly cleaning the food processor by adopting the third cleaning process.

Preferably, the method further comprises: and when the numerical value of the pulping time counting bit X is smaller than the time threshold value and the numerical value of the third cleaning process counting bit is not 0, clearing the pulping time counting bit X.

The slurry discharging time can effectively reflect the state of the slurry, and the slurry characteristics such as the concentration degree, the quantity and the viscosity of the slurry directly influence the slurry discharging time under the condition that the slurry discharging devices or the slurry discharging methods are consistent. For example, the thicker the slurry, the lower the corresponding flow rate, the longer the same volume of slurry is discharged, for example, the larger the volume of slurry, the longer the same flow rate of slurry is discharged, for example, the different material recipes, the different viscosity of slurry, the different flow rate, and the higher flow rate indicates lower viscosity. The thicker the slurry, the more it remains in the comminution chamber, the greater the slurry volume, the greater the area of slurry remaining in the comminution chamber, and the greater the viscosity, which represents more bonding in the comminution chamber. That is, the length of time for discharging slurry reflects the degree of residue of the slurry on the pulverizing chamber.

The cleaning process selection adjustment is carried out when this application is long through arranging the thick liquid for the adjustment can be selected in real time in the washing, the abluent efficiency and the effect of effectual promotion, and the waste of water and electric resource is avoided to the reasonable resource that utilizes.

Other aspects and effects of the present invention will be given in the following description of the embodiments, and will be partly changed from the description of the embodiments.

Detailed Description

The present application describes embodiments, but the description is illustrative rather than limiting and it will be apparent to those of ordinary skill in the art that many more embodiments and implementations are possible within the scope of the embodiments described herein. Although many possible combinations of features have been disclosed and discussed in the detailed description, many other combinations of the disclosed features are possible. Any feature or element of any embodiment may be used in combination with or instead of any other feature or element in any other embodiment, unless expressly limited otherwise.

The present application includes and contemplates combinations of features and elements known to those of ordinary skill in the art. The embodiments, features and elements disclosed in this application may also be combined with any conventional features or elements to form a unique inventive concept as defined by the claims. Any feature or element of any embodiment may also be combined with features or elements from other inventive aspects to form yet another unique inventive aspect, as defined by the claims. Thus, it should be understood that any of the features shown and/or discussed in this application may be implemented alone or in any suitable combination. Accordingly, the embodiments are not limited except as by the appended claims and their equivalents. Furthermore, various modifications and changes may be made within the scope of the appended claims.

Further, in describing representative embodiments, the specification may have presented the method and/or process as a particular sequence of steps. However, to the extent that the method or process does not rely on the particular order of steps set forth herein, the method or process should not be limited to the particular sequence of steps described. Other orders of steps are possible as will be understood by those of ordinary skill in the art. Therefore, the particular order of the steps set forth in the specification should not be construed as limitations on the claims. Further, the claims directed to the method and/or process should not be limited to the performance of their steps in the order written, and one skilled in the art can readily appreciate that the sequences may be varied and still remain within the spirit and scope of the embodiments of the present application.

The first embodiment is as follows:

the embodiment of the application provides a cleaning control method of a food processing machine, the food processing machine comprises a crushing cavity and is used for processing materials into slurry, the materials are discharged after the slurry is made in the crushing cavity, the food processing machine comprises a control device, a slurry discharge time length t is stored in a fox searching control device, the food processing machine is provided with an automatic cleaning function, when the cleaning function is started, the control device obtains the slurry discharge time length t and determines a cleaning process adopted by the cleaning energy according to the slurry discharge time length t, and different slurry discharge time lengths t correspond to different cleaning processes; and after the cleaning function is finished, resetting the slurry discharge time t to an initial value.

In this process, the initial value may represent a basic cleaning process or a minimum cleaning process, for example, before pulping or before pulping, a user selects to clean the machine, or perform a timed cleaning after a long time storage, etc. In this case, the food processor can be cleaned to the most basic extent according to the initial values.

The slurry discharging time can effectively reflect the state of the slurry, and the slurry characteristics such as the concentration degree, the quantity and the viscosity of the slurry directly influence the slurry discharging time under the condition that the slurry discharging devices or the slurry discharging methods are consistent. For example, the thicker the slurry, the lower the corresponding flow rate, the longer the same volume of slurry is discharged, for example, the larger the volume of slurry, the longer the same flow rate of slurry is discharged, for example, the different material recipes, the different viscosity of slurry, the different flow rate, and the higher flow rate indicates lower viscosity. The thicker the slurry, the more it remains in the comminution chamber, the greater the slurry volume, the greater the area of slurry remaining in the comminution chamber, and the greater the viscosity, which represents more bonding in the comminution chamber. That is, the length of time for discharging slurry reflects the degree of residue of the slurry on the pulverizing chamber.

The cleaning process selection adjustment is carried out when this application is long through arranging the thick liquid for the adjustment can be selected in real time in the washing, the abluent efficiency and the effect of effectual promotion, and the waste of water and electric resource is avoided to the reasonable resource that utilizes.

The acquisition of the slurry discharge time t can be carried out in various ways, in this embodiment, the food processor comprises a slurry discharge device, the slurry is discharged out of the crushing cavity through the slurry discharge device, timing is started when the slurry discharge device is opened, and timing is stopped when the slurry discharge device is closed; counting the timing time T1 from the start of timing to the stop of timing, and updating the value of the time T1 to the pulp discharge time T. Thereby it is long to obtain the row thick liquid through opening and closing of row thick liquid device, can be more accurate reflect the characteristic of thick liquid. In the process, the slurry can be discharged at one time, or can be discharged for multiple times, the time length of one-time slurry discharge can be counted, or the time lengths of multiple slurry discharge can be cumulatively superposed.

In order to better represent the relation between the slurry discharging time and the slurry characteristics so as to obtain the slurry characteristics, if the slurry discharging is carried out for multiple times and the corresponding water blending process is carried out in the crushing cavity after the first slurry discharging process, the first slurry discharging time is only extracted to adjust the cleaning process.

In this embodiment, for the time t when thick liquid is arranged in more accurate acquirement be equipped with the motor in the food preparation machine, motor drive sets up the crushing agitating unit in crushing cavity, when arranging thick liquid device and opening, start simultaneously the motor work, controlling means detects the operating current of motor, the basis the operating current of motor changes and judges thick liquid discharge degree in crushing cavity to the thick liquid is accomplished after discharging and is closed arrange thick liquid device, thereby it is long when acquireing to arrange thick liquid.

When the slurry is in the crushing cavity, the slurry in the crushing cavity is reduced along with the discharge of the slurry, so that the load driven by the motor is reduced, the working current of the motor is reduced, when the slurry is completely discharged, the motor is operated in an idle state, the slurry in the crushing cavity can be judged to be completely discharged according to the working current of the motor, and the slurry discharging device can be closed.

Example two:

the present embodiment is different from the first embodiment in that a slurry detection device is disposed at the slurry discharge device, and the control device determines the discharge degree of the slurry in the crushing cavity through the slurry detection device and closes the slurry discharge device after the slurry discharge is completed. When the slurry detecting device detects that the slurry flows through, the slurry is not discharged completely. The slurry detection device may be a pressure sensor, and determines whether the slurry is completely discharged by the pressure generated by the slurry flowing through the pressure sensor. Also can be the TDS sensor, through detecting the TDS change, there is obvious difference change in the TDS of air and the TDS of thick liquid, also can judge out the thick liquid and discharge the completion. The slurry detection device is used for detecting slurry after the slurry discharge device is started.

If the slurry is not automatically discharged, but the crushing cavity needs to be taken out of the machine base for pouring the slurry, after the main pulping process is completed, the slurry discharge time T can be obtained by obtaining the time length T2 of the crushing cavity leaving the machine base, so that the corresponding cleaning process is adjusted.

Example three:

the embodiment provides a specific cleaning scheme embodiment of the cleaning process adopted for determining the cleaning function according to the slurry discharge time t on the basis of the first embodiment.

In an exemplary embodiment of the present application, the determining the cleaning process adopted by the cleaning function according to the slurry discharge time period t may include:

when t < ═ t1, adopting a preset first cleaning process;

when t1< t < ═ t2, a preset second cleaning process is adopted;

when t2< ═ t, a preset third cleaning process is adopted;

wherein t1 is a preset first duration threshold, and t2 is a preset second duration threshold;

the process parameter of the third cleaning process is larger than and/or more than that of the second cleaning process, and the process parameter of the second cleaning process is larger than and/or more than that of the first cleaning process.

In exemplary embodiments of the present application, the process parameters may include any one or more of: the cleaning time, the cleaning water temperature and the cleaning times.

In the exemplary embodiment of the application, the cleaning parameters of the first cleaning process, the second cleaning process and the third cleaning process are more and more, and/or the values are more and more, so that the cleaning strength is more and more increased, and the cleaning effect is more and more good.

In an exemplary embodiment of the present application, the first cleaning process may include: washing with water at a first temperature for a preset time; the first temperature is normal temperature;

the second cleaning process may include: washing the preset time length by using water at a second temperature; when the number of the slurry discharging time t is larger than the first time threshold t1 and every time the first preset number is increased, the second temperature is increased by a first preset temperature value;

the third cleaning process may include: washing with water at a third temperature for the preset time, and washing for M times; wherein the third temperature is a boiling water temperature; when the number of the pulp discharging time t is larger than the second time threshold t2 and every time the second preset number is increased, the cleaning frequency M is increased by a first preset frequency, wherein M is a positive integer.

In an exemplary embodiment of the present application, the preset time period, the first time period threshold t1 (e.g., 8-12 minutes), the second time period threshold t2 (e.g., 25-35 minutes), the first preset value (e.g., 1-3 minutes), the second preset value (e.g., 1-3 minutes), the first preset temperature value (e.g., 3-5 ℃), and the first preset number (e.g., 1-3 times) may be defined according to different food processor types or different food processing functions, and are not limited herein.

In the exemplary embodiment of the present application, for example, t may satisfy t < ═ 10(t1) minutes, and the first cleaning process may be mainly cleaning with normal temperature water;

t can meet the requirement of 10 minutes (T1) < T < (T30 minutes) (T2), a second cleaning process is adopted, in the second cleaning process, the temperature T of cleaning water is increased by 3-5 ℃ every time T is prolonged by one minute, and the water can be heated to the boiling point temperature at most;

t can satisfy (t2)30 minutes < ═ t, a third cleaning process is adopted, the third cleaning process can heat the cleaning water to the boiling point temperature, the cleaning is carried out, then the waste water after the cleaning is discharged, and the secondary cleaning of the same process is carried out again.

In the exemplary embodiment of this application, along with the increase of t, the washing degree of difficulty also increases relatively, so adopt the temperature for the washing, the temperature can increase along with the increase of t, through the increase of washing water temperature, when guaranteeing the cleaning performance, reduce to the at utmost and wash time, the energy saving consumes, in order fully to guarantee the cleaning performance simultaneously, if the time overlength of t, so adopt secondary high temperature cleaning's mode, promote the cleaning performance, ensure user's use and experience.

Example four:

this embodiment provides an example of judging whether or not the third cleaning process is forcibly employed by recording the number of times of use of the third cleaning process in the multi-pass pulping, on the basis of any of the above embodiments.

In an exemplary embodiment of the present application, the method may further include:

after each pulping is finished, adding 1 to a preset pulping time counting position X; after the first cleaning process is executed once, adding 1 to a preset first cleaning process statistical bit; after the second cleaning process is executed once, adding 1 to a preset second cleaning process statistical bit; after the third cleaning process is executed once, adding 1 to a preset third cleaning process statistical bit;

and when the numerical value of the pulping time counting position X is greater than or equal to a preset time threshold value and the numerical value of the third cleaning process counting position is 0, forcibly cleaning the food processor by adopting the third cleaning process.

In an exemplary embodiment of the present application, the method may further include: and when the numerical value of the pulping time counting bit X is smaller than the time threshold value and the numerical value of the third cleaning process counting bit is not 0, clearing the pulping time counting bit X.

In the exemplary embodiment of the application, one round of pulping is normally finished, the pulping completion times X can be recorded in the EEPROM, and the value of X is added by 1; after the first cleaning process, the second cleaning process and the third cleaning process are adopted to complete one-time cleaning, the first cleaning process statistical bit WA +1, the second cleaning process statistical bit WB +1 and the third cleaning process statistical bit WC +1 can be correspondingly recorded in the EEPROM respectively.

In an exemplary embodiment of the present application, when X ═ Y +1(Y is a number threshold) rounds of pulping, if WC is 0, the third cleaning process may be forced after the Y rounds of pulping, i.e., before the Y +1 th round of pulping, regardless of whether the condition of the timed period t of entering the third cleaning process is satisfied.

In an exemplary embodiment of the present application, when X < ═ Y +1 cycles of pulping, a third cleaning process is performed once, while X may be cleared.

In an exemplary embodiment of the present application, the value of Y may satisfy 5 ≦ Y ≦ 8.

In the exemplary embodiment of the application, if the pulping is continuously carried out, if the washing is carried out without adopting higher water temperature, the motor shaft can generate heat in the working process of the motor, substances in the pulp can be adhered to the motor shaft, the more the substances are accumulated, the more difficult the washing is in the future, so that the pulping of the Y wheel can be softened and washed at high temperature, the motor shaft can be prevented from being accumulated with excessive residues, and the maintenance effect is achieved.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

Claims (10)

1. A cleaning control method of a food processor is characterized in that the food processor comprises a crushing cavity, materials are made into slurry in the crushing cavity and then discharged out of the crushing cavity, the food processor comprises a control device, a slurry discharge time t is stored in the control device,

when a cleaning function is started, obtaining the slurry discharge time t, and determining the cleaning process adopted by the cleaning function according to the slurry discharge time t, wherein different slurry discharge time t corresponds to different cleaning processes;

and after the cleaning function is finished, resetting the slurry discharge time t to an initial value.

2. The method of claim 1, wherein the food processor includes a discharge device through which the slurry exits the size reduction chamber,

starting timing when the slurry discharging device is opened, and stopping timing when the slurry discharging device is closed;

counting the timing duration T1 between the start timing and the stop timing;

and updating the value of the time length T1 to the pulp discharge time length T.

3. The method as claimed in claim 2, wherein the food processor includes a motor, the motor drives a pulverizing and stirring device disposed in the pulverizing cavity, the slurry discharge device is turned on to start the motor, the control device detects an operating current of the motor, determines a discharge degree of the slurry in the pulverizing cavity according to the operating current of the motor, and turns off the slurry discharge device after the completion of the slurry discharge.

4. The method as claimed in claim 2, wherein the slurry discharge device is provided with a slurry detection device, and the control device determines the discharge degree of the slurry in the grinding chamber through the slurry detection device and closes the slurry discharge device after the discharge of the slurry is completed.

5. The method of claim 1, wherein the food processor includes a housing, the size reduction chamber being removably disposed within the housing, the size reduction chamber being removable from the housing and allowing the prepared slurry to drain,

starting timing when the crushing cavity leaves the base and stopping timing when the crushing cavity is placed in the base;

counting the timing duration T2 between the start timing and the stop timing;

and updating the time length T2 to the slurry discharge time length T.

6. The method of claim 1, wherein the determining a cleaning process for the cleaning function based on the discharge duration t comprises:

when t < ═ t1, adopting a preset first cleaning process;

when t1< t < ═ t2, a preset second cleaning process is adopted;

when t2< ═ t, a preset third cleaning process is adopted;

wherein t1 is a preset first duration threshold, and t2 is a preset second duration threshold;

the process parameter of the third cleaning process is larger than and/or more than that of the second cleaning process, and the process parameter of the second cleaning process is larger than and/or more than that of the first cleaning process.

7. The method of claim 6, wherein the process parameters include any one or more of: the cleaning time, the cleaning water temperature and the cleaning times.

8. The method of claim 7, wherein the step of controlling the cleaning of the food processor comprises,

the first cleaning process comprises the following steps: washing with water at a first temperature for a preset time; the first temperature is normal temperature;

the second cleaning process comprises the following steps: washing the preset time length by using water at a second temperature; when the number of the slurry discharging time t is larger than the first time threshold t1 and every time the first preset number is increased, the second temperature is increased by a first preset temperature value;

the third cleaning process comprises: washing with water at a third temperature for the preset time, and washing for M times; wherein the third temperature is a boiling water temperature; when the number of the pulp discharging time t is larger than the second time threshold t2 and every time the second preset number is increased, the cleaning frequency M is increased by a first preset frequency, wherein M is a positive integer.

9. The method of claim 6, further comprising:

after each pulping is finished, adding 1 to a preset pulping time counting position X; after the first cleaning process is executed once, adding 1 to a preset first cleaning process statistical bit; after the second cleaning process is executed once, adding 1 to a preset second cleaning process statistical bit; after the third cleaning process is executed once, adding 1 to a preset third cleaning process statistical bit;

and when the numerical value of the pulping time counting position X is greater than or equal to a preset time threshold value and the numerical value of the third cleaning process counting position is 0, forcibly cleaning the food processor by adopting the third cleaning process.

10. The method of claim 9, further comprising: and when the numerical value of the pulping time counting bit X is smaller than the time threshold value and the numerical value of the third cleaning process counting bit is not 0, clearing the pulping time counting bit X.