CN110236423B - Automatic cleaning method of food processing machine - Google Patents

Abstract

The invention discloses an automatic cleaning method of a food processing machine, the food processing machine comprises a machine body and a crushing assembly arranged on the machine body, the crushing assembly comprises a crushing cup body, a crushing cup cover, a crushing motor and a crushing blade, the crushing cup cover and the crushing cup body are matched to form a crushing cavity, an output shaft of the crushing motor extends into the crushing cavity, and the crushing blade is positioned in the crushing cavity and connected to the output shaft of the crushing motor, wherein the crushing cavity is automatically cleaned after the food processing machine completes pulping, the automatic cleaning process at least comprises a diffusion cleaning stage and a current collection cleaning stage, the water consumption in the diffusion cleaning stage is V0, the water consumption in the current collection cleaning stage is V1, and V1 is not less than V0. In the cleaning process, the cleaning process is divided into a diffusion cleaning stage and a flow gathering cleaning stage, and the water quantity is controlled by utilizing the two stages, so that different types of residues are cleaned.

Description

Automatic cleaning method of food processing machine

Technical Field

The invention relates to a small kitchen appliance, in particular to an automatic cleaning method of a food processor.

Background

With the continuous improvement of life quality, more and more families pursue quality, healthy life, select food preparation machine to make food by oneself, and with the continuous development of technique, the food processing of platform is because the diversification of function, and the convenience of operation is more favored by the user. However, the flat food processor brings about a problem of cleaning although it brings about a better food preparation experience due to the influence of its form.

For example, in the existing soymilk machine, the cup body is fixed in the base and is in a non-detachable shape. After pulping is finished, the cup body cannot be detached, so that after a beverage is made every time, the inner surface of the cup body is covered with a layer of residual stain which cannot be cleaned, bacteria are easy to breed in the past, and potential food safety hazards exist.

Based on this, how to realize automatic cleaning is possible, and cleaning is a pursuit goal of manufacturers and developers.

Disclosure of Invention

The invention aims to provide an automatic cleaning method of a food processor, which can realize effective cleaning.

In order to achieve the purpose, the invention adopts the following technical scheme: the automatic cleaning method of the food processing machine comprises the machine body and a crushing assembly arranged on the machine body, wherein the crushing assembly comprises a crushing cup body, a crushing cup cover, a crushing motor and a crushing blade, the crushing cup cover and the crushing cup body are matched to form a crushing cavity, an output shaft of the crushing motor extends into the crushing cavity, and the crushing blade is located in the crushing cavity and connected to an output shaft of the crushing motor.

Furthermore, the crushing blade comprises a plurality of blades, the blades of the crushing blade are arranged on different planes, the height of the blade tip at the maximum distance from the bottom of the crushing cup body is h1, the height of the blade tip at the minimum distance from the bottom of the crushing cup body is h2, the height of the water level in the crushing cup body is h01 in the diffusion cleaning stage, and h1 is more than or equal to h01 and more than h 2.

Further, h01 is more than or equal to 0.3(h1-h2) + h 2.

Furthermore, in the flow gathering and cleaning stage, the height of the water level in the crushing cup body is h02, and h02 is not less than h 1.

Furthermore, h02 is more than or equal to 2h 1.

Further, the diffusion cleaning stage comprises a process of injecting cleaning water into the crushing cup body for cleaning for multiple times, and the cleaning water in the crushing cup body is discharged after cleaning by injecting the cleaning water every time.

Further, the diffusion cleaning stage includes a step of heating the cleaning water injected into the pulverizing cup in the process of injecting the cleaning water.

Further, in the diffusion cleaning stage, a steaming process of steaming the residue remaining in the pulverization chamber is included, and the steaming process includes heating the injected cleaning water to boiling to generate steam.

Furthermore, the food processor comprises a steam generating device, the diffusion cleaning stage comprises a steaming process of introducing steam generated by the steam generating device into the crushing cavity, and the steaming process is arranged after the first water injection cleaning and discharging.

Further, in the diffusion cleaning stage, the rotating speed of the grinding motor is increased to N1 within t1 time, wherein t1 is less than or equal to 5 seconds, and N1 is more than or equal to 3000 revolutions.

Because the grinding cup body and the grinding cup cover are matched to form a grinding cavity of the food processor, the grinding cup body and the grinding cup cover are contacted with food in the rotating process and/or the heating process of the motor in the food processing process, so that after the food processing is finished, the grinding cup body and the grinding cup cover are respectively provided with corresponding food residues, the grinding cup body and the grinding cup cover need to be cleaned simultaneously in the cleaning process of the food processor, the grinding cup cover is relatively far away from the bottom of the grinding cup body, namely the grinding cup cover is relatively far away from a grinding blade, the grinding cup cover is conventionally cleaned by utilizing the grinding water, the cup cover is difficult to clean or the blade needs to be cleaned only by utilizing the high rotating speed of the motor, more difficulties are brought to the whole cleaning process, such as water resource waste, cleaning times increase and the like, and food residues with large adhesive force such as soybean milk are difficult to clean.

In the invention, firstly, in the cleaning process, the diffusion cleaning stage and the converging cleaning stage are divided, thereby cleaning different types of residues, utilizing two stages to control the water quantity, so that the crushing blade can meet the cleaning requirements of different degrees due to different loads in the process of driving the cleaning water, in the diffusion cleaning stage, the cleaning water is used for driving the crushing blade to achieve better diffusion effect by using less water, thus, because of small load, the crushing blade can diffuse the precipitation to a higher position and can better infiltrate into the whole crushing cavity, and simultaneously, in the cleaning process, because the load is small, the impact force formed by the cleaning water driven by the crushing blade is also large, the spraying effect can be generated, the pressure spraying effect is achieved, and therefore residues with high viscosity can be better cleaned. And in the phase of collecting and cleaning, because the water volume is greater than that in the phase of diffusion cleaning, in the rotating process of the crushing blade, the collected water flow is mainly formed, the soaked residues can be washed, and the residues can be thoroughly separated from the crushing cup body and the crushing cup cover along with the water flow, so that a better cleaning effect is achieved.

The plurality of blades of the crushing blade are arranged on the non-same plane, and the water level of cleaning water is limited between the blades at high and low positions in a diffusion cleaning stage, so that the crushing blade is provided with a water pushing part and a diffusion part, the water pushing part formed by the blades at low positions is utilized to push the cleaning water up first, the blades at high positions form a relay to diffuse the cleaning water, the diffusion degree of the cleaning water is improved, the linear speed of corresponding cleaning water flow is improved, and meanwhile, the cleaning water forms more single-point water drops to achieve a better spray cleaning effect. In the step of flow gathering cleaning, gathered water flow is mainly formed to wash residues, so that the water level is higher than the high-position blade, the diffusion effect is reduced, a better water flow form is formed, the residues are convenient to clean, and the water flow can impact the crushing cup cover through the relay of the high-position blade. And better cleaning requirements are met.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of the overall structure of the embodiment of the present invention;

fig. 2 is a schematic structural view of a cup body according to an embodiment of the present invention.

Detailed Description

Example (b):

fig. 1 is a schematic view of the food processor according to the present invention. Including the organism and the crushing unit who locates the organism, crushing unit includes crushing cup 01, crushing bowl cover 03, crushing motor 02 and crushing blade 04, and crushing bowl cover 03 and the cooperation of crushing cup 01 form crushing chamber, and crushing motor 02's output shaft stretches into crushing chamber, and crushing blade 04 is located crushing intracavity and is connected on crushing motor 02's the output shaft, food preparation machine still is equipped with water tank 05, water tank 05 supplies water to crushing cup 01 in for comminuted forms thick liquid, can supply water in addition and be used for smashing the chamber to the food preparation machine region promptly and wash.

The automatic cleaning method comprises a diffusion cleaning stage and a flow gathering cleaning stage, wherein the water consumption in the diffusion cleaning stage is V0, the water consumption in the flow gathering cleaning stage is V1, and V1 is not less than V0. In abluent in-process, divide into diffusion washing stage and collection flow washing stage, thereby wash to the residue of different grade type, utilize the control of two stages to the water yield, thereby make crushing blade at the in-process that drives washing water, because the difference of load, thereby reach the washing requirement of different degrees, in diffusion washing stage, utilize less water yield, make washing water drive at crushing blade and can reach better diffusion effect, so because the load is little, crushing blade can precipitation spread to higher position, and can be better soak whole crushing chamber, and simultaneously, in the cleaning process, because the load is little, the impact force that the crushing blade drove and wash water formation is also great, can produce the effect of spraying, reach the effect of pressure spray rinsing, and like this, can be better washing to the great residue of viscidity. And in the phase of collecting and cleaning, because the water volume is greater than that in the phase of diffusion cleaning, in the rotating process of the crushing blade, the collected water flow is mainly formed, the soaked residues can be washed, and the residues can be thoroughly separated from the crushing cup body and the crushing cup cover along with the water flow, so that a better cleaning effect is achieved.

As shown in fig. 2, in this embodiment, the crushing blade includes a plurality of blades, the plurality of blades of the crushing blade are disposed on different planes, the height of the blade tip at the maximum distance from the bottom of the crushing cup body is h1, the height of the blade tip at the minimum distance from the bottom of the crushing cup body is h2, the water level in the crushing cup body during the diffusion cleaning stage is h01, and h1 is greater than or equal to h01 and greater than h 2. And in the flow gathering and cleaning stage, the water level in the grinding cup body is h02, and h02 is more than or equal to h 1.

The plurality of blades of the crushing blade are arranged on the non-same plane, and the water level of cleaning water is limited between the blades at high and low positions in a diffusion cleaning stage, so that the crushing blade is provided with a water pushing part and a diffusion part, the water pushing part formed by the blades at low positions is utilized to push the cleaning water up first, the blades at high positions form a relay to diffuse the cleaning water, the diffusion degree of the cleaning water is improved, the linear speed of corresponding cleaning water flow is improved, and meanwhile, the cleaning water forms more single-point water drops to achieve a better spray cleaning effect. In the step of flow gathering cleaning, gathered water flow is mainly formed to wash residues, so that the water level is higher than the high-position blade, the diffusion effect is reduced, a better water flow form is formed, the residues are convenient to clean, and the water flow can impact the crushing cup cover through the relay of the high-position blade. And better cleaning requirements are met.

Specifically, in this embodiment, h01 is 0.3 or more (h1-h2) + h2 in order to better ensure that the crushing blades can better diffuse the washing water in the diffusion washing stage. That is to say, the position in the middle of the highest wing of a knife and the lowest wing of a knife must have wash water for one third, so can better diffuse, if the water level is lower, then the wing of being in the low position can not carry out better stirring with wash water, just can not make the wing of high position form the effect of diffusing the wash water, makes the wash water form the swirl of V-arrangement like this in the lower position easily, is unfavorable for the effect of the wing of high position to wash water.

Specifically, in the embodiment, in order to better ensure that the formed water flow can reach a better position in the converging flow cleaning stage, h02 is more than or equal to 2h 1. Because, in the converging flow cleaning stage, the cleaning water is mainly driven by the rotation of the crushing blades to form corresponding water flow, so that the residues on the wall of the crushing cavity are taken away. In the process, the washing water rotates along with the crushing blade, a V-shaped vortex is formed in the crushing cup body, and the height of the vortex is determined by the crushing blade, namely the critical point of the crushing blade for driving the washing water is the critical point of the crushing blade which can be contacted with the washing water. And form V-arrangement swirl after, the liquid level around crushing cup risees, and crushing blade is in central point to make the liquid level reduce, if wash the water level lower, then in the cleaning process, lead to the height of the rivers that form to wash whole crushing chamber.

Of course, in the whole cleaning process, the diffusion cleaning stage does not refer to a cleaning unit, or a process of one-time water injection cleaning, and the whole cleaning process may include multiple diffusion cleaning, that is, the whole diffusion cleaning stage may be a diffusion cleaning stage formed by one-time water injection cleaning and discharging, or a process of multiple cyclic repetition of multiple diffusion cleaning stages. In order to better guarantee the effect of the diffusion cleaning stage, the cleaning water is discharged out of the crushing cup body after water injection cleaning for multiple times of diffusion cleaning. Similarly, a plurality of converging flow cleaning stages can be included in the whole cleaning process. Of course, the diffusion cleaning stage may be completed before the flow-gathering cleaning stage, or the diffusion cleaning stage may be completed before the flow-gathering cleaning stage, and then the diffusion cleaning stage, etc., that is, the diffusion cleaning stage is started, and then the flow-gathering cleaning stage and the diffusion cleaning stage are alternated to complete the whole cleaning.

In this embodiment, in the diffusion cleaning stage, a step of heating water injected into the pulverizing cup is included in the water injection cleaning process. The hot water is used for cleaning, and residues attached to the wall of the crushing cavity can be effectively softened, so that better cleaning in the subsequent cleaning process is facilitated. Because in food processing process, food waste adheres to the back on smashing the chamber wall, because the time problem, it can condense on smashing the chamber wall, make the residue increase at the adhesive force of smashing the chamber wall like this, and can't form bigger impact force through the diffusion mode, thereby hardly clear away the residue, just so need make the residue soften through the function that hot water is softened, so, in the diffusion cleaning process, before smashing blade work, can heat washing water earlier, make to utilize hot water to wash, reach better cleaning performance.

Of course, in order to better soften the residue, the washing water can be directly heated to boil in the process, and the steam generated by boiling can steam the whole crushing cavity, so that the subsequent washing can be more optimized.

In this process, more preferred, carry out pure diffusion washing once earlier, that is to say, annotate suitable water earlier to start crushing blade and carry out the diffusion washing, this in-process can go on through hot water, breaks away from abluent residue earlier like this, then fumigates, and more effective utilization is fumigated like this and is softened stubborn residue, carries out the diffusion washing again, is carrying out crushing cup through gathering the washing of flowing at last and taking out whole residue. Of course, the whole cleaning can also be finished in a diffusion cleaning stage during the final cleaning, so that the crushing cavity is flushed once at the end, which is beneficial to better cleaning the crushing cavity.

Of course, for better fumigation, a steam generating device may be provided on the food processor, and the diffusion cleaning stage includes introducing steam generated by the steam generating device into the pulverizing chamber, wherein the steam introducing chamber is provided after the first water injection cleaning discharge.

In the embodiment, in the diffusion cleaning stage, the rotating speed of the grinding motor is increased to N1 within t1, wherein t1 is less than or equal to 5 seconds, and N1 is more than or equal to 3000 revolutions. Therefore, the motor is favorable for quick speed rise to form larger impact and diffusion.

Because the grinding cup body and the grinding cup cover are matched to form a grinding cavity of the food processor, the grinding cup body and the grinding cup cover are contacted with food in the rotating process and/or the heating process of the motor in the food processing process, so that after the food processing is finished, the grinding cup body and the grinding cup cover are respectively provided with corresponding food residues, the grinding cup body and the grinding cup cover need to be cleaned simultaneously in the cleaning process of the food processor, the grinding cup cover is relatively far away from the bottom of the grinding cup body, namely the grinding cup cover is relatively far away from a grinding blade, the grinding cup cover is conventionally cleaned by utilizing the grinding water, the cup cover is difficult to clean or the blade needs to be cleaned only by utilizing the high rotating speed of the motor, more difficulties are brought to the whole cleaning process, such as water resource waste, cleaning times increase and the like, and food residues with large adhesive force such as soybean milk are difficult to clean.

In the invention, firstly, in the cleaning process, the diffusion cleaning stage and the converging cleaning stage are divided, thereby cleaning different types of residues, utilizing two stages to control the water quantity, so that the crushing blade can meet the cleaning requirements of different degrees due to different loads in the process of driving the cleaning water, in the diffusion cleaning stage, the cleaning water is used for driving the crushing blade to achieve better diffusion effect by using less water, thus, because of small load, the crushing blade can diffuse the precipitation to a higher position and can better infiltrate into the whole crushing cavity, and simultaneously, in the cleaning process, because the load is small, the impact force formed by the cleaning water driven by the crushing blade is also large, the spraying effect can be generated, the pressure spraying effect is achieved, and therefore residues with high viscosity can be better cleaned. And in the phase of collecting and cleaning, because the water volume is greater than that in the phase of diffusion cleaning, in the rotating process of the crushing blade, the collected water flow is mainly formed, the soaked residues can be washed, and the residues can be thoroughly separated from the crushing cup body and the crushing cup cover along with the water flow, so that a better cleaning effect is achieved.

The plurality of blades of the crushing blade are arranged on the non-same plane, and the water level of cleaning water is limited between the blades at high and low positions in a diffusion cleaning stage, so that the crushing blade is provided with a water pushing part and a diffusion part, the water pushing part formed by the blades at low positions is utilized to push the cleaning water up first, the blades at high positions form a relay to diffuse the cleaning water, the diffusion degree of the cleaning water is improved, the linear speed of corresponding cleaning water flow is improved, and meanwhile, the cleaning water forms more single-point water drops to achieve a better spray cleaning effect. In the step of flow gathering cleaning, gathered water flow is mainly formed to wash residues, so that the water level is higher than the high-position blade, the diffusion effect is reduced, a better water flow form is formed, the residues are convenient to clean, and the water flow can impact the crushing cup cover through the relay of the high-position blade. And better cleaning requirements are met.

In the present invention, the food processor is a food processor capable of producing liquid beverages such as soybean milk. It will be appreciated by those skilled in the art that the present invention includes, but is not limited to, those illustrated in the accompanying drawings and described in the foregoing detailed description. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (9)

1. An automatic cleaning method of a food processor comprises a machine body and a crushing assembly arranged on the machine body, wherein the crushing assembly comprises a crushing cup body, a crushing cup cover, a crushing motor and a crushing blade, the crushing cup cover and the crushing cup body are matched to form a crushing cavity, an output shaft of the crushing motor extends into the crushing cavity, and the crushing blade is positioned in the crushing cavity and connected to an output shaft of the crushing motor, the automatic cleaning method is characterized in that the crushing cavity is automatically cleaned after pulping of the food processor is completed, the automatic cleaning process at least comprises a diffusion cleaning stage and a current collection cleaning stage, the water consumption in the diffusion cleaning stage is V0, the water consumption in the current collection cleaning stage is V1, V1 is more than or equal to V0, the crushing blade comprises a plurality of blades, the plurality of blades of the crushing blade are arranged on a non-same plane, and the blade tip height from the bottom of the crushing cup body is h1, the height of the wing tip of the wing blade at the minimum distance from the bottom of the grinding cup body is h2, the height of the water level in the grinding cup body is h01 in the diffusion cleaning stage, and h1 is more than or equal to h01 and more than h 2.

2. The method of claim 1, wherein h01 is 0.3 or more (h1-h2) + h 2.

3. The automatic cleaning method of a food processor as claimed in claim 1, wherein in the converging flow cleaning stage, the height of the water level in the grinding cup is h02, and h02 is h 1.

4. The method of claim 3, wherein h02 is 2h1 or more.

5. The automatic washing method of a food processor as claimed in claim 1, wherein the diffusion washing stage includes a process of injecting washing water into the grinding cup a plurality of times, and the washing water in the grinding cup is discharged after each injection of the washing water.

6. The automatic washing method of a food processor as claimed in claim 5, wherein the diffusion washing step includes a step of heating the washing water injected into the pulverizing cup during the injection of the washing water.

7. The automatic cleaning method of a food processor as claimed in claim 6, wherein the diffusion cleaning stage includes a steaming process of steaming the residue remaining in the pulverization chamber, the steaming process including heating the injected cleaning water to boiling to generate steam.

8. The method of claim 5, wherein the food processor includes a steam generating device, and wherein the diffusion cleaning stage includes a steaming step of introducing steam generated by the steam generating device into the grinding chamber, the steaming step being performed after the first water-jet cleaning step.

9. The automatic cleaning method of a food processor as claimed in claim 1, wherein in the diffusion cleaning phase, the rotational speed of the grinding motor is increased to N1 within a time t1, wherein t1 is less than or equal to 5 seconds and N1 is more than or equal to 3000 revolutions.

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