CN112138193A - Intelligent disinfection and drying method - Google Patents

Abstract

The invention discloses an intelligent disinfection and drying method, which comprises the following steps of detecting the door opening and closing action, and carrying out intelligent temperature and humidity detection after the door body is closed; detecting a real-time humidity value in the disinfection cavity, and obtaining a change value of the humidity in unit time through comparison; comparing the obtained humidity change value with a set data model, and starting a corresponding disinfection mode or drying mode; detecting a real-time temperature value in the disinfection cavity, and obtaining a temperature change value in unit time through comparison; comparing the obtained temperature change value with a set data model, and judging the load capacity; detecting a real-time humidity value in a disinfection mode or a drying mode, and stopping operation when the real-time humidity value is smaller than a condition value; or after the operation is carried out in the disinfection mode or the drying mode for the set time, the operation is stopped, so that different disinfection modes, time, temperature and the like can be more effectively selected in different scenes, half load, full load and the like, and the intelligent and energy-saving use requirements are better met.

Description

Intelligent disinfection and drying method

Technical Field

The invention relates to the technical field of disinfection methods, in particular to an intelligent disinfection and drying method.

Background

The sterilizing device generally heats and sterilizes the articles in the sterilizing cavity by the operation of the heating part and the sterilizing part.

However, the disinfection devices in the prior art only have a disinfection mode, and circularly disinfect products in the disinfection devices, and the heating parts and/or the disinfection parts all operate according to the specified mode, so that the energy consumption is high, and the waste of resources is caused.

Moreover, the disinfection device in the prior art rarely judges the load capacity; thus, when sterilization is carried out, the sterilization time and the sterilization mode of half load and load are the same, and the waste of resources is caused.

Disclosure of Invention

In view of the above, the present invention provides an intelligent disinfection and drying method.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an intelligence disinfection and stoving method, is applied to degassing unit in, degassing unit has the disinfection chamber, installs heater block, disinfection part, temperature sensor and humidity transducer in the disinfection chamber, includes following steps:

detecting the door opening and closing action, and carrying out intelligent temperature and humidity detection after the door body is closed;

detecting a real-time humidity value in the disinfection cavity, and obtaining a change value of the humidity in unit time through comparison;

comparing the obtained humidity change value with a set data model, and starting a corresponding disinfection mode or drying mode;

detecting a real-time temperature value in the disinfection cavity, and obtaining a temperature change value in unit time through comparison;

comparing the obtained temperature change value with a set data model, and judging the load capacity;

detecting a real-time humidity value in a disinfection mode or a drying mode, and stopping operation when the real-time humidity value is smaller than a condition value; or the operation is stopped after the operation is carried out for the set time in the disinfection mode or the drying mode.

In the implementation method, after the door closing action is detected, the time T1 is timed, and after the time T1, the temperature and humidity are intelligently detected.

Further embodied is a method wherein the disinfection mode is entered when the humidity rise value is ≧ a% RH during period T2, or when the real-time humidity value A' ≧ b% RH during period T2.

Further, in the implementation method, in the period T2, when the humidity rise value is less than a% RH and when the real-time humidity value A' is more than or equal to c% RH, the drying mode is entered.

Further, in the implementation method, in the disinfection mode, the disinfection part and the heating part operate; in the drying mode, the heating element is operated.

In the implementation method, when the load is judged, the real-time temperature value in the disinfection cavity is detected, and the change value of the temperature in unit time is obtained through comparison;

setting a condition temperature value C1 in the disinfection device;

when the real-time temperature C is equal to a condition temperature value C1, detecting a temperature change value delta C in unit time;

and comparing the temperature change value delta C with the data model, and judging the load capacity.

In the implementation method, when the heating component runs, the heating component runs in an on-off intermittent working mode in a circulating mode or a normally open working mode or a normally closed working mode alternately under different temperature environments in the disinfection cavity.

Further, the implementation method further comprises the following steps: a warm dish mode.

Further, the implementation method further comprises the following steps: the switching of the sterilization mode or the drying mode or the dish warming mode is selected and executed through a manual input signal.

Further, in the implementation method, after the disinfection mode is finished, the door lock is in a door lock protection state, the door lock is closed in the door lock protection state, and the door lock is set to be automatically opened.

According to the technical scheme, compared with the prior art, the invention has the following beneficial technical effects: according to the intelligent control system, intelligent control of the disinfection device can be realized, and a corresponding disinfection mode or drying mode can be executed through system detection and judgment; and under disinfection mode and stoving mode, judge the load of disinfecting intracavity, can realize intelligent, energy-conserving disinfection control.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a flow chart of a control method of the present invention;

FIG. 2 is a flow chart of the sterilization mode and the drying mode operation of the present invention;

FIG. 3 is a flow chart of the execution of the sterilization mode of the present invention;

fig. 4 is a flowchart of the drying mode execution in the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings for illustrating the basic structure of the present invention in a schematic manner, and thus show only the structure related to the present invention.

In the description of the present application, it is to be understood that the terms "longitudinal," "radial," "length," "width," "thickness," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the present application. In the description of the present application, "plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The utility model provides an intelligence disinfection and stoving method, is applied to among the degassing unit, and degassing unit has the disinfection chamber, installs heater block, disinfection part, temperature sensor and humidity transducer in the disinfection chamber, through intelligent detection for heater block and disinfection part are with the mode operation of difference, realize degassing unit's different kinetic energy modes.

Referring to the schematic illustrations of figures 1-4,

s01: after the door of the disinfection device is detected to be closed, the temperature and humidity in the disinfection cavity are intelligently detected;

s02: detecting a real-time humidity value in the disinfection cavity, and obtaining a change value of the humidity in unit time through comparison;

s03: comparing the obtained humidity change value with a set data model, and starting a corresponding disinfection mode or drying mode;

specifically, the humidity value is detected and transmitted by the humidity sensor at regular time to obtain a real-time temperature value and a real-time humidity value, the humidity values in the unit are compared to obtain a change value of the humidity in the unit time, then the change value is compared with a data model prestored in the disinfection device, and different modes are judged and executed according to the change values of different humidities.

And the modes herein are classified into a sterilization mode and a drying mode.

More specifically, the disinfection mode is entered when the humidity rise value is greater than or equal to 5% RH within 13min, or when the real-time humidity value A' is greater than or equal to 70% RH within 13min of the cycle.

And in the period T2, when the humidity rising value is less than 5% RH and the real-time humidity value A' is more than or equal to 50% RH, entering a drying mode.

According to the above-mentioned judgement criteria to enter into the corresponding mode.

S04: detecting a real-time temperature value in the disinfection cavity, and obtaining a temperature change value in unit time through comparison;

s05: comparing the obtained temperature change value with a set data model, and judging the load capacity;

specifically, the temperature values are detected and transmitted by the temperature sensor at regular time, so that real-time temperature values are obtained, the temperature values in the unit are compared, the change value of the temperature in the unit time is obtained, then the comparison is carried out with a data model prestored in the disinfection device, and different modes are judged and executed according to the change values of different temperatures.

More specifically, the change value of the temperature in unit time is obtained through comparison; setting a condition temperature value C1 in the disinfection device; when the real-time temperature C is equal to a condition temperature value C1, detecting a temperature change value delta C in unit time; when the load is judged, detecting the real-time temperature value in the disinfection cavity, and obtaining the change value delta C of the temperature in unit time through comparison; and comparing the temperature change value delta C with the data model, and judging the load capacity.

Further, it can be judged as empty, 30% loaded, half loaded, 80% loaded, full, and so on.

The description is made here with reference to the values of the specific embodiments:

a conditional temperature value C1 of 45 ℃; the unit time is 130S.

When the temperature of the probe of the temperature sensor reaches 45 ℃, the detection is started,

when the temperature change value delta C in 130s is less than or equal to 3 ℃, judging that the load is 30 percent;

when the temperature change value is more than or equal to 3 ℃ and less than or equal to 5 ℃ within 130s, judging the half load (50%);

when the temperature change value is more than or equal to 5 ℃ and less than or equal to 7 ℃ within 130s, judging that the load capacity is 80 percent;

judging full load when the temperature change value deltaC in 130s is more than 7 ℃;

the above-mentioned parameter C1 and the temperature contrast value in the data model can be set according to actual conditions.

S06: detecting a real-time humidity value in a disinfection mode or a drying mode, and stopping operation when the real-time humidity value is smaller than a condition value (10% RH); or the operation is stopped after the operation is carried out for the set time in the disinfection mode or the drying mode.

S07: and repeating S02 and circulating operation.

Further, in the implementation method, a timing mode may be set, after the door closing motion is detected, T1 time is timed, and after T1 time, the temperature and humidity are intelligently detected, and T1 may be 10 min.

Here, the above-mentioned numerical values, such as T1 and C1, can be set according to actual needs.

Further, in the implementation method, the disinfection mode or the drying mode is entered according to the judged rule.

In the sterilization mode, the load amount is determined in the same manner as the load amount determination in step S05 described above.

In the case of half load: the temperature reaches 51 ℃, and the heating part is turned on for 45s after being turned off for 45 s; the heating part is closed when the temperature reaches 55 ℃ or above 55 ℃; when the temperature is reduced to 51 ℃, the heating part is switched on for 45s and switched off for 45s, and when the temperature is reduced to 48 ℃ and below 48 ℃, the heating part is switched on all the time. When the temperature rises to 51 ℃, the heating element switch 45s is turned on for 45s to circulate until the timing is finished.

In the case of full load: when the temperature reaches 70 ℃, the heating part is turned on for 50s and 40s for circulation, and the heating part is turned off when reaching 73 ℃ and above 73 ℃; when the temperature is reduced to 70 ℃, the heating part is switched on for 40s and switched off for 50s, and when the temperature is reduced to 65 ℃ and below 65 ℃, the heating part is switched on all the time; when the temperature rises to 70 ℃, the heating part is switched on for 50s and switched on for 40s, and the cycle is repeated until the timing is ended, wherein the heating part runs for 50 min.

In summary, in the sterilization mode, the sterilization means are operated for 70min, then the heating means are operated for 50min, and the sterilization mode totals the operation time of 120 min.

In the drying mode, the load amount is determined in the same manner as the load amount determination in the step S05

And half-loaded case: the temperature reaches 51 ℃, and the heating part is turned on for 45s after being turned off for 45 s; the heating part is closed when the temperature reaches 55 ℃ or above 55 ℃; when the temperature is reduced to 51 ℃, the heating part is switched on for 45s and switched off for 45s, and when the temperature is reduced to 48 ℃ and below 48 ℃, the heating part is switched on all the time. When the temperature is raised to 51 ℃, the heating part switch 45s is turned on for 45s to circulate, and the running time of the whole drying mode is 60 min.

In the case of full load: when the temperature reaches 70 ℃, the heating part is turned on for 50s and 40s for circulation, and the heating part is turned off when reaching 73 ℃ and above 73 ℃; when the temperature is reduced to 70 ℃, the heating part is switched on for 40s and switched off for 50s, and when the temperature is reduced to 65 ℃ and below 65 ℃, the heating part is switched on all the time; when the temperature rises to 70 ℃, the heating part is turned on for 50s and 40s, and the running time of the whole drying mode is 60 min.

In summary, in the drying mode, the heating part operates for 60min, and the operation time is 60 min.

In a further technical mode, a door lock protection state can be added after the disinfection mode is finished, the door lock is closed in the door lock protection state, and the door lock is automatically opened after 10 min. The door lock protection state is to open the disinfection cavity just after the disinfection mode is finished, so as to play a protection role.

In a further technical aspect, the method further includes: a dish warming mode; the heating part continuously works at a temperature lower than that of the disinfection mode and the drying mode until the set time is up, and the dish warming mode is mainly used for preheating articles in the disinfection cavity to a certain degree in winter.

The invention discloses an intelligent disinfection and drying method, which is mainly used for disinfection cabinets.

The sterilizer is provided with a manual input key '1' and an intelligent mode trigger key 'AI'.

The disinfection cabinet can be switched among a disinfection mode, a drying mode and a dish warming mode through a manual input key 1, and the switching is as follows:

touching the key 1 for 1 time, and enabling the disinfection cabinet to enter a 120min disinfection mode;

touching 1' for 2 times, and enabling the disinfection cabinet to enter a 60min drying mode;

if the '1' key is touched again in the sterilization mode or the drying mode, the standby state is exited.

The warm dish mode can be executed according to memory behavior or manual setting; the manual setting is mainly described, if a user generally takes out and puts in the disinfection cabinet when cooking or washing and delivering, the time of 12-1 pm and 18-17 pm every day can be set, and dish warming work is executed regularly; the execution of warm dish mode is mainly for ambient temperature is low when winter, and the bowl dish in the sterilizer is comparatively cold, and the user contacts stronger cold sense occasionally in the bowl dish when taking out, if regularly open warm dish mode, warms up the bowl dish in advance, uses to experience and feels better.

And under the dish warming mode, the '1' key is touched to cancel the dish warming function;

when the 1 key is touched again for 1 time, the disinfection cabinet enters a 120min disinfection mode;

touching 1' for 2 times, the disinfection cabinet enters a 60min drying mode.

Through foretell mode, can control the sterilizer and carry out disinfection mode, stoving mode and warm dish mode to when disinfection mode and stoving mode, can also judge the load of sterilizer, carry out different disinfection rules, make the use of sterilizer more intelligent, more energy-conserving.

Finally, the control method can also be additionally provided with: detecting the door opening times within T3 time, if the door opening times within T3 time is 0, the disinfection device can enter an intelligent cleaning mode, detecting real-time humidity A ' in the intelligent cleaning mode, when the real-time humidity A ' is more than or equal to 50% RH, operating the heating component, and when the real-time humidity A ' is less than 10% RH, stopping operating the heating component; or the operation of the heating assembly is stopped after the execution time is 50min, and the process is circulated; and finally, when the door of the sterilizing device is opened, the intelligent cleaning mode is cancelled, and the step S01 is repeated.

By adopting the scheme, different scenes, full load, half load and the like can be more effectively provided, different disinfection modes, time, temperature and the like can be selected, and actual and intelligent use requirements can be better met.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides an intelligence disinfection and stoving method, is applied to degassing unit in, degassing unit has the disinfection chamber, installs heater block, disinfection part, temperature sensor and humidity transducer in the disinfection chamber, its characterized in that: the method comprises the following steps:

detecting the door opening and closing action, and carrying out intelligent temperature and humidity detection after the door body is closed;

detecting a real-time humidity value in the disinfection cavity, and obtaining a change value of the humidity in unit time through comparison; comparing the obtained humidity change value with a set data model, and starting a corresponding disinfection mode or drying mode;

detecting a real-time temperature value in the disinfection cavity, and obtaining a temperature change value in unit time through comparison; comparing the obtained temperature change value with a set data model, and judging the load capacity;

detecting a real-time humidity value in a disinfection mode or a drying mode, and stopping operation when the real-time humidity value is smaller than a condition value; or

And stopping operation after the operation in the disinfection mode or the drying mode reaches the set time.

2. The intelligent disinfection and drying method of claim 1, wherein: and after the door closing action is detected, timing T1 time, and carrying out intelligent temperature and humidity detection after T1 time.

3. The intelligent disinfection and drying method of claim 1, wherein:

the sterilization mode is entered when the humidity rise value is ≧ a% RH during period T2, or when the real-time humidity value A' is ≧ b% RH during period T2.

4. The intelligent disinfection and drying method of claim 3, wherein:

and in a period T2, when the humidity rising value is less than a% RH and the real-time humidity value A' is more than or equal to c% RH, entering a drying mode.

5. The intelligent disinfection and drying method of claim 3, wherein: in the disinfection mode, the disinfection component and the heating component operate; and in the drying mode, the heating component operates.

6. The intelligent disinfection and drying method of claim 1, wherein:

when the load is judged, detecting the real-time temperature value in the disinfection cavity, and obtaining the change value of the temperature in unit time through comparison;

setting a condition temperature value C1 in the disinfection device;

when the real-time temperature C is equal to a condition temperature value C1, detecting a temperature change value delta C in unit time;

and comparing the temperature change value delta C with the data model, and judging the load capacity.

7. The intelligent disinfection and drying method of claim 6, wherein: when the heating component operates, the heating component operates in a circulating mode of on-off intermittent operation, or alternatively operates in a normally open operating mode or a normally closed operating mode under different temperature environments in the disinfection cavity.

8. The intelligent disinfection and drying method of claim 7, wherein: further comprising: a warm dish mode.

9. The intelligent disinfection and drying method of claim 8, wherein: further comprising: the switching of the sterilization mode or the drying mode or the dish warming mode is selected and executed through a manual input signal.

10. The intelligent disinfection and drying method of claim 1 or 9, wherein: and entering a door lock protection state after the disinfection mode is finished, closing the door lock under the door lock protection state, and setting the automatic opening of the door lock.

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