CN106679330B

CN106679330B - Sterilization control device and control method for refrigerator

Info

Publication number: CN106679330B
Application number: CN201710128320.9A
Authority: CN
Inventors: 胡海梅; 刘同宝; 江峰
Original assignee: Changhong Meiling Co Ltd
Current assignee: Changhong Meiling Co Ltd
Priority date: 2017-03-06
Filing date: 2017-03-06
Publication date: 2023-05-23
Anticipated expiration: 2037-03-06
Also published as: CN106679330A

Abstract

The invention discloses a sterilization control device and a control method for a refrigerator, and relates to the technical field of refrigeration equipment, wherein an equipment end comprises a control module, a timing module, a bacteria amount calculation module and a sterilization module, wherein the timing module, the bacteria amount calculation module and the sterilization module are respectively connected with the control module; the invention adopts the mode of combining the ozone and anion generator with the deep ultraviolet sterilization device to sterilize, realizes targeted and rapid sterilization, the bacterial amount is calculated by the bacterial amount calculation module and is output by the output module, and a user can intuitively know the microbial contamination condition in the refrigerator at a remote end, thereby greatly reducing the possibility of eating food under the condition of serious microbial contamination by the user and ensuring the physical health of the user.

Description

Sterilization control device and control method for refrigerator

Technical Field

The invention relates to the technical field of refrigeration equipment, in particular to a sterilization control device and a sterilization control method for a refrigerator.

Background

A refrigerator is a refrigerating apparatus that maintains a constant low temperature, and is a household appliance for preserving foods or other objects at a low temperature, which is common in life. The safety range of the bacterial amount in the inner cavity of the refrigerator is 0 to 10 per square centimeter, but the average bacterial amount of the current household refrigerator is 7850 per cubic centimeter and exceeds about 750 times of the safety range of the bacterial amount by sampling and detecting a plurality of household refrigerators with temperatures below the freezing point.

The traditional refrigerator has no functions of sterilizing and displaying microbial contamination, a large amount of bacteria exist in the inner cavity of the refrigerator, such as escherichia coli, salmonella, shigella, listeria, yersinia and mould, wherein the salmonella, shigella, listeria and yersinia are serious in harm, and can cause diseases such as fever, septicemia, meningitis, acute gastroenteritis, enterocolitis and the like, so that the refrigerator has a great threat to human health.

Through patent search, there are the following known technical solutions:

patent 1:

application number: cn20120120110488. X, filing date: 2015.07.14, authorized bulletin day: 2015.10.21 the invention discloses a steam sterilization refrigerator and a control method of the steam sterilization refrigerator. The steam sterilization refrigerator includes: the refrigerator comprises a box body, a refrigerating compartment and a compressor bin, wherein the box body is internally provided with the refrigerating compartment and the compressor bin; a door body mounted on the cabinet to selectively open and close the refrigerating compartment; the steam generator is arranged on at least one of the box body and the door body, and a steam outlet of the steam generator is communicated with the refrigeration compartment; the temperature detector is arranged in the refrigerating compartment and is used for detecting the temperature in the refrigerating compartment; and a controller connected to the temperature detector and the steam generator to control the steam generator to be operated and stopped according to a temperature detection value of the temperature detector. The steam sterilization refrigerator provided by the embodiment of the invention has the advantages of good sterilization effect and the like.

Patent 2:

application number: CN201310318948.7, filing date: 2013.07.27, authorized bulletin day: 2013.12.11 the invention provides a refrigerator with intelligent sterilization control, which comprises a sterilization device arranged in the refrigerator, a control system for controlling the working state of the sterilization device, and a refrigeration door switch sensor for sensing the switch state of a refrigeration door, wherein the refrigeration door switch sensor feeds back the information of the switch state of the refrigeration door to the refrigerator control system, and the control system performs intelligent control on the sterilization device according to the received information. The invention judges the using habit of the refrigerator of the user through the opening and closing times of the refrigerating door, controls the refrigerator sterilization module through the refrigerator control system, improves the intelligent level and the humanization level of the refrigerator sterilization system, and provides a better environment for storing the food of the refrigerator.

Patent 3:

application number: CN201310272681.2, filing date: 2013.07.01, authorized bulletin day: 2013.10.23 the invention relates to the technical field of refrigeration equipment, in particular to a fresh-keeping sterilizing device for a refrigerator and a control method. The fresh-keeping sterilizing device for the refrigerator comprises an electric control plate, a direct-current high-voltage power supply and an ion generator which are sequentially connected, wherein the ion generator comprises a positive ion discharge electrode and a negative ion discharge electrode; when the input voltage of the ion generator is constant, the output direct-current high voltage of the ion generator is adjustable, and the high voltages required by fresh-keeping and sterilization are respectively obtained. The invention realizes the switching of the output voltage of the ion generator by adjusting the design circuit of the direct-current high-voltage power supply in the ion generator, solves the problem that the ion generator for the traditional refrigerator only can output fixed direct-current high voltage when the input voltage is constant and only can singly realize the fresh-keeping function and the sterilizing function.

Through the above search, the above technical scheme does not affect the novelty of the invention; and the combination of the above patent documents with each other does not destroy the inventive aspects of the present invention.

Disclosure of Invention

(one) solving the technical problems

The invention aims to solve the technical problems of providing a sterilization control device and a control method for a refrigerator, which are used for solving the problems that the traditional refrigerator has too high bacteria content in an inner cavity, does not have the functions of sterilization and microorganism pollution display and greatly threatens the health of a human body.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: a sterilization control device for a refrigerator comprises a remote end for inputting and outputting data and a device end for controlling and realizing a sterilization function; the equipment end comprises a control module, a timing module, a bacteria amount calculating module and a sterilization module, wherein the timing module, the bacteria amount calculating module and the sterilization module are respectively connected with the control module, the control module controls the start and stop of the sterilization module, the timing module records the working time of the sterilization module and transmits data to the bacteria amount calculating module through the control module, and the bacteria amount calculating module calculates the bacteria amount according to the time data and transmits the bacteria amount data to the control module;

the remote end comprises an MCU, an input module and an output module, wherein the input module and the output module are respectively connected with the MCU, the control module transmits bacterial amount data to the output module through the MCU through the wireless transmission module, and when the bacterial amount exceeds a set value, the input module starts the sterilization module through the control module.

Further, the sterilization module comprises a deep ultraviolet sterilization device and an ozone and anion generator, and the deep ultraviolet sterilization device and the ozone and anion generator are arranged in the inner cavity of the refrigerator.

A control method of a sterilization control device for a refrigerator, comprising the steps of:

1) After the system is electrified or the input module inputs starting information, the equipment end is started, and the control device controls the deep ultraviolet sterilization device and the ozone and anion generator to work;

2) The control device controls the deep ultraviolet sterilization device to only perform one working period within twenty-four hours, the timing module records the working time of the deep ultraviolet sterilization device, and the deep ultraviolet sterilization device is closed after the working time reaches one period;

3) The control device controls the ozone and the negative ion generator to start to perform a working period every four hours, and the timing module records the working time of the ozone and the negative ion generator at most in every twenty-four hours, and the ozone and the negative ion generator are closed after the working time reaches six periods;

4) The bacteria amount calculating module calculates the bacteria amount as follows, and is output by the output module:

a) The bacterial amount is not output within the starting hour of the equipment end;

b) After the equipment end is started for hours, the deep ultraviolet sterilization device and the ozone and anion generator all complete a working period, and when the deep ultraviolet sterilization device and the ozone and anion generator stop working for less than full hours, the bacterial amount calculation module calculates bacterial amount, namely, when the ozone and anion generator are added for one working period, the calculated bacterial amount is increased by 10%, and the bacterial calculated amount is output by the output module;

c) When the deep ultraviolet sterilization device and the ozone and anion generator stop working for hours, the bacterial amount calculated by the bacterial amount calculation module is 90%, and the bacterial amount is output by the output module.

Further, within the hour after the equipment end is started, the deep ultraviolet sterilization device completes one working period, and the ozone and anion generator completes at least one working period.

Furthermore, the user can start the deep ultraviolet sterilization device through the input module, or set the deep ultraviolet sterilization device to start the periodic working mode through the input module.

Further, when the deep ultraviolet sterilization device or the ozone and anion generator starts to work for one period but is not completed, the period is not calculated yet.

(III) beneficial effects

The invention provides a sterilization control device and a control method for a refrigerator, which have the following beneficial effects:

1. the sterilization is carried out by adopting a mode of combining an ozone and negative ion generator and a deep ultraviolet sterilization device, wherein the ozone and negative ions released by the ozone and negative ion generator enter air to kill bacteria, and the deep ultraviolet light irradiates the surface of an object to sterilize, so that the targeted rapid sterilization is realized;

2. the bacterial amount is calculated by the bacterial amount calculation module and is output by the output module, so that a user can intuitively know the microbial pollution condition in the refrigerator at a remote end, the possibility of eating food by the user under the condition of serious microbial pollution is greatly reduced, and the physical health of the user is ensured;

3. the control method of the sterilization control device can kill bacteria in the adjustment period and the logarithmic phase, effectively control the propagation of bacteria, and has high sterilization efficiency and good effect.

4. The user can operate at the remote end, controls the refrigerator to perform sterilization, realizes man-machine interaction, and is convenient and quick to use.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described in the following in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, the structural relationship is as follows: the device comprises a remote end for inputting and outputting data and a device end for controlling and realizing a sterilization function; the equipment end comprises a control module, a timing module, a bacterial amount calculating module and a sterilizing module, wherein the timing module, the bacterial amount calculating module and the sterilizing module are respectively connected with the control module, the control module controls the starting and stopping of the sterilizing module, the timing module records the working time of the sterilizing module and transmits data to the bacterial amount calculating module through the control module, and the bacterial amount calculating module calculates bacterial amount according to the time data and transmits the bacterial amount data to the control module;

Preferably, the sterilization module comprises a deep ultraviolet sterilization device and an ozone and anion generator, and the deep ultraviolet sterilization device and the ozone and anion generator are arranged in the inner cavity of the refrigerator.

The specific use comprises the following steps:

a) The equipment end is started for 4 hours, and the bacterial amount is not output;

b) After the equipment end is started for 4 hours, the deep ultraviolet sterilization device and the ozone and anion generator all complete a working period, and the deep ultraviolet sterilization device and the ozone and anion generator stop working for less than 24 hours, the bacterial amount calculated by the bacterial amount calculation module is 60%, and each time the ozone and anion generator is added with one working period, the calculated bacterial amount is increased by 10%, and the bacterial calculated amount is output by the output module;

c) When the deep ultraviolet sterilization device and the ozone and anion generator stop working for 24 hours, the bacterial amount calculated by the bacterial amount calculation module is 90%, and the bacterial amount is output by the output module.

Preferably, the deep ultraviolet sterilization device completes one working period within 4 hours after the equipment end is started, and the ozone and negative ion generator completes at least one working period.

Preferably, the user can start the deep ultraviolet sterilization device through the input module, or set the deep ultraviolet sterilization device to start the periodic working mode through the input module.

Preferably, the deep ultraviolet sterilization device or the ozone and anion generator starts one period of work but does not finish, and the period is not calculated yet.

When the deep ultraviolet sterilization device completes a working period within 24 hours:

a) The ozone and anion generator completes 0 working cycles, and the output bacterial amount is 70%;

b) The ozone and anion generator completes 1 working cycle, and the output bacterial amount is 60%;

c) The ozone and anion generator completes 2 working cycles, and the output bacterial amount is 50%;

d) The ozone and anion generator completes 3 working cycles, and the output bacterial amount is 40%;

e) The ozone and anion generator completes 4 working cycles, and the output bacterial amount is 30%;

f) The ozone and anion generator completes 5 working cycles, and the output bacterial amount is 20%;

g) The ozone and anion generator completes 6 working cycles, and the output bacterial amount is 10%.

When the deep ultraviolet sterilization device stops working for 24 hours:

a) The ozone and anion generator stops working for 24 hours, and the output bacterial amount is 90%;

b) The ozone and negative ion generator completes 1 working period during the stop of the deep ultraviolet sterilization device, and the output bacterial amount is 80%;

c) The ozone and negative ion generator completes 2 working cycles during the stop of the deep ultraviolet sterilization device, and the output bacterial amount is 70%;

d) The ozone and negative ion generator completes 3 working cycles during the stop of the deep ultraviolet sterilization device, and the output bacterial amount is 60%;

e) The ozone and negative ion generator completes 4 working cycles during the stop of the deep ultraviolet sterilization device, and the output bacterial amount is 50%;

f) The ozone and negative ion generator completes 5 working cycles during the stop of the deep ultraviolet sterilization device, and the output bacterial amount is 40%;

g) And the ozone and negative ion generator completes 6 working cycles and the output bacterial amount is 30% during the stop of the deep ultraviolet sterilization device.

After the system is electrified, a user can start the deep ultraviolet sterilization device to work through the remote end, and at the moment, the deep ultraviolet sterilization device completes a working period; the user can also control the deep ultraviolet sterilization device to enter a periodic working mode (for example, the deep ultraviolet sterilization device is started at 9:00 a day to complete a working period) through the remote end, so that the deep ultraviolet sterilization device can automatically complete a plurality of working periods according to the setting.

The bacteria grow and reproduce for 4 periods, which are respectively a regulation period, a logarithmic period, a stationary period and a decay period. Wherein the adjustment period is generally 1-4 hours, and the bacterial volume is increased, metabolism is active, and the preparation method is used for dividing, proliferating and synthesizing bacteria and storing sufficient enzymes, energy and intermediate metabolites; the logarithmic phase is also called an exponential phase, the number of viable bacteria on the growth curve in the phase rises linearly, and the bacteria grow rapidly in a stable geometric progression and can last for several hours to several days; in the stationary phase, the total number of bacterial colonies is in a flat phase, but the activity change of the bacterial colony is larger, the bacterial reproduction speed gradually decreases, the relative death number begins to gradually increase, and the bacterial reproduction number and the death number gradually balance in the stationary phase; during the decay period, bacteria propagate slowly with the development of the stable period, and the number of dead bacteria is obviously increased. The control method of the sterilization control device can kill bacteria in the adjustment period and the logarithmic phase, effectively control the propagation of bacteria, and has high sterilization efficiency and good effect.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A control method of a sterilization control device for a refrigerator, the control device comprising a remote end for inputting and outputting data and a device end for controlling and implementing a sterilization function;

the equipment end comprises a control module, a timing module, a bacteria amount calculating module and a sterilization module, wherein the timing module, the bacteria amount calculating module and the sterilization module are respectively connected with the control module, the control module controls the start and stop of the sterilization module, the timing module records the working time of the sterilization module and transmits data to the bacteria amount calculating module through the control module, and the bacteria amount calculating module calculates the bacteria amount according to the time data and transmits the bacteria amount data to the control module;

the remote end comprises an MCU, an input module and an output module, wherein the input module and the output module are respectively connected with the MCU, the control module transmits bacterial amount data to the output module through the MCU through a wireless transmission module, and when the bacterial amount exceeds a set value, the input module starts a sterilization module through the control module;

the sterilization module comprises a deep ultraviolet sterilization device and an ozone and anion generator, and the deep ultraviolet sterilization device and the ozone and anion generator are arranged in the inner cavity of the refrigerator;

the control method is characterized by comprising the following steps:

2. The control method of a sterilization control device for a refrigerator according to claim 1, wherein: within 4 hours after the equipment end is started, the deep ultraviolet sterilization device completes one working period, and the ozone and anion generator completes at least one working period.

3. The control method of a sterilization control device for a refrigerator according to claim 1, wherein: the user can start the deep ultraviolet sterilization device through the input module, or set the deep ultraviolet sterilization device to start the periodic working mode through the input module.

4. The control method of a sterilization control device for a refrigerator according to claim 1, wherein: when the deep ultraviolet sterilization device or the ozone and anion generator starts to work for one period but is not finished, the period is not calculated yet.