CN115218591B - Odor removal and sterilization control method of refrigerator, odor removal and sterilization module of refrigerator and refrigerator - Google Patents

Abstract

The invention provides a method for controlling odor removal and sterilization of a refrigerator, which is executed by a control panel and comprises the steps of determining an executable mode of an odor removal and sterilization module matched with a user instruction according to the user instruction; when the first sterilization mode is determined, controlling the ionizer and the blower in the odor removal sterilization module to work simultaneously; and when the second sterilization mode is determined, controlling the ionizer and the fan in the odor removal sterilization module to periodically work. According to the odor removal and sterilization control method of the refrigerator, the executable module and the instruction for generating whether to supply power are determined according to the user instruction, and the sterilization mode and the light source assembly are controlled only by the power supply instruction; the odor-removing and sterilizing control method of the refrigerator provided by the invention takes the electric signal as a control signal, and can realize power supply control and mode control through a power supply instruction. The invention also relates to a deodorizing and sterilizing module of the refrigerator and the refrigerator.

Description

Odor removal and sterilization control method of refrigerator, odor removal and sterilization module of refrigerator and refrigerator

Technical Field

The invention relates to the technical field of household appliances, in particular to a deodorizing and sterilizing control method of a refrigerator, a deodorizing and sterilizing module of the refrigerator and the refrigerator.

Background

It is known that some germs and bacteria exist in the refrigerator, and the bacteria can generate peculiar smell gases such as methane, hydrogen sulfide, methyl mercaptan, methyl amine and the like in the growth and metabolism processes of the germs and bacteria, so that the gases emitted by the refrigerator are stronger when the time is longer, and the various gases are mixed together to generate more unpleasant peculiar smell of the refrigerator. The peculiar smell, bacteria and germs can cause harm to human bodies, so as to further improve the health concept along with the increasing living standard of people, and the requirements of people on the air quality in the refrigerator are higher.

More and more sterilization modules, such as ultraviolet sterilization and silver ion sterilization, are appeared in the market, and the corresponding control method is mostly realized by adopting complex signal control, for example, the starting time or the starting intensity of a sterilization lamp is adjusted according to the bacteria condition in the prior art. However, regardless of the sterilization mode, more complex logic is required to achieve intelligent sterilization control.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a deodorizing and sterilizing control method of a refrigerator, a deodorizing and sterilizing module of the refrigerator and the refrigerator.

The technical scheme of the invention is summarized as follows:

The invention provides a method for controlling odor removal and sterilization of a refrigerator, which is executed by a control panel and comprises the following steps:

determining an executable mode of the odor removal sterilization module matched with the user instruction according to the user instruction; the executable mode at least comprises a first sterilization mode and a second sterilization mode;

when the executable mode of the odor removing and sterilizing module matched with the user instruction is determined to be a first sterilizing mode, controlling an ion generator and a fan in the odor removing and sterilizing module to work simultaneously;

and when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a second sterilization mode, controlling an ionizer and a fan in the odor removal sterilization module to periodically work.

Further, according to the user instruction, determining a power supply demand parameter matched with the executable mode;

generating a power supply starting instruction according to the power supply demand parameters so as to supply power to the ionizer and the blower;

and when the working process meets the power supply interruption condition, generating a power supply interruption instruction to stop power supply to the ionizer and the blower.

Further, when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a first sterilization mode, a first power supply demand parameter matched with the first sterilization mode is determined, and a first power supply starting instruction is generated according to the first power supply demand parameter so as to supply power to an ion generator and a fan in the odor removal sterilization module;

When the working process of the first sterilization mode meets the power supply interruption condition of the first sterilization mode, generating a first power supply interruption instruction to stop power supply to the ionizer and the fan in the odor removal sterilization module; meanwhile, generating a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ 。

Further, when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a second sterilization mode, determining a second power supply requirement parameter matched with the second sterilization mode;

generating a second power supply starting instruction according to the second power supply demand parameter so as to supply power to an ion generator and a fan in the odor-removing and sterilizing module;

when the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode, generating a second power supply interruption instruction to stop power supply to the ionizer and the fan in the odor removal sterilization module; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；

After stopping supplying power to the ion generator and the fan, acquiring power supply interruption time;

When the power supply interruption time reaches the third time t ₃ And then, generating a second power supply start instruction again,to turn on the power supply to the ionizer and the blower in the odor-removing and sterilizing module.

Further, the executable mode further includes an illumination mode of the odor elimination sterilization module;

the user instruction also comprises a door opening instruction of a user or an opening instruction of the light source component;

when the executable mode of the odor removal and sterilization module matched with the user instruction is determined to be a lighting mode, determining a third power supply requirement parameter matched with the executable mode;

generating a third power supply starting instruction according to the third power supply demand parameter so as to supply power to the light source component of the odor-removing and sterilizing module;

when the working process of the light source assembly of the odor removal sterilization module meets the power supply interruption condition of the light source assembly, generating a third power supply interruption instruction to stop supplying power to the light source assembly of the odor removal sterilization module; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

Further, the method further comprises the following steps:

the wireless transmitting module transmits electromagnetic energy to the wireless receiving module according to the power supply demand parameters in the power supply starting instruction;

And the wireless transmitting module stops transmitting electromagnetic energy to the wireless receiving module according to the power supply interruption instruction.

Correspondingly, the invention also provides a deodorizing and sterilizing control method of the refrigerator, which is executed by the deodorizing and sterilizing module and comprises the following steps:

in the first sterilization mode, the ionizer and the blower in the odor removal sterilization module work simultaneously;

and under the instruction of the executable mode being the second sterilization mode, the ionizer and the fan in the odor removal sterilization module work periodically.

Further, the method comprises the steps of:

responding to a power supply starting instruction, and receiving power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply starting instruction is generated according to the power supply demand parameters; determining the power supply demand parameters according to user instructions;

responding to a power supply interruption instruction, and interrupting power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply interruption instruction is generated when the working process meets the power supply interruption condition.

Further, under the condition that the executable mode is a first sterilization mode instruction, responding to a first power supply starting instruction, and enabling an ionizer and a fan in the odor removal sterilization module to receive power supply; so that the ion generator and the fan work simultaneously; the first power supply starting instruction is generated according to a first power supply demand parameter, and the first power supply demand parameter is matched with a first sterilization mode;

Responding to a first power supply interruption instruction, and interrupting power supply by an ionizer and a fan in the odor removing and sterilizing module; simultaneously, responding to a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; the first power supply interruption instruction and the user instruction comprising the second sterilization mode instruction are generated when the working process of the first sterilization mode meets the interruption condition of the first sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ 。

Further, when the executable mode is a second sterilization mode, responding to a second power supply starting instruction, and receiving power supply by an ion generator and a fan in the odor removal sterilization module;

responding to a second power supply interruption instruction, and interrupting power supply by an ion generator and a fan in the odor removing and sterilizing module; the second power supply interruption instruction is generated when the working process of the second sterilization mode meets the interruption condition of the second sterilization mode; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；

When the power supply interruption time reaches the third time t ₃ And when the second power supply starting instruction is responded again, the ionizer and the blower are powered on.

Further, the executable mode further includes an illumination mode of the odor elimination sterilization module;

when the executable mode is in the illumination mode, responding to a third power supply starting instruction, and receiving power supply by a light source assembly in the odor removing and sterilizing module;

responding to a third power supply interruption instruction, and interrupting power supply by a light source assembly in the odor removing and sterilizing module; the third power supply interruption instruction is generated when the working process of the light source assembly meets the power supply interruption condition of the light source assembly; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

Further, the wireless receiving module responds to the power supply starting instruction, receives electromagnetic energy sent by the wireless transmitting module, generates induction current by electromagnetic induction and provides power for the ionizer and the blower;

the wireless receiving module responds to the power supply interruption instruction, and the electromagnetic energy sent by the wireless transmitting module is interrupted and the power supply to the ionizer and the blower fan is interrupted;

the wireless receiving module is positioned on the odor removing and sterilizing module.

Correspondingly, the invention also provides a deodorizing and sterilizing module of the refrigerator, which is used for executing the deodorizing and sterilizing control method of the refrigerator.

Correspondingly, the application also provides a refrigerator, and the odor removal sterilization control method of the refrigerator is adopted or comprises the odor removal sterilization module of the refrigerator.

Compared with the prior art, the application has the beneficial effects that: according to the odor removal and sterilization control method of the refrigerator, the executable module and the instruction for generating whether to supply power are determined according to the user instruction, and the sterilization mode and the light source assembly are controlled only by the power supply instruction; the odor removal and sterilization control method of the refrigerator provided by the application takes the power supply signal as the control signal, and can realize power supply control and mode control through the power supply instruction.

The foregoing description is only an overview of the present application, and is intended to provide a better understanding of the present application, as it is embodied in the following description, with reference to the preferred embodiments of the present application and the accompanying drawings. Specific embodiments of the present application are given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

Fig. 1 is a partial flowchart of a deodorizing and sterilizing control method of a refrigerator according to a first embodiment of the present invention;

fig. 2 is a flowchart of a first sterilization mode in a deodorizing and sterilizing control method of a refrigerator according to a first embodiment of the present invention;

fig. 3 is a flowchart of a second sterilization mode in the odor removal sterilization control method of the refrigerator according to the first embodiment of the present invention;

fig. 4 is a partial flowchart of a deodorizing and sterilizing control method of a refrigerator according to a second embodiment of the present invention;

fig. 5 is a flowchart of a method for controlling odor removal and sterilization of a refrigerator according to a third embodiment of the present invention in a first sterilization mode;

fig. 6 is a flowchart of a second sterilization mode in a deodorizing and sterilizing control method of a refrigerator according to a third embodiment of the present invention;

FIG. 7 is a schematic diagram showing interactions in a refrigerator according to the present invention;

FIG. 8 is a schematic diagram illustrating the installation of a deodorizing and sterilizing module of a refrigerator according to the present invention;

fig. 9 is a disassembled view of the deodorizing and sterilizing module of the refrigerator according to the present invention.

Reference numerals illustrate:

10. an odor removal and sterilization module; 11. a second housing; 12. a first housing; 13. a light source assembly; 15. a deodorizing member; 16. an ion generator; 17. a blower; 20. embedding a box; 42. a wireless transmitting module; 421. a magnetic core; 422. and a transmitting coil.

Detailed Description

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent to those skilled in the art from the following detailed description, which, taken in conjunction with the annexed drawings, discloses a device for practicing the invention. In the drawings, the shape and size may be exaggerated for clarity, and the same reference numerals will be used throughout the drawings to designate the same or similar components. In the following description, terms such as center, thickness, height, length, front, back, rear, left, right, top, bottom, upper, lower, etc. are based on the orientation or positional relationship shown in the drawings. In particular, "height" corresponds to the top-to-bottom dimension, "width" corresponds to the left-to-right dimension, and "depth" corresponds to the front-to-back dimension. These relative terms are for convenience of description and are not generally intended to require a particular orientation. Terms (e.g., "connected" and "attached") referring to an attachment, coupling, etc., refer to a relationship wherein these structures are directly or indirectly secured or attached to one another through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below. It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

The odor removal sterilization control in the prior art is based on a sterilization module with wired power supply, whether the sterilization module is started to work is controlled by a control signal, the control of different modes by the control signal is complex, the sterilization module with wired power supply needs a built-in control board to transmit the control signal, and in addition, the sterilization module with wired power supply needs to align a wiring terminal when being installed, so that the installation precision is high and complex. Although in other technical fields, such as mobile phones, a wireless power supply mode is adopted for power supply, a wireless power supply mode does not exist in a sterilization module of a refrigerator, and when the power supply is stopped by a simple wireless power supply mode, the sterilization module is in a non-electric state, and the existing signal control method cannot be suitable for a wireless power supply odor removal sterilization module. In summary, the invention provides a deodorizing and sterilizing control method for a refrigerator, which is suitable for a deodorizing and sterilizing module with wireless power supply, wherein a power signal can be used as a control signal, and the control of a sterilizing mode is displayed while the power supply function is realized.

Embodiment one:

specifically, referring to fig. 1 to 3, the odor removal sterilization control method of the refrigerator provided by the present invention is performed by a control board, and includes:

when a user instruction is received, determining an executable mode of the odor removal sterilization module matched with the user instruction according to the user instruction; the executable mode at least comprises a first sterilization mode and a second sterilization mode; an illumination pattern may also be included.

And when the executable mode of the odor removing and sterilizing module matched with the user instruction is determined to be a first sterilizing mode, controlling the ionizer and the fan in the odor removing and sterilizing module to work simultaneously.

And when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a second sterilization mode, controlling an ionizer and a fan in the odor removal sterilization module to periodically work.

The invention provides a method for controlling odor removal and sterilization of a refrigerator, which further comprises the following steps:

determining power supply demand parameters matched with the executable mode according to a user instruction;

generating a power supply starting instruction according to the power supply demand parameters so as to supply power to the ionizer and the blower;

and when the working process meets the power supply interruption condition, generating a power supply interruption instruction to stop power supply to the ionizer and the blower.

The power supply interruption conditions comprise a first power supply interruption condition of a first sterilization mode, a second power supply interruption condition of a second sterilization mode and a third power supply interruption condition of the light source assembly.

The control panel in the above steps may be a refrigerator control panel, or may be a control panel built in the wireless power supply device, that is, the control panel is integrated with the wireless transmitting module. The present embodiment takes a refrigerator control board as an example.

The steps described above may be integrated into:

s20, determining an executable mode of the odor removal sterilization module matched with the user instruction and a power supply demand parameter matched with the executable mode or the user instruction according to the user instruction; the user instruction comprises a first sterilization mode instruction and a second sterilization mode instruction; the user instruction also comprises a door opening instruction of a user or an opening instruction of the light source component;

s40, when the user instruction comprises a first sterilization mode instruction, namely, when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be the first sterilization mode, generating a first power supply starting instruction according to a first power supply demand parameter so as to supply power to an ion generator and a fan in the odor removal sterilization module; controlling an ion generator and a fan in the odor removal and sterilization module to work simultaneously;

S60, when the working time of the first sterilization mode is not less than the first time t ₁ And when the working process meets the power supply interruption condition of the first sterilization mode, generating a power supply interruption instruction to stop the ionizer and the blower in the odor removal sterilization module. Meanwhile, generating a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode;

s80, when the user instruction comprises a second sterilization mode instruction or directly enters the second sterilization mode, namely, when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be the second sterilization mode, generating a second power supply starting instruction according to a second power supply demand parameter so as to supply power to an ion generator and a fan in the odor removal sterilization module; the ionizer and the fan are controlled to perform periodic operation.

Referring to fig. 9, the odor elimination and sterilization module 10 of the present invention includes a first housing 12 and a second housing 11, wherein an odor elimination member 15, an ion generator 16, and a fan assembly are disposed between the first housing 12 and the second housing 11; the fan assembly includes a fan housing and a fan 17. The second housing 11 is provided with a light source assembly 13, which integrates a lighting function and a sterilization function. The odor removal and sterilization module 10 is arranged on an embedded box 20 of a refrigerator liner. The sterilization function has at least two sterilization modes, namely 'one-key smell removal' and 'intelligent fresh-keeping'. In the one-key smell-removing mode, the ionizer and the fan are started simultaneously, and after a period of time, the intelligent fresh-keeping mode is automatically switched. In the intelligent fresh-keeping mode, the ionizer and the fan are started simultaneously, and periodic work is performed. In addition, the 'one-key smell removal' can be matched with different gears according to different sterilization intensities, such as 'one-key smell removal first gear', 'one-key smell removal second gear'. The intelligent fresh-keeping can be matched with different gears according to different sterilization intensities, such as a first fresh-keeping gear, a second fresh-keeping gear and the like.

In this embodiment, the first sterilization mode is a "one-key smell-removing" mode, and the second sterilization mode is a "intelligent fresh-keeping" mode.

In the first sterilization mode, the power supply to the ionizer and the fan is started, the ionizer and the fan work simultaneously, and after a period of work, the second sterilization mode is automatically switched. In the second sterilization mode, power is periodically turned on to the ionizer 16 and the blower 17, and the ionizer and the blower are periodically operated at the same time. The power supply requirement parameters in the first sterilization mode and the second sterilization mode can be the same, or according to different power supply requirement parameters, different sterilization intensities can be corresponding to the different power supply requirement parameters so as to match the third sterilization mode and the fourth sterilization mode.

Before step S20, the method further includes S10, receiving a user instruction, including receiving a user instruction sent by a user through a key or through an APP or automatically generated.

The steps further comprise: the wireless transmitting module transmits electromagnetic energy to the wireless receiving module according to the power supply demand parameters in the power supply starting instruction; and the wireless transmitting module stops transmitting electromagnetic energy to the wireless receiving module according to the power supply interruption instruction.

The invention aims to supply power to an ion generator and a fan by adopting a wireless power supply device, wherein the wireless power supply device comprises a wireless transmitting module and a wireless receiving module.

Referring to fig. 8, the wireless transmission module 42 includes a transmission coil 422 and a first printed circuit board, which includes a power circuit, a high frequency oscillation circuit, and a high frequency power amplification circuit, and a voltage is supplied from an external power source of the wireless transmission module. The external power supply provides voltage, the high-frequency oscillating circuit in the first printed circuit generates high-frequency alternating current, the high-frequency power amplifying circuit amplifies the high-frequency alternating current, and the high-frequency alternating current is sent out in an electromagnetic energy mode through the transmitting coil. The wireless receiving module comprises a receiving coil and a second printed circuit board; the second printed circuit board can be provided with a rectifying and filtering circuit, a voltage stabilizing circuit and the like. Energy is transferred wirelessly to the wireless receiving module 42 by coupling between the transmitting coil 422 and the receiving coil. The coils of the wireless transmitting module and the wireless receiving module are respectively provided with a magnetic core 421, when high-frequency alternating current flows in the transmitting coil, induction current can be generated in the receiving coil by electromagnetic induction, and accordingly electric energy is provided for the ionizer 16, the fan 17 and the light source component 13.

In the prior art, a wired power supply mode is generally adopted to provide electric energy for the ionizer, the fan and the light source component, and the ionizer, the fan and the light source component can continuously receive the electric signals for opening and closing under the wired power supply state, so that different working modes can be controlled through control signals. In the wireless power supply scene, when the wireless power supply device does not provide power, the ionizer, the fan and the light source component can not continuously receive the control signals of opening and closing, and can not switch different working modes through the control signals in the prior art. Therefore, the odor removal and sterilization control method in the embodiment is based on a control method in a wireless power supply scene, takes a power supply signal as a control signal, and realizes control of a working mode through power supply and power failure.

Specifically, step S40 includes:

s41, when a first sterilization mode instruction is received, determining that an executable mode of the odor removal sterilization module matched with the user instruction is a first sterilization mode, and determining a first power supply requirement parameter matched with the first sterilization mode according to the first sterilization mode instruction or the executable mode;

s42, generating a first power supply starting instruction according to the first power supply demand parameter so as to supply power to the ionizer and the fan in the odor-removing and sterilizing module.

In this embodiment, the deodorizing member is a device requiring no power source, and thus power is supplied to the ionizer and the blower as disclosed below. In other embodiments, if the deodorizing element is a device requiring power, it is also within the scope of the present invention.

After the step S42, the method further includes a step S51 of the wireless transmitting module receiving a first power supply start command, and transmitting first electromagnetic energy to the wireless receiving module according to a first power supply demand parameter in the first power supply start command; so that the ionizer and the fan are powered. The first power supply requirement parameter and the first electromagnetic energy have a corresponding relation.

Specifically, step S60 includes:

when the working process of the first sterilization mode meets the power supply interruption condition of the first sterilization mode, generating and sending a first power supply interruption instruction to stop supplying power to the executable module;

meanwhile, generating a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ 。

After step S60, the method further includes step S71, where the wireless transmitting module receives a first power interruption command, and stops sending the first electromagnetic energy to the wireless receiving module according to the first power interruption command, so as to enable the wireless receiving module to stop supplying power to the executable module.

Specifically, step S80 includes:

and S81, when a second sterilization mode instruction is received or the user instruction directly enters a second sterilization mode, determining that the executable mode of the odor removal sterilization module matched with the user instruction is the second sterilization mode, and determining a second power supply requirement parameter matched with the second sterilization mode.

S82, periodically generating a second power supply starting instruction according to the second power supply demand parameter so as to start power supply to the ionizer and the fan.

The step S80 is executed by the control board, and after the step S82, the step S91 is executed by the wireless transmitting module, the wireless transmitting module periodically receives a second power supply start command, and sends second electromagnetic energy to the wireless receiving module according to a second power supply demand parameter in the second power supply start command; so that the ionizer and the fan are powered. The second power supply requirement parameter and the second electromagnetic energy have a corresponding relation.

The step S80 further includes:

s100, judging whether the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode;

s110, when the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode, periodically generating a second power supply interruption instruction to stop power supply to the ionizer and the fan in the odor-removing sterilization module; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；t ₁ Greater than t ₂ 。

After step S100, the method further includes S120 executed by the wireless transmitting module, where the wireless transmitting module receives a second power interruption instruction, and periodically stops sending second electromagnetic energy to the wireless receiving module according to the second power interruption instruction, so as to enable the wireless receiving module to stop supplying power to the ionizer and the fan in the odor-removing and sterilizing module.

S130, after stopping supplying power to the ionizer and the blower in the odor removal and sterilization module, acquiring power supply interruption time T ₃ The method comprises the steps of carrying out a first treatment on the surface of the This step may be performed by the wireless transmission module or by the control board.

S140, judging the power supply interruption time T ₃ Whether or not it is greater than or equal to the third time t ₃ 。

S150, when the power interruption time reaches the third time t ₃ And generating a second power supply starting instruction again to realize periodic starting of power supply to the ionizer and the fan in the odor removing and sterilizing module.

When the power supply interruption time for stopping the power supply to the executable module reaches the third time t ₃ When, i.e. power supply interruption time T ₃ Greater than or equal to the third time t ₃ And when the second power supply starting instruction is generated again, the step S81 is performed again to start the power supply to the ionizer and the fan in the odor removal and sterilization module. Step S84 is entered, when the working process of the second sterilization mode meets the working time of the second sterilization mode not smaller than the second time t2, a second power supply interruption instruction is generated to stop power supply to the ionizer and the fan in the odor removal sterilization module; with this cycle, the second power supply start instruction and the second power supply interruption instruction are generated periodically and intermittently.

It will be appreciated that whether the user selects the first sterilization mode or the second sterilization mode, the second sterilization mode is entered, and the ionizer and the fan are operated continuously for a period of time t in the first sterilization mode ₁ Then, the second sterilization mode is entered, the ionizer and the fan work for a period of time t ₂ Stopping working for a period of time t ₃ I.e. enter periodic start and stop. t is t ₁ Greater than t ₂ The first sterilization mode is used for long-time odor removal sterilization, and then periodic odor removal sterilization is performed, so that energy is saved, and a good odor removal sterilization effect can be realized.

In the second sterilization mode, the periodic start and stop of the ionizer and the blower fan are not controlled by control signals, but the periodic start and stop of the second sterilization mode is realized by whether the wireless transmitting module in the wireless power supply device supplies power or not, and sterilization control is realized while power supply is realized.

In addition, the odor removal and sterilization module can be integrated with a light source assembly, and the light source assembly is powered by the wireless power supply device. The light source component is used for illuminating the inside of the container.

Therefore, the user instruction also comprises a door opening instruction of the user or an opening instruction of the light source component sent by the user through a key or a terminal; the executable modes further include an illumination mode of the odor elimination sterilization module;

The control method further comprises the following steps:

according to a user instruction, when the executable mode of the odor removal and sterilization module matched with the user instruction is determined to be a lighting mode, determining a third power supply requirement parameter matched with the executable mode; the user instruction further comprises a door opening instruction of a user or an opening instruction of the light source assembly;

generating a third power supply starting instruction according to the third power supply demand parameter so as to supply power to the light source component of the odor removing and sterilizing module;

the wireless transmitting module receives a third power supply starting instruction and transmits third electromagnetic energy to the wireless receiving module according to a third power supply demand parameter in the third power supply starting instruction; the third power supply requirement parameter and the third electromagnetic energy have a corresponding relation.

When the working process of the light source assembly of the odor removal sterilization module meets the power supply interruption condition of the light source assembly, generating a third power supply interruption instruction to stop supplying power to the light source assembly; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

The control panel receives the opening instruction of the light source assembly sent by the user through the key or the terminal, or the opening instruction of the user generated when the refrigerator door is opened. It can be understood that when a user sends out an opening instruction of the light source assembly through a key or a terminal, or when the user opens the refrigerator door, a third power supply opening instruction is generated to open the light source assembly for illumination.

If the odor removing and sterilizing module is integrated with the light source assembly and the sterilizing assembly at the same time, two wireless power supply devices can be adopted to supply power to the light source assembly and the sterilizing assembly respectively, and the control method of the light source assembly and the control method of the two sterilizing modes are mutually independent; at this time, the first power supply demand parameter, the second power supply demand parameter, and the third power supply demand parameter may be the same or different.

The light source assembly and the sterilization assembly can also be powered by the same wireless power supply device, at the moment, the first power supply demand parameter, the second power supply demand parameter and the third power supply demand parameter can be different, and different power supply starting instructions are generated according to the difference of the power supply demand parameters. For example, when the first sterilization mode and the illumination mode of the light source assembly are required to be executed simultaneously, the wireless power supply device can supply the first power supply requirement parameter and the second power supply requirement parameter; when the first sterilization mode is needed to be executed, the wireless power supply device can supply power of the first power supply requirement parameter.

Embodiment two:

specifically, referring to fig. 4, the odor removal sterilization control method of the refrigerator provided by the present invention is performed by an odor removal sterilization module, and includes:

in the first sterilization mode of the executable mode, namely when the executable mode of the odor removing sterilization module matched with the user instruction is determined to be the first sterilization mode, the ionizer and the fan in the odor removing sterilization module work simultaneously; when the working time of the first sterilization mode is not less than the first time t ₁ Entering a second sterilization mode;

and under the instruction that the executable mode is the second sterilization mode, namely when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be the second sterilization mode, the ionizer and the fan in the odor removal sterilization module work periodically.

Further comprises:

responding to a power supply starting instruction, and receiving power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply starting instruction is generated according to the power supply demand parameters; the power supply demand parameters are determined according to user instructions;

responding to a power supply interruption instruction, and interrupting power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply interruption instruction is generated when the working process meets the power supply interruption condition.

Specifically, a wireless receiving module in the odor removal sterilization module responds to a power supply starting instruction, receives electromagnetic energy sent by a wireless transmitting module, generates induction current by electromagnetic induction, and provides power for an ionizer and a fan in the odor removal sterilization module;

the wireless receiving module in the odor removing and sterilizing module responds to the power supply interruption instruction, and the wireless receiving module is interrupted to receive electromagnetic energy sent by the wireless transmitting module and is interrupted to provide power for the ionizer and the fan in the odor removing and sterilizing module;

The wireless receiving module is positioned on the odor removing and sterilizing module.

The steps described above may be integrated into:

s52, when the user instruction comprises a first sterilization mode instruction, namely determining that an executable mode of the odor removal sterilization module matched with the user instruction is a first sterilization mode, and responding to a first power supply starting instruction when the executable mode is the first sterilization mode instruction; the ionizer and the fan in the odor removal and sterilization module are powered on; so that the ion generator and the fan work simultaneously; the first power supply starting instruction is generated according to a first power supply demand parameter, and the first power supply demand parameter is matched with a first sterilization mode;

s72, responding to a first power supply interruption instruction, and interrupting power supply by an ionizer and a fan in the odor removing and sterilizing module; simultaneously, responding to a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; the first power supply interruption instruction and the user instruction comprising the second sterilization mode instruction are generated when the working process of the first sterilization mode meets the interruption condition of the first sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ 。

And S92, when the user instruction comprises a second sterilization mode instruction, namely determining that the executable mode of the odor removal sterilization module matched with the user instruction is the second sterilization mode, and responding to a second power supply starting instruction when the executable mode is the second sterilization mode, wherein the ionizer and the fan in the odor removal sterilization module receive power supply.

S121, responding to a second power supply interruption instruction, and interrupting power supply by an ionizer and a fan in the odor removing and sterilizing module; the second power supply interruption instruction is generated when the working process of the second sterilization mode meets the interruption condition of the second sterilization mode; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；

S160, when the power interruption time reaches the third time t ₃ And when the second power supply starting instruction is responded again, the ionizer and the blower are powered on. This step coincides with S92.

Specifically, the step S52 includes:

the wireless receiving module in the odor removing and sterilizing module responds to a first power supply starting instruction, receives first electromagnetic energy sent by the wireless transmitting module, generates induction current through electromagnetic induction, and provides power for the ionizer and the fan in the odor removing and sterilizing module; so that the ionizer and the blower operate simultaneously.

The ionizer and the fan matched with the first sterilization mode receive power supply; so that the ionizer and the blower operate simultaneously.

Specifically, the step S92 includes: the wireless receiving module in the odor removing and sterilizing module responds to the second power supply starting instruction, receives second electromagnetic energy sent by the wireless transmitting module, generates induction current through second electromagnetic induction, and provides power for the ionizer and the fan in the odor removing and sterilizing module.

And the ionizer and the blower matched with the second sterilization mode are powered to make the ionizer and the blower work simultaneously.

The step S121 includes:

the wireless receiving module responds to the second power supply interruption instruction and does not receive power supply of the wireless transmitting module. The ion generator and the fan interrupt power supply; the second power supply interruption instruction is generated when the working process of the second sterilization mode meets the interruption condition of the second sterilization mode; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ . This step may be omitted, and in particular embodiments, only the wireless transmitting module need cease transmitting electromagnetic energy to the wireless receiving module.

Specifically, the step S160 includes: when the power supply interruption time reaches the third time t ₃ And when the wireless receiving module responds to the second power supply starting instruction again, receives second electromagnetic energy sent by the wireless transmitting module, and generates induction current by second electromagnetic induction to provide power for the ionizer and the fan in the odor removing and sterilizing module.

And the ionizer and the blower matched with the second sterilization mode are powered to make the ionizer and the blower work simultaneously.

In addition, the odor removal and sterilization module can be integrated with a light source assembly, and the light source assembly is powered by the wireless power supply device. The light source component is used for illuminating the inside of the container.

Therefore, the user instruction also comprises a door opening instruction of the user or an opening instruction of the light source component sent by the user through a key or a terminal;

the control method further comprises the following steps:

when the user instruction comprises a door opening instruction of a user or an opening instruction of the light source assembly, responding to a third power supply opening instruction, and receiving power supply by the light source assembly; the executable modes further include an illumination mode of the odor elimination sterilization module;

when the executable mode is a lighting mode, responding to a third power supply starting instruction, and receiving power supply by a light source assembly in the odor removing and sterilizing module;

responding to a third power supply interruption instruction, and interrupting power supply by a light source assembly in the odor removing and sterilizing module; the third power supply interruption instruction is generated when the working process of the light source assembly meets the power supply interruption condition of the light source assembly; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

Specifically, the wireless receiving module responds to a third power supply starting instruction and receives third electromagnetic energy sent by the wireless transmitting module; the third power supply requirement parameter and the third electromagnetic energy have a corresponding relation.

Preferably, the first electromagnetic energy, the second electromagnetic energy, and the third electromagnetic energy correspond to a first power demand parameter, a second power demand parameter, and a third power demand parameter, respectively.

If the odor removing and sterilizing module is integrated with the light source assembly and the sterilizing assembly at the same time, two wireless power supply devices can be adopted to supply power to the light source assembly and the sterilizing assembly respectively, and the control method of the light source assembly and the control method of the two sterilizing modes are mutually independent; at this time, the first power supply demand parameter, the second power supply demand parameter, and the third power supply demand parameter may be the same or different.

The light source assembly and the sterilization assembly can also be powered by the same wireless power supply device, at the moment, the first power supply demand parameter, the second power supply demand parameter and the third power supply demand parameter can be different, and different power supply starting instructions are generated according to the difference of the power supply demand parameters. For example, when the first sterilization mode and the illumination mode of the light source assembly are required to be executed simultaneously, the wireless power supply device can supply the first power supply requirement parameter and the second power supply requirement parameter; when the first sterilization mode is needed to be executed, the wireless power supply device can supply power of the first power supply requirement parameter.

Embodiment III:

referring to fig. 5 to 7, the odor removal and sterilization control method of the refrigerator provided by the invention is executed by a control board, a wireless transmitting module and a wireless power supply module, and comprises the following steps:

s20, determining an executable mode of the odor removal sterilization module matched with the user instruction and a power supply demand parameter matched with the executable mode or the user instruction according to the user instruction; the user instruction comprises a first sterilization mode instruction and a second sterilization mode instruction; the user instruction also comprises a door opening instruction of a user or an opening instruction of the light source component;

s41, when a first sterilization mode instruction is received, determining that an executable mode of the odor removal sterilization module matched with the user instruction is a first sterilization mode, and determining a first power supply requirement parameter matched with the first sterilization mode according to the first sterilization mode instruction or the executable mode;

s42, generating a first power supply starting instruction according to the first power supply demand parameter so as to supply power to the ionizer and the fan in the odor-removing and sterilizing module.

S51, the wireless transmitting module receives a first power supply starting instruction, and transmits first electromagnetic energy to the wireless receiving module according to a first power supply demand parameter in the first power supply starting instruction; so that the ionizer and the fan are powered. The first power supply requirement parameter and the first electromagnetic energy have a corresponding relation.

S52, when the executable mode is a first sterilization mode instruction, the wireless receiving module responds to a first power supply starting instruction; receiving first electromagnetic energy sent by the wireless transmitting module, generating induction current by electromagnetic induction, and providing power for an ion generator and a fan in the odor-removing and sterilizing module; so that the ionizer and the blower operate simultaneously.

S60, when the working time of the first sterilization mode is not less than the first time t ₁ And when the working process meets the power supply interruption condition of the first sterilization mode, generating a power supply interruption instruction to stop supplying power to the odor removing piece, the ionizer and the blower. Meanwhile, generating a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode;

and S71, the wireless transmitting module receives the first power supply interruption instruction, and stops sending the first electromagnetic energy to the wireless receiving module according to the first power supply interruption instruction so as to realize that the wireless receiving module stops supplying power to the executable module.

And S81, when the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a second sterilization mode, the control board determines a second power supply requirement parameter matched with the second sterilization mode.

S82, periodically generating a second power supply starting instruction according to the second power supply demand parameter so as to start power supply to the ionizer and the fan of the odor removing and sterilizing module.

S91, the wireless transmitting module periodically receives a second power supply starting instruction, and transmits second electromagnetic energy to the wireless receiving module according to a second power supply demand parameter in the second power supply starting instruction; so that the ionizer and the fan are powered. The second power supply requirement parameter and the second electromagnetic energy have a corresponding relation.

And S92, responding to a second power supply starting instruction by the wireless receiving module in the odor removing and sterilizing module, receiving second electromagnetic energy sent by the wireless transmitting module, generating induction current by second electromagnetic induction, and providing power for the ionizer and the fan in the odor removing and sterilizing module.

S100, judging whether the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode;

s110, when the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode, periodically generating a second power supply interruption instruction to stop the cleaningThe ion generator and the fan in the flavor sterilizing module are powered; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；t ₁ Greater than t ₂ 。

S120, the wireless transmitting module receives a second power supply interruption instruction, and periodically stops sending second electromagnetic energy to the wireless receiving module according to the second power supply interruption instruction so as to realize that the wireless receiving module stops supplying power to the ionizer and the fan in the odor removing and sterilizing module.

S130, after stopping supplying power to the ionizer and the blower in the odor removal and sterilization module, acquiring power supply interruption time T ₃ The method comprises the steps of carrying out a first treatment on the surface of the This step may be performed by the wireless transmission module or by the control board.

S140, judging the power supply interruption time T ₃ Whether or not it is greater than or equal to the third time t ₃ 。

S150, when the power interruption time reaches the third time t ₃ And generating a second power supply starting instruction again to realize periodic starting of power supply to the ionizer and the fan in the odor removing and sterilizing module.

When the power supply interruption time for stopping the power supply to the executable module reaches the third time t ₃ When, i.e. power supply interruption time T ₃ Greater than or equal to the third time t ₃ When this is the case, the second power supply start command is generated again, and the process proceeds to step S81 again to start the power supply to the ionizer and the blower. Then step S110 is performed when the working process of the second sterilization mode satisfies the working time of the second sterilization mode not less than the second time t ₂ Generating a second power supply interruption instruction to stop power supply to the ionizer and the blower; with this cycle, the second power supply start instruction and the second power supply interruption instruction are generated periodically and intermittently.

Embodiment four:

correspondingly, the invention also provides a deodorizing and sterilizing control device of the refrigerator, which comprises a control board and a wireless transmitting module, wherein the control board and the wireless transmitting module are used for executing the deodorizing and sterilizing control method of the refrigerator in the first embodiment and the deodorizing and sterilizing control method of part of the refrigerator in the third embodiment. Or the control board is integrated with the wireless transmission module.

Fifth embodiment:

correspondingly, referring to fig. 8-9, the invention further provides a deodorizing and sterilizing module of the refrigerator, wherein the deodorizing and sterilizing module is used for executing the deodorizing and sterilizing control method of the refrigerator in the second embodiment and the deodorizing and sterilizing control method of a part of the refrigerator in the third embodiment. The odor removing and sterilizing module 10 comprises a first shell 12 and a second shell 11, wherein an odor removing piece 15, an ion generator 16 and a fan assembly are arranged between the first shell 12 and the second shell 11; the fan assembly includes a fan housing and a fan 17. The second housing 11 is provided with a light source assembly 13, which integrates a lighting function and a sterilization function. The odor removal and sterilization module 10 is arranged on an embedded box 20 of a refrigerator liner.

Example six:

correspondingly, the invention also provides a refrigerator, which adopts the odor removal sterilization control method of the refrigerator in any embodiment, or comprises the odor removal sterilization control device of the fourth embodiment and the odor removal sterilization module of the fifth embodiment.

According to the odor removal and sterilization control method of the refrigerator, the executable module and the instruction for generating whether to supply power are determined according to the user instruction, and the sterilization mode and the light source assembly are controlled only by the power supply instruction; the odor-removing and sterilizing control method of the refrigerator provided by the invention takes the electric signal as a control signal, and can realize power supply control and mode control through a power supply instruction.

Accordingly, the present invention also provides a computer-readable storage medium having stored therein a computer program configured to operate the odor elimination sterilization control method of any one of the refrigerators described above.

It should be noted that: the sequence of the embodiments of the present invention is only for description, and does not represent the advantages and disadvantages of the embodiments. And the foregoing description has been directed to specific embodiments of this specification. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims can be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for the apparatus and electronic device embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and references to the parts of the description of the method embodiments are only required.

Although embodiments of the present invention have been disclosed above, it is not limited to the use of the description and embodiments, it is well suited to various fields of use for the invention, and further modifications may be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the particular details without departing from the general concepts defined in the claims and the equivalents thereof.

Claims (4)

1. A deodorizing and sterilizing control method of a refrigerator, characterized by being executed by a control board, comprising:

determining an executable mode of the odor removal sterilization module matched with the user instruction according to the user instruction; the executable mode at least comprises a first sterilization mode and a second sterilization mode;

when the executable mode of the odor removing and sterilizing module matched with the user instruction is determined to be a first sterilizing mode, controlling an ion generator and a fan in the odor removing and sterilizing module to work simultaneously;

when the executable mode of the odor removing and sterilizing module matched with the user instruction is determined to be a second sterilizing mode, controlling an ion generator and a fan in the odor removing and sterilizing module to periodically work;

further comprises:

determining power supply demand parameters matched with the executable mode according to a user instruction;

Generating a power supply starting instruction according to the power supply demand parameters so as to supply power to the ionizer and the blower;

when the working process meets the power supply interruption condition, generating a power supply interruption instruction to stop supplying power to the ion generator and the fan;

the wireless transmitting module transmits electromagnetic energy to the wireless receiving module according to the power supply demand parameters in the power supply starting instruction;

the wireless transmitting module stops transmitting electromagnetic energy to the wireless receiving module according to the power supply interruption instruction;

when determining that the executable mode of the odor removal sterilization module matched with the user instruction is a first sterilization mode, determining a first power supply demand parameter matched with the first sterilization mode, and generating a first power supply starting instruction according to the first power supply demand parameter so as to supply power to an ion generator and a fan in the odor removal sterilization module;

when the working process of the first sterilization mode meets the power supply interruption condition of the first sterilization mode, generating a first power supply interruption instruction to stop power supply to the ionizer and the fan in the odor removal sterilization module; meanwhile, generating a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ ；

When the executable mode of the odor removal sterilization module matched with the user instruction is determined to be a second sterilization mode, determining a second power supply requirement parameter matched with the second sterilization mode;

generating a second power supply starting instruction according to the second power supply demand parameter so as to supply power to an ion generator and a fan in the odor-removing and sterilizing module;

when the working process of the second sterilization mode meets the power supply interruption condition of the second sterilization mode, generating a second power supply interruption instruction to stop power supply to the ionizer and the fan in the odor removal sterilization module; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；

After stopping supplying power to the ionizer and the blower in the odor removal and sterilization module, acquiring power supply interruption time;

when the power supply interruption time reaches the third time t ₃ When the odor removing and sterilizing module is in a deodorizing and sterilizing state, a second power supply starting instruction is generated again to start power supply to the ionizer and the fan in the odor removing and sterilizing module;

the executable modes further include an illumination mode of the odor elimination sterilization module;

when the executable mode of the odor removal and sterilization module matched with the user instruction is determined to be a lighting mode, determining a third power supply requirement parameter matched with the executable mode;

Generating a third power supply starting instruction according to the third power supply demand parameter so as to supply power to the light source component of the odor-removing and sterilizing module;

when the working process of the light source assembly of the odor removal sterilization module meets the power supply interruption condition of the light source assembly, generating a third power supply interruption instruction to stop supplying power to the light source assembly of the odor removal sterilization module; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

2. The odor removal and sterilization control method of the refrigerator is characterized by being executed by an odor removal and sterilization module and comprising the following steps of:

in the first sterilization mode, the ionizer and the blower in the odor removal sterilization module work simultaneously;

under the instruction of the executable mode being the second sterilization mode, the ionizer and the fan in the odor removal sterilization module work periodically;

further comprises:

responding to a power supply starting instruction, and receiving power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply starting instruction is generated according to the power supply demand parameters; the power supply demand parameters are determined according to user instructions;

responding to a power supply interruption instruction, and interrupting power supply by an ion generator and a fan in the odor removing and sterilizing module; the power supply interruption instruction is generated when the working process meets the power supply interruption condition;

The wireless receiving module responds to the power supply starting instruction, receives electromagnetic energy sent by the wireless transmitting module, generates induction current by electromagnetic induction and provides power for the ionizer and the blower;

the wireless receiving module responds to the power supply interruption instruction, and the electromagnetic energy sent by the wireless transmitting module is interrupted to be received, and the power supply to the ion generator and the fan is interrupted;

the wireless receiving module is positioned on the odor removing and sterilizing module;

when the executable mode is a first sterilization mode instruction, responding to a first power supply starting instruction, and enabling an ionizer and a fan in the odor removal sterilization module to receive power supply; so that the ion generator and the fan work simultaneously; the first power supply starting instruction is generated according to a first power supply demand parameter, and the first power supply demand parameter is matched with a first sterilization mode;

responding to a first power supply interruption instruction, and interrupting power supply by an ionizer and a fan in the odor removing and sterilizing module; simultaneously, responding to a user instruction comprising a second sterilization mode instruction so as to automatically enter a second sterilization mode; the first power supply interruption instruction and the user instruction comprising the second sterilization mode instruction are generated when the working process of the first sterilization mode meets the interruption condition of the first sterilization mode; wherein the power supply interruption condition of the first sterilization mode is that the working time of the first sterilization mode is not less than the first time t ₁ ；

In the second sterilization mode, responding to a second power supply starting instruction, and receiving power supply by an ion generator and a fan in the odor removing sterilization module;

responding to a second power supply interruption instruction, and interrupting power supply by an ion generator and a fan in the odor removing and sterilizing module; the second power supply interruption instruction is generated when the working process of the second sterilization mode meets the interruption condition of the second sterilization mode; wherein the power supply interruption condition of the second sterilization mode is that the working time of the second sterilization mode is not less than the second time t ₂ ；

When the power supply interruption time reaches the third time t ₃ When the second power supply starting instruction is responded again, the ionizer and the blower receive power supply;

the executable modes further include an illumination mode of the odor elimination sterilization module;

when the executable mode is a lighting mode, responding to a third power supply starting instruction, and receiving power supply by a light source assembly in the odor removing and sterilizing module;

responding to a third power supply interruption instruction, and interrupting power supply by a light source assembly in the odor removing and sterilizing module; the third power supply interruption instruction is generated when the working process of the light source assembly meets the power supply interruption condition of the light source assembly; the power supply interruption condition of the light source assembly is that a door closing instruction of a user is received or a closing instruction of the light source assembly is received.

3. An odor removal and sterilization module of a refrigerator, characterized by being used for executing the odor removal and sterilization control method of the refrigerator according to claim 2.

4. A refrigerator, characterized in that the method for controlling odor removal and sterilization of a refrigerator according to claim 1 is adopted, or the odor removal and sterilization module of a refrigerator according to claim 3 is included.