CN115560531A - Refrigeration equipment control method and refrigeration equipment - Google Patents

Abstract

The invention discloses a refrigeration equipment control method and refrigeration equipment, wherein the refrigeration equipment control method comprises the following steps: judging whether a user enters a preset space or not; if yes, acquiring the working state of the sterilization module of the refrigeration equipment; controlling the atmosphere lamp according to the working state of the sterilization module; if the sterilization module is in the running state, controlling the atmosphere lamp to flicker at a first frequency; and if the sterilization module is in a non-operation state, controlling the atmosphere lamp to be normally on. The operation state of the atmosphere lamp of the refrigeration equipment can be controlled according to the working state of the sterilization module, so that the working state of the sterilization module in the refrigeration equipment is reflected through the atmosphere lamp arranged outside, the interactivity of the atmosphere lamp of the refrigeration equipment is improved, and the intelligence of the refrigeration equipment is enhanced.

Description

Refrigeration equipment control method and refrigeration equipment

Technical Field

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

Background

Refrigeration equipment such as a refrigerator becomes an essential household appliance in the life process of people, great convenience is brought to the daily life of people, and along with the continuous development of science and technology, people increasingly emphasize the user experience of the refrigeration equipment while requiring the refrigeration equipment to have a good fresh-keeping effect; and the interaction between the user and the refrigeration equipment is enhanced, so that the user experience can be effectively improved.

At present, the light part of the refrigeration plant on the market mainly has the backlight lamp of installing on the control panel of refrigeration plant door body outside and places the light at walk-in top in with, and the light mode of illumination is single, and domestic refrigeration plant generally places in sitting room or kitchen, when the beverage or the fruit of refrigeration plant of taking at night, the user need open the light in sitting room or kitchen just can reach the purpose, causes a great deal of inconvenience for the user, leads to user experience poor. In order to solve the above problems, some refrigeration devices are often provided with an atmosphere lamp, but the atmosphere lamp in the prior art is mainly used for auxiliary lighting, has a single function and poor user interactivity, and is not suitable for application of intelligent refrigeration devices.

Disclosure of Invention

The invention aims to provide a refrigeration equipment control method, which aims to overcome the defects in the prior art and can control the running state of an atmosphere lamp of the refrigeration equipment according to the working state of a sterilization module, so that the working state of the sterilization module in the refrigeration equipment is reflected by the atmosphere lamp arranged outside, the interactivity of the atmosphere lamp of the refrigeration equipment is improved, and the intelligence of the refrigeration equipment is enhanced.

The invention provides a refrigeration equipment control method, which comprises the following steps:

judging whether a user enters a preset space or not;

if so, acquiring the working state of the sterilization module of the refrigeration equipment;

and controlling the atmosphere lamp according to the working state of the sterilization module.

Further, "controlling the atmosphere lamp according to the operating state of the sterilization module" includes:

if the sterilization module is in the running state, controlling the atmosphere lamp to flicker at a first frequency;

and if the sterilization module is in a non-operation state, controlling the atmosphere lamp to be normally on.

Further, if the sterilization module is in the operating state, controlling the atmosphere lamp to flash at the first frequency "further comprises:

and acquiring the distance L between the user and the refrigeration equipment, and adjusting the flicker frequency of the atmosphere lamp according to the distance L.

Further, the step of acquiring the distance L between the user and the refrigeration equipment and adjusting the flickering frequency of the atmosphere lamp according to the distance L comprises the following steps:

acquiring data of the distance L in real time within the continuous time t;

and judging whether the distance L is in a decreasing state, if so, increasing the flicker frequency of the atmosphere lamp.

Further, the "increasing the flickering frequency of the atmosphere lamp" specifically includes:

when the distance L exceeds a first threshold value L1, controlling the atmosphere lamp to flicker at a first frequency;

when the distance L is smaller than a first threshold value L1 but larger than a second threshold value L2, controlling the atmosphere lamp to flicker at a second frequency, wherein the second frequency is larger than the first frequency;

and when the distance L is smaller than a second threshold value L2, the atmosphere lamp is controlled to flicker at a third frequency, wherein the third frequency is larger than the second frequency.

Further, changing the color of the light emitted by the atmosphere lamp while "increasing the flickering frequency of the atmosphere lamp" specifically includes:

emitting white light when the mood light flashes at a first frequency;

emitting yellow light when the mood light flashes at a second frequency;

the red light is emitted when the mood light flashes at a third frequency.

Further, the sterilization module is controlled to be closed when the distance L is smaller than a second threshold value L2.

Further, after the sterilization module is controlled to be closed, the method comprises the following steps:

whether the door body induction switch is in an opening state or not is acquired within the time interval T1,

if yes, controlling the atmosphere lamp to be in a normally-on state and adjusting the color of the atmosphere lamp to be white;

otherwise, controlling the sterilization module to restart.

Further, a door body induction switch signal is obtained in real time after the sterilization control module is restarted, and the sterilization module is controlled according to the door body induction switch signal; in particular, the method comprises the following steps of,

when the door body inductive switch is in an open state, the sterilization module is controlled to be in a non-running state;

when the door body inductive switch is in a closed state, the sterilization module is controlled to be maintained in an operating state.

The refrigeration equipment controlled by the refrigeration equipment control method comprises the following steps:

the monitoring unit is used for judging whether a user enters a preset space or not;

the signal acquisition unit is used for acquiring the working state of the sterilization module of the refrigeration equipment after a user enters a preset space;

and the control unit is used for controlling the atmosphere lamp according to the working state of the sterilization module acquired by the signal acquisition unit.

Compared with the prior art, the control method disclosed by the embodiment of the invention can control the running state of the atmosphere lamp of the refrigeration equipment according to the working state of the sterilization module, so that the working state of the sterilization module in the refrigeration equipment can be reflected through the atmosphere lamp arranged outside. When the sterilization module feeds back to the user through the atmosphere lamp in the operation, the situation that the sterilization module is not closed when the refrigeration equipment door body is opened can be effectively avoided, the damage of the sterilization module to the user is reduced, the interactivity of the refrigeration equipment atmosphere lamp is improved simultaneously, and the intelligence of the refrigeration equipment is enhanced.

Drawings

FIG. 1 is a schematic flow chart of a control method of a refrigeration device according to an embodiment of the present disclosure;

FIG. 2 is a schematic flow chart of the control of the atmosphere lamp in the control method of the refrigeration equipment according to the embodiment of the invention;

FIG. 3 is a schematic diagram of a complete flow chart of a control method of a refrigeration device according to an embodiment of the disclosure;

Detailed Description

The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

The embodiment of the invention comprises the following steps: as shown in fig. 1 and 2, a control method of a refrigeration apparatus is disclosed, which is applied to the refrigeration apparatus to control an operation state of an atmosphere lamp of the refrigeration apparatus according to an operation state of a sterilization module. The refrigeration device may be a refrigerator, freezer or wine cabinet, in this embodiment the refrigerator is used as an example for unfolding.

The control method of the refrigeration equipment specifically comprises the following steps:

s100: judging whether a user enters a preset space or not; specifically, the infrared sensing device is adopted to monitor users around the refrigeration equipment, the infrared sensing device can be used to monitor the distance between a human body and the refrigeration equipment, and the collected data is sent to the control unit for judgment; the judgment basis is that whether the distance between the refrigeration equipment and the user is lower than a rated threshold value or not and that the user enters the preset space is judged when the distance is lower than the rated threshold value; the user can adjust the size of the rated threshold value according to the condition of the surrounding environment of the refrigeration equipment, for example, the refrigeration equipment is placed in a kitchen, the rated threshold value can be set to be the distance range from the refrigeration equipment to a kitchen door, and when the user leaves a bedroom and opens the kitchen door to enter, the infrared sensing device is started to immediately monitor that the user approaches;

s200: after a user enters a preset space, acquiring whether a sterilization module of the refrigeration equipment is in a working state; after the user enters the preset space, whether the sterilization module is in a working state needs to be obtained, and then the atmosphere lamp is controlled according to whether the sterilization module is in the working state; the sterilization module has two states of an operation state and a non-operation state;

s300: controlling the atmosphere lamp according to the working state of the sterilization module, wherein the sterilization module has two states of an operating state and a non-operating state, and the atmosphere lamp is controlled to have different expression forms under different working states so as to realize the reaction of the working state of the sterilization module through the atmosphere lamp; the atmosphere lamp can show different brightness or emit light with different colors or show different flashing frequencies in two different working states.

The control method disclosed in this embodiment can control the operation state of the atmosphere lamp of the refrigeration device according to the operation state of the sterilization module, thereby implementing the reaction of the operation state of the sterilization module in the refrigeration device by the atmosphere lamp disposed outside. When the sterilization module feeds back to the user through the atmosphere lamp in the operation, the situation that the sterilization module is not closed when the refrigeration equipment door body is opened can be effectively avoided, the damage of the sterilization module to the user is reduced, the interactivity of the refrigeration equipment atmosphere lamp is improved simultaneously, and the intelligence of the refrigeration equipment is enhanced.

As shown in fig. 2, in the present embodiment, "S300: the step of controlling the atmosphere lamp according to the working state of the sterilization module specifically comprises the following steps:

if the sterilization module is in the running state, controlling the atmosphere lamp to flicker at a first frequency;

and if the sterilization module is in a non-operation state, controlling the atmosphere lamp to be normally on.

In the embodiment, the atmosphere lamp is controlled to flash at the first frequency to indicate that the sterilization module in the atmosphere lamp conducts sterilization operation, so that a user is indirectly reminded of paying attention to the atmosphere lamp when the refrigeration equipment is started. Of course in another embodiment feedback may also be provided by controlling the color of the atmosphere lamp. When the sterilization module is in a non-operation state, the lighting requirement is provided for the user by controlling the constant lighting of the atmosphere lamp.

As shown in fig. 3, "if the sterilization module is in the operating state, controlling the atmosphere lamp to flash at the first frequency" further includes:

s301: and acquiring a distance L between the user and the refrigeration equipment, and adjusting the flicker frequency of the atmosphere lamp according to the distance L.

If the sterilization module flickers at the first frequency in the running state after a user enters a preset space, in order to better embody the intelligent control of the refrigeration equipment and better remind the user, the control method disclosed by the embodiment can change the flickering frequency according to the distance L between the user and the refrigeration equipment, for example, the atmosphere lamp can be made to flicker at a low frequency when the user is far away from the refrigeration equipment, and the atmosphere lamp can be made to flicker at a high frequency when the user is close to the refrigeration equipment.

Further "S301: the method comprises the following steps of obtaining the distance L between a user and the refrigeration equipment, and adjusting the flicker frequency of the atmosphere lamp according to the distance L:

s3011: acquiring data of the distance L in real time within the continuous time t;

s3012: and judging whether the distance L is in a decreasing state, if so, increasing the flicker frequency of the atmosphere lamp.

In the embodiment, the distance between the user and the refrigeration equipment is monitored in real time within a certain continuous time t, and the flicker frequency of the atmosphere lamp is adjusted according to the change of the distance. After all the distance L data in the continuous time t are obtained, whether the distance data are decreased progressively is judged, if yes, a user is indicated to approach the refrigeration equipment gradually, the user may be judged to use the refrigeration equipment, the flashing frequency of the breathing lamp is gradually increased along with the gradual approach of the user to the refrigeration equipment, the gradual increase of the flashing frequency of the breathing lamp can simulate the increase of the breathing frequency to indicate a tension state, and the user is better reminded that the current refrigeration equipment does not approach for sterilization or the sterilization module is turned off to be used.

Preferably, whether the distance data L in the continuous time t is in a continuous decreasing state or not can be judged, and if the distance data L is in the continuous decreasing state, the flickering frequency of the atmosphere lamp is increased. The continuous decreasing state can more accurately judge the user behavior, so that unnecessary flicker change caused by judgment errors is reduced. The continuous time t may be 3s, i.e. it is monitored whether the user is approaching the refrigeration appliance gradually during a continuous 3s period.

Wherein "S3012: judging whether the distance L is in a decreasing state, if so, improving the flickering frequency of the atmosphere lamp specifically comprises the following steps:

when the distance L exceeds a first threshold value L1, controlling the atmosphere lamp to flicker at a first frequency;

when the distance L is less than the first threshold value L1 but greater than a second threshold value L2, the atmosphere lamp is controlled to blink at a second frequency, wherein the second frequency is greater than the first frequency.

And when the distance L is smaller than a second threshold value L2, the atmosphere lamp is controlled to flicker at a third frequency, wherein the third frequency is larger than the second frequency.

It should be noted that since the mood light starts to blink at the first frequency when the distance L is below the nominal threshold, the first threshold is smaller than the nominal threshold in this embodiment, i.e. blinks at the first frequency of the low frequency when the distance L is between the first threshold and the nominal threshold. The display blinks at a second frequency of the medium frequency when the spacing is between the second threshold and the first threshold, and blinks at a third frequency of the high frequency when the spacing is less than a third threshold. Where the nominal threshold may be 2m, the first threshold may be 1.5m, the second threshold may be 0.5m, and the third threshold may be 0.3m.

Further, the color of the light emitted by the atmosphere lamp can be changed while the flickering frequency of the atmosphere lamp is increased, and the method specifically comprises the following steps:

emitting white light when the mood light flashes at a first frequency;

emitting yellow light when the mood light flashes at a second frequency;

and emitting red light when the atmosphere lamp flickers at a third frequency.

The user is indicated as being in a relatively close proximity to the refrigeration appliance when the ambience light flashes at the second frequency, thus alerting the user by a yellow light, and a user is indicated as being in a close proximity to the refrigeration appliance when the ambience light flashes at the third frequency, thus emitting a red light to provide a higher level of alerting to the user. The user can be more intuitively reminded by showing different colors of light through the user's location to provide different levels of warning to the user.

In order to protect the user better, the control method disclosed in this embodiment further includes the following steps:

s400: and when the distance L is smaller than a second threshold value L2, controlling the sterilization module to be closed. When the distance is smaller than the second threshold value L2, the user is indicated to be closer to the refrigeration equipment, the user may be suggested to open the refrigeration equipment, and the user behavior is pre-judged in advance to control the sterilization module to be closed in advance, so that the injury to the user is reduced.

If the distance is in a decreasing state after the distance is continuously acquired for a certain time, the user is indicated to gradually approach the refrigeration equipment, and the possibility of opening the refrigeration equipment is indicated after the distance L is less than a second threshold value L2 after the approach is performed. The second threshold L2 may be set to 0.3m in this embodiment.

S400: after the sterilization module is controlled to be closed when the distance L is smaller than a second threshold value L2, the method comprises the following steps:

s500: acquiring whether a door body induction switch is in an open state or not within a time interval T1, if so, controlling the atmosphere lamp to be in a normally-on state and adjusting the color of the atmosphere lamp to be white; otherwise, controlling the sterilization module to restart.

In step S400, it is determined whether a user uses the refrigeration apparatus, and there may be a case of a misjudgment, and if the user does not open the door of the refrigeration apparatus after the misjudgment, the sterilization of the sterilization module is interrupted, which may affect the sterilization effect in the refrigeration apparatus. Therefore, in order to reduce the influence caused by misjudgment, the control method disclosed by the embodiment also has a corresponding remedy design. Specifically, acquire a body inductive switch's state behind the sterilization module that closes refrigeration plant, whether a body inductive switch is used for monitoring refrigeration plant's the door body and opens, then instruct refrigeration plant door body to be opened when a body inductive switch is in the open mode, then instruct the refrigeration plant door body not to open when a body inductive switch is in the closed commentaries on classics state.

Closing the sterilization module after judging that the door body is used for gradually approaching the refrigeration equipment, judging whether the signal of the door body induction switch changes within a time interval T1 after the sterilization module is closed,

if the signal of the door body induction switch changes, namely the door body induction switch signal changes from the original closed state to the open state, the fact that the user opens the refrigeration equipment is reflected at the moment, namely the previous judgment is correct, therefore, the sterilization module is controlled to be in the non-running state, the flickering state of the atmosphere lamp is adjusted to be in the normally-on state to provide illumination for the user, and meanwhile, the color of the atmosphere lamp is adjusted to be white.

If the signal of the door body induction switch is not changed, namely the door body induction switch signal is in the original closing state, the user is not started to open the refrigeration equipment at the moment, and the sterilization module can be restarted to further sterilize the food in the refrigeration equipment at the moment.

In order to avoid the situation that the sterilization module is still in a running state when a user opens the door body of the refrigeration equipment again after the sterilization module is controlled to be restarted, the control method of the embodiment further comprises the steps of acquiring a door body induction switch signal in real time and controlling the sterilization module according to the door body induction switch signal; in particular, the method comprises the following steps of,

when the door body inductive switch is in an open state, the sterilization module is controlled to be in a non-running state;

when the door body inductive switch is in a closed state, the sterilization module is controlled to be maintained in an operating state.

The scheme of the invention is explained by a complete flow state diagram, the refrigeration equipment is in a standby state in the initial state, after a user enters a preset space, the infrared sensing device acquires the distance L between the user and the refrigeration equipment and acquires the working state of the sterilization module, if the sterilization module is in the running state, the atmosphere lamp is controlled to flash at a first frequency, otherwise, the atmosphere lamp is displayed in a normally-on state. Monitoring the distance L between a user and refrigeration equipment in real time while the atmosphere lamp flickers at a first frequency, and if the distance L is in a descending state within continuous time t, controlling the flickering frequency of the atmosphere lamp of the refrigeration equipment and the color of the atmosphere lamp of the refrigeration equipment according to the distance L between the user and the refrigeration equipment, specifically, controlling the atmosphere lamp to flicker at the first frequency and the atmosphere lamp to emit white light when the distance L is greater than L1; when the distance L is smaller than L1 but larger than L2, controlling the atmosphere lamp to flicker at a second frequency and emitting yellow light; when the distance L is smaller than the preset distance L, controlling the atmosphere lamp to flicker at a third frequency and enabling the atmosphere lamp to emit red light; the third frequency is greater than the second frequency, and the second frequency is greater than the first frequency, and the frequency of the atmosphere lamp flickering is gradually increased along with the continuous reduction of the distance L.

Closing the sterilization module when the distance is smaller than L2, acquiring whether the door body induction switch is in an open state within a time interval T1 after the sterilization module is closed, if so, controlling the atmosphere lamp to be in a normally-on state and adjusting the color of the atmosphere lamp to be white; otherwise, controlling the sterilization module to restart.

Another embodiment of the present invention further discloses a refrigeration apparatus controlled by the refrigeration apparatus control method, which is characterized by including:

the monitoring unit is used for judging whether a user enters a preset space or not;

the signal acquisition unit is used for acquiring the working state of the sterilization module of the refrigeration equipment after a user enters a preset space;

and the control unit is used for controlling the atmosphere lamp according to the working state of the sterilization module acquired by the signal acquisition unit.

The monitoring unit can be the infrared induction device who sets up on the refrigeration plant box, monitoring unit and the control unit electric connection, and infrared induction device is used for acquireing the distance between the user and the refrigeration plant to with this distance data transfer to the control unit. The signal acquisition unit is electrically connected with the sterilization module, the sterilization module transmits the data of the running state to the signal acquisition unit, the signal acquisition unit is electrically connected with the control unit, the state data of the sterilization module is transmitted to the control unit through the signal acquisition unit, the control unit is electrically connected with the atmosphere lamp, and the control unit controls the atmosphere lamp according to the state data of the sterilization module transmitted by the signal acquisition unit and the distance between the user and the equipment, which is acquired by the monitoring unit.

The construction, features and functions of the present invention are described in detail in the embodiments illustrated in the drawings, which are only preferred embodiments of the present invention, but the present invention is not limited by the drawings, and all equivalent embodiments modified or changed according to the idea of the present invention should fall within the protection scope of the present invention without departing from the spirit of the present invention covered by the description and the drawings.

Claims (10)

1. A refrigeration apparatus control method, comprising:

judging whether a user enters a preset space or not;

if so, acquiring the working state of the sterilization module of the refrigeration equipment;

and controlling the atmosphere lamp according to the working state of the sterilization module.

2. A refrigerating apparatus control method as recited in claim 1, wherein: the 'controlling the atmosphere lamp according to the working state of the sterilization module' comprises the following steps:

if the sterilization module is in the running state, controlling the atmosphere lamp to flicker at a first frequency;

and if the sterilization module is in a non-operation state, controlling the atmosphere lamp to be normally on.

3. A refrigerating apparatus control method as recited in claim 2, wherein: the step of controlling the atmosphere lamp to flash at the first frequency if the sterilization module is in the operating state further comprises the following steps:

and acquiring the distance L between the user and the refrigeration equipment, and adjusting the flicker frequency of the atmosphere lamp according to the distance L.

4. A refrigerating apparatus control method as recited in claim 3, wherein: the method comprises the following steps of acquiring the distance L between a user and the refrigeration equipment and adjusting the flickering frequency of the atmosphere lamp according to the distance L:

acquiring data of the distance L in real time within the continuous time t;

and judging whether the distance L is in a decreasing state, if so, increasing the flicker frequency of the atmosphere lamp.

5. The refrigeration appliance control method according to claim 4, characterized in that: the "increasing the flicker frequency of the atmosphere lamp" specifically includes:

when the distance L exceeds a first threshold value L1, controlling the atmosphere lamp to flicker at a first frequency;

when the distance L is smaller than a first threshold value L1 but larger than a second threshold value L2, controlling the atmosphere lamp to flicker at a second frequency, wherein the second frequency is larger than the first frequency;

and when the distance L is smaller than a second threshold value L2, the atmosphere lamp is controlled to flicker at a third frequency, wherein the third frequency is larger than the second frequency.

6. The refrigeration appliance control method according to claim 5, characterized in that: the method for changing the color of light emitted by the atmosphere lamp while increasing the flickering frequency of the atmosphere lamp comprises the following steps:

emitting white light when the mood light flashes at a first frequency;

emitting yellow light when the mood light flashes at a second frequency;

and emitting red light when the atmosphere lamp flickers at a third frequency.

7. The refrigeration appliance control method according to claim 5, characterized in that: and controlling the sterilization module to be closed when the distance L is smaller than a second threshold value L2.

8. The refrigeration appliance control method as set forth in claim 7, wherein: after the sterilization module is controlled to be closed, the method comprises the following steps:

whether the door body induction switch is in an opening state or not is acquired within the time interval T1,

if yes, controlling the atmosphere lamp to be in a normally-on state and adjusting the color of the atmosphere lamp to be white;

otherwise, controlling the sterilization module to restart.

9. The refrigeration appliance control method according to claim 7, characterized in that: acquiring a door body induction switch signal in real time after the 'control sterilization module is restarted', and controlling the sterilization module according to the door body induction switch signal; in particular, the method comprises the following steps of,

when the door body inductive switch is in an open state, the sterilization module is controlled to be in a non-running state;

when the door body inductive switch is in a closed state, the sterilization module is controlled to be maintained in an operating state.

10. A refrigerating apparatus controlled by the refrigerating apparatus control method according to any one of claims 1 to 9, comprising:

the monitoring unit is used for judging whether a user enters a preset space or not;

the signal acquisition unit is used for acquiring the working state of the sterilization module of the refrigeration equipment after a user enters a preset space;

and the control unit is used for controlling the atmosphere lamp according to the working state of the sterilization module acquired by the signal acquisition unit.

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