KR20230092964A - Refrigerator control method, apparatus, refrigerator control device and storage medium - Google Patents

Abstract

The present invention relates to the field of refrigerator technology, and obtains a temperature collected by a defrost sensor of the refrigerator; determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range; Disclosed is a refrigerator control method, apparatus, refrigerator control device, and storage medium for adjusting a preset operation-stop temperature point of a refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Description

Refrigerator control method, apparatus, refrigerator control device and storage medium

The present invention relates to the field of refrigerator technology, and more particularly to a refrigerator control method, apparatus, refrigerator control device, and storage medium.

This application claims priority based on a Chinese patent application filed with the Chinese Intellectual Property Office on December 31, 2020, application number 202011643901.4, titled "Refrigerator control method, apparatus, refrigerator control device and storage medium" and all contents of the Chinese patent application are incorporated in this application.

Currently, some refrigerators on the market only have a refrigeration temperature sensor inside, but no freezing temperature sensor, so this type of refrigerator can only be controlled by the refrigeration sensor to start and stop the compressor, which is very close to the temperature of the refrigerator compartment when a load is applied to the freezer compartment. Since the operation rate of the compressor is basically unchanged, it is not possible to automatically control the operation and stop of the compressor using the refrigeration sensor when a load is put into the freezer compartment. can not affect the cooling effect of the refrigerator.

The present invention provides a refrigerator control method, apparatus, refrigerator control device, and storage medium to solve the technical problem of poor cooling effect of a refrigerator having only a refrigeration sensor.

The present invention provides a refrigerator control method for achieving the above object, the method comprising:

Acquiring the temperature collected by the defrost sensor of the refrigerator;

determining a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;

and adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

Determining whether the current defrosting heater of the refrigerator is within an operating period;

When the current defrost heater of the refrigerator is not within the operating cycle, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. do.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

determining a time point of the previous adjustment of the operation-stop temperature point of the refrigerator compressor;

determining a time difference between a current time point and the previous adjustment time point;

and adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when the time difference is greater than the preset time difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, after adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

recording a current adjustment time point of the operation-stop temperature point and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through a timer of the refrigerator;

The method further includes controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point when the operation time reaches a preset time period.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

determining whether there is a door opening/closing operation in the current refrigerator;

The method further includes adjusting a preset operation/stop temperature point of the refrigerator compressor according to the temperature difference when there is no door opening/closing operation in the current refrigerator, and controlling the refrigerator compressor to operate at the adjusted operation/stop temperature point.

Preferably, after obtaining the temperature collected by the defrost sensor of the refrigerator,

obtaining a refrigerating temperature collected by a refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;

The method further includes adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, the operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, and adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference comprises:

determining a temperature compensation value of a temperature point between operation and stop of the refrigerator compressor according to the temperature difference;

and lowering a preset compressor stop temperature point according to the temperature compensation value and/or increasing a preset compressor operating temperature point according to the temperature compensation value.

In addition, in order to achieve the above object, the present invention further provides a refrigerator control device, wherein the refrigerator control device,

an acquisition module for acquiring the temperature collected by the defrost sensor of the refrigerator;

a determination module configured to determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;

and an adjusting module configured to adjust a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and control the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, the adjustment module,

a first determination unit for determining whether the current defrosting heater of the refrigerator is within an operating period;

When the current defrost heater of the refrigerator is not within the operating cycle, a first adjustment for adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point contains the unit

Preferably, the adjustment module,

an acquisition unit for acquiring a time point of the previous adjustment of the operation-stop temperature point of the refrigerator compressor;

a determination unit configured to determine a time difference between a current time point and the previous adjustment time point;

and a second adjustment unit configured to adjust a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when the time difference is greater than the preset time difference, and control the refrigerator compressor to operate at the adjusted operation-stop temperature point. do.

Preferably, the refrigerator control device,

a recording module for recording a current adjustment time point of the operation-stop temperature point and accumulating operation time of the refrigerator compressor at the operation-stop temperature point adjusted by a timer of the refrigerator;

When the operation time reaches a preset time, the refrigerator compressor may further include a return module for controlling the return of the operation-stop temperature point to the preset operation-stop temperature point.

Preferably, the adjustment module,

a second determination unit for determining whether there is a door opening/closing operation in the current refrigerator;

When there is no door opening/closing operation in the current refrigerator, a third adjusting unit is configured to adjust a preset operation/stop temperature point of the refrigerator compressor according to the temperature difference and control the refrigerator compressor to operate at the adjusted operation/stop temperature point. include

In addition, in order to achieve the above object, the present invention further provides a refrigerator control device, wherein the refrigerator control device includes a processor, a memory, and a refrigerator control program stored in the memory, and when the refrigerator control program is executed by the processor , the steps of the refrigerator control method described in the first item are realized.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

Determining whether the current defrosting heater of the refrigerator is within an operating period;

When the current defrost heater of the refrigerator is not within the operating cycle, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. do.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

obtaining a previous adjustment time point of the operation-stop temperature point of the refrigerator compressor;

determining a time difference between a current time point and the previous adjustment time point;

and adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when the time difference is greater than the preset time difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, after adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

recording a current adjustment time point of the operation-stop temperature point and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through a timer of the refrigerator;

The method further includes controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point when the operation time reaches a preset time period.

Preferably, the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

determining whether there is a door opening/closing operation in the current refrigerator;

The method further includes adjusting a preset operation/stop temperature point of the refrigerator compressor according to the temperature difference when there is no door opening/closing operation in the current refrigerator, and controlling the refrigerator compressor to operate at the adjusted operation/stop temperature point.

Preferably, after obtaining the temperature collected by the defrost sensor of the refrigerator,

obtaining a refrigerating temperature collected by a refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;

The method further includes adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Preferably, the operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, and adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference comprises:

determining a temperature compensation value of a temperature point between operation and stop of the refrigerator compressor according to the temperature difference;

and lowering a preset compressor stop temperature point according to the temperature compensation value and/or increasing a preset compressor operating temperature point according to the temperature compensation value.

In addition, in order to achieve the above object, the present invention further provides a computer storage medium in which a refrigerator control program is stored, and when the refrigerator control program is executed by a processor, the steps of the refrigerator control method described above are realized.

Compared with the prior art, the present invention acquires the temperature collected by the defrosting sensor of the refrigerator; determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range; Provided is a refrigerator control method for adjusting a preset operation-stop temperature point of a refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point, and the temperature collected by the defrost sensor of the refrigerator in this way. By adjusting the operation-stop temperature point of the refrigerator compressor according to the above, the cooling rate of the load cooling of the freezer compartment of the refrigerator is improved, and the cooling of the freezer compartment load of the refrigerator caused by controlling the operation and stop of the compressor using the refrigeration sensor in the prior art is The cooling effect of the refrigerator has been improved by solving the technical problem of slowing down.

1 is a schematic diagram of the hardware structure of a refrigerator control device according to each embodiment of the present invention;
2 is a flowchart of a first embodiment of a refrigerator control method of the present invention;
3 is a flowchart of a second embodiment of a refrigerator control method of the present invention;
4 is a flowchart of a third embodiment of a refrigerator control method of the present invention;
5 is a flowchart of a fourth embodiment of a refrigerator control method of the present invention;
6 is a schematic diagram of functional modules of an embodiment of the refrigerator control device of the present invention.
Realization of the objects, functional features and advantages of the present invention will be described in more detail in relation to embodiments with reference to the accompanying drawings.

It should be understood that the specific embodiments described herein are not intended to limit the invention, but are used only to illustrate the invention.

Referring to Figure 1, Figure 1 is a schematic diagram of the hardware structure of a refrigerator control device according to each embodiment of the present invention. In an embodiment of the present invention, the refrigerator control device includes a processor 1001 (e.g., a central processing unit (CPU)), a communication bus 1002, an input port 1003, an output port 1004, and a memory 1005. ) may be included. Here, the communication bus 1002 is used to implement connection and communication between these components; input port 1003 is used for data input; The output port 1004 is used for data output, the memory 1005 can be a non-volatile memory, such as a high-speed RAM memory or a disk memory, and the memory 1005 optionally includes the processor 1001 described above. It may also be an independent storage device. Those skilled in the art will understand that the hardware structure shown in FIG. 1 does not limit the present invention, and may include more or fewer components, combine certain components, or have other component arrangements than those shown in the drawing. I can understand.

Referring continuously to FIG. 1 , the memory 1005 as a readable storage medium of FIG. 1 may include an operating system, a network communication module, an application program module, and a refrigerator control program. In the terminal shown in Fig. 1, the output port 1004 is mainly used for connecting to the background server to perform data communication with the background server; The input port 1003 is mainly used for connecting to a client to perform data communication with the client; The processor 1001 can be used to call a heating standby indoor unit control program stored in the memory 1005.

In this embodiment, the heating standby indoor unit control device includes a memory 1005, a processor 1001, and a refrigerator control program stored in the memory 1005 and executable by the processor 1001, wherein the processor 1001 When calling the refrigerator control program stored in the memory 1005,

obtaining the temperature collected by the defrost sensor of the refrigerator;

determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;

An operation of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point is performed.

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

determining whether the current defrost heater of the refrigerator is within an operating period;

When the current defrost heater of the refrigerator is not within the operating period, an operation of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point is further performed. can do.

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

obtain the last adjustment time point of the operation-stop temperature point of the refrigerator compressor;

determine a time difference between a current time point and the previous adjustment time point;

When the time difference is greater than the preset time difference, an operation of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point may be further performed.

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

recording the current adjustment time point of the operation-stop temperature point, and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through the timer of the refrigerator;

When the operation time reaches a preset time, an operation of controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point may be further performed.

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

determining whether there is a door opening/closing operation in the current refrigerator;

When there is no door opening/closing operation in the current refrigerator, an operation of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point may be further performed. .

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

obtaining the refrigerating temperature collected by the refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;

An operation of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point may be further performed.

Furthermore, the processor 1001 calls the refrigerator control program stored in the memory 1005,

determine a temperature compensation value at a temperature point between operating and stopping the refrigerator compressor according to the temperature difference;

An operation of lowering a preset compressor stop temperature point according to the temperature compensation value and/or increasing a preset compressor operating temperature point according to the temperature compensation value may be further performed.

Based on the hardware structure shown in Fig. 1, a first embodiment of the present invention provides a refrigerator control method.

Referring to FIG. 2, FIG. 2 is a flowchart of a first embodiment of a refrigerator control method according to the present invention.

An embodiment of the present invention provides an embodiment of a refrigerator control method, and it should be noted that, although a logical sequence is shown in the flowchart, the steps shown or described may be performed in a different order than herein in some cases. Specifically, the refrigerator control method of this embodiment includes the following.

It should be noted that the refrigerator control method proposed in the present invention is applied to a direct-frequency refrigerator, and specifically, the direct-frequency refrigerator controls the compressor to operate and stop based on the temperature collected by a sensor inside the refrigerator. For example, based on the temperature inside the refrigerator collected by the sensor inside the refrigerator, when it is detected that the temperature inside the refrigerator t1 collected by the sensor has reached a preset operating temperature t', to perform cooling The compressor is controlled to start operating, and when it is sensed that the internal temperature t2 of the refrigerator collected by the sensor has reached a preset stop temperature (t″), the compressor is controlled to stop operating.

It should also be noted that at present, some direct-frequency refrigerators only have a refrigeration temperature sensor, an environment temperature sensor, and a defrost temperature sensor inside, but do not have a freezing temperature sensor. I use the temperature difference collected by the refrigeration temperature sensor and the environmental temperature sensor to control the operation and stop of the compressor. In other words, since the operation rate of the compressor is basically unchanged, the load put into the freezer cannot be quickly frozen and cooled. Therefore, in this embodiment, the above and other In order to solve the same problem, the following refrigerator control method is specifically proposed.

Step S10: Obtain the temperature collected by the defrost sensor of the refrigerator.

Specifically, in this embodiment, the defrost sensor is installed on the evaporator of the freezer compartment of the refrigerator to collect the temperature of the evaporator chamber. to improve the freezing effect of the freezer compartment of the refrigerator.

In addition, in this embodiment, the temperature collected by the defrost sensor of the refrigerator may be acquired in real time, or the temperature collected by the defrost sensor of the refrigerator may be periodically acquired. For example, the temperature collected by the defrost sensor of the refrigerator may be obtained every day. It can be obtained regularly at 2-hour intervals, or the temperature collected by the defrost sensor of the refrigerator after a preset action is detected. For example, when the action of opening and closing the door of the refrigerator is detected, the defrost sensor of the refrigerator When the collected temperature is obtained or when it is detected that the load parameter of the freezer compartment of the refrigerator reaches a preset load parameter, the temperature collected by the defrost sensor of the refrigerator may be obtained. Specifically, the load parameter is the load of the freezer compartment of the refrigerator. It should be noted that, in this embodiment, a corresponding weight sensor for detecting the weight of the load placed on the shelf is installed at the position of the hooking groove for seating the shelf in the freezer compartment of the refrigerator. When it is detected that the load weight variation in the freezer compartment exceeds a preset width, it indicates that there is an action of taking out a load and/or putting a new load in the freezer compartment. At this time, the temperature collected by the defrost sensor of the refrigerator is obtained and Based on the temperature collected by the defrost sensor, it is easy to understand that the freezing effect of the freezer compartment of the refrigerator is improved.

In addition, in some embodiments, after obtaining the temperature collected by the defrost sensor of the refrigerator,

obtaining a refrigerating temperature collected by a refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;

The method further includes adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point.

Specifically, when the temperature collected by the defrost sensor of the refrigerator does not exceed a preset temperature range, it indicates that the temperature control of the freezer compartment of the current refrigerator is in a normal state, and the refrigeration temperature collected by the refrigeration sensor of the refrigerator is obtained; A preset operation-stop temperature point of the refrigerator compressor is adjusted according to the refrigerating temperature, and the refrigerator compressor is controlled to operate at the adjusted operation-stop temperature point.

Step S20: When the temperature exceeds a preset temperature range, a temperature difference between the temperature and a target temperature is determined.

Step S30: A preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is controlled to operate at the adjusted operation-stop temperature point.

Specifically, the preset temperature range refers to a temperature fluctuation range when the refrigerator operates normally after the refrigeration temperature control temperature of the refrigerator compartment is previously set. For example, the preset refrigeration temperature of the refrigerator compartment is -15 degrees. , and if the allowable fluctuation range of the refrigerator is 2 degrees above and below, the preset temperature range is -13 degrees to -17 degrees, the target temperature means a preset refrigerating temperature control temperature of the refrigerator compartment, and the preset operation-stop temperature The point means an operating-stop temperature point preset by a user or developer when the temperature fluctuation of the freezer compartment of the refrigerator is always within an ideal range of fluctuation range.

That is, when it is detected that the temperature collected by the defrost sensor of the refrigerator exceeds a preset temperature range, it indicates that the cold air inside the refrigerating compartment of the refrigerator cannot rapidly cool the load inside the refrigerator, that is, the preset temperature range of the refrigerator compressor is detected. It is necessary to improve the cooling effect of the refrigerator by increasing the operation rate of the refrigerator compressor by adjusting the operation-stop temperature point.

In addition, for convenience of understanding, in this embodiment, the operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, and a method of adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference is described in detail as follows.

Depending on the temperature difference, a temperature compensation value at a temperature point at which the refrigerator compressor stops operating is determined.

A preset compressor stop temperature point is lowered according to the temperature compensation value and/or a preset compressor operating temperature point is increased according to the temperature compensation value.

Specifically, in this embodiment, the temperature difference between the temperature collected by the defrost sensor of the refrigerator and the target temperature is first calculated, and then the temperature compensation value of the operation-stop temperature point of the refrigerator compressor is calculated, where the temperature difference-operation-stop The preset function of temperature point compensation is t _compensation =αΔt, where t _compensation means the operating-stop temperature point compensation temperature, Δt means the temperature difference between the temperature collected by the defrost sensor of the refrigerator and the target temperature, and α is the general is the coefficient

In this step, it should be noted that the operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, that is, when it is detected that the temperature inside the refrigerator reaches the compressor operating temperature point, cooling In order to perform the operation, the compressor is controlled to start, and when it is detected that the temperature inside the refrigerator reaches the compressor stop temperature point, the compressor is controlled to stop operating, and this operation is periodically repeated to cool the refrigerator. where the compressor operating temperature point is higher than the compressor stop temperature point.

Therefore, in this embodiment, when the temperature collected by the defrost sensor of the refrigerator is too high, it is necessary to increase the operation rate of the refrigerator compressor by adjusting the preset operation-stop temperature point of the compressor, that is, in advance according to the temperature compensation value. The set compressor stop temperature point is lowered and/or the preset compressor operating temperature point is raised according to the temperature compensation value. For example, if the preset compressor stop temperature point is -15 degrees, the preset compressor operating temperature point is -12 degrees, and the temperature compensation value is 2 degrees, the preset compressor stop temperature point is lowered to -17 degrees, and the preset compressor stop temperature point is -17 degrees. By raising the temperature point to -13 degrees, the operation rate of the refrigerator compressor is increased to improve the cooling effect of the refrigerator cooling chamber.

In addition, in some embodiments, after adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,

recording a current adjustment time point of the operation-stop temperature point and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through a timer of the refrigerator;

The method further includes controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point when the operation time reaches a preset time period.

Specifically, the preset time is meant to limit the operation time of the refrigerator at the adjusted operation-stop temperature point, and when the refrigerator compressor is operated for a long time at the adjusted operation-stop temperature point, the temperature inside the refrigerator is increased by the user. The temperature becomes lower than the set temperature, so power consumption of the refrigerator increases. Therefore, in this embodiment, after adjusting the preset operation-stop temperature point of the refrigerator compressor, the current adjustment time of the operation-stop temperature point is recorded, Automatic timing is started by a timer, and after the cumulative operation time of the refrigerator compressor at the adjusted start-stop temperature point reaches the preset time, the start-stop temperature point of the refrigerator compressor returns to the preset start-stop temperature point. It is easy to understand that the refrigerator is automatically controlled to maintain normal cooling, and further prevents excessive power consumption of the refrigerator from affecting the user's feeling of use.

It should be understood that the above content is only for explanation, and does not constitute any limitation to the technical solution of the present invention, and a person skilled in the art may make settings according to actual application needs, and they are not listed one by one here.

This embodiment acquires the temperature collected by the defrost sensor of the refrigerator through the above solution; determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range; The preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, the refrigerator compressor is operated at the adjusted operation-stop temperature point, and the refrigerator compressor operates according to the temperature collected by the defrost sensor of the refrigerator. -Adjusting the stop temperature point improves the cooling rate of the load in the freezer compartment of the refrigerator, and solves the technical problem of slow cooling of the freezer compartment load in the refrigerator caused by controlling the operation and stop of the compressor using a refrigeration sensor in the prior art. This improves the cooling effect of the refrigerator.

Furthermore, based on the first embodiment of the refrigerator control method of the present invention, a second embodiment of the refrigerator control method of the present invention is proposed.

Referring to Figure 3, Figure 3 is a flow chart of a second embodiment of the refrigerator control method of the present invention;

The difference between the second embodiment of the refrigerator control method and the first embodiment of the refrigerator control method is that the preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is operated at the adjusted operation-stop temperature point. The step of controlling to operate further includes the following steps.

Step S301: It is determined whether the current defrosting heater of the refrigerator is within an operating period.

Step S302: When the current defrosting heater of the refrigerator is not within the operating period, the preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is controlled to operate at the adjusted operation-stop temperature point.

Specifically, the defrost heater of the refrigerator is installed below the refrigerator evaporator, and it should be noted that the current defrost heater of the direct frequency refrigerator is operated periodically to avoid severe freezing of the refrigerator. Therefore, the defrost heater of the refrigerator Since the defrost sensor is installed at the bottom of the refrigerator evaporator and is installed in the evaporator of the freezer compartment of the refrigerator to collect the temperature of the evaporator chamber, the temperature collected by the defrost sensor of the refrigerator increases greatly when the defrost heater operates.

Therefore, in the present embodiment, in order to prevent misjudgment of the control system of the refrigerator due to the operation of the defrost heater, after detecting that the temperature exceeds a preset temperature range, it is determined whether the current defrost heater of the refrigerator is within the operating period. It is necessary to first judge, if the current defrost heater of the refrigerator is not within the operating cycle, adjust the preset operating-stop temperature point of the refrigerator compressor according to the temperature difference, and if the current defrost heater of the refrigerator is within the operating cycle, the current It indicates that the temperature rise is due to the operation of the defrost heater, and the temperature control accuracy of the refrigerator is improved by controlling the refrigerator to operate according to a preset operation-stop temperature point.

It should be understood that the above content is only for explanation, and does not constitute any limitation to the technical solution of the present invention, and a person skilled in the art may make settings according to actual application needs, and they are not listed one by one here.

This embodiment determines whether the current defrosting heater of the refrigerator is within the operating period through the above solution; When the current defrost heater of the refrigerator is not within the operating cycle, the temperature of the refrigerator is controlled by adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. improve accuracy.

Furthermore, based on the first embodiment of the refrigerator control method of the present invention, a third embodiment of the refrigerator control method of the present invention is proposed.

Referring to Fig. 4, Fig. 4 is a flowchart of a third embodiment of a refrigerator control method of the present invention;

The difference between the third embodiment of the refrigerator control method and the first embodiment of the refrigerator control method is that the preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is operated at the adjusted operation-stop temperature point. The step of controlling to operate further includes the following steps.

Step S303: Acquire the last adjustment time point of the operation-stop temperature point of the refrigerator compressor.

Step S304: Determine a time difference between the current time point and the previous adjustment time point.

Step S305: When the time difference is greater than the preset time difference, the preset operating-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is controlled to operate at the adjusted operating-stop temperature point.

Specifically, the preset time difference is meant to limit the time interval between two adjacent adjustment actions for adjusting the preset operation-stop temperature point of the refrigerator compressor, for example, when the preset time difference is 48 hours, After adjusting the preset operating-stop temperature point of the current refrigerator compressor, the preset operating-stop temperature point of the refrigerator compressor may be adjusted again after at least 48 hours. Preferably, in this embodiment, the preset time difference is It is 24 hours.

In this step, it should be noted that, in this embodiment, the operation rate of the refrigerator compressor is controlled to reduce the power consumption of the refrigerator, and specifically, when it is detected that the preset operation-stop temperature point of the current refrigerator compressor needs to be adjusted, First, the previous adjustment time point of the operation-stop temperature point of the refrigerator compressor is obtained. In this embodiment, a clock module is installed in the refrigerator, and the clock module includes internal components of the refrigerator, such as information on when the refrigerator compressor operates and when it stops. is used to record operation time information each time, thus obtaining the previous adjustment time point of the operation-stop temperature point of the refrigerator compressor through the clock module of the refrigerator to determine the time difference from the previous adjustment time point to the present, for example The last time of adjustment was 2020/05/18; It is 18:00, and the current time is 2020/05/19; If it is 16:00, the time difference is 22 hours, that is, it indicates that the preset operation-stop temperature point of the refrigerator compressor has been adjusted 22 hours ago, and after obtaining the time difference, if the time difference is greater than the preset time difference, the current preset time difference of the refrigerator compressor Indicates that the operating-stop temperature point can be adjusted, if the time difference is not greater than the preset time difference, it indicates that the interval time from the previous adjustment to the present is too short, and adjusting again will increase the power consumption of the refrigerator, so the preset operation - It is easy to understand that the refrigerator compressor continues to operate at the stop temperature point.

It should be understood that the above content is only for explanation, and does not constitute any limitation to the technical solution of the present invention, and a person skilled in the art may make settings according to actual application needs, and they are not listed one by one here.

This embodiment obtains the previous adjustment time point of the operation-stop temperature point of the refrigerator compressor through the above solution; determine a time difference between the current time point and the previous adjustment time point; When the time difference is greater than the preset time difference, the preset operating-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is controlled to operate at the adjusted operating-stop temperature point, thereby reducing power consumption of the refrigerator.

Furthermore, based on the first embodiment of the refrigerator control method of the present invention, a fourth embodiment of the refrigerator control method of the present invention is proposed.

Referring to Fig. 5, Fig. 5 is a flowchart of a fourth embodiment of a refrigerator control method of the present invention;

The difference between the fourth embodiment of the refrigerator control method and the first embodiment of the refrigerator control method is that the preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is operated at the adjusted operation-stop temperature point. The step of controlling to operate further includes the following steps.

Step S306: It is determined whether there is a door opening/closing operation in the current refrigerator.

Step S307: When there is no door opening/closing operation in the current refrigerator, a preset operation/stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and the refrigerator compressor is controlled to operate at the adjusted operation/stop temperature point.

In this step, since the temperature inside the refrigerating compartment of the refrigerator is generally lower than the environmental temperature of the environment where the refrigerator is located, when the freezer compartment door of the refrigerator is open, the defrost sensor of the refrigerator is affected by the environmental temperature of the environment where the refrigerator is located. It is easy to understand that the temperature collected by

Therefore, in this embodiment, in order to prevent misjudgment by the refrigerator control system, after detecting that the temperature exceeds a preset temperature range, it is necessary to first determine whether there is a door opening/closing operation in the current refrigerator. If there is no door opening and closing operation in the refrigerator, the preset operation-stop temperature point of the refrigerator compressor is adjusted according to the temperature difference, and if there is a door opening and closing operation in the current refrigerator, the time interval between the door opening operation and the door closing operation of the refrigerator is a preset time interval , and if the preset time interval is not exceeded, adjust the preset start-stop temperature point of the refrigerator compressor according to the temperature difference, and further improve the temperature control accuracy of the refrigerator at the preset time interval. , obtain the environment temperature collected by the environment sensor of the refrigerator, and detect that the environment temperature is higher than the temperature threshold, indicating that the rise in the current temperature is caused by the external environment temperature being too high, and the environment temperature is higher than the temperature When it is not higher than the threshold value, the temperature control accuracy of the refrigerator is improved by adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference.

It should be understood that the above content is only for explanation, and does not constitute any limitation to the technical solution of the present invention, and a person skilled in the art may make settings according to actual application needs, and they are not listed one by one here.

According to the present embodiment, it is determined whether there is a door opening/closing operation in the current refrigerator through the above solution; When there is no door opening/closing operation in the current refrigerator, the temperature control accuracy of the refrigerator is improved by adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. let it

In addition, this embodiment further provides a refrigerator control device. Referring to FIG. 6, FIG. 6 is a schematic diagram of functional modules of an embodiment of the refrigerator control device of the present invention.

In this embodiment, the refrigerator control device is a virtual device, and is stored in the memory 1005 of the refrigerator control device shown in FIG. 1 to obtain the temperature collected by the defrost sensor of the refrigerator; determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range; According to the temperature difference, the preset operation-stop temperature point of the refrigerator compressor is adjusted, and all functions of the refrigerator control program for controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point are realized.

Specifically, referring to FIG. 6, the refrigerator control device,

Acquisition module 10 for acquiring the temperature collected by the defrost sensor of the refrigerator;

a determination module 20 configured to determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;

and an adjustment module 30 for adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. In one embodiment, the adjustment module 30,

a first determination unit for determining whether the current defrosting heater of the refrigerator is within an operating period;

When the current defrost heater of the refrigerator is not within the operating cycle, a first adjustment for adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point contains the unit

In one embodiment, the adjustment module 30,

an acquisition unit for acquiring a time point of the previous adjustment of the operation-stop temperature point of the refrigerator compressor;

a determination unit configured to determine a time difference between a current time point and the previous adjustment time point;

and a second adjustment unit configured to adjust a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when the time difference is greater than the preset time difference, and control the refrigerator compressor to operate at the adjusted operation-stop temperature point. do.

In one embodiment, the refrigerator control device,

a recording module for recording a current adjustment time point of the operation-stop temperature point and accumulating operation time of the refrigerator compressor at the operation-stop temperature point adjusted by a timer of the refrigerator;

When the operation time reaches a preset time, the refrigerator compressor may further include a return module for controlling the return of the operation-stop temperature point to the preset operation-stop temperature point.

In one embodiment, the adjustment module 30,

a second determination unit for determining whether there is a door opening/closing operation in the current refrigerator;

When there is no door opening/closing operation in the current refrigerator, a third adjusting unit is configured to adjust a preset operation/stop temperature point of the refrigerator compressor according to the temperature difference and control the refrigerator compressor to operate at the adjusted operation/stop temperature point. include

In addition, an embodiment of the present invention further provides a computer storage medium in which a refrigerator control program is stored, but when the refrigerator control program is executed by a processor, the steps of the above-described refrigerator control method are realized, and a detailed description thereof is omitted.

It should be noted that, as used herein, the terms “comprise,” “comprise,” or any other variation thereof refer to a process, method, article, or system that includes a set of elements, as well as those elements, It is intended to include a non-exclusive inclusion, including other elements not expressly listed, or including elements unique to such process, method, article or system. Without further limitation, an element defined by the phrase “comprising of” does not preclude the presence of additional identical elements in a process, method, article, or system that includes that element.

The serial numbers of the above embodiments of the present invention are for illustration only, and do not indicate advantages and disadvantages of the embodiments.

Through the description of the above embodiments, those skilled in the art will clearly understand that the methods in the above embodiments can be implemented by software and a necessary general-purpose hardware platform, and of course can also be implemented by hardware, but in many cases the former is a better implementation. It is a form. Based on this understanding, the technical solution of the present invention can be implemented in the form of a software product essentially or contributing to the prior art, and the computer software product as described above is a storage medium (eg ROM / RAM) , magnetic disk, optical disk), and includes several instructions to enable the terminal device to execute the method described in various embodiments of the present invention.

The above content is only a preferred embodiment of the present invention, but does not limit the patent scope of the present invention, and any equivalent structure or process modification made using the content of the specification and drawings of the present invention, or direct or indirect in other related technical fields All used as are equally included in the patent protection scope of the present invention.

Claims (20)

Acquiring the temperature collected by the defrost sensor of the refrigerator;
determining a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;
and adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. According to claim 1,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
Determining whether the current defrosting heater of the refrigerator is within an operating period;
When the current defrost heater of the refrigerator is not within the operating cycle, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. How to control a refrigerator. According to claim 1,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
obtaining a previous adjustment time point of the operation-stop temperature point of the refrigerator compressor;
determining a time difference between a current time point and the previous adjustment time point;
If the time difference is greater than the preset time difference, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. . According to claim 1,
After adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
recording a current adjustment time point of the operation-stop temperature point and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through a timer of the refrigerator;
The refrigerator control method further comprising the step of controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point when the operation time reaches a preset time. According to claim 1,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
determining whether there is a door opening/closing operation in the current refrigerator;
and controlling a refrigerator compressor to operate at the preset operation/stop temperature point of the refrigerator compressor according to the temperature difference when there is no door opening/closing operation in the current refrigerator. method. According to claim 1,
After obtaining the temperature collected by the defrost sensor of the refrigerator,
obtaining a refrigerating temperature collected by a refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;
The refrigerator control method further comprises adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. According to any one of claims 1 to 6,
The operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, and adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference includes:
determining a temperature compensation value of a temperature point between operation and stop of the refrigerator compressor according to the temperature difference;
and lowering a preset compressor stop temperature point according to the temperature compensation value and/or raising a preset compressor operating temperature point according to the temperature compensation value. an acquisition module for acquiring the temperature collected by the defrost sensor of the refrigerator;
a determination module configured to determine a temperature difference between the temperature and a target temperature when the temperature exceeds a preset temperature range;
and an adjustment module configured to adjust a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and control the refrigerator compressor to operate at the adjusted operation-stop temperature point. According to claim 8,
The adjustment module,
a first determination unit for determining whether the current defrosting heater of the refrigerator is within an operating period;
When the current defrost heater of the refrigerator is not within the operating cycle, a first adjustment for adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point A refrigerator control device comprising a unit. According to claim 8,
The adjustment module,
an acquiring unit for acquiring a time point of the previous adjustment of the operation-stop temperature point of the refrigerator compressor;
a determination unit configured to determine a time difference between a current time point and the previous adjustment time point;
and a second adjustment unit configured to adjust a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when the time difference is greater than the preset time difference, and control the refrigerator compressor to operate at the adjusted operation-stop temperature point. Refrigerator control device that does. According to claim 8,
The refrigerator control device,
a recording module for recording a current adjustment time point of the operation-stop temperature point and accumulating operation time of the refrigerator compressor at the operation-stop temperature point adjusted by a timer of the refrigerator;
Refrigerator control device further comprising a reset module for controlling to return the operation-stop temperature point of the refrigerator compressor to the preset operation-stop temperature point when the operation time reaches a preset time. According to claim 8,
The adjustment module,
a second determination unit for determining whether there is a door opening/closing operation in the current refrigerator;
When there is no door opening/closing operation in the current refrigerator, a third adjusting unit is configured to adjust a preset operation/stop temperature point of the refrigerator compressor according to the temperature difference and control the refrigerator compressor to operate at the adjusted operation/stop temperature point. A refrigerator control device comprising: A refrigerator control device comprising a processor, a memory, and a refrigerator control program stored in the memory, wherein when the refrigerator control program is executed by the processor, the steps of the refrigerator control method according to claim 1 are realized. According to claim 13,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
Determining whether the current defrosting heater of the refrigerator is within an operating period;
When the current defrost heater of the refrigerator is not within the operating cycle, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. Refrigerator control device that does. According to claim 13,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
obtaining a previous adjustment time point of the operation-stop temperature point of the refrigerator compressor;
determining a time difference between a current time point and the previous adjustment time point;
If the time difference is greater than the preset time difference, adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. . According to claim 13,
After adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
recording a current adjustment time point of the operation-stop temperature point and accumulating operating time of the refrigerator compressor at the operation-stop temperature point adjusted through a timer of the refrigerator;
The refrigerator control device further comprising a step of controlling the operation-stop temperature point of the refrigerator compressor to return to the preset operation-stop temperature point when the operating time reaches a preset time. According to claim 13,
Adjusting a preset operation-stop temperature point of the refrigerator compressor according to the temperature difference and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point,
determining whether there is a door opening/closing operation in the current refrigerator;
and controlling a refrigerator compressor to operate at the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference when there is no door opening/closing operation in the current refrigerator. device. According to claim 13,
After obtaining the temperature collected by the defrost sensor of the refrigerator,
obtaining a refrigerating temperature collected by a refrigerating sensor of the refrigerator when the temperature does not exceed a preset temperature range;
The refrigerator control device further comprises the step of adjusting a preset operation-stop temperature point of the refrigerator compressor according to the refrigerating temperature, and controlling the refrigerator compressor to operate at the adjusted operation-stop temperature point. According to any one of claims 13 to 18,
The operation-stop temperature point of the compressor includes a compressor operating temperature point and a compressor stop temperature point, and adjusting the preset operation-stop temperature point of the refrigerator compressor according to the temperature difference includes:
determining a temperature compensation value of a temperature point between operation and stop of the refrigerator compressor according to the temperature difference;
and lowering a preset compressor stop temperature point according to the temperature compensation value and/or raising a preset compressor operating temperature point according to the temperature compensation value. A computer storage medium storing a refrigerator control program, wherein steps of the refrigerator control method according to any one of claims 1 to 7 are realized when the refrigerator control program is executed by a processor.

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