CN116859786A - Wireless control method, device, equipment and storage medium for cabinet door opening and closing - Google Patents

Abstract

The application relates to a wireless control method, a device, equipment and a storage medium for cabinet door opening and closing, and relates to the technical field of cabinet door control. The application has the effects of reducing the influence of the opening and closing times of the cabinet door on the control faults of the control main board and improving the control stability of the control panel and the main control board.

Description

Wireless control method, device, equipment and storage medium for cabinet door opening and closing

Technical Field

The application relates to the technical field of cabinet door control, in particular to a wireless control method, device and equipment for cabinet door opening and closing and a storage medium.

Background

At present, the wine cabinet on the market generally comprises a cabinet body, a cabinet door and a control panel assembled on the cabinet door, wherein the control panel is connected with a main control panel arranged inside the cabinet body through a wire, and the main control panel is further controlled to regulate and control the storage environment of the wine cabinet through operating the control panel.

The existing cabinet door control method is characterized in that cabinet doors are normally opened and closed in a door hinge rotating and opening mode, connecting wires between a control panel and a main control panel are connected through the inside of the door hinge to conduct traveling wires, in the process that the cabinet doors are continuously opened and closed, the connecting wires are in a continuously bent wearing state, as the inside of the connecting wires are electrified through iron wires or copper wires, the copper wires inside the connecting wires are easily broken or damaged due to poor contact caused by the increase of bending times, the aging of the connecting wires is accelerated, and accordingly control faults between the control panel and the main control panel are caused.

Disclosure of Invention

In order to reduce the influence of cabinet door opening and closing times on control faults of a control main board and improve the control stability of a control panel and a main control board, the application provides a wireless control method, device and equipment for cabinet door opening and closing and a storage medium.

The first object of the present application is achieved by the following technical solutions:

a wireless control method for opening and closing a cabinet door comprises the following steps:

acquiring the opening and closing state of a cabinet door, and synchronously controlling the communication state of a control panel and a main control board according to the opening and closing state;

When the connection state is off, the control panel is controlled to switch the power supply to a preset built-in capacitor;

when the communication state is on, the main control board is controlled to charge the control panel and the built-in capacitor at the same time.

Through adopting above-mentioned technical scheme, through the communication state between cabinet door open and shut state synchronous control panel and the main control board, through cabinet door open and shut the synchronous control mode to the communication state replace the circular telegram mode that the connecting wire is connected, thereby reduce the probability that the connecting wire is damaged in buckling between cabinet door open and shut, and the communication state between synchronous control panel and the main control board is the disconnection when cabinet door open, control panel's external power supply disconnection this moment, then control panel switches power supply into preset built-in electric capacity and supplies power the work, make control panel also can keep normal demonstration under cabinet door open state, the communication state between synchronous control panel and the main control board is the intercommunication when cabinet door is closed, at this moment control panel's external power supply intercommunication, then control main control board carries out synchronous charging simultaneously to control panel and built-in electric capacity, make control panel normally demonstrate under cabinet door closed state and carry out electric quantity storage in the built-in electric capacity, thereby make control panel can both guarantee normal display function under cabinet door open and shut state, reduce cabinet door open and shut times and to the control fault influence of control mainboard, help improving control panel and main control stability.

The present application may be further configured in a preferred example to: when the connection state is off, the control panel is controlled to switch the power supply to a preset built-in capacitor, and the method further comprises the following steps:

when the built-in capacitor performs power supply work, acquiring the residual electric quantity of the built-in capacitor and the power supply time of the built-in capacitor; when the residual electric quantity reaches a preset low-electricity limit value, analyzing the power consumption reason of the built-in capacitor according to the power supply time;

if the power consumption cause is a built-in capacitor fault, sending the operation parameters of the built-in capacitor to the control panel for display, and triggering a capacitor replacement early warning;

and if the power consumption source is in the long-time disconnection state, triggering an audible and visual alarm instruction for reminding the wine cabinet to be closed according to the disconnection time between the control panel and the main control panel.

By adopting the technical scheme, when the built-in capacitor performs power supply work, the residual capacity of the built-in capacitor and the power supply time of the built-in capacitor are obtained, whether the built-in capacitor normally performs power supply work or not is judged according to the residual capacity and the power supply time, when the residual capacity of the built-in capacitor reaches a preset low electricity limit value, the power consumption reason of the built-in capacitor is analyzed according to the power supply time, whether the power supply time is matched with the electric quantity use condition of the built-in capacitor is analyzed according to whether the power supply time is matched with the electric quantity use condition of the built-in capacitor, timely early warning is performed on the basis of the fault of the built-in capacitor or the abnormal use condition of the wine cabinet, if the power consumption reason is the fault of the built-in capacitor, such as no power charging or no power discharging, the running parameter of the built-in capacitor is sent to a control panel for display, and meanwhile, the capacitor replacement early warning is started to remind personnel of timely capacitor replacement, so that the power supply influence of the built-in capacitor abnormality on a wine cabinet control panel is reduced, when the power consumption reason is that a cabinet door is opened for a long time and a connection state is opened for a long time, the cabinet door is opened for a long time, namely, the opening time is analyzed according to the opening time of the connection state between the control panel, namely, when the cabinet door opening time reaches a low electricity limit value, and the low electricity limit value is triggered, and an alarm command is used for timely warning personnel to close.

The present application may be further configured in a preferred example to: if the power consumption factor is that the connection state is long-time disconnection, triggering an audible and visual alarm instruction for reminding the wine cabinet to be closed according to the disconnection time between the control panel and the main control panel, and further comprising:

acquiring abnormal environment parameters in the cabinet corresponding to the disconnection time according to the disconnection time;

respectively comparing the abnormal environmental parameters in the cabinet with the ideal storage environmental parameters in the control panel to obtain an abnormal storage parameter comparison result;

and adjusting the working power of the main control board according to the comparison result of the abnormal storage parameters, and carrying out parameter optimization processing on the abnormal environment parameters in the cabinet according to the adjusted working power.

By adopting the technical scheme, according to the disconnection time between the control panel and the main control panel, the in-cabinet abnormal environment parameters corresponding to the disconnection time are obtained, the parameter change condition of the in-cabinet environment is accurately monitored when the cabinet door is opened for a long time, the in-cabinet abnormal environment parameters are respectively compared with the ideal storage environment parameters stored in the control panel in advance, the abnormal storage parameter comparison result is obtained according to the parameter comparison difference value of each environment parameter, the accurate calculation of the difference value of the in-cabinet environment and the indoor environment in the disconnection time is facilitated according to the abnormal storage parameter comparison structure, the working power of the main control panel is regulated according to the abnormal storage parameter comparison result, the regulated working power is respectively subjected to parameter regulation on the in-cabinet abnormal environment parameters, the influence of the in-cabinet storage environment caused by the opening state of the cabinet door on the environment change of stored wine is reduced, and the storage stability of the stored wine is improved.

The present application may be further configured in a preferred example to: the method comprises the steps of respectively comparing the abnormal environment parameters in the cabinet with the ideal storage environment parameters in the control panel to obtain an abnormal storage parameter comparison result, and further comprises the following steps: comparing the abnormal temperature and humidity parameters in the cabinet with the ideal stored temperature and humidity parameters to obtain an abnormal temperature and humidity difference value in the abnormal disconnection state of the current cabinet door;

calculating the abnormal temperature and humidity difference value and the ideal storage temperature and humidity parameter to obtain a spoilage risk coefficient of each bottle of wine; obtaining the current residual wine quantity of each stored wine bottle in the cabinet;

and estimating the spoilage time of each bottle of wine in the current abnormal storage environment according to the current residual wine amount and the spoilage risk coefficient.

By adopting the technical scheme, the abnormal temperature and humidity parameters in the cabinet are compared with the ideal storage temperature and humidity parameters to obtain the abnormal temperature and humidity difference value in the abnormal disconnection state of the current cabinet door, so that the change condition of the cabinet storage environment parameters caused by the long-time opening of the cabinet door can be accurately monitored according to the abnormal temperature and humidity difference value, the deterioration risk coefficient calculation is carried out on the abnormal temperature and humidity difference value and the ideal storage temperature and humidity parameters, the accurate assessment of the deterioration risk caused by the current abnormal temperature and humidity parameters on each bottle of wine is facilitated, the current residual wine quantity of each bottle of wine stored in the cabinet is obtained, the deterioration risk corresponding to the stored wine is analyzed according to the current residual wine quantity, the deterioration time of each bottle of wine in the current abnormal storage environment is estimated according to the current residual wine quantity and the deterioration risk coefficient, and the monitoring of the deterioration quality guarantee period duration of each bottle of wine in the current abnormal storage environment is improved.

The present application may be further configured in a preferred example to: when the communication state is on, the main control board is controlled to charge the control panel and the built-in capacitor simultaneously, and the method further comprises the following steps:

when the main control board is communicated with the control panel, controlling the main control board to acquire storage environment parameters in the wine cabinet;

comparing the storage environment parameters with ideal storage parameters prestored in the control panel respectively to obtain parameter comparison results;

according to the parameter comparison result, whether the current storage environment meets the storage requirement of the stored wine or not is analyzed;

if not, controlling the main control board to adjust the storage environment parameters of the current storage environment.

By adopting the technical scheme, when the main control board is connected with the control panel, namely the cabinet door is closed, the main control board is controlled to acquire the storage environment parameters in the cabinet, the internal closed storage environment of the cabinet in the closed state is monitored, the storage environment parameters are compared with the ideal storage environment parameters prestored in the control panel respectively, the gap between the current storage environment and the optimal storage environment parameters of the stored wine is judged according to the parameter comparison result, whether the current storage environment meets the storage requirement of the stored wine is analyzed according to the parameter comparison result, the real-time analysis is facilitated on the optimal storage environment requirement of the stored wine, the storage environment parameters of the current storage environment are timely controlled to be adjusted when the storage requirement of the current storage environment and the storage requirement of the stored wine are not matched, the accurate adjustment on the current storage environment parameters according to the storage environment required by the variety of the stored wine is facilitated, and the suitability between the actual storage environment parameters and the storage requirement of the stored wine is improved.

The present application may be further configured in a preferred example to: the control of the main control board adjusts the storage environment parameters of the current storage environment, and specifically comprises the following steps:

acquiring a temperature and humidity parameter comparison result of the current storage environment, and respectively controlling a temperature and humidity regulation module electrically communicated with the main control board to regulate the temperature and humidity in the cabinet according to the temperature and humidity parameter comparison result;

and when the adjusted temperature and humidity parameters are matched with preset storage requirements, controlling a power supply circuit of the temperature and humidity adjusting module to enter a dormant state.

Through adopting above-mentioned technical scheme, according to the humiture parameter comparison result of the ideal storage parameter that current storage environment and control panel preset, come the humiture regulation module that control and main control board electricity communicate respectively carry out the regulation of temperature in the cabinet, help pertinently with the temperature and the humidity of cabinet storage environment respectively adjust, improve the adjustment accuracy of cabinet internal environment parameter, and when the humiture parameter after adjusting and preset storage demand looks adaptation, in time break off the power supply circuit of humiture regulation module, make the power supply circuit of humiture regulation module carry out dormancy state, improve power supply's electric energy and transfer rationality.

The present application may be further configured in a preferred example to: the control of the main control board adjusts the storage environment parameters of the current storage environment, and the method further comprises the following steps:

acquiring the sealing state of stored wine in the cabinet;

when the stored wine is in an unsealed state, analyzing whether the current storage environment meets the storage requirement of the unsealed wine;

if not, acquiring alcohol concentration data in the wine cabinet, and judging whether the unsealed wine is deteriorated according to the alcohol concentration data; when the unsealed wine is in a spoiled state, the spoiled parameters of the unsealed wine are sent to the control panel for display, and meanwhile, the ventilation equipment is controlled to perform internal ventilation treatment on the wine cabinet.

By adopting the technical scheme, not only can unsealed wine be stored in the wine cabinet, but also some unsealed but not drunk wine can be stored, so that the sealed state of the stored wine in the cabinet is obtained, the stored wine is classified and stored according to the sealed state, the storage effectiveness of the unsealed wine is improved, and when the stored wine is in the unsealed state, the current storage environment of the unsealed wine is analyzed to be in accordance with the storage requirement of the unsealed wine, so that dynamic analysis is carried out on the current storage environment according to the actual storage requirement of each unsealed wine, the suitability between the current storage environment and the storage requirement of the unsealed wine is improved, and when the current storage environment cannot meet the storage requirement of the unsealed wine, the alcohol concentration data in the cabinet is obtained, whether the unsealed wine is spoiled or not is judged according to the alcohol concentration data, the influence of spoilage on other wines is reduced in time, and when the unsealed wine is in the spoilage state, spoilage parameters of the unsealed wine are sent to a control panel to be displayed, so that personnel are reminded to remove the wine, and meanwhile, the ventilation treatment is carried out on the interior of the wine is carried out on the wine, and the ventilation treatment is carried out on the ventilation of the inside the wine cabinet.

The second object of the present application is achieved by the following technical solutions:

a wireless control device for opening and closing a cabinet door, comprising:

the data acquisition module is used for acquiring the opening and closing state of the cabinet door and synchronously controlling the communication state of the control panel and the main control panel according to the opening and closing state;

the power supply switching module is used for controlling the control panel to switch the power supply to a preset built-in capacitor when the connection state is disconnected;

and the master control synchronous module is used for controlling the master control board to charge the control panel and the built-in capacitor simultaneously when the communication state is on.

Through adopting above-mentioned technical scheme, through the communication state between cabinet door open and shut state synchronous control panel and the main control board, through cabinet door open and shut the synchronous control mode to the communication state replace the circular telegram mode that the connecting wire is connected, thereby reduce the probability that the connecting wire is damaged in buckling between cabinet door open and shut, and the communication state between synchronous control panel and the main control board is the disconnection when cabinet door open, control panel's external power supply disconnection this moment, then control panel switches power supply into preset built-in electric capacity and supplies power the work, make control panel also can keep normal demonstration under cabinet door open state, the communication state between synchronous control panel and the main control board is the intercommunication when cabinet door is closed, at this moment control panel's external power supply intercommunication, then control main control board carries out synchronous charging simultaneously to control panel and built-in electric capacity, make control panel normally demonstrate under cabinet door closed state and carry out electric quantity storage in the built-in electric capacity, thereby make control panel can both guarantee normal display function under cabinet door open and shut state, reduce cabinet door open and shut times and to the control fault influence of control mainboard, help improving control panel and main control stability.

The third object of the present application is achieved by the following technical solutions:

the computer equipment comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor realizes the steps of the wireless control method for opening and closing the cabinet door when executing the computer program.

The fourth object of the present application is achieved by the following technical solutions:

a computer readable storage medium storing a computer program which when executed by a processor performs the steps of the wireless control method for opening and closing a cabinet door described above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the communication state between the control panel and the main control board is synchronously controlled through the opening and closing state of the cabinet door, the synchronous control mode of the communication state is used for replacing the electrifying mode of connection of the connecting wire, so that the probability of bending damage of the connecting wire between the opening and closing of the cabinet door is reduced, the communication state between the synchronous control panel and the main control board is disconnected when the cabinet door is opened, the external power supply of the control panel is disconnected, the control panel switches the power supply source into a preset built-in capacitor to perform power supply operation, so that the control panel can be normally displayed in the opening state of the cabinet door, when the cabinet door is closed, the communication state between the synchronous control panel and the main control board is communicated, at the moment, the external power supply of the control panel is communicated, the control panel synchronously charges the control panel and the built-in capacitor, and the control panel can normally display in the cabinet door closing state and store electric quantity in the built-in capacitor, so that the control panel can ensure normal display functions in the opening and closing state of the cabinet door, reduce the control fault influence of the cabinet door on the control main board, and the control stability of the control panel and the main control panel can be improved;

2. When the built-in capacitor performs power supply work, the residual electric quantity of the built-in capacitor and the power supply time of the built-in capacitor are obtained, whether the built-in capacitor normally performs power supply work or not is judged according to the residual electric quantity and the power supply time, when the residual electric quantity of the built-in capacitor reaches a preset low electric limit value, the power consumption reason of the built-in capacitor is analyzed according to the power supply time, whether the power supply time is matched with the electric quantity use condition of the built-in capacitor or not is analyzed, timely early warning is performed on the basis of faults of the built-in capacitor or abnormal use condition of the wine cabinet, if the power consumption reason is the faults of the built-in capacitor, if abnormal faults such as charging or discharging are not performed on the wine cabinet, the running parameters of the built-in capacitor are sent to a control panel to be displayed, and meanwhile, the capacitor is replaced with early warning is started to remind personnel of timely capacitor replacement, and the power supply influence of the built-in capacitor abnormality on the wine cabinet control panel is reduced, when the power consumption reason is that a cabinet door is opened for a long time and a connection state caused by opening for a long time, namely, when the cabinet door opening time is opened time is used for a cabinet door opening time, when the cabinet door opening time reaches the low electric work time limit value, the wine cabinet opening time is triggered, an audible and closed command is used for reminding personnel to conveniently close and has been improved warning;

3. According to the disconnection time between the control panel and the main control panel, acquiring the abnormal environment parameters in the cabinet corresponding to the disconnection time, facilitating accurate monitoring of parameter change conditions of the environment in the cabinet when the cabinet door is opened for a long time, respectively performing parameter comparison on the abnormal environment parameters in the cabinet and ideal storage environment parameters stored in the control panel in advance, obtaining an abnormal storage parameter comparison result according to the parameter comparison difference value of each environment parameter, facilitating accurate calculation of the difference value of parameter exchange between the environment in the cabinet and the indoor environment in the disconnection time according to the abnormal storage parameter comparison structure, adjusting working power of the main control panel according to the abnormal storage parameter comparison result, respectively performing parameter adjustment on the abnormal environment parameters in the cabinet by the adjusted working power, facilitating parameter optimization on the abnormal environment parameters in the cabinet in a cabinet door opening state, reducing the environmental fluctuation influence of stored wine caused by cabinet environment abnormality in the cabinet door opening state, and improving the storage stability of stored wine.

Drawings

Fig. 1 is a schematic diagram of a wireless power supply control circuit for a wine cabinet according to an embodiment of the application.

Fig. 2 is a flowchart of an implementation of a wireless control method for opening and closing a cabinet door according to an embodiment of the present application.

Fig. 3 is a flowchart illustrating a method for monitoring a residual electric power of a wireless control method for opening and closing a cabinet door according to an embodiment of the present application.

Fig. 4 is a flow chart of the regulation and control of the abnormal storage environment change of the wireless control method for cabinet door opening and closing of the application.

Fig. 5 is a flowchart of an implementation of deterioration monitoring of a wireless control method for opening and closing a cabinet door according to an embodiment of the present application.

Fig. 6 is a flowchart illustrating an implementation of storage environment adjustment of a wireless control method for cabinet door opening and closing according to an embodiment of the present application.

Fig. 7 is a flowchart of a wireless control method for opening and closing a cabinet door according to an embodiment of the present application in step S304.

Fig. 8 is a flow chart of a wireless control method for opening and closing a cabinet door and timely ventilation regulation and control implementation according to an embodiment of the application.

Fig. 9 is a block diagram of a wireless control device for opening and closing a cabinet door according to an embodiment of the present application.

Fig. 10 is a schematic diagram of the internal structure of a computer device for implementing a wireless control method for opening and closing a cabinet door.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

In this embodiment, through setting up wireless communication controlling means on the gradevin and carrying out wireless control to opening and shutting of wine cabinet door, as shown in fig. 1, wireless communication controlling means mainly includes the main control board, power interfacing apparatus and control panel, the main control board passes through power interfacing apparatus and is connected with the control panel electricity, be provided with wireless device on main control board and the control panel respectively, be provided with operation module and charging device on the control panel, charging device in this embodiment sets up to built-in electric capacity, wherein, power interfacing apparatus in this embodiment is travel switch, the main control board is connected with travel switch's one end electricity, control panel is connected with travel switch's the other end electricity, the main control board still is connected with wind speed adjusting device respectively, brightness adjusting device, temperature and humidity adjusting device, door controlling means and external power supply, wind speed adjusting device includes outer fan and interior fan, brightness adjusting device includes the LED light, temperature and humidity adjusting device includes the compressor, PTC heater and temperature probe.

In an embodiment, as shown in fig. 2, the application discloses a wireless control method for opening and closing a cabinet door, which specifically comprises the following steps:

s10: and acquiring the opening and closing state of the cabinet door, and synchronously controlling the communication state of the control panel and the main control panel according to the opening and closing state.

Specifically, the opening and closing state of the cabinet door is manually controlled by a person, when the cabinet door is opened, a travel switch between the control panel and the main control panel is disconnected, and the control panel is not communicated with the main control panel; when the cabinet door is closed, the travel switch between the control panel and the main control board is communicated, and then the control panel is communicated with the main control board, so that the communication state between the control panel and the main control board is synchronously controlled through the opening and closing state of the cabinet door.

S20: when the connection state is off, the control panel switches the power supply to a preset built-in capacitor.

Specifically, when the communication state between the control panel and the main control panel is disconnected, it is indicated that the cabinet door is in an open state at this time, and the travel switch between the control panel and the main control panel is disconnected, so that the main control panel cannot supply power to the control panel, and at this time, the power supply of the control panel is switched to a preset built-in capacitor, and power is supplied to the control panel through the built-in capacitor.

In an embodiment, in order to monitor the remaining power of the built-in capacitor in time, as shown in fig. 3, step S20 further includes:

s201: when the built-in capacitor performs power supply work, the residual electric quantity of the built-in capacitor and the power supply time of the built-in capacitor are obtained.

Specifically, when the built-in capacitor performs power supply operation, starting to calculate the discharge start time and the corresponding discharge current of the built-in capacitor, wherein the residual electric quantity is calculated by a formula (1), and the power supply time of the built-in capacitor is the time difference between the current power supply time and the discharge start time, and the formula (1) is as follows:

in this embodiment, the time can be counted from the time when the travel switch is turned off, t1 represents the current power supply time of the built-in capacitor, i (t) represents the discharge current of the built-in capacitor at the current power supply time, and the current flowing to the control panel of the built-in capacitor can be detected by an ammeter.

S202: and when the residual electric quantity reaches a preset low-electricity limit value, analyzing the power consumption reason of the built-in capacitor according to the power supply time.

Specifically, if the residual capacity of the built-in capacitor is set to be a low electric limit value when the residual capacity is 20% of the total capacity, when the residual capacity reaches the preset low electric limit value, the power consumption cause of the built-in capacitor is analyzed according to the power supply time of the built-in capacitor, if the built-in capacitor works normally, the current flow rate of the built-in capacitor in unit time is obtained by obtaining the current flow rate of the built-in capacitor in each unit time, the current flow rate corresponding to the current power supply time is calculated according to the power supply time and the corresponding residual capacity loss flow rate of the built-in capacitor, when the current flow rate approaches to the normal current flow rate in an error range, the built-in capacitor is indicated to be discharged for a long time due to the fact that the cabinet door is forgotten to be closed for a long time, and when the current flow rate is far higher than or far lower than the normal current flow rate, the current flow rate is indicated to be suddenly increased or reduced due to the fact that the built-in capacitor is indicated to the fact that the built-in capacitor is failed.

S203: if the power consumption cause is a fault of the built-in capacitor, the operation parameters of the built-in capacitor are sent to the control panel for display, and the capacitor replacement early warning is triggered.

Specifically, when the power consumption source is a fault of the built-in capacitor, the operation parameters of the built-in capacitor including the operation time and the current output condition in each unit time are sent to the control panel through a preset wireless communication module such as a Bluetooth or WiFi module, the operation parameters of the built-in capacitor are displayed through the control panel, and meanwhile, the capacitor replacement early warning is triggered to remind personnel to replace the faulty built-in capacitor in time.

S204: and if the power consumption is that the connection state is long-time disconnection, triggering an audible and visual alarm instruction for reminding the wine cabinet to be closed according to the disconnection time between the control panel and the main control panel.

Specifically, when the power consumption source is in a long-time disconnection state due to the fact that the communication state between the control panel and the main control panel is in a long-time opening state, whether the cabinet door is normally opened or is in a state of forgetting to close the cabinet door after the user takes wine is judged according to the disconnection time between the control panel and the main control panel, when the disconnection time reaches a preset threshold value, if preset five minutes, ten minutes and the like are taken as the threshold value, an audible and visual alarm instruction for reminding the user to carry out the wall of the cabinet is triggered according to the disconnection time, and an LED illuminating lamp preset on the cabinet body is controlled to carry out lamplight scintillation alarm.

In one embodiment, in order to timely regulate the abnormal storage environment change caused by the long-time opening of the cabinet door, as shown in fig. 4, after step S204, the method further includes:

s2041: and acquiring abnormal environment parameters in the cabinet corresponding to the disconnection time according to the disconnection time.

Specifically, according to the disconnection time between the control panel and the main control panel, acquiring the abnormal environment parameters in the cabinet corresponding to the disconnection time, wherein the abnormal environment parameters comprise parameter values after the heat exchange between the interior of the cabinet and the external environment of the cabinet in the disconnection time, such as temperature and humidity parameters in the cabinet after the heat exchange with the external environment of the cabinet, ventilation speed and the like, so as to obtain the abnormal environment parameters in the cabinet.

S2042: and respectively comparing the abnormal environment parameters in the cabinet with the ideal storage environment parameters in the control panel to obtain an abnormal storage parameter comparison result.

Specifically, when wine is stored in the wine cabinet, ideal storage environment parameters of the current wine are set in the control panel according to the storage environment requirements of the wine, when the cabinet door is opened for a long time to cause the change of the storage environment in the cabinet, the abnormal environment parameters in the cabinet are respectively compared with the ideal storage environment parameters, including temperature and humidity comparison and ventilation speed comparison, and the like, so that the abnormal storage parameter comparison result of the abnormal storage parameters caused by opening the cabinet door for a long time is obtained.

In one embodiment, in order to accurately monitor the spoilage of the unsealed wine, as shown in fig. 5, step S2042 further includes:

s401: and comparing the abnormal temperature and humidity parameters in the cabinet with the ideal stored temperature and humidity parameters to obtain an abnormal temperature and humidity difference value in the abnormal disconnection state of the current cabinet door.

Specifically, the abnormal temperature and humidity parameters in the cabinet are compared with the ideal stored temperature and humidity parameters to obtain an abnormal temperature difference and an abnormal humidity difference, and thus an abnormal temperature and humidity difference value under the abnormal disconnection state of the current cabinet door is obtained.

S402: and calculating the abnormal temperature and humidity difference value and the ideal storage temperature and humidity parameter to obtain the deterioration risk coefficient of each bottle of wine.

Specifically, the temperature difference ratio of the abnormal temperature difference to the ideal storage temperature parameter and the humidity difference ratio between the abnormal humidity difference and the ideal storage humidity parameter are calculated respectively, and the sum of the temperature difference ratio and the humidity difference ratio is used as the deterioration risk coefficient of each bottle of wine.

S403: the current residual wine quantity of each stored wine bottle in the cabinet is obtained.

Specifically, the current residual wine amount of each bottle of wine stored in the cabinet is obtained, for example, the image information of each bottle of wine is obtained through a preset image acquisition device, the current residual wine amount of each bottle of wine is judged according to scales on the body of the wine bottle through analyzing the image information, under the condition that the wine is spoiled due to storage abnormality, the larger the wine amount is, the larger the fermentation heat is generated when the wine amount is spoiled, and the spoiling risk of the current stored wine is judged more easily according to the current residual wine amount and the spoiling risk coefficient under the condition of the current environment abnormality.

S404: and estimating the spoilage time of each bottle of wine in the current abnormal storage environment according to the current residual wine quantity and the spoilage risk coefficient.

Specifically, the product of the current residual wine amount and the spoilage risk coefficient is used as spoilage time required when the current abnormal storage environment reaches the spoilage environment preset for each bottle of wine.

S2043: and adjusting the working power of the main control board according to the comparison result of the abnormal storage parameters, and carrying out parameter optimization processing on the abnormal environment parameters in the cabinet according to the adjusted working power.

Specifically, according to the comparison result of abnormal storage parameters, such as abnormal temperature and humidity difference, abnormal wind speed difference and the like, the control power of the main control board to the temperature and humidity adjusting device and the wind speed adjusting device is respectively adjusted according to the abnormal temperature and humidity difference, for example, when the cabinet door is opened for a long time to cause the temperature in the cabinet to rise, the control power of the compressor is adjusted according to the corresponding rising temperature difference to enable the refrigerating power of the compressor to rise so as to reduce the temperature in the cabinet, or when the convection is formed between the wind speed in the cabinet and the wind speed outside the cabinet, the external fan or the internal fan is adjusted to adjust the wind speed in the cabinet, and the parameter optimization is performed on the abnormal environmental parameters in the cabinet according to the adjusted working power, so that the internal environment of the cabinet in the state that the cabinet door is opened for a long time is close to the ideal storage environment.

S30: when the communication state is on, the control main control board charges the control panel and the built-in capacitor at the same time.

Specifically, when the communication state between the control panel and the main control panel is on, it indicates that the cabinet door is in the closed state at this time, and the travel switch between the control panel and the main control panel is closed to cause the main control panel to communicate with the power supply circuit of the control panel, then the power is supplied to the control panel through the main control panel, the power supply state of the built-in capacitor is changed into the charging state, and the power supply current of the main control panel is shunted, so that the control panel and the built-in capacitor colleague charge.

In one embodiment, in order to better adjust the current storage environment to meet the storage requirement of the stored wine, as shown in fig. 6, step S30 further includes:

s301: when the main control board is communicated with the control panel, the main control board is controlled to acquire the storage environment parameters in the wine cabinet.

Specifically, when the cabinet door is closed to lead to the travel switch on the preset cabinet body and the cabinet door to be communicated, then the main control panel is communicated with the control panel through the travel switch, and when the travel switch is communicated, the control panel controls the main control panel through the wireless communication device to acquire storage environment parameters inside the cabinet, for example, a working instruction is sent to the main control panel, temperature and humidity data inside the cabinet are acquired through a temperature and humidity sensor electrically connected with the main control panel, ventilation speed inside the cabinet is acquired through wind speed measuring equipment, and the like, so that the storage environment parameters inside the cabinet are obtained.

S302: and respectively comparing the storage environment parameters with ideal storage parameters prestored in the control panel to obtain a parameter comparison result.

Specifically, the storage environment parameters are respectively compared with ideal storage parameters prestored in the control panel, such as temperature and humidity parameters, wind speed parameters and the like of the current storage environment are respectively compared with the prestored ideal storage parameters, and the temperature and humidity parameter difference, the wind speed difference and the like obtained by comparison are used as corresponding parameter comparison results.

S303: and according to the parameter comparison result, analyzing whether the current storage environment meets the storage requirement of the stored wine.

Specifically, according to the parameter comparison result, whether the current storage environment meets the storage requirement of the stored wine is analyzed, if the stored wine needs to be stored in a low-temperature environment such as 10 ℃, if the temperature of the parameter comparison result of the current storage environment is too high such as 30 ℃, the current storage environment cannot meet the storage requirement of the stored wine, and if the stored wine needs to be stored in a dry environment, if the humidity of the parameter comparison result of the current storage environment is too high, the current storage environment is easy to cause deterioration of the stored wine, and the current storage environment does not meet the storage requirement of the stored wine.

S304: if not, the main control board is controlled to adjust the storage environment parameters of the current storage environment.

Specifically, as shown in fig. 7, step S304 includes the steps of:

s3041: and acquiring a temperature and humidity parameter comparison result of the current storage environment, and respectively controlling a temperature and humidity regulation module electrically communicated with the main control board to regulate the temperature and humidity in the cabinet according to the temperature and humidity parameter comparison result.

If the current storage environment can not meet the storage requirement of stored wine, the control panel controls the main control board to carry out parameter adjustment on the current storage environment through the wireless communication device, for example, according to the temperature and humidity parameter comparison result between the current storage environment and ideal storage environment parameters, the corresponding temperature and humidity adjustment modules are respectively controlled to carry out temperature and humidity adjustment in the cabinet through the temperature and humidity parameter comparison result, wherein the temperature and humidity adjustment modules comprise a compressor used for refrigerating, a heater used for heating and a temperature probe used for carrying out temperature acquisition in the cabinet, and the heater or the compressor of the main control board is controlled to adjust the temperature and humidity parameters of the current storage environment.

S3042: and when the adjusted temperature and humidity parameters are matched with the preset storage requirements, controlling a power supply circuit of the temperature and humidity adjusting module to enter a dormant state.

Specifically, when the temperature and humidity parameters after adjustment are matched with the preset storage requirements, namely, when the temperature and humidity parameters after adjustment approach to the preset ideal storage temperature and humidity parameters, the power supply circuit of the temperature and humidity adjustment module is controlled to be disconnected through the main control board, so that the power supply circuit of the compressor or the heater enters a dormant state.

In one embodiment, in order to timely ventilate the spoilage of the unsealed wine, the effect of the fermentation temperature caused by the spoilage of the alcohol on other stored wine is reduced, as shown in fig. 8, step S304 further includes:

s3043: and obtaining the sealing state of the stored wine in the cabinet.

Specifically, the sealed state of the stored wine in the cabinet is obtained, for example, a stored image of each bottle of stored wine is obtained through a preset image acquisition device, and the seal of the wine bottle or the residual wine amount in the bottle is comprehensively judged according to the stored image, so that the sealed state of the stored wine in the cabinet is obtained, and if the seal of the wine bottle is damaged, the wine bottle is judged to be unsealed, or if the seal of the wine bottle is perfect but the residual wine amount in the bottle is 50%, the wine bottle is judged to be unsealed.

S3044: when the stored wine is in an unsealed state, analyzing whether the current storage environment meets the storage requirement of the unsealed wine.

Specifically, when the stored wine is in an unsealed state, whether the current storage environment meets the sealing requirement of the unsealed wine is analyzed again, if the unsealed wine is stored at normal temperature, but the unsealed wine needs to be stored at 0-8 ℃, the storage temperature of the unsealed wine at the moment needs to be lower than the storage temperature of the unsealed wine so as to avoid bacteria from growing in the unsealed wine bottle, and therefore whether the current storage environment meets the storage requirement of the unsealed wine is judged.

S3045: if not, acquiring the alcohol concentration data in the wine cabinet, and judging whether the unsealed wine is deteriorated or not according to the alcohol concentration data.

Specifically, if the current storage environment does not meet the storage requirement of the unsealed wine, alcohol concentration data volatilized into the air in the wine cabinet is collected through the preset odor detection equipment, whether the unsealed wine is fermented or not or the condition that the unsealed wine is volatilized due to unsealing is facilitated to be judged through the alcohol concentration data, and when the alcohol concentration value in the air of the wine cabinet reaches a preset threshold value, the condition that the current unsealed wine is fermented and spoiled or is abnormally volatilized is indicated, so that whether the unsealed wine is spoiled or not is judged according to the alcohol concentration data.

S3046: when the unsealed wine is in a spoiled state, the spoiled parameters of the unsealed wine are sent to the control panel for display, and meanwhile, the ventilation equipment is controlled to perform internal ventilation treatment on the wine cabinet.

Specifically, when the unsealed wine is in a spoilage state, the alcohol volatilization concentration or the alcohol fermentation concentration of the unsealed wine is obtained, the current spoilage image of the unsealed wine is obtained through the image acquisition device, the alcohol concentration data and the spoilage image data are used as spoilage parameters to be sent to the control panel, the spoilage parameters are displayed in combination with the storage position of the unsealed wine, and ventilation equipment such as an external fan or an internal fan is controlled through the main control panel to ventilate the interior of the wine cabinet, so that the alcohol concentration in the air in the wine cabinet volatilizes outside the cabinet, and the influence on other stored wines is reduced.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic, and should not limit the implementation process of the embodiment of the present application.

In an embodiment, a wireless control device for opening and closing a cabinet door is provided, where the wireless control device for opening and closing a cabinet door corresponds to the wireless control method for opening and closing a cabinet door in the above embodiment one by one. As shown in fig. 9, the wireless control device for opening and closing the cabinet door comprises a data acquisition module, a power supply switching module and a master control synchronization module. The functional modules are described in detail as follows:

The data acquisition module is used for acquiring the opening and closing state of the cabinet door and synchronously controlling the communication state of the control panel and the main control panel according to the opening and closing state.

And the power supply switching module is used for controlling the control panel to switch the power supply to a preset built-in capacitor when the connection state is disconnected.

And the master control synchronous module is used for controlling the master control board to charge the control panel and the built-in capacitor simultaneously when the communication state is on.

Preferably, the power supply switching module further includes:

and the capacitance data acquisition sub-module is used for acquiring the residual electric quantity of the built-in capacitor and the power supply time of the built-in capacitor when the built-in capacitor performs power supply work.

And the power consumption analysis submodule is used for analyzing the power consumption reason of the built-in capacitor according to the power supply time when the residual electric quantity reaches a preset low-electric limit value.

And the capacitor replacement sub-module is used for sending the operation parameters of the built-in capacitor to the control panel for display if the power consumption cause is a built-in capacitor fault, and triggering the capacitor replacement early warning.

And the audible and visual alarm sub-module is used for triggering an audible and visual alarm instruction for reminding the wine cabinet to be closed according to the disconnection time between the control panel and the main control panel if the power consumption reason is that the connection state is long-time disconnection.

Preferably, the audible and visual alarm sub-module further comprises:

the abnormal parameter acquisition unit is used for acquiring abnormal environment parameters in the cabinet corresponding to the disconnection time according to the disconnection time.

The abnormal parameter comparison unit is used for respectively comparing the parameters of the abnormal environment in the cabinet with the ideal storage environment in the control panel to obtain an abnormal storage parameter comparison result.

And the parameter optimization unit is used for adjusting the working power of the main control board according to the comparison result of the abnormal storage parameters and carrying out parameter optimization processing on the abnormal environment parameters in the cabinet according to the adjusted working power.

Preferably, the abnormal parameter comparison unit further includes:

and the abnormal temperature and humidity comparison subunit is used for comparing the parameters of the abnormal temperature and humidity in the cabinet with the parameters of the ideal storage temperature and humidity to obtain an abnormal temperature and humidity difference value in the abnormal disconnection state of the current cabinet door.

And the deterioration coefficient calculating subunit is used for calculating the abnormal temperature and humidity difference value and the ideal storage temperature and humidity parameter to obtain the deterioration risk coefficient of each bottle of wine.

And the wine volume obtaining subunit is used for obtaining the current residual wine volume of each bottle of wine stored in the cabinet.

And the spoilage estimation subunit is used for estimating the spoilage time of each bottle of wine in the current abnormal storage environment according to the current residual wine quantity and the spoilage risk coefficient.

Preferably, the master control synchronization module further comprises:

and the environment parameter acquisition sub-module is used for controlling the main control board to acquire the storage environment parameters in the wine cabinet when the main control board is communicated with the control panel.

And the ideal parameter comparison sub-module is used for respectively comparing the storage environment parameters with the ideal storage parameters prestored in the control panel to obtain a parameter comparison result.

And the storage analysis sub-module is used for analyzing whether the current storage environment meets the storage requirement of the stored wine according to the parameter comparison result.

And the parameter adjusting sub-module is used for controlling the main control board to adjust the storage environment parameters of the current storage environment if not.

Preferably, the parameter adjusting submodule specifically includes:

and the temperature and humidity adjusting unit is used for acquiring the temperature and humidity parameter comparison result of the current storage environment, and respectively controlling the temperature and humidity adjusting module which is electrically communicated with the main control board to adjust the temperature and humidity in the cabinet according to the temperature and humidity parameter comparison result.

And the power supply control unit is used for controlling the power supply circuit of the temperature and humidity adjusting module to enter a dormant state when the adjusted temperature and humidity parameters are matched with preset storage requirements.

Preferably, the parameter adjustment sub-module further comprises:

The storage state acquisition unit is used for acquiring the storage state of the stored wine in the cabinet.

And the unsealing storage analysis unit is used for analyzing whether the current storage environment meets the storage requirement of the unsealed wine when the stored wine is in the unsealing state.

And the unsealing deterioration analysis unit is used for acquiring the alcohol concentration data in the wine cabinet if not, and judging whether the unsealed wine is deteriorated according to the alcohol concentration data.

And the ventilation control unit is used for sending the spoilage parameters of the unsealed wine to the control panel for display when the unsealed wine is in a spoilage state, and controlling the ventilation equipment to perform internal ventilation treatment on the wine cabinet.

For specific limitation of the wireless control device for opening and closing the cabinet door, reference may be made to the limitation of the wireless control method for opening and closing the cabinet door, which is not described herein. All or part of the modules in the wireless control device for opening and closing the cabinet door can be realized by software, hardware and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 10. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer equipment is used for storing environment parameters and corresponding adjusting parameters of the wine cabinet in the storing process. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by the processor to realize a wireless control method for opening and closing the cabinet door.

In one embodiment, a computer readable storage medium is provided, on which a computer program is stored, which when executed by a processor implements the steps of a wireless control method for opening and closing a cabinet door as described above.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions.

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

Claims (10)

1. The wireless control method for opening and closing the cabinet door is characterized by comprising the following steps of:

acquiring the opening and closing state of a cabinet door, and synchronously controlling the communication state of a control panel and a main control board according to the opening and closing state;

When the connection state is off, the control panel is controlled to switch the power supply to a preset built-in capacitor;

when the communication state is on, the main control board is controlled to charge the control panel and the built-in capacitor at the same time.

2. The wireless control method for opening and closing a cabinet door according to claim 1, wherein when the connection state is disconnection, the control panel is controlled to switch the power supply to a preset built-in capacitor, and the wireless control method further comprises:

when the built-in capacitor performs power supply work, acquiring the residual electric quantity of the built-in capacitor and the power supply time of the built-in capacitor;

when the residual electric quantity reaches a preset low-electricity limit value, analyzing the power consumption reason of the built-in capacitor according to the power supply time;

if the power consumption cause is a built-in capacitor fault, sending the operation parameters of the built-in capacitor to the control panel for display, and triggering a capacitor replacement early warning;

and if the power consumption source is in the long-time disconnection state, triggering an audible and visual alarm instruction for reminding the wine cabinet to be closed according to the disconnection time between the control panel and the main control panel.

3. The wireless control method for opening and closing a cabinet door according to claim 2, wherein if the power consumption factor is that the power consumption factor is disconnected for a long time, triggering an audible and visual alarm instruction for reminding that the cabinet is closed according to the disconnection time between the control panel and the main control panel, further comprising:

acquiring abnormal environment parameters in the cabinet corresponding to the disconnection time according to the disconnection time;

respectively comparing the abnormal environmental parameters in the cabinet with the ideal storage environmental parameters in the control panel to obtain an abnormal storage parameter comparison result;

and adjusting the working power of the main control board according to the comparison result of the abnormal storage parameters, and carrying out parameter optimization processing on the abnormal environment parameters in the cabinet according to the adjusted working power.

4. The wireless control method for opening and closing a cabinet door according to claim 3, wherein the step of comparing the abnormal environmental parameters in the cabinet with the ideal storage environmental parameters in the control panel to obtain an abnormal storage parameter comparison result, further comprises:

comparing the abnormal temperature and humidity parameters in the cabinet with the ideal stored temperature and humidity parameters to obtain an abnormal temperature and humidity difference value in the abnormal disconnection state of the current cabinet door;

Calculating the abnormal temperature and humidity difference value and the ideal storage temperature and humidity parameter to obtain a spoilage risk coefficient of each bottle of wine;

obtaining the current residual wine quantity of each stored wine bottle in the cabinet;

and estimating the spoilage time of each bottle of wine in the current abnormal storage environment according to the current residual wine amount and the spoilage risk coefficient.

5. The wireless control method for opening and closing a cabinet door according to claim 1, wherein when the communication state is on, the main control board is controlled to charge the control panel and the built-in capacitor simultaneously, and further comprising:

when the main control board is communicated with the control panel, controlling the main control board to acquire storage environment parameters in the wine cabinet;

comparing the storage environment parameters with ideal storage parameters prestored in the control panel respectively to obtain parameter comparison results;

according to the parameter comparison result, whether the current storage environment meets the storage requirement of the stored wine or not is analyzed;

if not, controlling the main control board to adjust the storage environment parameters of the current storage environment.

6. The wireless control method for opening and closing a cabinet door according to claim 5, wherein the controlling the main control board adjusts the storage environment parameters of the current storage environment, specifically includes:

Acquiring a temperature and humidity parameter comparison result of the current storage environment, and respectively controlling a temperature and humidity regulation module electrically communicated with the main control board to regulate the temperature and humidity in the cabinet according to the temperature and humidity parameter comparison result;

and when the adjusted temperature and humidity parameters are matched with preset storage requirements, controlling a power supply circuit of the temperature and humidity adjusting module to enter a dormant state.

7. The wireless control method for opening and closing a cabinet door according to claim 5, wherein the controlling the main control board adjusts the storage environment parameters of the current storage environment, further comprising:

acquiring the sealing state of stored wine in the cabinet;

when the stored wine is in an unsealed state, analyzing whether the current storage environment meets the storage requirement of the unsealed wine;

if not, acquiring alcohol concentration data in the wine cabinet, and judging whether the unsealed wine is deteriorated according to the alcohol concentration data;

when the unsealed wine is in a spoiled state, the spoiled parameters of the unsealed wine are sent to the control panel for display, and meanwhile, the ventilation equipment is controlled to perform internal ventilation treatment on the wine cabinet.

8. A wireless control device for opening and closing a cabinet door, comprising:

The data acquisition module is used for acquiring the opening and closing state of the cabinet door and synchronously controlling the communication state of the control panel and the main control panel according to the opening and closing state;

the power supply switching module is used for controlling the control panel to switch the power supply to a preset built-in capacitor when the connection state is disconnected;

and the master control synchronous module is used for controlling the master control board to charge the control panel and the built-in capacitor simultaneously when the communication state is on.

9. Computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor, when executing the computer program, realizes the steps of the wireless control method of the opening and closing of a cabinet door according to any one of claims 1 to 7.

10. A computer-readable storage medium storing a computer program, characterized in that the computer program, when being executed by a processor, implements the steps of the wireless control method of opening and closing a cabinet door according to any one of claims 1 to 7.