Trunk refrigeration apparatus control method and related device

By acquiring and displaying the status monitoring information of the front trunk refrigeration equipment and generating control commands, the problem of inaccurate temperature control of the front trunk refrigeration equipment in electric vehicles is solved, and precise equipment status adjustment and intelligent control are achieved.

CN122384401APending Publication Date: 2026-07-14SHENZHEN YANWAI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHENZHEN YANWAI TECH CO LTD
Filing Date
2026-05-26
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Temperature control in the refrigerated storage equipment in the front trunk of electric vehicles is inaccurate, and status monitoring is complex, making precise control difficult.

Method used

By acquiring the status monitoring information of the refrigerated equipment in the front trunk, a status monitoring screen is generated and displayed. Based on the monitoring information and the information of the refrigerated items, control commands are determined to control the refrigerated equipment to adjust its status, including the operation of the temperature control, oxygen supply, drainage and disinfection modules.

Benefits of technology

It improves the control accuracy and intelligence of the front trunk refrigeration equipment, ensuring the normal functioning of the refrigeration equipment and meeting the needs of different refrigerated items.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

Embodiments of the present application provide a trunk refrigeration equipment control method and related device, the method comprises: obtaining state monitoring information and refrigeration article information from the trunk refrigeration equipment; generating a state monitoring picture; transmitting the state monitoring picture to the display device of the target vehicle; determining a state control instruction according to the state monitoring information and the refrigeration article information; controlling the trunk refrigeration equipment to adjust the state. By obtaining the state monitoring information of the trunk refrigeration equipment and generating the state monitoring picture, the display device displays the state monitoring picture, the state of the trunk refrigeration equipment is monitored, and the state control instruction is generated according to the state monitoring information to control the trunk refrigeration equipment to adjust the state, so as to guarantee the normal function of the refrigeration equipment, which is beneficial to improve the accuracy and intelligence of the trunk refrigeration equipment control.
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Description

Technical Field

[0001] This application belongs to the field of front trunk refrigeration technology, specifically relating to a control method and related devices for front trunk refrigeration equipment. Background Technology

[0002] Currently, electric vehicles already have integrated in-vehicle refrigerators in their front trunks. The refrigerator evaporator is connected in parallel to the air conditioning or battery cooling circuit, and cooling is achieved through refrigerant diversion. However, the temperature in the front trunk is often high, and the environment in the front trunk is not as complex as that in the cabin, making it difficult to accurately monitor and control the status of the refrigeration equipment in the front trunk. Summary of the Invention

[0003] This application provides a method and related apparatus for controlling a front trunk refrigeration device. By acquiring the status monitoring information of the front trunk refrigeration device and generating a status monitoring screen, the device displays the status monitoring screen, thereby monitoring the status of the front trunk refrigeration device and generating status control commands based on the status monitoring information to control the front trunk refrigeration device to adjust its status, thus ensuring the normal function of the refrigeration device and improving the accuracy and intelligence of the front trunk refrigeration device control.

[0004] In a first aspect, embodiments of this application provide a control method for a front trunk refrigeration device, applied to a vehicle control system within a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration device and the vehicle control system of the target vehicle. The front trunk refrigeration device includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module, respectively. The method includes: The system acquires status monitoring information from the front trunk refrigeration equipment and information on refrigerated items. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. A status monitoring screen is generated based on the status monitoring information; The status monitoring screen is transmitted to the display device of the target vehicle, and the display device is used to display the status monitoring screen; Based on the status monitoring information and refrigerated item information, determine the status control command; According to the status control command, the front trunk refrigeration equipment is controlled to adjust its status.

[0005] In one possible example, determining the status control command based on the status monitoring information and the refrigerated item information includes: Based on the status monitoring information, the temperature information is determined; Determine the first temperature threshold based on the type of refrigerated goods; Based on the temperature information and the first temperature threshold, a second temperature adjustment command is determined for the temperature control module.

[0006] In one possible example, determining the second temperature adjustment command of the temperature control module based on the temperature information and the first temperature threshold includes: Get the ambient temperature of the front trunk; Based on the temperature information, determine the current refrigeration temperature; If it is determined that the current refrigeration temperature is greater than the first temperature threshold, then the target temperature to be adjusted is determined based on the ambient temperature, the current refrigeration temperature and the first temperature threshold. Based on the target temperature, a second temperature adjustment command is determined for the temperature control module.

[0007] In one possible example, after determining the temperature information based on the status monitoring information, the method further includes: Based on the refrigerated item information, determine the schedule information and the pre-storage duration of the refrigerated items; If a camping trip is determined based on the aforementioned schedule information, the target time is then set. Based on the target time, determine the activation control command for the temperature control module; Obtain navigation information for the target vehicle; Based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the third temperature adjustment command of the temperature control module is determined.

[0008] In one possible example, after determining the third temperature adjustment command of the temperature control module based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the method further includes: Obtain the current refrigeration temperature of the refrigerated storage space; If it is determined that the current refrigeration temperature is greater than the second temperature threshold, a temperature reminder message is generated and sent to the user's terminal device. Generate a temperature reminder voice message and transmit the temperature reminder voice message to the voice playback device of the target vehicle.

[0009] In one possible example, determining the status control command based on the status monitoring information and the refrigerated item information includes: Based on the refrigerated item information, determine the type of refrigerated item; When the type of refrigerated item is aquatic living organisms, the oxygen supply module is activated based on its status information. If the oxygen supply module is not activated, the analysis result of whether the oxygen supply module is activated is determined based on the temperature information, current oxygen information and living organism density information. If the analysis results indicate that the oxygen supply module should be started, then an oxygen supply start command for the oxygen supply module is generated. If the oxygen supply module is in the activated state, the target oxygen information is determined based on the type of refrigerated item, the growth cycle of the refrigerated item, and the density of living organisms. Based on the current oxygen information and the target oxygen information, an oxygen supply adjustment command is generated for the oxygen supply module. The oxygen supply adjustment command includes adjusting at least one of the following parameters: oxygen supply power, oxygen supply pulse cycle, and gas output.

[0010] In one possible example, after generating an oxygen supply module start command if the analysis result indicates that the oxygen supply module should be activated, the method further includes: Acquire storage information of aquatic organisms, including container liquid level information, aquatic organism activity information, and item storage records; Based on the storage information, determine whether the aquatic creatures have been removed and whether no new aquatic creatures have been placed into the storage space; If it is determined from the storage information that the aquatic creature has been removed and no new aquatic creature has been added to the storage space, then a water discharge command and a first temperature adjustment command are generated for the drainage module, respectively. The system transmits a water discharge command to the drainage module and a first temperature adjustment command to the temperature control module. Obtain water discharge status information, which includes: container liquid level information, drainage flow rate information, and drainage pipeline pressure information; If it is determined from the water discharge status information that the water body has been completely discharged and there is no water accumulation in the drainage pipe, then a disinfection instruction for the disinfection module is generated. The disinfection command is transmitted to the disinfection module, which controls the disinfection module to perform ultraviolet disinfection on the storage space and spray disinfection on the drainage pipe.

[0011] In one possible example, determining whether the aquatic organism has been removed and whether no new aquatic organism has been added to the storage space based on the storage information includes: The target monitoring duration is determined based on the type of living organisms in the water. If, based on the storage records of the items, it is determined that aquatic organisms have been removed, and it is determined that no aquatic organisms are present within the target monitoring period, and it is determined that the oxygen content in the water is greater than a preset oxygen threshold, the rate of change of dissolved oxygen in the water is less than or equal to a preset rate threshold, and it is determined that the water level has not risen abnormally, then it is determined that the aquatic organisms have been removed and no new aquatic organisms have been added to the storage space.

[0012] Secondly, embodiments of this application provide a front trunk refrigeration equipment control device, applied to a vehicle control system within a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration device and the vehicle control system of the target vehicle. The front trunk refrigeration device includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module. The front trunk refrigeration equipment control device includes an acquisition unit, a generation unit, a transmission unit, a determination unit, and a control unit. The acquisition unit is used to acquire status monitoring information from the front trunk refrigeration equipment and to acquire refrigerated item information. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment working status information. The generation unit is used to generate a status monitoring screen based on the status monitoring information; The transmission unit is used to transmit the status monitoring screen to the display device of the target vehicle, and the display device is used to display the status monitoring screen; The determining unit is used to determine a status control command based on the status monitoring information and the refrigerated item information; The control unit is used to control the front trunk refrigeration equipment to adjust its state according to the state control command.

[0013] A third aspect of this application provides an electronic device including: a processor and a memory; and one or more programs stored in the memory and configured to be executed by the processor, the programs including instructions for some or all of the steps as described in the first aspect.

[0014] A fourth aspect of this application provides a computer-readable storage medium for storing a computer program that causes a computer to perform some or all of the steps described in the first aspect of this application.

[0015] A fifth aspect of this application provides a computer program product, comprising a non-transitory computer-readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps described in the first aspect of this application. This computer program product may be a software installation package.

[0016] As can be seen, in this embodiment, status monitoring information from the front trunk refrigeration equipment and information about the refrigerated items can be obtained first. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. Then, a status monitoring screen is generated based on the status monitoring information, and then transmitted to the display device of the target vehicle. The display device displays the status monitoring screen. Further, a status control command is determined based on the status monitoring information and the refrigerated item information. Finally, the status of the front trunk refrigeration equipment is adjusted according to the status control command. By obtaining the status monitoring information of the front trunk refrigeration equipment, generating a status monitoring screen, and displaying the status monitoring screen, the status of the front trunk refrigeration equipment is monitored, and a status control command is generated based on the status monitoring information to control the adjustment of the status of the front trunk refrigeration equipment, thereby ensuring the normal function of the refrigeration equipment and improving the accuracy and intelligence of the front trunk refrigeration equipment control. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a schematic diagram of the architecture of a front trunk refrigeration equipment control system provided in an embodiment of this application; Figure 2 This is a schematic diagram of the architecture of a front trunk refrigeration device provided in an embodiment of this application; Figure 3 This is a schematic flowchart of a front trunk refrigeration equipment control method provided in an embodiment of this application; Figure 4 This is a flowchart illustrating a method for determining oxygen information provided in an embodiment of this application; Figure 5 This is a schematic diagram of the structure of an electronic device provided in an embodiment of this application; Figure 6 This is a functional unit block diagram of a front trunk refrigeration equipment control device provided in an embodiment of this application. Detailed Implementation

[0019] To enable those skilled in the art to better understand the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present application, and not all embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present application.

[0020] The terms "first," "second," etc., in the specification, claims, and accompanying drawings of this application are used to distinguish different objects, not to describe a specific order. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion. For example, a process, method, system, product, or apparatus that includes a series of steps or units is not limited to the listed steps or units, but may optionally include steps or units not listed, or may optionally include other steps or units inherent to these processes, methods, products, or apparatuses.

[0021] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0022] In the embodiments of this application, "and / or" describes the relationship between associated objects, indicating that three relationships can exist. For example, A and / or B can represent the following three situations: A exists alone; A and B exist simultaneously; B exists alone. Among them, A and B can be singular or plural.

[0023] In this embodiment, the symbol " / " can indicate that the preceding and following objects are in an "or" relationship. Alternatively, the symbol " / " can also represent a division sign, i.e., performing a division operation. For example, A / B can mean A divided by B.

[0024] In the embodiments of this application, "at least one item" or its similar expression refers to any combination of these items, including any combination of a single item or a plurality of items. "One or more" means one or more, while "multiple" means two or more. For example, "at least one item" of a, b, or c can represent the following seven cases: a, b, c; a and b; a and c; b and c; a, b, and c. Each of a, b, and c can be an element or a set containing one or more elements.

[0025] In the embodiments of this application, "equal to" can be used with "greater than" and is applicable to technical solutions used when "greater than" is used; it can also be used with "less than" and is applicable to technical solutions used when "less than" is used. When "equal to" is used with "greater than", it is not used with "less than"; when "equal to" is used with "less than", it is not used with "greater than".

[0026] To better understand the solutions of the embodiments of this application, the electronic devices, related concepts and background that may be involved in the embodiments of this application will be introduced below.

[0027] The electronic device described in this application embodiment is a device with wireless communication capabilities, and may be referred to as a terminal, user equipment (UE), mobile station (MS), mobile terminal (MT), access terminal device, vehicle-mounted terminal device, industrial control terminal device, UE unit, UE station, mobile station, remote station, remote terminal device, mobile device, UE terminal device, wireless communication device, UE agent, or UE device, etc. The terminal device can be fixed or mobile. It should be noted that the terminal device can support at least one wireless communication technology, such as LTE, New Radio (NR), Wideband Code Division Multiple Access (WCDMA), etc. For example, terminal devices can be mobile phones, tablets, desktop computers, laptops, all-in-one computers, in-vehicle terminals, virtual reality (VR) terminal devices, augmented reality (AR) terminal devices, wireless terminals in industrial control, wireless terminals in self-driving, wireless terminals in remote medical surgery, wireless terminals in smart grids, wireless terminals in transportation safety, wireless terminals in smart cities, wireless terminals in smart homes, cellular phones, cordless phones, session initiation protocol (SIP) phones, wireless local loop (WLL) stations, personal digital assistants (PDAs), handheld devices with wireless communication capabilities, electronic devices or other processing devices connected to a wireless modem, wearable devices, terminal devices in future mobile communication networks, or terminal devices in future evolved public land mobile networks (PLMNs), etc. Electronic devices can be processing devices in the control system of the front trunk refrigeration equipment.

[0028] Please see Figure 1 , Figure 1 This is a schematic diagram of the architecture of a front trunk refrigeration equipment control system provided in an embodiment of this application. Figure 1As shown, the front trunk refrigeration equipment control system 1 includes a vehicle infotainment system 10, a front trunk refrigeration equipment 20, and a terminal device 30. The vehicle infotainment system 10 is connected to both the front trunk refrigeration equipment 20 and the terminal device 30.

[0029] The refrigeration equipment can be a refrigerator box or a refrigerator bag, and there is no limitation on it.

[0030] Please see Figure 2 The front trunk refrigeration unit 20 includes a refrigerated storage space 21, a temperature sensor 22, a temperature control module 23, an oxygen supply module 24, a drainage module 25, and a disinfection module 26. The vehicle control system 10 is connected to the temperature sensor 22, the temperature control module 23, the oxygen supply module 24, the drainage module 25, and the disinfection module 26.

[0031] The system includes multiple temperature sensors 22, which can be installed at different locations within the front trunk refrigeration unit to collect real-time temperature data from different areas. For example, one temperature sensor 22 can be placed at the bottom, top, and middle of the front trunk refrigeration unit 20. The temperature control module 23 may include a refrigeration unit and a heating unit. The temperature control module 23 can be used to lower or raise the temperature within the refrigerated storage space 21. The oxygen supply module 24 can supply oxygen to the water in the refrigerated storage space 21 when water or aquatic organisms are stored there, ensuring the survival of the aquatic organisms. The drainage module 25 includes a drain hole and a drain pipe. The drainage module 25 can open the drain hole to drain the water from the refrigerated storage space 21 through the drain pipe. The disinfection module includes an ultraviolet disinfection module and a spray disinfection module. The ultraviolet disinfection module is used to disinfect the refrigerated storage space 21 with ultraviolet light, and the spray disinfection module is used to disinfect the drain pipe with spray.

[0032] The vehicle control system 10 can send temperature reminders, alarms, and refrigerator status information to the terminal devices.

[0033] In one possible example, the vehicle control system 10 can first acquire status monitoring information from the front trunk refrigeration unit 20, as well as information about the refrigerated items. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration unit operating status information. The vehicle control system 10 then generates a status monitoring screen based on the status monitoring information. The vehicle control system 10 then transmits the status monitoring screen to the display device of the target vehicle, which displays the status monitoring screen. Further, the vehicle control system 10 determines a status control command based on the status monitoring information and the refrigerated item information. Finally, the vehicle control system 10 controls the front trunk refrigeration unit 20 to adjust its status according to the status control command. By acquiring the status monitoring information of the front trunk refrigeration unit 20, generating a status monitoring screen, and displaying the status monitoring screen on the display device, the status of the front trunk refrigeration unit 20 is monitored, and status control commands are generated based on the status monitoring information to control the front trunk refrigeration unit 20 to adjust its status. This ensures the normal functioning of the refrigeration unit and improves the accuracy and intelligence of the control of the front trunk refrigeration unit 20.

[0034] Please see Figure 3 , Figure 3 This is a flowchart illustrating a control method for a front trunk refrigeration device provided in an embodiment of this application. It is applied to the vehicle control system of a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration device and the vehicle control system of the target vehicle. The front trunk refrigeration device includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module. The method includes: Step S301: Obtain status monitoring information from the front trunk refrigeration equipment and obtain information on refrigerated items.

[0035] The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live organism density information, and refrigeration equipment operating status information.

[0036] The temperature information includes the current refrigeration temperature collected by multiple sensors in different areas of the refrigerated storage space; the current oxygen information is the oxygen content in the water in the refrigerated storage space; the oxygen supply module status information includes whether it is started or not, oxygen supply power, oxygen supply pulse cycle and gas output; the refrigeration equipment working status information includes the remaining power and the running time; and the living organism density information can be the number per unit volume.

[0037] The information on refrigerated items includes the type of refrigerated item and its growth cycle.

[0038] Step S302: Generate a status monitoring screen based on the status monitoring information.

[0039] The status monitoring screen includes temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information.

[0040] Step S303: The status monitoring screen is transmitted to the display device of the target vehicle, and the display device is used to display the status monitoring screen.

[0041] The display device is a vehicle-mounted touchscreen, where users can see status monitoring images and adjust the status of the front trunk refrigeration equipment via touch operation.

[0042] Step S304: Determine the status control command based on the status monitoring information and refrigerated item information.

[0043] The status control commands include, but are not limited to, the control of the temperature control module, oxygen supply module, drainage module, and disinfection module.

[0044] Step S305: Control the front trunk refrigeration equipment to adjust its state according to the state control command.

[0045] As can be seen, in this embodiment, status monitoring information from the front trunk refrigeration equipment and information about the refrigerated items can be obtained first. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. Then, a status monitoring screen is generated based on the status monitoring information, and then transmitted to the display device of the target vehicle. The display device displays the status monitoring screen. Further, a status control command is determined based on the status monitoring information and the refrigerated item information. Finally, the status of the front trunk refrigeration equipment is adjusted according to the status control command. By obtaining the status monitoring information of the front trunk refrigeration equipment, generating a status monitoring screen, and displaying the status monitoring screen, the status of the front trunk refrigeration equipment is monitored, and a status control command is generated based on the status monitoring information to control the adjustment of the status of the front trunk refrigeration equipment, thereby ensuring the normal function of the refrigeration equipment and improving the accuracy and intelligence of the front trunk refrigeration equipment control.

[0046] In one possible example, regarding the determination of the status control command based on the status monitoring information and the refrigerated item information, the above method may include the following steps: determining temperature information based on the status monitoring information; determining a first temperature threshold based on the type of refrigerated item; and determining a second temperature adjustment command for the temperature control module based on the temperature information and the first temperature threshold.

[0047] Different types of refrigerated items have different first temperature thresholds. For example, the first temperature threshold for fish is 20℃, for crustaceans it is 25℃, for shellfish it is 10℃, and for amphibians it is 18℃.

[0048] When the current refrigeration temperature is higher than the first temperature threshold, the temperature control module is controlled to lower the temperature.

[0049] As can be seen in this example, the first temperature threshold can be determined according to the type of refrigerated items, and the temperature control module can be controlled accordingly to adjust the temperature of the storage space, which helps to improve the accuracy and intelligence of temperature adjustment.

[0050] In one possible example, regarding the determination of the second temperature adjustment command of the temperature control module based on the temperature information and the first temperature threshold, the above method may include the following steps: obtaining the ambient temperature of the front trunk; determining the current refrigeration temperature based on the temperature information; if it is determined that the current refrigeration temperature is greater than the first temperature threshold, determining the target temperature to be adjusted based on the ambient temperature, the current refrigeration temperature, and the first temperature threshold; and determining the second temperature adjustment command of the temperature control module based on the target temperature.

[0051] When the vehicle is started, the ambient temperature in the front trunk rises, which affects the temperature control of the refrigeration equipment. For example, when the temperature of the refrigeration equipment is set to 15℃ (the first temperature threshold), the ambient temperature in the front trunk is 25℃, but the actual temperature of the refrigeration equipment only reaches 17℃.

[0052] The system can determine the target temperature difference between the ambient temperature and the first temperature threshold. It can also pre-store a reference temperature compensation set, which includes the correspondence between the temperature difference and the temperature compensation value. The system can query the reference temperature compensation set based on the target temperature difference to obtain the compensation value for the first temperature threshold. The system further compensates the first temperature threshold based on the compensation value to obtain the target temperature. The system then adjusts the temperature control module to the target temperature to ensure that the temperature control module can reduce the temperature in the refrigerated storage space of the front trunk refrigeration equipment to the temperature corresponding to the first temperature threshold.

[0053] As can be seen in this example, adjusting the temperature of the refrigeration equipment while taking into account the ambient temperature helps to improve the accuracy of temperature control.

[0054] In one possible example, after determining the temperature information based on the status monitoring information, the method further includes: determining schedule information and the pre-storage duration of the refrigerated items based on the refrigerated item information; determining a target time when a camping schedule is determined based on the schedule information; determining an activation control command for the temperature control module based on the target time; acquiring navigation information of the target vehicle; and determining a third temperature adjustment command for the temperature control module based on the type of refrigerated items, navigation information, schedule information, and the pre-storage duration of the refrigerated items.

[0055] Among them, if the target time is earlier than the departure time of the target vehicle for camping mentioned in the schedule information, the temperature control module will be activated in advance to lower the temperature in the cold storage space. Based on the analysis of the type of refrigerated items, navigation information, schedule information, and the pre-storage time of refrigerated items, when it is determined that the destination is approaching, the temperature of the refrigerator can be raised in advance to thaw the items. For example, if fresh food purchased on the night of the trip for the next day's camping trip has a long pre-storage time and needs to be frozen at a low temperature, the temperature of the refrigerator can be raised in advance to thaw the items based on the navigation information when it is determined that the destination is approaching.

[0056] The third temperature adjustment command is used to raise the temperature of the refrigeration equipment at a specified time point.

[0057] As can be seen in this example, refrigerated items can be thawed by raising the temperature beforehand, which helps to improve the intelligence of temperature control in refrigeration equipment.

[0058] In one possible example, after determining the third temperature adjustment command of the temperature control module based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the method further includes: obtaining the current refrigeration temperature of the refrigerated storage space; if it is determined that the current refrigeration temperature is greater than a second temperature threshold, determining a temperature reminder message and sending the temperature reminder message to the user's terminal device; generating a temperature reminder voice message, and transmitting the temperature reminder voice message to the voice playback device of the target vehicle.

[0059] The second temperature threshold can be set manually or by system default, and no restrictions are imposed here.

[0060] For example, the second temperature threshold is set to 20°C. When a beverage is placed in the refrigeration equipment, if the temperature in the refrigerated storage space is too high, the beverage will not taste good. Therefore, a temperature reminder message "The current refrigeration temperature is too high, please remove the beverage in time" is sent to the user's mobile phone in a timely manner, and the voice playback device of the target vehicle is controlled to announce "The current refrigeration temperature is too high, please remove the beverage in time" to make the user notice.

[0061] As can be seen in this example, timely temperature reminders can be given to users, which helps to improve the intelligence of temperature monitoring of the front trunk refrigeration equipment.

[0062] Please see Figure 4 In determining the status control command based on the status monitoring information and the refrigerated item information, the above method may include the following steps: Step S401: Determine the type of refrigerated item based on the refrigerated item information.

[0063] Among them, refrigerated items include aquatic and non-aquatic live animals, with aquatic live animals further divided into fish, crustaceans, shellfish and amphibians.

[0064] Step S402: When the type of refrigerated item is aquatic living organism, determine whether the oxygen supply module is activated based on the status information of the oxygen supply module.

[0065] Step S403: If the oxygen supply module is in an inactive state, then the analysis result of whether the oxygen supply module is activated is determined based on the temperature information, current oxygen information and living organism density information.

[0066] If the density of living organisms is low at the current refrigeration temperature and the oxygen content in the water is sufficient to support their survival, then the oxygen supply module need not be activated to provide additional oxygen. If the density of living organisms is high at the current refrigeration temperature and the oxygen content in the water is insufficient to support their survival, then the oxygen supply module needs to be activated to provide additional oxygen.

[0067] Step S404: If the analysis result indicates that the oxygen supply module is to be started, then an oxygen supply start command for the oxygen supply module is generated.

[0068] Among them, the oxygen supply start command is used to control the oxygen supply module to start supplying oxygen.

[0069] Step S405: If the oxygen supply module is in the start state, the target oxygen information is determined based on the type of refrigerated item, the growth cycle of the refrigerated item, and the density of living organisms.

[0070] Different types of refrigerated goods and those at different growth stages have varying oxygen requirements. Live organism density is directly proportional to oxygen content; higher density requires more oxygen. The target oxygen information refers to the oxygen content required for normal survival of living organisms in water at the current refrigeration temperature.

[0071] Step S406: Based on the current oxygen information and the target oxygen information, generate an oxygen supply adjustment command for the oxygen supply module. The oxygen supply adjustment command includes adjusting at least one of the following parameters: oxygen supply power, oxygen supply pulse cycle, and gas output.

[0072] Specifically, the oxygen supply module is controlled by an oxygen supply adjustment command to adjust the oxygen in the water to the target oxygen content indicated by the target oxygen information.

[0073] As can be seen in this example, the target oxygen information can be determined and the oxygen supply adjustment command of the oxygen supply module can be generated to meet the survival conditions of living organisms in the water, which is conducive to improving the accuracy and intelligence of oxygen supply control.

[0074] In one possible example, after generating an oxygen supply start command for the oxygen supply module if the analysis result indicates that the oxygen supply module should be activated, the above method may include the following steps: obtaining storage information of aquatic organisms, including container liquid level information, aquatic organism activity information, and item storage records; determining, based on the storage information, whether the aquatic organisms have been removed and whether no new aquatic organisms have been added to the storage space; if, based on the storage information, it is determined that the aquatic organisms have been removed and no new aquatic organisms have been added to the storage space, then generating a water discharge command for the drainage module. The system executes the following commands: First, it sends a temperature adjustment command; it transmits a water discharge command to the drainage module and a first temperature adjustment command to the temperature control module; it acquires water discharge status information, including container liquid level information, drainage flow rate information, and drainage pipe pressure information; if, based on the water discharge status information, it is determined that the water has been completely discharged and there is no water accumulation in the drainage pipe, it generates a disinfection command for the disinfection module; it transmits the disinfection command to the disinfection module, which controls the disinfection module to perform ultraviolet disinfection on the storage space and spray disinfection on the drainage pipe.

[0075] Information on the activity of living organisms in water can be indirectly captured through vibration sensors and changes in water turbidity.

[0076] Among these measures, while draining water, the temperature inside the storage space must be raised; that is, the first temperature adjustment command is used to adaptively raise the temperature.

[0077] Specifically, if the drainage pipe pressure information indicates that the drainage pipe pressure is lower than the preset pressure value, it means that there is no water accumulation in the drainage pipe. If the container liquid level information indicates that the liquid level in the storage space is lower than the preset liquid level, it means that the water has been completely drained.

[0078] As can be seen in this example, timely drainage and disinfection of the water after the live animals are removed from the water ensures the storage environment and helps improve the intelligence of the refrigeration equipment control.

[0079] In one possible example, determining whether the aquatic organisms have been removed and whether no new aquatic organisms have been added to the storage space based on the storage information includes: determining a target monitoring duration based on the type of aquatic organism; if the storage record indicates that aquatic organisms have been removed and that no aquatic organisms are present within the target monitoring duration, and that the oxygen content in the water is greater than a preset oxygen threshold and the rate of change of dissolved oxygen in the water is less than or equal to a preset rate threshold, and that there is no abnormal rise in the water level, then it is determined that the aquatic organisms have been removed and no new aquatic organisms have been added to the storage space.

[0080] The monitoring duration varies depending on the type of living organism in the water; for example, fish are monitored for 30 minutes and crustaceans for 60 minutes.

[0081] The preset oxygen threshold and preset rate threshold can be set manually or by system default, and are not limited here.

[0082] Among them, "no abnormal rise" means that the liquid level rise does not exceed the preset liquid level value within the preset time period.

[0083] As can be seen in this example, the storage information can accurately determine whether the aquatic organisms have been removed and whether there has been any new aquatic organism release into the storage space, which helps to improve the accuracy of water discharge.

[0084] Please see Figure 5 , Figure 5 This is a schematic diagram of the structure of an electronic device provided in an embodiment of this application, applied to a vehicle control system in a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration device and the vehicle control system of the target vehicle. The front trunk refrigeration device includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module, respectively. Figure 5 As shown, the electronic device includes a processor, a memory, a communication interface, and one or more programs, wherein the one or more programs are stored in the memory, and the one or more programs are configured to be executed by the processor according to the following instructions: The system acquires status monitoring information from the front trunk refrigeration equipment and information on refrigerated items. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. A status monitoring screen is generated based on the status monitoring information; The status monitoring screen is transmitted to the display device of the target vehicle, and the display device is used to display the status monitoring screen; Based on the status monitoring information and refrigerated item information, determine the status control command; According to the status control command, the front trunk refrigeration equipment is controlled to adjust its status.

[0085] As can be seen, in this embodiment of the application, the electronic device acquires the status monitoring information of the front trunk refrigeration equipment, generates a status monitoring screen, and displays the status monitoring screen to monitor the status of the front trunk refrigeration equipment. Based on the status monitoring information, it generates status control commands to control the front trunk refrigeration equipment to adjust its status, thereby ensuring the normal function of the refrigeration equipment and improving the accuracy and intelligence of the control of the front trunk refrigeration equipment.

[0086] In one possible example, regarding the determination of status control instructions based on the status monitoring information and refrigerated item information, the above procedure includes instructions for performing the following steps: Based on the status monitoring information, the temperature information is determined; Determine the first temperature threshold based on the type of refrigerated goods; Based on the temperature information and the first temperature threshold, a second temperature adjustment command is determined for the temperature control module.

[0087] In one possible example, regarding the determination of the second temperature adjustment instruction for the temperature control module based on the temperature information and the first temperature threshold, the above procedure includes instructions for performing the following steps: Get the ambient temperature of the front trunk; Based on the temperature information, determine the current refrigeration temperature; If it is determined that the current refrigeration temperature is greater than the first temperature threshold, then the target temperature to be adjusted is determined based on the ambient temperature, the current refrigeration temperature and the first temperature threshold. Based on the target temperature, a second temperature adjustment command is determined for the temperature control module.

[0088] In one possible example, after determining the temperature information based on the status monitoring information, the above procedure includes instructions for performing the following steps: Based on the refrigerated item information, determine the schedule information and the pre-storage duration of the refrigerated items; If a camping trip is determined based on the aforementioned schedule information, the target time is then set. Based on the target time, determine the activation control command for the temperature control module; Obtain navigation information for the target vehicle; Based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the third temperature adjustment command of the temperature control module is determined.

[0089] In one possible example, after determining the third temperature adjustment command of the temperature control module based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the above procedure includes instructions for performing the following steps: Obtain the current refrigeration temperature of the refrigerated storage space; If it is determined that the current refrigeration temperature is greater than the second temperature threshold, a temperature reminder message is generated and sent to the user's terminal device. Generate a temperature reminder voice message and transmit the temperature reminder voice message to the voice playback device of the target vehicle.

[0090] In one possible example, regarding the determination of status control instructions based on the status monitoring information and refrigerated item information, the above procedure includes instructions for performing the following steps: Based on the refrigerated item information, determine the type of refrigerated item; When the type of refrigerated item is aquatic living organisms, the oxygen supply module is activated based on its status information. If the oxygen supply module is not activated, the analysis result of whether the oxygen supply module is activated is determined based on the temperature information, current oxygen information and living organism density information. If the analysis results indicate that the oxygen supply module should be started, then an oxygen supply start command for the oxygen supply module is generated. If the oxygen supply module is in the activated state, the target oxygen information is determined based on the type of refrigerated item, the growth cycle of the refrigerated item, and the density of living organisms. Based on the current oxygen information and the target oxygen information, an oxygen supply adjustment command is generated for the oxygen supply module. The oxygen supply adjustment command includes adjusting at least one of the following parameters: oxygen supply power, oxygen supply pulse cycle, and gas output.

[0091] In one possible example, after generating an oxygen supply start command for the oxygen supply module if the analysis result indicates that the oxygen supply module should be activated, the above procedure includes instructions for performing the following steps: Acquire storage information of aquatic organisms, including container liquid level information, aquatic organism activity information, and item storage records; Based on the storage information, determine whether the aquatic creatures have been removed and whether no new aquatic creatures have been placed into the storage space; If it is determined from the storage information that the aquatic creature has been removed and no new aquatic creature has been added to the storage space, then a water discharge command and a first temperature adjustment command are generated for the drainage module, respectively. The system transmits a water discharge command to the drainage module and a first temperature adjustment command to the temperature control module. Obtain water discharge status information, which includes: container liquid level information, drainage flow rate information, and drainage pipeline pressure information; If it is determined from the water discharge status information that the water body has been completely discharged and there is no water accumulation in the drainage pipe, then a disinfection instruction for the disinfection module is generated. The disinfection command is transmitted to the disinfection module, which controls the disinfection module to perform ultraviolet disinfection on the storage space and spray disinfection on the drainage pipe.

[0092] In one possible example, regarding the determination, based on the storage information, whether the aquatic organism has been removed and whether no new aquatic organism has been added to the storage space, the above procedure includes instructions for performing the following steps: The target monitoring duration is determined based on the type of living organisms in the water. If, based on the storage records of the items, it is determined that aquatic organisms have been removed, and it is determined that no aquatic organisms are present within the target monitoring period, and it is determined that the oxygen content in the water is greater than a preset oxygen threshold, the rate of change of dissolved oxygen in the water is less than or equal to a preset rate threshold, and it is determined that the water level has not risen abnormally, then it is determined that the aquatic organisms have been removed and no new aquatic organisms have been added to the storage space.

[0093] The above primarily describes the solutions of the embodiments of this application from the perspective of the method execution process. It is understood that, in order to achieve the above functions, the electronic device includes corresponding hardware structures and / or software modules for executing each function. Those skilled in the art should readily recognize that, in conjunction with the units and algorithm steps of the various examples described in the embodiments provided herein, this application can be implemented in hardware or a combination of hardware and computer software. Whether a function is executed by hardware or by computer software driving hardware depends on the specific application and design constraints of the technical solution. Those skilled in the art can use different methods to implement the described functions for each specific application, but such implementation should not be considered beyond the scope of this application.

[0094] This application embodiment can divide the electronic device into functional units according to the above method example. For example, each function can be divided into a separate functional unit, or two or more functions can be integrated into one processing unit. The integrated unit can be implemented in hardware or as a software functional unit. It should be noted that the unit division in this application embodiment is illustrative and only represents one logical functional division. In actual implementation, there may be other division methods.

[0095] When dividing each function into modules according to its corresponding function. Figure 6 A functional unit block diagram of a front trunk refrigeration equipment control device is given, such as... Figure 6 As shown, a vehicle-mounted control system is applied to a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration unit and the vehicle-mounted control system of the target vehicle. The front trunk refrigeration unit includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle-mounted control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module. The device includes an acquisition unit 601, a generation unit 602, a transmission unit 603, a determination unit 604, and a control unit 605. The acquisition unit 601 is used to acquire status monitoring information from the front trunk refrigeration equipment and to acquire refrigerated item information. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment working status information. The generation unit 602 is used to generate a status monitoring screen based on the status monitoring information; The transmission unit 603 is used to transmit the status monitoring screen to the display device of the target vehicle, and the display device is used to display the status monitoring screen; The determining unit 604 is used to determine a status control command based on the status monitoring information and the refrigerated item information; The control unit 605 is used to control the front trunk refrigeration equipment to adjust its state according to the state control command.

[0096] As can be seen, in this embodiment, the front trunk refrigeration equipment control device can first acquire status monitoring information from the front trunk refrigeration equipment and information about the refrigerated items. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. Then, a status monitoring screen is generated based on the status monitoring information, and then transmitted to the display device of the target vehicle. The display device displays the status monitoring screen. Further, a status control command is determined based on the status monitoring information and the refrigerated item information. Finally, the status of the front trunk refrigeration equipment is adjusted according to the status control command. By acquiring the status monitoring information of the front trunk refrigeration equipment, generating a status monitoring screen, and displaying the status monitoring screen, the status of the front trunk refrigeration equipment is monitored, and a status control command is generated based on the status monitoring information to control the adjustment of the status of the front trunk refrigeration equipment, thereby ensuring the normal function of the refrigeration equipment and improving the accuracy and intelligence of the front trunk refrigeration equipment control.

[0097] In one possible example, regarding the determination of the status control command based on the status monitoring information and the refrigerated item information, the determining unit 604 is specifically used for: Based on the status monitoring information, the temperature information is determined; Determine the first temperature threshold based on the type of refrigerated goods; Based on the temperature information and the first temperature threshold, a second temperature adjustment command is determined for the temperature control module.

[0098] In one possible example, regarding the determination of the second temperature adjustment command of the temperature control module based on the temperature information and the first temperature threshold, the determining unit 604 is specifically used for: Get the ambient temperature of the front trunk; Based on the temperature information, determine the current refrigeration temperature; If it is determined that the current refrigeration temperature is greater than the first temperature threshold, then the target temperature to be adjusted is determined based on the ambient temperature, the current refrigeration temperature and the first temperature threshold. Based on the target temperature, a second temperature adjustment command is determined for the temperature control module.

[0099] In one possible example, after determining the temperature information based on the status monitoring information, the determining unit 604 is specifically used for: Based on the refrigerated item information, determine the schedule information and the pre-storage duration of the refrigerated items; If a camping trip is determined based on the aforementioned schedule information, the target time is then set. Based on the target time, determine the activation control command for the temperature control module; Obtain navigation information for the target vehicle; Based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the third temperature adjustment command of the temperature control module is determined.

[0100] In one possible example, regarding the determination of the status control command based on the status monitoring information and the refrigerated item information, the determining unit 604 is specifically used for: Based on the refrigerated item information, determine the type of refrigerated item; When the type of refrigerated item is aquatic living organisms, the oxygen supply module is activated based on its status information. If the oxygen supply module is not activated, the analysis result of whether the oxygen supply module is activated is determined based on the temperature information, current oxygen information and living organism density information. If the analysis results indicate that the oxygen supply module should be started, then an oxygen supply start command for the oxygen supply module is generated. If the oxygen supply module is in the activated state, the target oxygen information is determined based on the type of refrigerated item, the growth cycle of the refrigerated item, and the density of living organisms. Based on the current oxygen information and the target oxygen information, an oxygen supply adjustment command is generated for the oxygen supply module. The oxygen supply adjustment command includes adjusting at least one of the following parameters: oxygen supply power, oxygen supply pulse cycle, and gas output.

[0101] In one possible example, after generating an oxygen supply module start command if the analysis result indicates that the oxygen supply module should be started, the determining unit 604 is specifically used for: Acquire storage information of aquatic organisms, including container liquid level information, aquatic organism activity information, and item storage records; Based on the storage information, determine whether the aquatic creatures have been removed and whether no new aquatic creatures have been placed into the storage space; If it is determined from the storage information that the aquatic creature has been removed and no new aquatic creature has been added to the storage space, then a water discharge command and a first temperature adjustment command are generated for the drainage module, respectively. The system transmits a water discharge command to the drainage module and a first temperature adjustment command to the temperature control module. Obtain water discharge status information, which includes: container liquid level information, drainage flow rate information, and drainage pipeline pressure information; If it is determined from the water discharge status information that the water body has been completely discharged and there is no water accumulation in the drainage pipe, then a disinfection instruction for the disinfection module is generated. The disinfection command is transmitted to the disinfection module, which controls the disinfection module to perform ultraviolet disinfection on the storage space and spray disinfection on the drainage pipe.

[0102] In one possible example, regarding the determination of whether the aquatic organism has been removed and whether no new aquatic organism has been added to the storage space based on the storage information, the determining unit 604 is specifically used for: The target monitoring duration is determined based on the type of living organisms in the water. If, based on the storage records of the items, it is determined that aquatic organisms have been removed, and it is determined that no aquatic organisms are present within the target monitoring period, and it is determined that the oxygen content in the water is greater than a preset oxygen threshold, the rate of change of dissolved oxygen in the water is less than or equal to a preset rate threshold, and it is determined that the water level has not risen abnormally, then it is determined that the aquatic organisms have been removed and no new aquatic organisms have been added to the storage space.

[0103] It should be noted that all relevant content of each step involved in the above method embodiments can be referenced from the functional description of the corresponding functional module, and will not be repeated here.

[0104] The electronic device provided in this embodiment is used to execute the above-described front trunk refrigeration equipment control method, and therefore can achieve the same effect as the above-described implementation method.

[0105] When using integrated units, the electronic device may include a processing module, a storage module, and a communication module. The processing module can be used to control and manage the actions of the electronic device; for example, it can support the electronic device in executing the steps performed by the aforementioned functional units. The storage module can support the electronic device in executing stored program code and data. The communication module can support communication between the electronic device and other devices.

[0106] The processing module can be a processor or a controller. It can implement or execute various exemplary logic blocks, modules, and circuits described in conjunction with the disclosure of this application. The processor can also be a combination that implements computing functions, such as a combination of one or more microprocessors, a combination of digital signal processing (DSP) and a microprocessor, etc. The storage module can be a memory. The communication module can specifically be a radio frequency circuit, a Bluetooth chip, a Wi-Fi chip, or other devices that interact with other electronic devices.

[0107] This application also provides a computer storage medium storing a computer program for electronic data interchange, which causes a computer to perform some or all of the steps of any of the methods described in the above method embodiments, wherein the computer includes an electronic device.

[0108] This application also provides a computer program product, which includes a non-transitory computer-readable storage medium storing a computer program operable to cause a computer to perform some or all of the steps of any of the methods described in the above method embodiments. The computer program product may be a software installation package, and the computer includes a control platform.

[0109] It should be noted that, for the sake of simplicity, the foregoing method embodiments are all described as a series of actions. However, those skilled in the art should understand that this application is not limited to the described order of actions, as some steps may be performed in other orders or simultaneously according to this application. Furthermore, those skilled in the art should also understand that the embodiments described in the specification are preferred embodiments, and the actions and modules involved are not necessarily essential to this application.

[0110] In the above embodiments, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions in other embodiments.

[0111] In the several embodiments provided in this application, it should be understood that the disclosed apparatus can be implemented in other ways. For example, the apparatus embodiments described above are merely illustrative; for instance, the division of the units described above is only a logical functional division, and in actual implementation, there may be other division methods. For example, multiple units or components may be combined or integrated into another system, or some features may be ignored or not executed. Furthermore, the coupling or direct coupling or communication connection shown or discussed may be through some interfaces; the indirect coupling or communication connection between devices or units may be electrical or other forms.

[0112] The units described above as separate components may or may not be physically separate. The components shown as units may or may not be physical units; that is, they may be located in one place or distributed across multiple network units. Some or all of the units can be selected to achieve the purpose of this embodiment according to actual needs.

[0113] Furthermore, the functional units in the various embodiments of this application can be integrated into one processing unit, or each unit can exist physically separately, or two or more units can be integrated into one unit. The integrated unit can be implemented in hardware or as a software functional unit.

[0114] If the aforementioned integrated units are implemented as software functional units and sold or used as independent products, they can be stored in a computer-readable storage device (CMD). Based on this understanding, the technical solution of this application, in essence, or the part that contributes to the prior art, or all or part of the technical solution, can be embodied in the form of a software product. This computer software product is stored in a memory and includes several instructions to cause a computer device (which may be a personal computer, server, or network device, etc.) to execute all or part of the steps of the methods described in the various embodiments of this application. The aforementioned memory includes various media capable of storing program code, such as USB flash drives, read-only memory (ROM), random access memory (RAM), portable hard drives, magnetic disks, or optical disks.

[0115] Those skilled in the art will understand that all or part of the steps in the various methods of the above embodiments can be implemented by a program instructing related hardware. The program can be stored in a computer-readable storage device, which may include: a flash drive, a read-only memory, a random access memory, a magnetic disk, or an optical disk, etc.

[0116] The embodiments of this application have been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of this application. The description of the above embodiments is only for the purpose of helping to understand the method and core ideas of this application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of this application. Therefore, the content of this specification should not be construed as a limitation of this application.

Claims

1. A control method for a front trunk refrigeration device, characterized in that, A vehicle infotainment control system is applied to a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration unit and the vehicle infotainment control system of the target vehicle. The front trunk refrigeration unit includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle infotainment control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module, respectively. The method includes: The system acquires status monitoring information from the front trunk refrigeration equipment and information on refrigerated items. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment operating status information. A status monitoring screen is generated based on the status monitoring information; The status monitoring screen is transmitted to the display device of the target vehicle, and the display device is used to display the status monitoring screen; Based on the status monitoring information and refrigerated item information, determine the status control command; According to the status control command, the front trunk refrigeration equipment is controlled to adjust its status.

2. The method according to claim 1, characterized in that, The step of determining the status control command based on the status monitoring information and refrigerated item information includes: Based on the status monitoring information, the temperature information is determined; Determine the first temperature threshold based on the type of refrigerated goods; Based on the temperature information and the first temperature threshold, a second temperature adjustment command is determined for the temperature control module.

3. The method according to claim 2, characterized in that, The step of determining the second temperature adjustment command of the temperature control module based on the temperature information and the first temperature threshold includes: Get the ambient temperature of the front trunk; Based on the temperature information, determine the current refrigeration temperature; If it is determined that the current refrigeration temperature is greater than the first temperature threshold, then the target temperature to be adjusted is determined based on the ambient temperature, the current refrigeration temperature and the first temperature threshold. Based on the target temperature, a second temperature adjustment command is determined for the temperature control module.

4. The method according to claim 2, characterized in that, After determining the temperature information based on the status monitoring information, the method further includes: Based on the refrigerated item information, determine the schedule information and the pre-storage duration of the refrigerated items; If a camping trip is determined based on the aforementioned schedule information, the target time is then set. Based on the target time, determine the activation control command for the temperature control module; Obtain navigation information for the target vehicle; Based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the third temperature adjustment command of the temperature control module is determined.

5. The method according to claim 2, characterized in that, After determining the third temperature adjustment command of the temperature control module based on the type of refrigerated item, navigation information, schedule information, and the pre-storage duration of the refrigerated item, the method further includes: Obtain the current refrigeration temperature of the refrigerated storage space; If it is determined that the current refrigeration temperature is greater than the second temperature threshold, a temperature reminder message is generated and sent to the user's terminal device. Generate a temperature reminder voice message and transmit the temperature reminder voice message to the voice playback device of the target vehicle.

6. The method according to claim 1, characterized in that, The step of determining the status control command based on the status monitoring information and refrigerated item information includes: Based on the refrigerated item information, determine the type of refrigerated item; When the type of refrigerated item is aquatic living organisms, the oxygen supply module is activated based on its status information. If the oxygen supply module is not activated, the analysis result of whether the oxygen supply module is activated is determined based on the temperature information, current oxygen information and living organism density information. If the analysis results indicate that the oxygen supply module should be started, then an oxygen supply start command for the oxygen supply module is generated. If the oxygen supply module is in the activated state, the target oxygen information is determined based on the type of refrigerated item, the growth cycle of the refrigerated item, and the density of living organisms. Based on the current oxygen information and the target oxygen information, an oxygen supply adjustment command is generated for the oxygen supply module. The oxygen supply adjustment command includes adjusting at least one of the following parameters: oxygen supply power, oxygen supply pulse cycle, and gas output.

7. The method according to claim 6, characterized in that, After generating an oxygen supply start command for the oxygen supply module if the analysis result indicates that the oxygen supply module should be activated, the method further includes: Acquire storage information of aquatic organisms, including container liquid level information, aquatic organism activity information, and item storage records; Based on the storage information, determine whether the aquatic creatures have been removed and whether no new aquatic creatures have been placed into the storage space; If it is determined from the storage information that the aquatic creature has been removed and no new aquatic creature has been added to the storage space, then a water discharge command and a first temperature adjustment command are generated for the drainage module, respectively. The system transmits a water discharge command to the drainage module and a first temperature adjustment command to the temperature control module. Obtain water discharge status information, which includes: container liquid level information, drainage flow rate information, and drainage pipeline pressure information; If it is determined from the water discharge status information that the water body has been completely discharged and there is no water accumulation in the drainage pipe, then a disinfection instruction for the disinfection module is generated. The disinfection command is transmitted to the disinfection module, which controls the disinfection module to perform ultraviolet disinfection on the storage space and spray disinfection on the drainage pipe.

8. A control device for a front trunk refrigeration unit, characterized in that, A vehicle-mounted control system is applied to a front trunk refrigeration system. The front trunk refrigeration system includes a front trunk refrigeration unit and the vehicle-mounted control system of the target vehicle. The front trunk refrigeration unit includes a refrigerated storage space, a temperature sensor, a temperature control module, an oxygen supply module, a drainage module, and a disinfection module. The vehicle-mounted control system is connected to the temperature sensor, the temperature control module, the oxygen supply module, the drainage module, and the disinfection module. The front trunk refrigeration unit control device includes an acquisition unit, a generation unit, a transmission unit, a determination unit, and a control unit. The acquisition unit is used to acquire status monitoring information from the front trunk refrigeration equipment and acquire refrigerated item information. The status monitoring information includes at least one of the following: temperature information, current oxygen information, odor information, oxygen supply module status information, live animal density information, and refrigeration equipment working status information. The generation unit is used to generate a status monitoring screen based on the status monitoring information; The transmission unit is used to transmit the status monitoring screen to the display device of the target vehicle, and the display device is used to display the status monitoring screen; The determining unit is used to determine a status control command based on the status monitoring information and the refrigerated item information; The control unit is used to control the front trunk refrigeration equipment to adjust its state according to the state control command.

9. An electronic device, characterized in that, It includes a processor and a memory, the memory being used to store one or more programs and configured to be executed by the processor, the programs including instructions for performing the steps of the method as described in any one of claims 1-7.

10. A computer-readable storage medium, characterized in that, A computer program for storing electronic data interchange, wherein the computer program causes a computer to perform the method as described in any one of claims 1-7.