CN112297786B - Vehicle disinfection method, apparatus, computer device and storage medium - Google Patents

Abstract

The present application relates to a vehicle disinfection method, apparatus, computer device and storage medium. The method comprises the steps of obtaining the current electric quantity of a vehicle by receiving a vehicle disinfection instruction triggered by a user, sending a starting instruction to a plurality of disinfection devices arranged on the vehicle if the current electric quantity is larger than the preset electric quantity, enabling the plurality of disinfection devices to start corresponding disinfection modes according to the starting instruction to disinfect the vehicle, obtaining an execution result returned by the plurality of disinfection devices based on the starting instruction, and obtaining a disinfection result corresponding to the vehicle disinfection instruction. Compare in traditional method of disinfecting through the manual work to the vehicle, this scheme sets up a plurality of disinfecting equipment in the vehicle through vehicle disinfection instruction dispatch, disinfects according to the disinfection mode that corresponds to the vehicle, has realized improving the effect of vehicle disinfection efficiency.

Description

Vehicle disinfection method, apparatus, computer device and storage medium

Technical Field

The application relates to the technical field of intelligent automobiles, in particular to a vehicle disinfection method, a vehicle disinfection device, computer equipment and a storage medium.

Background

With the development of traffic technology, automobiles become one of important vehicles in daily life, automobile cleaning is one of important items of automobile maintenance, automobiles are usually in a closed state when being driven, a large amount of bacteria exist in air, and harmful substances such as particulate matters, bacteria, viruses and the like are generated inside automobiles along with the flow of personnel and the passing of time, so that the disinfection and cleaning of automobiles are necessary measures for guaranteeing the sanitation of automobiles and the safety of personnel inside automobiles.

Therefore, the current vehicle sterilization method has a drawback of insufficient sterilization effectiveness.

Disclosure of Invention

In view of the above, it is necessary to provide a vehicle disinfection method, apparatus, computer device and storage medium capable of improving the vehicle disinfection effectiveness.

A method of vehicle decontamination, the method comprising:

receiving a vehicle disinfection instruction triggered by a user, and acquiring the current electric quantity of the vehicle;

if the current electric quantity is larger than the preset electric quantity, sending a starting instruction to a plurality of disinfection devices arranged on the vehicle; the starting instruction is used for indicating each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle;

and obtaining an execution result returned by the plurality of disinfection devices based on the starting instruction to obtain a disinfection result corresponding to the vehicle disinfection instruction.

In one embodiment, the receiving a user-triggered vehicle disinfection instruction includes at least one of:

receiving a vehicle disinfection instruction triggered by a user through a vehicle-mounted terminal, wherein the vehicle disinfection instruction comprises an operation instruction or a preset voice instruction of a preset button in the vehicle-mounted terminal;

receiving a vehicle disinfection instruction sent by a mobile terminal; the mobile terminal is used for receiving a vehicle disinfection instruction triggered by a user and sending the vehicle disinfection instruction to the vehicle-mounted terminal.

In one embodiment, the receiving a vehicle disinfection command triggered by a user and acquiring a current electric quantity of the vehicle further includes:

determining a sterilizable state corresponding to the vehicle sterilization instruction according to the triggering mode of the vehicle sterilization instruction;

and acquiring the current state of the vehicle, and if the state is the corresponding sterilizable state, sending a starting instruction to a plurality of sterilizing devices arranged on the vehicle.

In one embodiment, the determining a sterilizable state corresponding to the vehicle sterilization instruction according to the triggering manner of the vehicle sterilization instruction includes:

if the vehicle disinfection instruction is a vehicle disinfection instruction triggered by a vehicle-mounted terminal based on the vehicle, determining that the sterilizable state is a power-on or preparation completion state;

and if the vehicle disinfection instruction is based on the vehicle disinfection instruction triggered by the mobile terminal, determining that the disinfection state is a flameout and fortification state.

In one embodiment, the information in the vehicle disinfection instructions includes: the disinfection time corresponding to each disinfection device;

after sending the start instruction to a plurality of disinfecting equipment that set up in the vehicle, still include:

acquiring the running time of each disinfection device after entering the corresponding disinfection mode;

and if the running time of each disinfection device is greater than the corresponding disinfection time, determining that the execution of the vehicle disinfection command is finished.

In one embodiment, the obtaining of the execution result returned by the plurality of disinfection devices based on the starting instruction to obtain the disinfection result corresponding to the vehicle disinfection instruction includes:

acquiring the running state of each disinfection device in a corresponding disinfection mode;

if the operating state of any disinfection equipment in the corresponding disinfection mode is detected to be abnormal, acquiring the operating time of any disinfection equipment in the corresponding disinfection mode;

and acquiring the ratio of the running time to the disinfection time corresponding to any disinfection equipment, and determining the disinfection result according to the ratio.

In one embodiment, after obtaining the execution result returned by the plurality of disinfection devices based on the start instruction and obtaining the disinfection result corresponding to the vehicle disinfection instruction, the method further includes:

acquiring time information when the disinfection result is obtained;

displaying the time information and the disinfection result through a vehicle-mounted terminal;

and/or the presence of a gas in the gas,

and sending the disinfection result and the time information to a mobile terminal corresponding to the vehicle so as to display the time information and the disinfection result through the mobile terminal.

In one embodiment, the plurality of sterilizing devices comprises: air conditioning equipment, negative ion equipment, ultraviolet equipment and ventilation equipment;

the disinfection time comprises the following steps: a first time period, a second time period, and a third time period; the first time period characterizes an initial disinfection phase of the vehicle, the second time period characterizes an intermediate disinfection phase of the vehicle, and the third time period characterizes an end disinfection phase of the vehicle;

if current electric quantity is greater than the default electric quantity, after sending the start instruction to a plurality of disinfecting equipment that set up in the vehicle, still include:

if the current time is detected to be within a first time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a high-power operation state;

if the current time is detected to be within a second time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a low-power operation state;

and if the current time is detected to be within a third time period, closing the anion equipment and the ultraviolet equipment, setting the ventilation equipment to be in an open state and setting the air conditioning equipment to be in a high-power running state.

A vehicle sanitizing device, said device comprising:

the receiving module is used for receiving a vehicle disinfection instruction triggered by a user and acquiring the current electric quantity of the vehicle;

the disinfection module is used for sending a starting instruction to a plurality of disinfection devices arranged on the vehicle if the current electric quantity is greater than the preset electric quantity; the starting instruction is used for indicating each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle;

and the acquisition module is used for acquiring the execution results returned by the plurality of disinfection devices based on the starting instructions to obtain the disinfection results corresponding to the vehicle disinfection instructions.

A computer device comprising a memory storing a computer program and a processor implementing the steps of the method described above when the processor executes the computer program.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method.

According to the vehicle disinfection method, the vehicle disinfection device, the computer equipment and the storage medium, the current electric quantity of the vehicle is obtained by receiving the vehicle disinfection instruction triggered by the user, if the current electric quantity is larger than the preset electric quantity, the starting instruction is sent to the plurality of disinfection equipment arranged on the vehicle, so that the plurality of disinfection equipment start corresponding disinfection modes according to the starting instruction to disinfect the vehicle, then the execution results returned by the plurality of disinfection equipment based on the starting instruction are obtained, and the disinfection results corresponding to the vehicle disinfection instruction are obtained. Compare in traditional method of disinfecting through the manual work to the vehicle, this scheme sets up a plurality of disinfecting equipment in the vehicle through vehicle disinfection instruction dispatch, disinfects according to the disinfection mode that corresponds to the vehicle, has realized the effect that improves vehicle disinfection efficiency.

Drawings

FIG. 1 is an environmental diagram illustrating the application of the method for disinfecting a vehicle according to one embodiment;

FIG. 2 is a schematic flow chart of a method for disinfecting a vehicle according to one embodiment;

FIG. 3 is a schematic diagram of an interface for triggering a vehicle disinfection command in one embodiment;

FIG. 4 is a schematic diagram of an interface for triggering a vehicle disinfection command in yet another embodiment;

FIG. 5 is a schematic interface diagram of a sterilization process in one embodiment;

FIG. 6 is a schematic interface diagram of a sterilization process in yet another embodiment;

FIG. 7 is a schematic interface diagram of the disinfection results in one embodiment;

FIG. 8 is a timing diagram illustrating initiation of vehicle decontamination based on a vehicle terminal in one embodiment;

FIG. 9 is a timing diagram for initiating vehicle decontamination based on a mobile terminal in one embodiment;

FIG. 10 is a block diagram showing the construction of a vehicle sterilizing apparatus according to an embodiment;

FIG. 11 is a diagram illustrating an internal structure of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The vehicle disinfection method provided by the application can be applied to the application environment shown in figure 1. In which the in-vehicle terminal 102 communicates with the disinfection apparatus 104 in the vehicle through a network, for example, an in-vehicle bus network or an in-vehicle wireless network. The vehicle-mounted terminal 102 may receive a vehicle disinfection instruction triggered by a user, and send a start instruction to the disinfection device 104 disposed in the vehicle when the electric quantity of the vehicle is greater than a preset electric quantity, so that the disinfection device 104 disinfects the vehicle according to a corresponding disinfection mode, and the vehicle-mounted terminal 102 may further obtain an execution result returned by the disinfection device 104 based on the start instruction, thereby obtaining a disinfection result corresponding to the vehicle disinfection instruction. In addition, in one embodiment, a mobile terminal 100 may be further included, the mobile terminal 100 may communicate with the in-vehicle terminal 102 through a network, and the user may further send a vehicle disinfection instruction to the in-vehicle terminal 102 through the mobile terminal 100, so that the in-vehicle terminal 102 performs corresponding processing according to the vehicle disinfection instruction. The vehicle-mounted terminal 102 may be a central control in a vehicle or a control terminal pre-installed in the vehicle, the mobile terminal 100 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the disinfection device 104 may be implemented by one disinfection device or a plurality of disinfection devices.

In one embodiment, as shown in fig. 2, a vehicle disinfection method is provided, which is described by taking the method as an example applied to the vehicle-mounted terminal in fig. 1, and comprises the following steps:

step S202, receiving a vehicle disinfection instruction triggered by a user, and acquiring the current electric quantity of the vehicle.

The vehicle disinfection command may be a command for starting a disinfection device in a vehicle, and the in-vehicle terminal 102 may receive a vehicle disinfection command triggered by a user. The user may trigger the vehicle disinfection command in various ways, for example, by using a related device in the vehicle, or by using a mobile device, and may trigger in the vehicle, or may trigger outside the vehicle, that is, the vehicle-mounted terminal 102 may connect to the internet, so as to receive the vehicle disinfection command from outside the vehicle. After the vehicle-mounted terminal 102 receives a vehicle disinfection instruction triggered by a user, the current electric quantity of the vehicle can be acquired, the vehicle can be the vehicle where the vehicle-mounted terminal 102 is located, the current electric quantity can be the residual electric quantity of the vehicle when the vehicle-mounted terminal 102 receives the vehicle disinfection instruction, and the vehicle-mounted terminal 102 can determine a processing mode of the vehicle disinfection instruction according to the size of the current electric quantity.

Step S204, if the current electric quantity is larger than the preset electric quantity, sending a starting instruction to a plurality of disinfection devices arranged on the vehicle; the starting instruction is used for instructing each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle.

The current electric quantity can be the current residual electric quantity of a vehicle where the vehicle-mounted terminal 102 is located, a plurality of disinfection devices can be arranged in the vehicle, the plurality of disinfection devices can be used for disinfecting and purifying the vehicle and the like, the plurality of disinfection devices can comprise air conditioning equipment, negative ion equipment, ultraviolet equipment, ventilation equipment and the like, specifically, the vehicle-mounted terminal can be an in-vehicle air conditioner, a negative ion purifier, an ultraviolet disinfection lamp bank, a high efficiency molecular air filter (HEPA) level silver ion impregnated air conditioning filter element and the like, the vehicle disinfection can be an air negative ion purifier, an ultraviolet disinfection lamp bank, a HEPA level silver ion impregnated air conditioning filter element and the like, and the disinfection of particles, germs, bacteria, viruses and the like in the air in the vehicle is realized; the vehicle purification can be air circulation in the vehicle formed by an air conditioner and a seat, the purification effect of air negative ions and an HEPA grade immersion silver ion air conditioner filter element, and the filtration and purification of particles, germs, bacteria, viruses and the like of the air in the vehicle are realized. Wherein, above-mentioned each disinfecting equipment can be based on actual need, makes up and collocation sets up in the vehicle.

The vehicle-mounted terminal 102 may send a start instruction to the plurality of disinfection devices disposed in the vehicle when the current electric quantity is greater than a preset electric quantity, for example, greater than 15%, and when the electric quantity is not greater than the preset electric quantity, the vehicle-mounted terminal 102 may perform a corresponding prompt, for example, prompt that the vehicle electric quantity needs to be greater than 15% to open the disinfection mode by using a vehicle connection assistant. The start instruction may be an instruction for starting each of the disinfection apparatuses to perform a corresponding disinfection mode, and each of the disinfection apparatuses may operate according to the start instruction and the corresponding disinfection mode to disinfect the vehicle, for example, each of the disinfection apparatuses may determine, according to the start instruction, a time when it starts to operate in the disinfection, a time when it needs to operate, and information on how to operate the disinfection apparatus.

And step S206, obtaining the execution results returned by the plurality of disinfection devices based on the starting instruction, and obtaining the disinfection results corresponding to the vehicle disinfection instructions.

The vehicle-mounted terminal 102 may further obtain execution results returned by each disinfection device based on the start instruction, for example, the operation results of each disinfection device may include information about operation time, state change in operation, and the like, and the vehicle-mounted terminal 102 may synthesize the execution results of each disinfection device to obtain disinfection results corresponding to the vehicle disinfection instruction, for example, information about completion time and disinfection completion rate of this disinfection.

According to the vehicle disinfection method, the current electric quantity of the vehicle is obtained by receiving a vehicle disinfection instruction triggered by a user, if the current electric quantity is larger than the preset electric quantity, a starting instruction is sent to a plurality of disinfection devices arranged on the vehicle, so that the plurality of disinfection devices start corresponding disinfection modes according to the starting instruction to disinfect the vehicle, then execution results returned by the plurality of disinfection devices based on the starting instruction are obtained, and disinfection results corresponding to the vehicle disinfection instruction are obtained. Compare in traditional method of disinfecting through the manual work to the vehicle, this scheme sets up a plurality of disinfecting equipment in the vehicle through vehicle disinfection instruction dispatch, disinfects according to the disinfection mode that corresponds to the vehicle, has realized improving the effect of vehicle disinfection efficiency.

In one embodiment, a user-triggered vehicle disinfection instruction is received, comprising at least one of: receiving a vehicle disinfection instruction triggered by a user through the vehicle-mounted terminal 102, wherein the vehicle disinfection instruction comprises an operation instruction or a preset voice instruction of a preset button in the vehicle-mounted terminal 102; receiving a vehicle disinfection instruction sent by the mobile terminal 100; the mobile terminal 100 is used for receiving a vehicle disinfection instruction triggered by a user and sending the vehicle disinfection instruction to the vehicle-mounted terminal 102.

In this embodiment, the vehicle-mounted terminal 102 may receive a vehicle disinfection instruction triggered by a user, and the user may trigger the vehicle disinfection instruction in multiple ways, for example, the vehicle-mounted terminal may be triggered based on a device in the vehicle or based on a device outside the vehicle, where the triggering based on the device in the vehicle may be triggered by the user through an operation instruction on a preset button in the vehicle-mounted terminal 102, or triggered by the user through a preset voice instruction on the vehicle-mounted terminal 102; the off-vehicle based device trigger may be a user triggering a vehicle disinfection command through the mobile terminal 100, so that the mobile terminal 100 may transmit the vehicle disinfection command to the in-vehicle terminal 102.

Specifically, the interface based on the vehicle disinfection command triggered by the vehicle-mounted terminal 102 may be as shown in fig. 3 and 4, and fig. 3 is a schematic diagram of the interface for triggering the vehicle disinfection command in one embodiment. FIG. 4 is a schematic diagram of an interface for triggering a vehicle disinfection command in yet another embodiment. The vehicle-mounted terminal 102 may receive a vehicle disinfection instruction triggered by an operation instruction of a user on a preset button in the vehicle-mounted terminal 102, or may receive a vehicle disinfection instruction triggered by the user through a preset voice instruction. When the user triggers a vehicle disinfection command through a preset button of the in-vehicle terminal 102, the interface may be as shown in fig. 3, and the bottom of the page may sequentially include a setting button, a return vehicle operation page button, a enter disinfection page button, a more options button, a volume adjustment button, and the like. The user may choose to trigger various forms of disinfection instructions such as rapid disinfection, which may be a less time consuming disinfection process, and deep disinfection, which may be a longer time consuming disinfection process, among others. The user can trigger the corresponding vehicle disinfection instruction by clicking the corresponding button, that is, the vehicle-mounted terminal 102 can obtain different types of vehicle disinfection instructions according to the difference of the button triggered by the user, for example, the user can operate the button through the vehicle-mounted triple screen, and after the vehicle disinfection instruction is triggered, the user can also stop the vehicle disinfection through the corresponding button in the vehicle-mounted terminal 102.

The in-vehicle terminal 102 may further receive a vehicle disinfection instruction through a preset voice instruction triggered by the user, for example, the vehicle disinfection instruction may be determined according to voice information of the user by a voice assistant in the vehicle based on the in-vehicle terminal 102, and an interface schematic diagram for triggering the vehicle disinfection instruction through the voice instruction may be as shown in fig. 4. The user can trigger a vehicle disinfection instruction through various voice instructions, which can be determined according to actual needs, specifically, the vehicle disinfection instruction can include rapid disinfection and deep disinfection, and when the vehicle-mounted terminal 102 detects a voice (help me/me want) disinfection purification (mode) or a (help me/me want) rapid disinfection (mode), "the user can be determined to need rapid disinfection, so as to obtain a corresponding vehicle disinfection instruction; when the in-vehicle terminal 102 detects a voice (help me/me do) deep disinfection (mode), "it may be determined that the user needs deep disinfection, so as to obtain a corresponding vehicle disinfection instruction; the voice assistant can also feed back the voice instruction of the user, for example, after the user triggers the corresponding vehicle instruction, the voice assistant can perform corresponding voice broadcast, and can play the preset expression in the screen while broadcasting, and the voice assistant can also control the virtual image in the voice assistant to turn to the speaker according to the sound source position of the user when detecting the voice instruction of the user. It should be noted that the voice assistant may be disposed in the in-vehicle terminal 102, or may be disposed in the vehicle separately from the in-vehicle terminal 102, and may communicate with the in-vehicle terminal 102, for example, a voice robot is disposed in the vehicle, and when the voice assistant is separate from the in-vehicle terminal 102, the voice assistant detects a voice command of the user, and then may steer the robot to the sound source direction of the user. In addition, the user may also end the sterilization process by the voice assistant, for example, when the voice assistant detects a voice of the user such as "(help me/me do) exit sterilization purification (mode)", "(help me/me do) exit sterilization (mode)" or "do not want/cancel sterilization", it may be determined that the user needs to stop the sterilization, so that the in-vehicle terminal 102 may be caused to control the respective sterilizing devices to stop the sterilization.

In addition, the user may also trigger the vehicle disinfection instruction through the mobile terminal 100, for example, the user may click a corresponding button in the mobile terminal 100, so that the vehicle disinfection instruction may be sent to the vehicle-mounted terminal 102, and specifically, the user may enter a corresponding disinfection instruction triggering entry in an application of the mobile terminal 100, for example, enter a safe trip block, and trigger the vehicle disinfection instruction in a disinfection and purification page therein. For example, after activating a vehicle, the user may trigger the vehicle disinfection instruction in the mobile terminal 100, and after obtaining a virtual key corresponding to the vehicle, the user may trigger the vehicle disinfection instruction in the mobile terminal 100.

Through this embodiment, the user can trigger vehicle disinfection instruction through multiple mode to can realize improving the effect of the sterile efficiency of vehicle.

In one embodiment, receiving a vehicle disinfection command triggered by a user, and after acquiring the current electric quantity of the vehicle, the method further comprises the following steps: determining a sterilizable state corresponding to the vehicle sterilization instruction according to the triggering mode of the vehicle sterilization instruction; and acquiring the current state of the vehicle, and if the state is the corresponding sterilizable state, sending a starting instruction to a plurality of sterilizing devices arranged on the vehicle.

In this embodiment, the triggering manner of the vehicle disinfection command may include various manners, such as triggering by the in-vehicle terminal 102 or triggering by the mobile terminal 100. Wherein, the user can trigger the vehicle disinfection command through a preset button in the vehicle-mounted terminal 102 or using a voice command, and the user can also send the vehicle disinfection command to the vehicle-mounted terminal 102 through the mobile terminal 100. The vehicle-mounted terminal 102 may determine whether the vehicle is in a sterilizable state before executing the vehicle sterilization instruction, specifically, the vehicle-mounted terminal 102 may determine the sterilizable state corresponding to the vehicle according to a difference in a trigger manner of the vehicle sterilization instruction, and acquire a current state of the vehicle, and if the vehicle is in the sterilizable state, may perform a step of sending a start instruction to the plurality of sterilization apparatuses disposed in the vehicle, for example, the sterilizable state corresponding to the vehicle sterilization instruction triggered by the vehicle-mounted terminal 102 and the sterilizable state corresponding to the vehicle sterilization instruction triggered by the mobile terminal 100 may be different.

Specifically, when a vehicle disinfection instruction is triggered by the vehicle-based vehicle-mounted terminal 102, the vehicle-mounted terminal 102 may determine that a sterilizable state of the vehicle is a power-on state or a ready-to-finish ready state, at this time, the vehicle-mounted terminal 102 may acquire a current state of the vehicle, if the vehicle is the power-on state or the ready-to-finish state, and the power battery is greater than a preset value, for example, 15%, it may be determined that the vehicle may be disinfected, and if the vehicle is not the power-on state or the ready-to-finish state, the vehicle-mounted terminal 102 may perform a corresponding prompt, for example, a disinfection mode may be used after the vehicle needs to be started through a vehicle-mounted device triple-screen prompt; when the vehicle disinfection instruction is triggered based on the mobile terminal 100, the vehicle-mounted terminal 102 may determine that the sterilizable state of the vehicle is a flameout and fortification state, at this time, the vehicle-mounted terminal 102 may acquire the current state of the vehicle, if the sterilizable state is the flameout and fortification state, and the power battery is greater than a preset value, for example, 15%, the vehicle-mounted terminal 102 may determine that the vehicle may be disinfected, and if the sterilizable state is not the flameout and fortification state, the vehicle-mounted terminal 102 may prompt the mobile terminal 100, for example, that the vehicle is not locked or is not in a parking state, and cannot use the disinfection mode.

Through the embodiment, the vehicle-mounted terminal 102 can determine the corresponding sterilizable mode according to the triggering mode of the vehicle sterilization instruction, so that whether the vehicle can be sterilized can be quickly determined, and the vehicle sterilization efficiency is improved.

In one embodiment, after sending the starting instruction to the plurality of disinfecting devices arranged on the vehicle, the method further comprises the following steps: acquiring the running time of each disinfection device after entering a corresponding disinfection mode; and if the running time of each disinfection device is greater than the corresponding disinfection time, determining that the execution of the vehicle disinfection command is finished.

In this embodiment, the information in the vehicle disinfection command includes: the disinfection time corresponding to each disinfection device. After each disinfection device in the vehicle responds to the starting instruction and enters the disinfection mode, the disinfection device can operate according to the disinfection time corresponding to the disinfection device in the vehicle disinfection instruction. The vehicle-mounted terminal 102 may obtain an operation time of each disinfection device disposed in the vehicle after entering the corresponding disinfection mode, and may determine that the vehicle disinfection instruction is executed if the operation time of each disinfection device is detected to be greater than the corresponding disinfection time, that is, if each disinfection device can operate for the corresponding time according to the instruction in the vehicle disinfection instruction, the vehicle-mounted terminal 102 may determine that the vehicle disinfection instruction is executed. Wherein, the vehicle disinfection command can be a quick disinfection command or a deep disinfection command; the rapid disinfection command and the deep disinfection command may be commands of different disinfection time, for example, the total disinfection time of the rapid disinfection command may be 15 minutes, and the total disinfection time of the deep disinfection command may be 30 minutes, and each of the disinfection devices may operate and disinfect the vehicle within the total disinfection time corresponding to the disinfection command according to the operation time allocated to each disinfection device in the rapid disinfection vehicle disinfection command, for example, the first disinfection device operates for a first time, the second disinfection device operates for a second time, and the like, wherein the first time and the second time are both less than or equal to the total disinfection time corresponding to the disinfection command. Specifically, when the vehicle disinfection command is executed, the interface of the in-vehicle terminal 102 may be as shown in fig. 5, and fig. 5 is an interface schematic diagram of a disinfection process in one embodiment. Shown in fig. 5 is an interface when a rapid disinfection command is executed, including a disinfection completion rate and a residual disinfection time, the disinfection time corresponding to rapid disinfection may be 15 minutes, the disinfection completion rate may be a ratio of an actual disinfection time to a total disinfection time, the ratio may be an integer, and a user may further operate a corresponding exit button in the interface, so as to exit the disinfection mode. The interface schematic diagram of the vehicle terminal 102 executing the vehicle disinfection command can also be shown in fig. 6, and fig. 6 is an interface schematic diagram of a disinfection process in yet another embodiment. In fig. 6, animation effects of the in-vehicle terminal 102 during execution of the disinfection apparatus are shown, and the in-vehicle terminal 102 may also show different running animation effects according to the type and number of the disinfection apparatus in the current vehicle, for example, in a vehicle without an ultraviolet disinfection lamp set, animation for ultraviolet disinfection may not be shown, and in a vehicle with an ultraviolet disinfection lamp set, animation for ultraviolet disinfection may be shown.

Through the embodiment, the vehicle-mounted terminal 102 can determine whether the vehicle disinfection instruction is executed or not by detecting the running time of each disinfection device in the vehicle after entering the disinfection mode, so that the vehicle disinfection efficiency is improved.

In one embodiment, obtaining the execution result returned by the plurality of disinfection devices based on the starting instruction and obtaining the disinfection result corresponding to the disinfection instruction of the vehicle comprises: acquiring the running state of each disinfection device in a corresponding disinfection mode; if the operating state of any disinfection equipment in the corresponding disinfection mode is detected to be abnormal, acquiring the operating time of any disinfection equipment in the corresponding disinfection mode; and acquiring the ratio of the running time to the disinfection time corresponding to any disinfection equipment, and determining the disinfection result according to the ratio.

In this embodiment, the in-vehicle terminal 102 may determine a disinfection result corresponding to the vehicle disinfection instruction according to the execution result returned by each disinfection device. The vehicle-mounted terminal 102 may detect an operation state of each disinfection device after each disinfection device enters the disinfection mode, and if the vehicle-mounted terminal 102 detects that an operation state of any disinfection device in the corresponding disinfection mode is abnormal, the vehicle-mounted terminal may obtain an operation time of each disinfection device in the corresponding disinfection mode, and the vehicle-mounted terminal 102 may further obtain a ratio between the operation time of each disinfection device and the corresponding disinfection time thereof, so that a disinfection result may be determined according to the ratio. Wherein the abnormal operation state can be caused by an unexpected interruption or the user actively quits the disinfection mode. Specifically, as shown in FIG. 7, FIG. 7 is an interface schematic of the disinfection results in one embodiment. The number of the disinfection modes in the vehicle may be multiple, when any one disinfection device is abnormal when executing the corresponding disinfection mode, the vehicle-mounted terminal 102 may obtain a ratio of an actual operation time of each disinfection device to a disinfection time corresponding to each disinfection device, so that the vehicle-mounted terminal 102 may determine a completion rate of vehicle disinfection according to the multiple ratios as the disinfection result, for example, in fig. 7, the disinfection device in the vehicle is abnormal when executing the corresponding disinfection process, so that the vehicle-mounted terminal 102 obtains the completion rate of vehicle disinfection according to the ratio of the actual operation time after each disinfection device enters the corresponding disinfection mode to the corresponding disinfection time, and uses the completion rate as the disinfection result. When the vehicle-mounted terminal 102 determines that the operation of the disinfection device is abnormal, the vehicle-mounted terminal 102 or the mobile terminal 100 may prompt related abnormal information, for example, a vehicle assistant is used to prompt related abnormal information, such as an occurrence of an electrical fault.

In addition, when the vehicle enters the disinfection mode, the user can actively stop the operation of a certain disinfection device or the whole disinfection process, and for part of the disinfection devices in the disinfection mode, the user can not operate the disinfection devices and knows that the disinfection mode is finished. Specifically, when the disinfection device enters the corresponding disinfection mode, the operation authority of the user for each device in the vehicle may be as shown in table 1:

TABLE 1 operating Authority of the respective devices in the Disinfection mode

The last value may be a value of the device when the disinfection mode is ended last time, and if the last value is the first time, the vehicle-mounted terminal 102 may be configured according to a preset value. The above-described respective disinfection apparatuses may be provided in a vehicle in any combination.

Through the embodiment, the vehicle-mounted terminal 102 can stop disinfection and obtain a corresponding disinfection result when the disinfection device is abnormal in the disinfection mode, so that the vehicle disinfection efficiency can be improved.

In one embodiment, after obtaining the execution result returned by the plurality of disinfection devices based on the start instruction and obtaining the disinfection result corresponding to the vehicle disinfection instruction, the method further includes: acquiring time information when a disinfection result is obtained; displaying time information and a disinfection result through the vehicle-mounted terminal 102; and/or sending the disinfection result and the time information to the mobile terminal 100 corresponding to the vehicle, so that the time information and the disinfection result can be displayed through the mobile terminal 100.

In this embodiment, the in-vehicle terminal 102 may display the disinfection result, for example, the disinfection result may be displayed through the in-vehicle terminal 102, and may also be displayed through the mobile terminal 100. The in-vehicle terminal 102 may obtain time information when a disinfection result is obtained, when a vehicle disinfection instruction is triggered by the in-vehicle terminal 102, the in-vehicle terminal 102 may display the time information and the disinfection result by using a display device of the in-vehicle terminal 102, and when the vehicle disinfection instruction is triggered by the mobile terminal 100, the in-vehicle terminal 102 may transmit the time information and the disinfection result to the mobile terminal 100, so that the mobile terminal 100 displays the time information and the disinfection result. Specifically, the time information may become the most recent sterilization time, and may include information of year, month, day, time, and minute when the sterilization is completed, and the sterilization result may include a sterilization completion rate, which may be a ratio of an actual sterilization mode operation time of each sterilization apparatus to a total sterilization time corresponding to the sterilization mode.

Through the embodiment, the vehicle-mounted terminal 102 can be different in triggering modes according to the vehicle disinfection instruction, so that the result is displayed by using the corresponding terminal, and the effect of the vehicle disinfection efficiency is improved.

In one embodiment, if the current electric quantity is greater than the preset electric quantity, after sending a start instruction to a plurality of disinfection devices disposed on the vehicle, the method further includes: if the current time is detected to be within a first time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a high-power operation state; if the current time is detected to be within a second time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a low-power running state; if the current time is detected to be within the third time period, the negative ion equipment and the ultraviolet equipment are closed, the ventilation equipment is set to be in an open state, and the air conditioning equipment is set to be in a high-power running state.

In this embodiment, each of the above-mentioned sterilizing apparatuses may include: air conditioning equipment, anion equipment, ultraviolet equipment, ventilation equipment and the like. The negative ion equipment can be an air negative ion purifier, the air negative ion NAI has strong redox effect, can destroy barriers of bacterial virus charges and activity of bacterial cell active enzymes, and can settle suspended particles in the air; the ultraviolet device may be an ultraviolet disinfection lamp. In consideration of a high-frequency vibration environment in a vehicle, mercury vapor packaged in a lamp tube can be leaked due to high-frequency vibration of an ultraviolet disinfection lamp of a gas discharge light source to damage safety in the vehicle, so that a solid-state light source UV-LED can be adopted in the scheme, the LED mainly excites UVC ultraviolet rays with the wavelength of 250-280 nm, and a mode of adding an ultraviolet LED disinfection lamp set to a Console air pipe in the vehicle is selected, so that the potential safety hazard of ultraviolet leakage is avoided, and the ultraviolet disinfection can be performed while a person drives the vehicle; the ventilation device may be a HEPA grade impregnated silver ion air conditioning filter cartridge, HEP being the abbreviation for high efficiency particulate air filter, referred to as a high efficiency molecular air filter. The HEPA air conditioner filter element has three layers of filter materials, wherein the first layer is used for filtering coarse grain particles such as raised dust, pollen and the like, the second layer is used for filtering bad smell and harmful gas, the third layer is used for filtering bacterial virus pathogens and allergens, the final removal efficiency of particles with the diameter of more than 0.3 micrometer can reach 95%, and in addition, the filter is soaked with silver ions, so that the HEPA air conditioner filter element can play a role in purifying bacterial viruses on the filter and has the antibacterial and mildewproof effects.

The vehicle-mounted terminal 102 may send a start instruction to each disinfection apparatus according to the vehicle disinfection instruction, so that each disinfection apparatus enters a corresponding disinfection mode. Specifically, after the vehicle-mounted terminal 102 sends a start instruction, the air conditioner in the vehicle may be adjusted to an internal circulation mode, the wind direction is a blowing face, the wind speed and the temperature are previous values, and the modes of the main driving mode and the auxiliary driving mode are consistent; opening air negative ion equipment; the ultraviolet disinfection lamp is turned on, the main and auxiliary driving ventilation functions are turned on, the number of the steps is the last value, and the whole vehicle window and the skylight can be closed in the disinfection process. When any of the above-described sterilizing devices transmits an abnormality in the operating state, the in-vehicle terminal 102 may restore the value of the sterilizing device to the last value, for example, the value before entering the sterilization mode.

In addition, the disinfection time can also comprise a first time period, a second time period and a third time period; the first time period characterizes an initial disinfection phase of the vehicle, the second time period characterizes an intermediate disinfection phase of the vehicle, and the third time period characterizes an end disinfection phase of the vehicle. The vehicle-mounted terminal 102 may control the disinfection apparatus to operate in different operating states according to different time periods, for example, in a first time period, that is, a disinfection initial time period, the vehicle-mounted terminal 102 may set the air conditioning apparatus, the anion apparatus, and the ultraviolet apparatus to a high-power operating state, so that the vehicle may be rapidly brought into a disinfection state; in a second time period, i.e., an intermediate stage of sterilization, the in-vehicle terminal 102 may set the air conditioning device, the anion device, and the ultraviolet device to a low power operation state, thereby reducing power consumption for sterilization; in the third time period, namely the disinfection end time period, the in-vehicle terminal 102 may turn off the negative ion device and the ultraviolet dual-color cup, set the ventilation device to be on, and set the air conditioning device to operate at high power, so that the vehicle is out of the disinfection state and returns to the normal state.

Through the embodiment, the vehicle-mounted terminal 102 can control the disinfection device to operate in different states in different time periods according to the time when the disinfection device enters the disinfection mode, so that the vehicle disinfection efficiency can be improved, and the energy consumption for disinfecting the vehicle is reduced.

In one embodiment, as shown in FIGS. 8 and 9, FIG. 8 is a timing diagram illustrating the initiation of vehicle decontamination based on a vehicle terminal in one embodiment. FIG. 9 is a timing diagram for initiating vehicle decontamination based on a mobile terminal in one embodiment. In this embodiment, the user may trigger the vehicle disinfection instruction through a button in the vehicle terminal 102, a voice instruction, or the mobile terminal 100, and after triggering, the vehicle terminal 102 may display the latest disinfection time (not shown for the first time), and the user may select a corresponding disinfection mode, including rapid disinfection and deep disinfection, and the vehicle terminal 102 may send a start instruction to each disinfection device after the user triggers the instruction when the vehicle is in a sterilizable state, so that each disinfection device sterilizes the vehicle according to preset steps, where the sterilizable states corresponding to the vehicle disinfection instruction triggered through the vehicle terminal 102 and the vehicle disinfection instruction triggered through the mobile terminal 100 may be different.

When the time that each disinfection device enters the disinfection mode is longer than the corresponding disinfection time, it can be determined that the disinfection instruction is executed completely, the vehicle-mounted terminal 102 can gradually close each disinfection device and generate a corresponding disinfection result, including the disinfection completion time and the disinfection completion rate, the vehicle-mounted terminal 102 can display the disinfection result on the screen of the vehicle-mounted terminal 102, and also can send the disinfection result to the mobile terminal 100 for display through the mobile terminal 100. In addition, when the above steps are abnormal, the in-vehicle terminal 102 may perform corresponding error prompt, for example, prompt through a display screen of the in-vehicle terminal 102, prompt through voice, prompt through the mobile terminal 100, and the like.

Through the embodiment, the vehicle-mounted terminal 102 can dispatch a plurality of disinfection devices arranged in the vehicle through the vehicle disinfection instruction, and disinfect the vehicle according to the corresponding disinfection mode, so that the effect of improving the vehicle disinfection efficiency is realized.

It should be understood that, although the steps in the flowcharts of fig. 2, 8 and 9 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least some of the steps in fig. 2, 8, and 9 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 10, there is provided a vehicle sterilizing apparatus including: a receiving module 500, a disinfecting module 502, and an obtaining module 504, wherein:

the receiving module 500 is configured to receive a vehicle disinfection instruction triggered by a user, and acquire a current electric quantity of the vehicle.

The disinfection module 502 is used for sending a starting instruction to a plurality of disinfection devices arranged on the vehicle if the current electric quantity is larger than the preset electric quantity; the starting instruction is used for instructing each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle.

The obtaining module 504 is configured to obtain an execution result returned by the plurality of disinfecting devices based on the start instruction, and obtain a disinfecting result corresponding to the vehicle disinfecting instruction.

In an embodiment, the receiving module 500 is specifically configured to receive, by the vehicle-mounted terminal, a vehicle disinfection instruction triggered by a user, where the vehicle disinfection instruction includes an operation instruction or a preset voice instruction for a preset button in the vehicle-mounted terminal.

In an embodiment, the receiving module 500 is specifically configured to receive a vehicle disinfection instruction sent by a mobile terminal; the mobile terminal is used for receiving a vehicle disinfection instruction triggered by a user and sending the vehicle disinfection instruction to the vehicle-mounted terminal.

In one embodiment, the above apparatus further comprises: the judgment module is used for determining a sterilizable state corresponding to the vehicle sterilization instruction according to the triggering mode of the vehicle sterilization instruction; and acquiring the current state of the vehicle, and if the state is the corresponding sterilizable state, sending a starting instruction to a plurality of sterilizing devices arranged on the vehicle.

In one embodiment, the determining module is specifically configured to determine that the sterilizable state is a power-on or ready-to-complete state if the vehicle sterilization instruction is a vehicle sterilization instruction triggered by a vehicle-mounted terminal based on a vehicle; if the vehicle disinfection instruction is based on a vehicle disinfection instruction triggered by the mobile terminal, the disinfection state is determined to be flameout and a defense setting state.

In one embodiment, the above apparatus further comprises: the completion module is used for acquiring the running time of each disinfection device after entering the corresponding disinfection mode; and if the running time of each disinfection device is greater than the corresponding disinfection time, determining that the execution of the vehicle disinfection command is finished.

In an embodiment, the obtaining module 504 is specifically configured to obtain an operating state of each disinfection apparatus in a corresponding disinfection mode; if the operating state of any disinfection equipment in the corresponding disinfection mode is detected to be abnormal, acquiring the operating time of any disinfection equipment in the corresponding disinfection mode; and acquiring the ratio of the running time to the disinfection time corresponding to any disinfection equipment, and determining a disinfection result according to the ratio.

In one embodiment, the apparatus further comprises: the first display module is used for acquiring time information when a disinfection result is obtained; and displaying the time information and the disinfection result through the vehicle-mounted terminal.

In one embodiment, the above apparatus further comprises: and the second display module is used for acquiring the time information when the disinfection result is obtained, and sending the disinfection result and the time information to the mobile terminal corresponding to the vehicle so as to display the time information and the disinfection result through the mobile terminal.

In one embodiment, the above apparatus further comprises: the control module is used for setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a high-power running state if the current time is detected to be within a first time period; if the current time is detected to be within the second time period, setting the air conditioning equipment, the negative ion equipment and the ultraviolet equipment to be in a low-power running state; if the current time is detected to be within the third time period, the negative ion equipment and the ultraviolet equipment are closed, the ventilation equipment is set to be in an open state, and the air conditioning equipment is set to be in a high-power running state.

For specific limitations of the vehicle disinfection device, reference may be made to the above limitations of the vehicle disinfection method, which are not described in detail herein. The various modules in the vehicle sanitizer described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, and the computer device may be a vehicle-mounted terminal, and the internal structure thereof may be as shown in fig. 11. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device 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 comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with an external vehicle-mounted terminal, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a vehicle disinfection method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 11 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory having a computer program stored therein and a processor that when executed performs the vehicle disinfection method described above.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which, when executed by a processor, implements the vehicle disinfection method described above.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above may be implemented by hardware instructions of a computer program, which may be stored in a non-volatile computer-readable storage medium, and when executed, may include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), for example.

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (12)

1. A method of disinfecting a vehicle, the method comprising:

receiving a vehicle disinfection instruction triggered by a user or receiving a vehicle disinfection instruction sent by a mobile terminal through a vehicle-mounted terminal; the information in the vehicle disinfection command comprises disinfection time corresponding to each disinfection device;

acquiring the current electric quantity of a vehicle, and if the current electric quantity is larger than the preset electric quantity, determining a sterilizable state corresponding to the vehicle sterilization instruction according to a trigger mode of the vehicle sterilization instruction; different triggering modes of the vehicle disinfection command correspond to different disinfection states;

acquiring the current state of the vehicle, and if the state is the corresponding sterilizable state, sending a starting instruction to a plurality of sterilizing devices arranged on the vehicle; the starting instruction is used for indicating each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle;

acquiring the running time of each disinfection device after entering the corresponding disinfection mode, and determining that the execution of the vehicle disinfection instruction is finished if the running time of each disinfection device is greater than the corresponding disinfection time;

obtaining execution results returned by the plurality of disinfection devices based on the starting instructions to obtain disinfection results corresponding to the vehicle disinfection instructions;

obtaining a disinfection result corresponding to the vehicle disinfection instruction based on an execution result returned by the starting instruction, wherein the disinfection result comprises:

acquiring the running state of each disinfection device in a corresponding disinfection mode; the various disinfection devices operate in different operating states at different time periods;

if the operating state of any disinfection equipment in the corresponding disinfection mode is detected to be abnormal, acquiring the operating time of any disinfection equipment in the corresponding disinfection mode;

and acquiring the ratio of the running time to the disinfection time corresponding to any disinfection equipment, and determining the disinfection result according to the ratio.

2. The method of claim 1,

the vehicle disinfection instruction comprises an operation instruction or a preset voice instruction of a preset button in the vehicle-mounted terminal; the mobile terminal is used for receiving a vehicle disinfection instruction triggered by a user and sending the vehicle disinfection instruction to the vehicle-mounted terminal.

3. The method of claim 1, wherein determining the sterilizable state corresponding to the vehicle sterilization instruction based on the manner in which the vehicle sterilization instruction is triggered comprises:

if the vehicle disinfection instruction is a vehicle disinfection instruction triggered by a vehicle-mounted terminal based on the vehicle, determining that the sterilizable state is a power-on or preparation completion state;

and if the vehicle disinfection instruction is based on the vehicle disinfection instruction triggered by the mobile terminal, determining that the disinfection state is a flameout and fortification state.

4. The method of claim 1, wherein after obtaining the execution result returned by the plurality of disinfection devices based on the start instruction and obtaining the disinfection result corresponding to the vehicle disinfection instruction, the method further comprises:

acquiring time information when the disinfection result is obtained;

displaying the time information and the disinfection result through a vehicle-mounted terminal;

and/or the presence of a gas in the gas,

and sending the disinfection result and the time information to a mobile terminal corresponding to the vehicle so as to display the time information and the disinfection result through the mobile terminal.

5. The method of claim 1, wherein the plurality of disinfection devices comprises: air conditioning equipment, negative ion equipment, ultraviolet equipment and ventilation equipment;

the disinfection time comprises the following steps: a first time period, a second time period, and a third time period; the first time period characterizes an initial disinfection phase of the vehicle, the second time period characterizes an intermediate disinfection phase of the vehicle, and the third time period characterizes an end disinfection phase of the vehicle;

if current electric quantity is greater than the default electric quantity, after sending the start instruction to a plurality of disinfecting equipment that set up in the vehicle, still include:

if the current time is detected to be within a first time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a high-power operation state;

if the current time is detected to be within a second time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a low-power operation state;

and if the current time is detected to be in a third time period, closing the anion equipment and the ultraviolet equipment, setting the ventilation equipment to be in an open state and setting the air conditioning equipment to be in a high-power running state.

6. A vehicle sanitizing apparatus, said apparatus comprising:

the receiving module is used for receiving a vehicle disinfection instruction triggered by a user or receiving a vehicle disinfection instruction sent by the mobile terminal through the vehicle-mounted terminal; the information in the vehicle disinfection command comprises disinfection time corresponding to each disinfection device;

the disinfection module is used for acquiring the current electric quantity of the vehicle and sending a starting instruction to a plurality of disinfection devices arranged on the vehicle if the current electric quantity is larger than the preset electric quantity; the starting instruction is used for indicating each disinfection device to respectively start a corresponding disinfection mode so as to disinfect the vehicle;

the completion module is used for acquiring the running time of each disinfection device after entering the corresponding disinfection mode, and determining that the execution of the vehicle disinfection instruction is completed if the running time of each disinfection device is greater than the corresponding disinfection time;

the acquisition module is used for acquiring execution results returned by the plurality of disinfection devices based on the starting instructions to obtain disinfection results corresponding to the vehicle disinfection instructions;

the acquisition module is also used for acquiring the running state of each disinfection device in the corresponding disinfection mode; the various disinfection devices operate in different operating states at different time periods;

if the operating state of any disinfection equipment in the corresponding disinfection mode is detected to be abnormal, acquiring the operating time of any disinfection equipment in the corresponding disinfection mode;

acquiring the ratio of the running time to the disinfection time corresponding to any disinfection equipment, and determining the disinfection result according to the ratio;

the device further comprises:

the judgment module is used for determining a sterilizable state corresponding to the vehicle sterilization instruction according to the triggering mode of the vehicle sterilization instruction; acquiring the current state of the vehicle, and if the state is the corresponding sterilizable state, sending a starting instruction to a plurality of sterilizing devices arranged on the vehicle; different triggering modes of the vehicle disinfection command correspond to different disinfection states.

7. The apparatus of claim 6,

the judgment module is further used for determining that the sterilizable state is a power-on or ready-to-finish state if the vehicle sterilization instruction is a vehicle sterilization instruction triggered by a vehicle-mounted terminal based on the vehicle;

and if the vehicle disinfection instruction is based on the vehicle disinfection instruction triggered by the mobile terminal, determining that the disinfection state is a flameout and fortification state.

8. The apparatus of claim 6, further comprising:

the completion module is used for acquiring the running time of each disinfection device after entering the corresponding disinfection mode; and if the running time of each disinfection device is greater than the corresponding disinfection time, determining that the execution of the vehicle disinfection command is finished.

9. The apparatus of claim 6, further comprising:

the first display module is used for acquiring time information when a disinfection result is obtained; displaying time information and a disinfection result through the vehicle-mounted terminal;

or the second display module is used for acquiring the time information when the disinfection result is obtained, and sending the disinfection result and the time information to the mobile terminal corresponding to the vehicle so as to display the time information and the disinfection result through the mobile terminal.

10. The apparatus of claim 6, wherein the plurality of sanitizing devices comprise: air conditioning equipment, negative ion equipment, ultraviolet equipment and ventilation equipment; the disinfection time comprises the following steps: a first time period, a second time period, and a third time period; the first time period characterizes an initial disinfection phase of the vehicle, the second time period characterizes an intermediate disinfection phase of the vehicle, and the third time period characterizes an end disinfection phase of the vehicle;

the device further comprises:

the control module is used for setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a high-power running state if the current time is detected to be within a first time period; if the current time is detected to be within a second time period, setting the air conditioning equipment, the anion equipment and the ultraviolet equipment to be in a low-power operation state; and if the current time is detected to be within a third time period, closing the anion equipment and the ultraviolet equipment, setting the ventilation equipment to be in an open state and setting the air conditioning equipment to be in a high-power running state.

11. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 5.

12. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 5.

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