CN112026490A

CN112026490A - Automatic vehicle cabin separation method and system

Info

Publication number: CN112026490A
Application number: CN201910484061.2A
Authority: CN
Inventors: 陈斌
Original assignee: Shanghai Pateo Network Technology Service Co Ltd
Current assignee: Shanghai Pateo Network Technology Service Co Ltd
Priority date: 2019-06-04
Filing date: 2019-06-04
Publication date: 2020-12-04
Anticipated expiration: 2039-06-04
Also published as: CN112026490B

Abstract

A method and a system for automatically separating a vehicle cabin comprise the following steps: the system comprises a vehicle cabin data module, a data triggering module, a purifying module and a special function module; the vehicle cabin data module is used for acquiring control data from the vehicle machine and acquiring air data in the vehicle through the sensor; the data triggering module is used for analyzing the control data to obtain cabin control switch information and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information; the purification module is used for acquiring the air data of the compartment, triggering the purification device according to the control data, calculating purification data according to the air data of the compartment and the air data outside the vehicle, and controlling the purification device according to the purification data; and the special function module is used for analyzing the control data to obtain closed use data and starting the sanitary equipment according to the closed use data. The invention solves the technical problems that the prior art depends on manual operation, has low intelligent degree and can not meet the special requirements of passengers.

Description

Automatic vehicle cabin separation method and system

Technical Field

The invention relates to an upgrade patch management method, in particular to an automatic vehicle cabin separation method and system.

Background

With the increasing improvement of the living standard of the nation, the motor vehicles are rapidly popularized in the whole society, the quantity of motor vehicles kept in China continuously rises, and people drive cars and go out more and more frequently. In the driving process of the vehicle, various vehicles can meet special requirements of passengers such as going to a toilet and smoking when the vehicles are blocked on a highway and the driving distance is long in specific driving application scenes, and meanwhile, in the driving process, the air in the vehicle can be prevented from circulating due to the fact that the vehicles are excessively in the internal environment for a long time, the private requirements of the passengers can not be solved due to the fact that the space in the vehicle is fixed and the requirements of the passengers are different, the riding comfort of the vehicles is reduced, in addition, under the condition that the vehicles can not be driven on the highway, the physiological requirements of old people and children can easily cause inconvenience, and the internal environment of the vehicle is enabled to be adversely affected. How to perfect the functions of the vehicle-mounted equipment to meet the private and physiological requirements of the passenger is increasingly becoming an important direction for vehicle technology research and development. Because the technique and the equipment of current vehicle partition car cabin are comparatively single, mainly for the prefabricated fixed compartment of producer and personnel in the car adopt interim instrument to shelter from or the window of driving opens the door, the result of use is relatively poor, and the operation mode is single, and the suitability is poor.

In conclusion, the devices such as the prefabricated bulkhead grating of the vehicle in the prior art lack the flexibility of adjustment, the switch depends on manual operation, the applicability is not high, and the probability of traffic accidents is easily increased due to the manual adjustment of the driver. The compartment room in the car among the prior art needs the prefabricated grid of producer and partition device such as partition window usually, needs the passenger manual operation at the driving in-process, exists among the prior art and relies on manual operation, intelligent degree is low and can't satisfy the technical problem of passenger's special demand.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide a method and a system for automatically partitioning a vehicle cabin, which are applied to upgrading a vehicle-mounted device, and which solve the technical problems of dependence on manual operation, low intelligence degree and incapability of meeting special requirements of passengers in the prior art, and the present invention provides a method and a system for automatically partitioning a vehicle cabin, comprising: the system comprises a vehicle cabin data module, a data triggering module, a purifying module and a special function module; the vehicle cabin data module is used for acquiring control data from the vehicle machine and acquiring air data in the vehicle through the sensor; the data triggering module is used for analyzing the control data to obtain cabin control switch information and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information, and the vehicle cabin triggering module is connected with the vehicle cabin data module; the purification module is used for acquiring compartment air data and extravehicular air data, calculating purification data according to the compartment air data and the extravehicular air data, and controlling the purification device according to the purification data, wherein the purification module is connected with the vehicle cabin data module; and the special function module is used for analyzing the control data to obtain closed use data and starting the sanitary equipment according to the closed use data, and is connected with the vehicle cabin data module.

In one embodiment of the present invention, the cabin data module includes a status information module, a compartment data module, and a cabin air data module; the state information module is used for acquiring vehicle state information; the compartment data module is used for acquiring compartment control data through the control panel; and the cabin air data module is used for monitoring air data in the vehicle through a sensor.

In an embodiment of the present invention, the data trigger module includes: the cabin control extraction module, the trigger acquisition module and the trigger motor module; the cabin control extraction module is used for extracting cabin control switch information from the control data; the trigger acquisition module is used for acquiring partition trigger data according to the cabin control switch information and is connected with the cabin control extraction module; and the trigger motor module is used for receiving the partition board trigger data and converting the partition board trigger data into a usable state by using the prefabricated motor, and is connected with the trigger acquisition module.

In one embodiment of the present invention, the purification module includes: the device comprises an in-cabin and out-cabin air module, a cabin dust judging module, a purification triggering module, a purification operation module and an in-cabin maintenance module; the cabin inside and outside air module is used for acquiring cabin air data by a cabin sensor and acquiring outside air data by a cabin shell sensor; the cabin dust judging module is used for judging whether the difference value of the bulkhead air data and the outdoor air data is greater than a preset cabin dust threshold value or not, and the cabin dust judging module is connected with the indoor and outdoor air module; the purification triggering module is used for triggering the purification device when the difference value of the air data of the compartment and the air data outside the compartment is greater than a preset compartment dust threshold value, and the purification triggering module is connected with the compartment dust judging module; the purification operation module is used for calculating the average value of the air data outside the cabin and the air data in the cabin and operating the purification device until the air data of the compartment is equal to the average value, and the purification operation module is connected with the purification triggering module; and the cabin interior maintaining module is used for maintaining the purification device in a closed state when the difference value of the air data of the compartment and the air data outside the cabin is not greater than a preset cabin dust threshold value, and the cabin interior maintaining module is connected with the purification operation module.

In one embodiment of the present invention, the special function module includes: the system comprises a special demand analysis module, a special data module and a special state module; the special demand analysis module is used for analyzing the control data and acquiring user demand data; the special data module is used for acquiring special control data according to user demand data and is connected with the special demand analysis module; and the special state module is used for adjusting the working state of the sanitary equipment according to the special control data, and is connected with the special data module.

In one embodiment of the present invention, the special function module includes: a separation system mounting groove and a separation data interface; the separation system mounting groove is a groove, the size of the separation system mounting groove is matched with the automatic separation system of the vehicle cabin, and the separation system mounting groove is fixedly arranged on the periphery of each vehicle seat; the separation data interface is fixedly arranged at the bottom of the separation system installation groove.

In one embodiment of the present invention, a method includes: acquiring control data from a vehicle machine, and acquiring air data in the vehicle through a sensor; analyzing the control data to obtain cabin control switch information, and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information; acquiring compartment air data and extravehicular air data, calculating purification data according to the compartment air data and extravehicular air data, and controlling the purification device according to the purification data; and analyzing the control data to obtain closed use data, and starting the sanitary equipment according to the closed use data.

In an embodiment of the present invention, the method for acquiring control data from a vehicle and acquiring air data in a vehicle through a sensor further includes: acquiring vehicle state information; acquiring compartment control data through a control panel; and monitoring air data in the vehicle through a sensor.

In an embodiment of the present invention, analyzing control data to obtain cabin control switch information, and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information includes: extracting cabin control switch information from the control data; acquiring baffle trigger data according to cabin control switch information; and the prefabricated motor receives the partition plate triggering data and converts the partition plate triggering data into a usable state.

In an embodiment of the present invention, acquiring compartment air data and outdoor air data, calculating purification data according to the compartment air data and the outdoor air data, and controlling the purification apparatus according to the purification data includes: acquiring compartment air data by a compartment sensor, and acquiring extravehicular air data by a cabin shell sensor; judging whether the difference value of the bulkhead air data and the extravehicular air data is greater than a preset cabin dust threshold value or not; if yes, triggering the purification device; calculating the average value of the air data outside the cabin and the air data inside the cabin, and operating the purification device until the air data of the cabin is equal to the average value; if not, the purification device is maintained in a closed state.

In one embodiment of the present invention, analyzing the control data to obtain closed usage data and opening the sanitary fixture according to the closed usage data includes: analyzing the control data to obtain user demand data; acquiring special control data according to user demand data; and adjusting the working state of the sanitary equipment according to the special control data.

As described above, the automatic vehicle cabin partitioning method and system provided by the invention have the following beneficial effects: the automatic vehicle cabin separation method and system provided by the invention avoid the technical problems that the prior art depends on manual operation, has low intelligent degree and cannot meet special requirements of passengers. According to the automatic compartment separation method and system provided by the invention, devices such as a prefabricated compartment grille of a vehicle in the traditional technology are omitted, the adjustment flexibility of the compartment separation device is improved, the dependence on manual operation is reduced, the applicability of the system is improved, and a high-risk use scene that the probability of traffic accidents is easily increased due to the manual adjustment of a driver is avoided.

In conclusion, the invention solves the technical problems that the prior art depends on manual operation, has low intelligent degree and can not meet the special requirements of passengers.

Drawings

Fig. 1 is a schematic view showing a module of an automatic cabin separation system according to the present invention.

Fig. 2 is a schematic block diagram of the cabin data module of fig. 1 in one embodiment.

Fig. 3 is a block diagram of a data trigger block of fig. 1 according to an embodiment.

FIG. 4 is a block diagram of the purification module of FIG. 1 in one embodiment.

Fig. 5 is a block diagram of the special function module in fig. 1 according to an embodiment.

Fig. 6 is a schematic view showing the steps of the automatic cabin separation method according to the present invention.

Fig. 7 is a flowchart illustrating a specific example of step S1 in fig. 6.

Fig. 8 is a flowchart illustrating a specific example of step S2 in fig. 6.

Fig. 9 is a detailed flowchart of step S3 in fig. 6 in an embodiment.

Fig. 10 is a detailed flowchart of step S4 in fig. 6 in an embodiment.

Description of the element reference numerals

1 automatic compartment separation system

11 cabin data module

12 data trigger module

13 purification module

14 special function module

111 status information module

112 bay data module

113 cabin gas data module

121 cabin control extraction module

122 trigger acquisition module

123 trigger motor module

131 cabin inside and outside air module

132 cabin dust judging module

133 purge trigger module

134 purification operation module

135 cabin maintenance module

141 special demand analysis module

142 special data module

143 special state module

Description of step designations

FIGS. 6S 1-S4

FIGS. 7S 11-S13

FIGS. 8S 21-S23

FIGS. 9S 31-S35

FIGS. 10S 41-S43

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Referring to fig. 1 to 10, it should be understood that the structures shown in the drawings are only used for understanding and reading the present disclosure, and are not used to limit the conditions of the present invention, which can be implemented, so that the present invention has no technical significance, and any structural modification, ratio change or size adjustment should still fall within the scope of the present invention without affecting the function and the achievable object of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

Referring to fig. 1, which is a schematic view of a module of an automatic vehicle cabin partitioning system according to the present invention, as shown in fig. 1, an automatic vehicle cabin partitioning system 1 includes: the system comprises a cabin data module 11, a data triggering module 12, a purifying module 13 and a special function module 14; optionally, the cabin data module 11 is installed in the vehicle to facilitate monitoring of the position of each compartment, such as the middle of the whole compartment; the data trigger module 12 is used for analyzing the control data to obtain cabin control switch information, triggering the automatic vehicle cabin separation system to start according to the cabin control switch information, the vehicle cabin trigger module 12 is connected with the vehicle cabin data module 11, and optionally, the cabin control switch information is a Boolean constant which is selected by a passenger by using a touch screen arranged on a backrest of a front seat; the purification module 13 is used for acquiring bay air data and extravehicular air data, calculating purification data according to the bay air data and the extravehicular air data, and controlling the purification device according to the purification data, wherein the purification module 13 is connected with the vehicle cabin data module 11, optionally, certain redundancy is reasonably set on operation parameters of the purification module 13 in the use and operation process so as to improve the purification function effect and the operation speed; the special function module 14 is used for analyzing the control data to obtain closed use data and starting the sanitary equipment according to the closed use data, the special function module 14 is connected with the vehicle cabin data module 11, and the special function module 14 comprises a vehicle-mounted toilet function component for example, which is started according to specific function selection data in the closed use data.

Referring to fig. 2, which is a schematic block diagram of the cabin data module in fig. 1 in an embodiment, as shown in fig. 2, the cabin data module 11 includes: a status information module 111, a compartment data module 112 and a compartment gas data module 113; the state information module 111 is used for acquiring vehicle state information, the state information module 111 is connected with a vehicle machine system through a CAN data bus, and is used for acquiring the running speed of a vehicle and whether the vehicle stops or not in real time; the compartment data module 112 is used for acquiring compartment control data through the control panel, and the compartment data module 112 displays the air quality data and the function use data in the compartment on the control panel for the functional passenger or the driver to refer to, optionally, the information reference priority of the compartment is higher than the reference priority of the driver; and the cabin air data module 113 is used for monitoring air data in the vehicle through a sensor.

Referring to fig. 3, a schematic diagram of a specific module of the data trigger module in fig. 1 in an embodiment is shown, as shown in fig. 3, the data trigger module 12 includes: the cabin control extraction module 121, the trigger acquisition module 122 and the trigger motor module 123; the cabin control extraction module 121 is used for extracting cabin control switch information from the control data; the trigger acquisition module 122 is configured to acquire partition trigger data according to the cabin control switch information, and the trigger acquisition module 122 is connected to the cabin control extraction module 121, where optionally, the partition trigger data includes enable data of a servo drive motor of a movable partition and specific gear data of a partition lifting, such as a fully closed signal and a semi-closed signal; and the trigger motor module 123 is used for converting the partition board trigger data received by the prefabricated motor into a usable state, the trigger motor module 123 is connected with the trigger acquisition module 122, optionally, the prefabricated motor can use a servo program control motor, and the motor operation department uses a PWM signal for control.

Referring to fig. 4, which is a schematic block diagram of the purification module in fig. 1 in an embodiment, as shown in fig. 4, the purification module 13 includes: an inside and outside air module 131, a cabin dust judging module 132, a cleaning triggering module 133, a cleaning operation module 134 and an inside maintenance module 135; the cabin interior and exterior air module 131 is configured to acquire cabin air data with a cabin sensor and acquire cabin exterior air data with a cabin shell sensor, and optionally, the cabin interior and exterior air module 131 includes dust particle sensors installed on two sides of a closed seam of the partition plate; the cabin dust judging module 132 is used for judging whether the difference value between the cabin air data and the outdoor air data is greater than a preset cabin dust threshold value or not, the cabin dust judging module 132 is connected with the indoor and outdoor air module 131, and the dust particle sensor can sense smoke generated by smoking of passengers in the vehicle and dust brought in by opening a door or aroused by movement of the passengers in the vehicle; the purification triggering module 133 is configured to trigger the purification device when a difference between the compartment air data and the outdoor air data is greater than a preset compartment dust threshold, and the purification triggering module 133 is connected to the compartment dust judging module 132; the purification operation module 134 is used for calculating an average value of the air data outside the cabin and the air data in the cabin, operating the purification device until the air data of the compartment is equal to the average value, and connecting the purification operation module 134 with the purification triggering module 133; and the cabin interior maintaining module 135 is used for maintaining the purification device in a closed state when the difference value between the compartment air data and the air data outside the cabin is not greater than a preset cabin dust threshold value, and the cabin interior maintaining module 135 is connected with the purification triggering module 133.

Referring to fig. 5, which is a schematic block diagram of a special function module in fig. 1 in an embodiment, as shown in fig. 5, a special function module 14 includes: a special requirement analysis module 141, a special data module 142 and a special status module 143; the special demand analysis module 141 is used for analyzing the control data and acquiring user demand data, and optionally, special demands are mainly used for the toilet function required by passengers in a use scene where the passengers are inconvenient to get off; the special data module 142 is used for acquiring special control data according to user demand data, the special data module 142 is connected with the special demand analysis module 141, and optionally, the special control data includes power-on trigger data of each special component, such as an excrement compressor and other equipment; and the special state module 143 is used for adjusting the working state of the sanitary equipment according to the special control data, and the special state module 143 is connected with the special data module 142. The special function module comprises: a separation system mounting groove and a separation data interface; the separation system mounting groove is a groove, the size of the separation system mounting groove is matched with the automatic separation system of the vehicle cabin, and the separation system mounting groove is fixedly arranged on the periphery of each vehicle seat; the separation data interface is fixedly arranged at the bottom of the separation system installation groove.

Referring to fig. 6, a schematic step diagram of the automatic cabin separation method according to the present invention is shown, and as shown in fig. 6, the automatic cabin separation method includes:

s1, acquiring control data from the vehicle machine, acquiring air data in the vehicle through a sensor, and optionally, installing the cabin data module 11 in the vehicle to monitor the position of each compartment, such as the middle part of the whole carriage;

s2, analyzing the control data to obtain cabin control switch information, triggering the automatic vehicle cabin separation system to start according to the cabin control switch information, wherein optionally, the cabin control switch information is a Boolean constant and is selected by a passenger by using a touch screen arranged on a backrest of a front seat;

s3, acquiring bay air data and extra-cabin air data, calculating purification data according to the bay air data and the extra-cabin air data, and controlling the purification apparatus according to the purification data, optionally, the purification module 13 is provided with a certain redundancy in operation parameters during the operation process to improve the purification function effect and the operation rate;

and S4, analyzing the control data to obtain closed use data, and starting the sanitary equipment according to the closed use data, wherein the special function module 14 comprises a vehicle-mounted toilet function component for example, and the component selects data to start according to specific functions in the closed use data.

Referring to fig. 7, which is a detailed flowchart of step S1 in fig. 6 in an embodiment, as shown in fig. 7, step S1 is performed to obtain control data from a vehicle and obtain vehicle interior air data through a sensor, and further includes:

s11, vehicle state information is obtained, the state information module 111 is connected with a vehicle machine system through a CAN data bus, the running speed of the vehicle and whether the vehicle stops are obtained in real time, and optionally, the vehicle state information is obtained by combining clock data of a vehicle-mounted system;

s12, acquiring compartment control data through the control panel, and displaying the air quality data and the functional use data in the compartment on the control panel by the compartment data module 112, wherein optionally, the information reference priority of the compartment is higher than the reference priority of the driver;

and S13, monitoring the air data in the vehicle through a sensor.

Referring to fig. 8, which is a detailed flowchart of step S2 in fig. 6 in an embodiment, as shown in fig. 8, step S2, analyzing the control data to obtain cabin control switch information, and triggering the start of the cabin automatic separation system according to the cabin control switch information includes:

s21, extracting cabin control switch information from the control data;

s22, acquiring partition plate triggering data according to the cabin control switch information, wherein optionally, the partition plate triggering data comprises enabling data of a servo driving motor of the movable partition plate and specific gear data of partition plate lifting, such as a fully closed signal and a semi-closed signal;

and S23, the prefabricated motor receives the partition plate triggering data and converts the partition plate triggering data into a usable state, optionally, the prefabricated motor can use a servo program control motor, and the motor operation department uses PWM signals to control.

Referring to fig. 9, which is a detailed flowchart of step S3 in fig. 6, in an embodiment, as shown in fig. 9, step S3 is executed to acquire compartment air data and extravehicular air data, calculate purification data according to the compartment air data and extravehicular air data, and control the purification apparatus according to the purification data, including:

s31, acquiring compartment air data with a compartment sensor, and acquiring air data outside the cabin with a cabin shell sensor, wherein optionally, the air module 131 inside and outside the cabin includes dust particle sensors installed on two sides of the closed seam of the partition board;

s32, judging whether the difference value between the air data of the compartment and the air data outside the compartment is larger than a preset compartment dust threshold value or not, wherein the dust particle sensor can sense smoke generated by smoking of passengers in the vehicle and dust brought in by opening a door or aroused by activities of the passengers in the vehicle;

s33, if yes, triggering a purification device;

s34, calculating an average value of the air data outside the cabin and the air data inside the cabin, and operating the purification device until the air data of the compartment is equal to the average value, wherein optionally, the air purification operation data can be selected by passengers, each gear corresponds to different purification effects, and the purification operation module 134 realizes the air purification function inside the cabin through the electrified polar plate dust collection assembly and the filter screen assembly;

and S35, if not, keeping the purification device in a closed state.

Referring to fig. 10, which is a detailed flowchart of step S4 in fig. 6, in an embodiment, as shown in fig. 10, step S4, analyzing the control data to obtain closed usage data, and turning on the sanitary fixture according to the closed usage data, includes:

s41, analyzing the control data to obtain user demand data, wherein optional special demands are mainly used for using a toilet function by passengers in a use scene where the passengers are inconvenient to get off;

s42, acquiring special control data according to the user demand data, wherein optionally, the special control data includes power-on trigger data of each special component, such as an excrement compressor and other devices;

and S43, adjusting the working state of the sanitary equipment according to the special control data.

In summary, the automatic vehicle cabin partitioning method and system provided by the invention have the following beneficial effects: the automatic vehicle cabin separation method and system provided by the invention avoid the technical problems that the prior art depends on manual operation, has low intelligent degree and cannot meet special requirements of passengers. According to the automatic compartment separation method and system provided by the invention, devices such as a prefabricated compartment grille of a vehicle in the traditional technology are omitted, the adjustment flexibility of the compartment separation device is improved, the dependence on manual operation is reduced, the applicability of the system is improved, and a high-risk use scene that the probability of traffic accidents is easily increased due to the manual adjustment of a driver is avoided.

In conclusion, the invention solves the technical problems that the prior art depends on manual operation, has low intelligent degree and can not meet the special requirements of passengers, and has high commercial value and practicability.

Claims

1. An automatic vehicle cabin partitioning system, comprising: the system comprises a vehicle cabin data module, a data triggering module, a purifying module and a special function module;

the vehicle cabin data module is used for acquiring vehicle control data from a vehicle machine and acquiring air data in the vehicle through a sensor;

the data triggering module is used for analyzing the control data to obtain cabin control switch information and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information;

the purification module is used for acquiring compartment air data and extravehicular air data, calculating to obtain purification data according to the compartment air data and the extravehicular air data, and controlling a preset purification device according to the purification data;

the special function module is used for analyzing the control data to obtain closed use data and starting the sanitary equipment according to the closed use data.

2. The automatic vehicle cabin compartmentalization system of claim 1, wherein said cabin data module comprises a status information module, a compartment data module, and a cabin air data module;

the state information module is used for acquiring vehicle state information;

the compartment data module is used for acquiring compartment control data through the control panel;

and the cabin air data module is used for monitoring and obtaining the air data in the vehicle through a sensor.

3. The automatic cabin partitioning system of claim 1, wherein the data triggering module comprises: the cabin control extraction module, the trigger acquisition module and the trigger motor module;

the cabin control extraction module is used for extracting the cabin control switch information from the control data;

the trigger acquisition module is used for acquiring partition trigger data according to the cabin control switch information;

and the trigger motor module is used for receiving the partition plate trigger data and converting the partition plate trigger data into a usable state by the prefabricated motor.

4. The automatic cabin partitioning system of claim 1, wherein the purge module comprises: the device comprises an in-cabin and out-cabin air module, a cabin dust judging module, a purification triggering module, a purification operation module and an in-cabin maintenance module;

the cabin inside and outside air module is used for acquiring the cabin air data by a cabin sensor and acquiring the outside air data by a cabin shell sensor;

the cabin dust judging module is used for judging whether the difference value between the bulkhead air data and the extravehicular air data is greater than a preset cabin dust threshold value;

the purification triggering module is used for triggering the purification device when the difference value between the compartment air data and the outdoor air data is greater than a preset compartment dust threshold value;

the purification operation module is used for calculating the average value of the air data outside the cabin and the air data inside the cabin and operating the purification device until the air data of the compartment is equal to the average value;

the cabin interior maintaining module is used for maintaining the purification device in a closed state when the difference value between the compartment air data and the cabin exterior air data is not greater than a preset cabin dust threshold value.

5. The automatic cabin partitioning system according to claim 1, wherein the special function module comprises: the system comprises a special demand analysis module, a special data module and a special state module;

the special demand analysis module is used for analyzing the control data and acquiring user demand data;

the special data module is used for acquiring special control data according to the user demand data;

and the special state module is used for adjusting the working state of the sanitary equipment according to the special control data.

6. The automatic cabin partitioning system according to claim 4, wherein the special function module further comprises: a separation system mounting groove and a separation data interface;

the separation system mounting groove is a groove, the size of the separation system mounting groove is matched with that of the automatic vehicle cabin separation system, and the separation system mounting groove is fixedly arranged on the periphery of each vehicle seat;

the separation data interface is fixedly arranged at the bottom of the separation system installation groove.

7. A method for automatically partitioning a vehicle cabin, the method comprising:

acquiring control data from a vehicle machine, and acquiring air data in the vehicle through a sensor;

analyzing the control data to obtain cabin control switch information, and triggering the automatic vehicle cabin separation system to start according to the cabin control switch information;

acquiring compartment air data and extravehicular air data, calculating purification data according to the compartment air data and the extravehicular air data, and controlling the purification device according to the purification data;

and analyzing the control data to obtain closed use data, and starting the sanitary equipment according to the closed use data.

8. The method of claim 7, wherein the obtaining control data from the vehicle machine and obtaining air data in the vehicle via a sensor, further comprises:

acquiring vehicle state information;

acquiring compartment control data through a control panel;

and monitoring the air data in the vehicle through a sensor.

9. The method of claim 7, wherein analyzing the control data to obtain cabin control switch information, triggering activation of the cabin automatic separation system based on the cabin control switch information comprises:

extracting the cabin control switch information from the control data;

acquiring partition plate trigger data according to the cabin control switch information;

and the prefabricated motor receives the partition plate triggering data and converts the partition plate triggering data into a usable state.

10. The method of claim 7, wherein said acquiring compartment air data and extra-cabin air data and calculating decontamination data based on said compartment air data and said extra-cabin air data, said controlling said decontamination apparatus based on said decontamination data comprises:

acquiring the compartment air data by a compartment sensor, and acquiring the air data outside the cabin by a cabin shell sensor;

judging whether the difference value between the compartment air data and the outdoor air data is greater than a preset compartment dust threshold value or not;

if yes, triggering the purification device;

calculating an average of the overboard air data and the overboard air data, and operating the decontamination device until the bay air data equals the average;

if not, the purification device is maintained in a closed state.

11. The method of claim 7, wherein said analyzing said control data to obtain closed usage data, and opening a plumbing fixture based on said closed usage data comprises:

analyzing the control data to obtain user demand data;

acquiring special control data according to the user demand data;

and adjusting the working state of the sanitary equipment according to the special control data.