CN112729382A - Vehicle-mounted ultraviolet monitoring device and monitoring method - Google Patents

Abstract

The invention discloses a vehicle-mounted ultraviolet monitoring device and a detection method, wherein the vehicle-mounted ultraviolet monitoring device comprises a monitoring unit, an ECU (electronic control unit), a skylight controller, an air conditioner controller and a vehicle-mounted APP (application); the monitoring unit is in communication connection with the ECU, and the ECU is in communication control connection with the skylight controller, the air conditioner controller and the vehicle-mounted APP respectively; the monitoring unit gathers light intensity, interior ultraviolet intensity of car and temperature information in the car to give ECU with the information transfer who gathers, ECU carries out data processing to the information that acquires, and ultraviolet intensity in the comprehensive judgement car, this environment of analysis is to vital sign's risk degree, and gives on-vehicle APP with alarm information propelling movement, sends control instruction to skylight controller and air conditioner controller according to the judged result information simultaneously. The ultraviolet intensity in the vehicle is monitored by monitoring the environmental indexes in the vehicle in real time through the ultraviolet sensor, the light sensor and the temperature sensor, so that the environmental risk in the vehicle is effectively reduced.

Description

Vehicle-mounted ultraviolet monitoring device and monitoring method

Technical Field

The invention belongs to the technical field of automobiles, relates to an ultraviolet detection unit, and particularly relates to a vehicle-mounted ultraviolet monitoring device and a detection method.

Background

In the driving process, the ultraviolet rays (hereinafter referred to as UV) irradiated on the face are different in degree, the skin of the face irradiated by more UV is more obviously aged, and the 'half-face aging disease' is formed, and particularly, the female car owner and the user have strong needs for skin protection and sun protection and black prevention. Furthermore, the invention provides a monitoring and detecting unit device for judging the ultraviolet intensity in the vehicle, so as to effectively reduce the ultraviolet risk in the environment in the vehicle.

Simultaneously, the light irradiation intensity that UV brought and the thermal problem of temperature also bring a great deal of inconvenience for driving safety and the travelling comfort of driving, and present on-vehicle light regulation all belongs to the fixed state, can't adjust the car light along with the user's different demands and the state in the car.

The vehicle-mounted ultraviolet monitoring unit device is a scientific application technology, when the ultraviolet intensity in the vehicle exceeds a safety limit value, the light in the vehicle cannot be adjusted along with different requirements and states of a user in the vehicle, and a vehicle owner cannot be informed and reminded, so that a series of health problems are caused, and the vehicle is further designed to have scientific and technological senses, have strong practicability, can improve the health of the vehicle owner, and remind the ultraviolet intensity in the vehicle to become the technical problem to be solved urgently at present.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a vehicle-mounted ultraviolet monitoring device and a monitoring method, which are used for monitoring the ultraviolet intensity in a vehicle in real time through an ultraviolet sensor, a light sensor and a temperature sensor so as to effectively reduce the environmental risk in the vehicle.

The purpose of the invention is realized by the following technical scheme:

a vehicle-mounted ultraviolet monitoring device comprises a monitoring unit, an ECU, a skylight controller, an air conditioner controller and a vehicle-mounted APP; the monitoring unit is in communication connection with the ECU, and the ECU is in communication control connection with the skylight controller, the air conditioner controller and the vehicle-mounted APP respectively; the monitoring unit gathers light intensity, interior ultraviolet intensity of car and temperature information in the car to give ECU with the information transfer who gathers, ECU carries out data processing to the information that acquires, and ultraviolet intensity in the comprehensive judgement car, this environment of analysis is to vital sign's risk degree, and gives on-vehicle APP with alarm information propelling movement, sends control instruction to skylight controller and air conditioner controller according to the judged result information simultaneously.

Further, the monitoring unit comprises an ultraviolet sensor, a light sensor and a temperature sensor; the ultraviolet sensor collects ultraviolet intensity information in the vehicle and sends the information to the ECU; the light sensor collects light intensity information in the vehicle and sends the light intensity information to the ECU; the temperature sensor collects temperature information in the vehicle and sends the temperature information to the ECU.

Further, on-vehicle APP includes user interaction interface for show interior ultraviolet intensity, temperature, light measurement value and the alarm information that ECU sent.

Further, the vehicle-mounted environment monitoring unit device is mounted at a handle above the right side of the rear row of the vehicle.

As another aspect of the present invention, there is provided a monitoring method of a vehicle-mounted ultraviolet monitoring apparatus, including the steps of:

judging the state of the vehicle;

when the vehicle is in a starting state, judging the state of the sunshade curtain in the vehicle, and judging the temperature in the vehicle through a temperature sensor;

when the sunshade curtain is in an open state, the light sensor and the ultraviolet detection unit are used for judging the intensity of light and ultraviolet in the vehicle;

when the light and ultraviolet intensity in the vehicle are monitored to exceed the preset threshold values, the sunshade curtain in the vehicle is automatically closed, and alarm information is sent to the vehicle-mounted APP;

when the temperature in the vehicle is monitored to exceed a preset threshold value, the air conditioner in the vehicle starts to work and sends alarm information to the vehicle-mounted APP;

after a period of time, if the ultraviolet detection in the vehicle is not abnormal, safety information is sent to the vehicle-mounted APP;

after the alarm information is sent for a certain time, if the state in the vehicle still keeps the state when being triggered, the alarm information is sent to the vehicle-mounted APP again.

Further, the alarm information comprises vehicle dripping position information, an in-vehicle temperature value and in-vehicle ultraviolet intensity.

The invention can realize the following functions:

1. monitoring ultraviolet intensity, judging the ultraviolet intensity in the vehicle through an ultraviolet sensor, and updating the relevant state to a body central control system in real time;

2. detecting light intensity, namely judging the light intensity in the vehicle through a light sensor, and updating the relevant state to a central control system in real time;

3. monitoring the temperature in the car, judging the temperature in the car through a temperature sensor, and updating the relevant state to a body central control system in real time;

4. and (4) judging the suitability of the environment in the automobile, and analyzing the environment in the automobile by the central control system by combining the data returned by each sensor and the automobile state. And the temperature and ultraviolet light intensity signals are converted into skylight switch signals and air conditioner switch signals to be sent to the BCM.

5. The system comprises a vehicle-mounted App display function, an automobile system interactive processing function, a scene processing function, a display storage query function and the like; the user interface includes measurements of ultraviolet intensity, temperature, light display, and related health advice.

Drawings

FIG. 1 is a block diagram of the principle of the present invention for a vehicle-mounted ultraviolet monitoring device

FIG. 2 is a schematic diagram of the external structure of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings and the embodiments.

As shown in fig. 1, a vehicle-mounted ultraviolet monitoring device includes a monitoring unit, an ECU, a sunroof controller, an air conditioner controller, and a vehicle-mounted APP; the monitoring unit is in communication connection with the ECU, and the ECU is in communication control connection with the skylight controller, the air conditioner controller and the vehicle-mounted APP respectively; the monitoring unit gathers light intensity, interior ultraviolet intensity of car and temperature information in the car to give ECU with the information transfer who gathers, ECU carries out data processing to the information that acquires, and ultraviolet intensity in the comprehensive judgement car, this environment of analysis is to vital sign's risk degree, and gives on-vehicle APP with alarm information propelling movement, sends control instruction to skylight controller and air conditioner controller according to the judged result information simultaneously.

Further, the monitoring unit comprises an ultraviolet sensor, a light sensor and a temperature sensor; judging the ultraviolet intensity in the vehicle through an ultraviolet sensor, and updating the relevant state to a body central control system in real time; judging the light intensity in the vehicle through a light sensor, and updating the relevant state to a body central control system in real time; and judging the temperature in the car through a temperature sensor, and updating the relevant state to the body central control system in real time.

Further, on-vehicle APP includes user interaction interface for show interior ultraviolet intensity, temperature, light measurement value and the alarm information that ECU sent.

Further, the vehicle-mounted environment monitoring unit device is mounted at a handle above the right side of the rear row of the vehicle.

As shown in fig. 2, a vehicle-mounted ultraviolet monitoring device further includes an upper housing, a lower housing, and a PCB; the upper shell and the lower shell are clamped and fixed, and the PCB is arranged in the lower shell; air holes are distributed on each side wall of the lower shell; the upper shell is distributed with a ventilating grid; the monitoring unit is arranged on the PCB.

TABLE 1 relevant parameter table of vehicle-mounted ultraviolet monitoring device

The working principle of the invention is as follows:

the ultraviolet intensity in the automobile is comprehensively judged through the ultraviolet sensor, the light sensor and the temperature sensor, the risk degree of the environment to vital signs is analyzed, and information and the automobile state are pushed to an automobile system, a related mobile phone terminal and the like on the premise of not influencing the normal behavior habit of a client.

The vehicle-mounted ultraviolet monitoring unit device converts an ultraviolet signal into an electric signal by utilizing the photoelectron emission effect through the ultraviolet sensor, and emits photoelectrons under the irradiation of ultraviolet rays. Under the action of electric field, photoelectrons are absorbed by the anode of the photoelectric tube, and the current is in direct proportion to the intensity of ultraviolet rays irradiating the cathode, so that the measurement effect is achieved. Judging the light intensity in the vehicle through a light sensor, and updating the relevant state to a body central control system in real time; judging the temperature in the car through a temperature sensor, and updating the relevant state to a body central control system in real time; and the central control system analyzes the environment in the automobile by combining the data returned by each sensor and the automobile state. And the temperature and ultraviolet light intensity signals are converted into skylight switch signals and air conditioner switch signals to be sent to the BCM.

A monitoring method of a vehicle-mounted ultraviolet monitoring device comprises the following steps:

judging the state of the vehicle;

when the vehicle is in a starting state, judging the state of the sunshade curtain in the vehicle, and judging the temperature in the vehicle through a temperature sensor;

when the sunshade curtain is in an open state, the light sensor and the ultraviolet detection unit are used for judging the intensity of light and ultraviolet in the vehicle;

when the light and ultraviolet intensity in the vehicle are monitored to exceed the preset threshold values, the sunshade curtain in the vehicle is automatically closed, and alarm information is sent to the vehicle-mounted APP;

when the temperature in the vehicle is monitored to exceed a preset threshold value, the air conditioner in the vehicle starts to work and sends alarm information to the vehicle-mounted APP;

if no abnormity occurs after a period of time, sending safety information;

after the alarm information is sent for a certain time, if the state in the vehicle still keeps the state when being triggered, the alarm information is sent to the vehicle-mounted APP again.

Further, the alarm information comprises vehicle dripping position information, an in-vehicle temperature value and in-vehicle ultraviolet intensity.

The ultraviolet monitoring unit device is combined with a control system formed by an ultraviolet sensor, a light sensor, a temperature sensor and an intelligent algorithm, so that the monitoring of the ultraviolet intensity, the temperature heat and the light intensity in the vehicle is realized. And according to the monitoring result, the monitoring device is cooperated with an in-vehicle controller, such as a sun-shading device for automatically opening and closing a skylight, an automobile curtain and the like. The problems of driving safety, driving comfort and the like caused by the fact that body parts such as the face are easily affected by ultraviolet irradiation, temperature light and the like in the driving process are solved. Such as: sensing the UV intensity, adjusting the state of the window glass of the vehicle (sky) or other facilities (such as a skylight), and reducing the damage of the UV to users in the vehicle; according to the light/UV sensing + intelligent algorithm, requirements (such as reading, resting and the like) of a user on light in different states in the vehicle are met; the real-time adjustment of the glass is carried out according to the intensity of the light, so that the eye fatigue caused by too strong light in the driving process is relieved.

Claims (6)

1. A vehicle-mounted ultraviolet monitoring device is characterized by comprising a monitoring unit, an ECU, a skylight controller, an air conditioner controller and a vehicle-mounted APP; the monitoring unit is in communication connection with the ECU, and the ECU is in communication control connection with the skylight controller, the air conditioner controller and the vehicle-mounted APP respectively; the monitoring unit collects light intensity, ultraviolet intensity and temperature information in the vehicle and transmits the collected information to the ECU; ECU carries out data processing to the information that acquires, and the comprehensive judgement ultraviolet intensity in the car analyzes this environment to vital sign's risk degree to give on-vehicle APP with alarm information propelling movement, send control instruction to skylight controller and air conditioner controller according to the judged result information simultaneously.

2. The vehicle-mounted ultraviolet monitoring device as claimed in claim 1, wherein the monitoring unit comprises an ultraviolet sensor, a light sensor and a temperature sensor; the ultraviolet sensor collects ultraviolet intensity information in the vehicle and sends the information to the ECU; the light sensor collects light intensity information in the vehicle and sends the light intensity information to the ECU; the temperature sensor collects temperature information in the vehicle and sends the temperature information to the ECU.

3. The vehicle-mounted ultraviolet monitoring device of claim 1, wherein the vehicle-mounted APP comprises a user interaction interface for displaying the ultraviolet intensity, the temperature, the light measurement value and the alarm information sent by the ECU.

4. The monitoring method of the vehicle-mounted ultraviolet monitoring device according to claim 1, characterized by comprising the following steps:

judging the state of the vehicle;

when the vehicle is in a starting state, judging the state of the sunshade curtain in the vehicle, and acquiring the temperature in the vehicle through a temperature sensor;

when the sunshade curtain is in an open state, the light sensor and the ultraviolet detection unit are used for collecting the light and ultraviolet intensity in the vehicle;

when the light and ultraviolet intensity in the vehicle are monitored to exceed the preset threshold values, the sunshade curtain in the vehicle is automatically closed, and alarm information is sent to the vehicle-mounted APP;

when the temperature in the vehicle is monitored to exceed a preset threshold value, the air conditioner in the vehicle starts working and sends alarm information to the vehicle-mounted APP.

5. The monitoring method of the vehicle-mounted ultraviolet monitoring device according to claim 4, further comprising the steps of:

after a period of time, if the ultraviolet detection in the vehicle is not abnormal, safety information is sent to the vehicle-mounted APP;

after the alarm information is sent for a certain time, if the state in the vehicle still keeps the state when being triggered, the alarm information is sent to the vehicle-mounted APP again.

6. The monitoring method of the vehicle-mounted ultraviolet monitoring device according to claim 4, wherein the alarm information comprises vehicle droplet position information, an in-vehicle temperature value and in-vehicle ultraviolet intensity.

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