KR20220083289A - Drunk Driving Prevention System - Google Patents

Abstract

The present invention relates to a drunk driving measurement technology system, and more particularly, a method for detecting whether a person is drunk by measuring a change in the infrared rays emitted from the skin when drinking and measuring it with a detection sensor. It is a technology that controls or informs the police about drunk driving.
To this end, the present invention projects infrared rays to the skin, receives the reflected infrared rays, and analyzes the alcohol measuring sensor that analyzes the reflected signal in the contact part, the handle and the gearbox, which are attached to places that can be touched by a person, such as a handle and a gearbox. A control unit that judges whether you are drunk based on the received signal and restricts the start of a car, a GPS system that can recognize whether you are drunk with the analyzed signal and deliver the location of the vehicle, and the shortest distance to the alcohol control department based on the GPS system It is characterized by a contact device that can share information.

Description

Drunk Driving Prevention System {Drunk Driving Prevention System}

The present invention relates to a technology for measuring drunk driving, and more particularly, a method for detecting whether or not drinking by measuring a change in infrared rays emitted from the skin when drinking and using a detection sensor to control the start of a car depending on whether or not drunk driving It is a technology that informs the police of drunk driving or that they can crack down.

In general, after a driver gets in a car and starts the engine, the parts that his hands or skin mainly come into contact with correspond to the starting part, the steering wheel, and the gear. In general, a technology is used to prevent driving by installing a sensor on a part that is in frequent contact with the skin and measuring the alcohol concentration.

In the case of Application No. 1020150140106 (a method for preventing drunk driving and a vehicle auxiliary device providing the same), a touch sensor is installed in the starting part of the vehicle and the primary alcohol concentration is measured to determine whether to start the vehicle. 721C in [Fig. 5] corresponds to the contact part of the starting part, and the primary alcohol concentration is measured here. In case of proxy measurement, the 721C also measures whether the user's fingerprint is correct. After that, the 721C measures the alcohol concentration a second time while driving. If the second measurement is rejected or the alcohol concentration exceeds the level, the 115D, 721A, 721B, and 721D will switch to autonomous driving and stop on the shoulder. This technology has disadvantages in that an error may occur and reliability is lowered if the contact part gets wet or foreign substances are on it.

In the case of Application No. 1020140040909 (Drunk Driving Prevention System for Vehicles), a breathalyzer is created by using the gear as the contact part, and it detects whether or not driving under the influence of external factors is minimized. 12a and 130 in FIG. 6 correspond to contact parts, and 130 of them are touch sensors. When the driver detects an alcohol concentration above a certain level, the gear 10 is locked to prevent driving. The control unit measures the time and deactivates the measurement unit 130 during a time period in which the driver does not drink. It can prevent unnecessary activation of the measurement part, but also has a disadvantage that errors may occur due to moisture or foreign substances.

In the case of patent registration number 1020150040909 (measurement of breathability using electromagnetic waves), the driver's skin makes contact with the breathalyzer to determine biometric information. Because biometric information is used, external factors are minimized and reliability is greatly improved. In [FIG. 7], when the driver's biometric information is first stored in the storage unit 140 and the engine is started by the start detection unit 110, the information is transmitted, and the measurement information is transmitted from the breathalyzer 130 to the control unit 170 ) compares the existing biometric information and data in the storage unit 140 . Through comparison, whether or not the gear shift is approved is transmitted to the shift lever locking unit 150 and displayed on the output unit 160 . The above technology has a disadvantage in that it is necessary to continuously update the driver's biometric information, and if the driver contains alcohol in the normal case, the measurement is not smooth.

In the case of KR20160104354A (vehicle safety start device), the driver's drinking status is measured using infrared among electromagnetic waves. In general, when infrared rays are projected on human skin, there is infrared rays reflected from the body, and changes occur in these infrared rays when drinking alcohol. The reflected infrared rays are transmitted to the optical sensor unit, and then transferred back to the analysis unit to analyze the signal and measure the alcohol concentration to determine whether the driver is drinking or not.

[FIG. 5] [FIG. 6]

[Fig. 7]

[Document 1] KR20160104354A (Safety starting device for vehicle) (2015.02.26) [Document 2] 1020150140106 (2015.10.06) LG Electronics Co., Ltd. [Document 3] 1020150040909 (2015.03.24) Nidec Mobility Korea Co., Ltd.

The present invention relates to a system for accurately determining a drinking state in a plurality of methods when starting a vehicle, continuously determining a drinking state while driving, preventing drunk driving, and reducing accidents caused by drunk driving.

In order to solve the above problems, the present invention provides a measuring unit for determining the driver's drinking state; a start control unit for limiting or releasing the engine start of the vehicle; A control unit for outputting a control signal to limit or release the restriction on the engine start of the vehicle according to the drinking state measurement results; It includes a transmitter that transmits the location of the drunk driver to nearby drivers and police.

In this case, the measuring unit is located on the steering wheel and the transmission gear, projects infrared rays onto the driver's skin, receives the reflected signal, and analyzes the blood alcohol concentration.

If the blood alcohol concentration measured by the measurement units is all higher than the reference value, the engine start of the vehicle is restricted to make driving impossible, and if the blood alcohol concentration is less than the reference value, the engine start restriction of the vehicle is released.

In addition, the above object is installed on the steering wheel and the transmission gear measuring the driver's drinking state using a sensor for measuring the driver's drinking state; analyzing the measured blood alcohol concentration and transmitting it to a control unit; determining the driver's drinking state based on the blood alcohol concentration and transmitting a control signal to the starting control unit; determining the drinking state by continuously analyzing the driver's blood alcohol concentration even after the engine is started; It can be achieved by the drunk driving prevention system comprising the step of transmitting the location to surrounding drivers and police according to the determined drinking state.

The drunk driving prevention system of the present invention as described above determines the driver's drinking state through a breathalyzer sensor installed on the steering wheel and the transmission gear, and accordingly limits the engine start to prevent drunk driving in advance. In addition, even if the driver's drinking state cannot be properly determined due to a temporary error in the system, the drunk driving state is continuously determined, and accordingly, the driver's location is notified to nearby drivers and the police to prevent drunk driving accidents.

1 is a schematic diagram of the drunk driving prevention system of the present invention.
Figure 2 is a perspective view of the handle with the alcohol measurement sensor of the present invention attached to the surface.
Figure 3 is a perspective view of the transmission gear to which the alcohol sensor of the present invention is attached to the surface.
Figure 4 is a flowchart of the drunk driving prevention system of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings.

The drunk driving prevention system projects electromagnetic waves (infrared rays) of a certain frequency region to the contact part composed of a steering wheel and a gearbox, which are inevitably touched by human hands during driving, and the skin of the person in contact from the contact part, and receives the reflected signal of the projected electromagnetic wave. It consists of a measurement unit that analyzes the reflected signal from the sensor unit. Infrared rays are projected on a part of the driver's body, such as fingers, and the wavelength in a pre-stored normal state is compared with the wavelength generated by projecting to the driver to measure the blood alcohol concentration. And it is composed of a control unit that outputs a start control signal according to the result. In addition, it is composed of a transmission unit that transmits the location of the vehicle to the police when it is determined that drunk driving is the result of analysis through repetition of the above process.

2 and 3 are views showing a handle and a transmission gear, which are components of the contact part, respectively.

2 and 3, the alcohol measuring system of the drunk driving prevention system according to the present invention is provided in the handle and the transmission gear forming the body and is inserted under the surface of the handle and the gear in contact with the human skin, and the alcohol and compare the concentration measurement with a reference value.

4 is an overall flowchart of the drunk driving prevention system.

Referring to Figure 4, it is configured to limit the starting of the vehicle by comparing the measured value of the analyte in the contact portion and the measurement portion with a reference value.

It determines whether or not to start the vehicle through primary and secondary measurement and analysis, respectively, on the handle and components, which are components of the contact part.

Thereafter, the above process is continuously repeated through several measurement and analysis processes while driving, and when the measured value exceeds the reference value, the driver's location is transmitted to the police through the GPS system capable of receiving information.

Claims (5)

An alcohol measuring sensor that projects infrared rays to a person, receives infrared rays reflected from the human body, and analyzes the reflected signal to analyze the alcohol concentration of the person's body that has projected the infrared rays;

A handle on which the alcohol measurement sensor for preventing drunk driving is attached to the surface;

Transmission gear with the alcohol measuring sensor attached to the surface of the drunk driving prevention

Drunk driving prevention alcohol measurement system including
The method according to claim 1,

A starting limiting device that restricts the start of the vehicle based on the signal analyzed from the alcohol sensor on the steering wheel

Drunk driving prevention alcohol measurement system including
The method according to claim 1,

A starting limiting device that restricts the start of the vehicle based on the signal analyzed from the alcohol sensor of the gearbox

Drunk driving prevention alcohol measurement system including
The method according to claim 1,

A GPS system capable of receiving information that can recognize the analysis result of the alcohol measurement sensor and transmit the location of the vehicle

Drunk driving prevention alcohol measurement system including
The method according to claim 1,

A contact device that can share real-time information with the shortest distance drinking control department through the information of the GPS system

Drunk driving prevention alcohol measurement system including

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