KR20220158153A - Vehicle system with automatic drinking measurement function and operation method thereof - Google Patents

Abstract

An operation method of a vehicle system with an automatic drinking measurement function according to the present invention comprises the steps of: performing, by an authentication unit, authentication on a vehicle user; detecting, by a boarding detection sensor, whether the vehicle user is seated on a driver seat according to control of a control unit when authentication of the vehicle user is successful; measuring, by a drunkenness detection sensor, alcohol concentration contained in indoor air of a vehicle under the control of the control unit, when it is determined that the vehicle user is seated on the driver seat; and comparing, by the control unit, the measured value of the alcohol concentration measured by the drunkenness detection sensor with a reference value, and when it is determined that the vehicle user is in a drunken state, transmitting a gear shift lock signal to a shift control unit so as to block a gear shift operation by the vehicle user.

Description

Vehicle system with automatic drinking measurement function and operation method thereof

The present invention relates to a vehicle system and an operating method thereof, and more particularly, to a vehicle system and method of operating the vehicle system for automatically measuring sobriety of a vehicle user.

The alcohol consumption test of vehicle users is generally conducted during the police's drunk driving crackdown. Drunk driving enforcement is to prevent drunk driving accidents in advance.

Regardless of recent crackdowns on drunk driving, as the demand for vehicle users to measure their own blood alcohol concentration increases, various breathalyzers related to vehicles are being developed.

As an example of a breathalyzer related to a vehicle, there is a known example of measuring a vehicle user's breathalyzer by using a smart key having a breathalyzer function. In this example, a method in which a user blows and measures a breath using a breathalyzer function provided in a smart key is measured, and a method in which the smart key restricts whether or not to start based on the measurement result has been known.

As another example of a breathalyzer related to a vehicle, it is known how to install a separate breathalyzer in a vehicle and then transmit the data measured through the device to a control unit in the vehicle so that the control unit restricts starting of the vehicle. there is a bar

However, this method is less effective because a user who feels uncomfortable with the vehicle start restriction may request another person to take the alcohol test instead.

In addition, if a drunk user falls asleep in a car in the cold winter or hot summer because the engine does not start after the alcohol measurement, deaths due to hypothermia in the cold winter and suffocation in the hot summer may occur.

An object of the present invention to solve the above problems is to measure the blood alcohol concentration of an actual user who wants to drive to determine whether or not he or she is drinking, and furthermore, even if the blood alcohol concentration of the actual user who wants to drive exceeds the reference value, the actual user who wants to drive An object of the present invention is to provide a vehicle system having an automatic breathalyzer function that allows a user to use at least an air conditioner inside the vehicle and an operation method thereof.

The foregoing and other objects, advantages and characteristics of the present invention, and methods of achieving them will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

In order to achieve the above object, an operating method of a vehicle system having an automatic alcohol level detection function according to an aspect of the present invention includes performing authentication of a vehicle user by an authentication unit; detecting whether the vehicle user is seated in a driver's seat according to control of a control unit by a boarding detection sensor when authentication of the vehicle user is successful; measuring, by a sobriety detection sensor, alcohol concentration contained in indoor air of the vehicle under the control of the control unit, when it is determined that the vehicle user is seated in the driver's seat; and the control unit compares the measured value of the alcohol concentration measured by the sobriety detection sensor with a reference value, and when it is determined that the vehicle user is in a drunk state, transmits a gearshift lock signal to a shift control unit, so that the vehicle user and blocking a gear shifting operation by

In an embodiment, the authentication of the vehicle user may be a step of the authentication unit performing authentication of the vehicle user according to a fingerprint authentication method or a digital key authentication method of the vehicle user.

In an embodiment, the step of determining whether the vehicle user is seated in the driver's seat may be the step of determining whether the vehicle user is seated in the driver's seat by the vehicle occupant detection sensor detecting the vehicle user's weight and seat belt fastening state.

In an embodiment, the measuring of the alcohol concentration may include introducing indoor air of the vehicle through an air intake near the driver's seat; and measuring, by the sobriety detection sensor installed in the air inlet, the alcohol concentration contained in the indoor air of the vehicle flowing through the air inlet.

In an embodiment, the step of introducing indoor air of the vehicle into an air intake near the driver's seat may be a step of introducing indoor air of the vehicle into an air intake near the driver's seat according to an operation of an air conditioning control system.

In an embodiment, between the step of authenticating the vehicle user and the step of determining whether the vehicle user is seated in the driver's seat, when authentication of the vehicle user succeeds, the control unit transmits an ignition signal to the engine control unit. doing; and transmitting, by the engine control unit, an operation command to the air conditioning control system so that the air conditioning control system operates.

In an embodiment, if the vehicle user is determined to be in a drunk state after the step of blocking the gear shift operation by the vehicle user, the air conditioning control system controls the room temperature in the vehicle to ensure the vehicle user's rest. Further steps may be included.

A vehicle system having an automatic breathalyzer function according to another aspect of the present invention includes an authentication unit configured to authenticate a vehicle user; a boarding detection sensor for detecting whether the vehicle user is seated in a driver's seat when authentication of the vehicle user is successful; a breathalyzer measuring alcohol concentration contained in indoor air of the vehicle according to breathing of the vehicle user when it is determined that the vehicle user is sitting in the driver's seat; and comparing the measured value of the alcohol concentration measured by the sobriety detection sensor with a reference value, and when it is determined that the vehicle user is in a drunk state, transmits a gear shift lock signal to a shift control unit, so that the vehicle user operates gear shifting. It includes a control unit that blocks the

In an embodiment, the authentication unit may be implemented as a fingerprint recognition sensor or a digital key.

In an embodiment, the riding detection sensor may include a weight sensor installed under a driver's seat; and a seat belt fastening sensor that detects whether or not the seat belt is fastened.

In an embodiment, the sobriety detection sensor may be a non-contact sensor installed at an air inlet near the driver's seat and measuring the alcohol concentration in the indoor air of the vehicle flowing into the air inlet according to the operation of the air conditioning control system. .

In an embodiment, the control unit transmits an operation command of the air conditioning control system to an engine control unit when authentication of the vehicle user is successful, and the engine control unit operates the air conditioning control system according to the operation command. An ignition signal may be transmitted to the air conditioning control system.

In an embodiment, the control unit, when it is determined that the vehicle user is in a drunken state, determines the indoor temperature with the air conditioning control system so that the air conditioning control system controls the indoor temperature in the vehicle, in order to ensure the vehicle user's rest. An operation command for control may be transmitted to the air conditioning control system.

According to the present invention, by measuring the blood alcohol concentration of an actual user who intends to drive and determining whether or not he or she is drinking, it is possible to prevent other users from measuring the alcohol consumption instead.

In addition, even if the actual user's blood alcohol concentration exceeds the standard value, the starting function that allows the actual user to use at least the air conditioner inside the vehicle is turned on, so that even if the user who has been drinking alcohol has no intention of driving, , As the ignition function is not turned on, the air conditioner does not operate, which can prevent human damage that may occur due to hypothermia or suffocation to users resting or sleeping in the vehicle in cold winter or hot summer. can

1 is a block diagram schematically showing the internal configuration of a vehicle system equipped with an automatic alcohol level measurement function according to an embodiment of the present invention.
2 is a flowchart illustrating an operating method of a vehicle system equipped with an automatic alcohol level detection function according to an embodiment of the present invention.

The embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art, and the following examples may be modified in many different forms, and the scope of the present invention is as follows It is not limited to the examples. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the spirit of the invention to those skilled in the art. In addition, each component in the following drawings is exaggerated for convenience and clarity of explanation, and the same reference numerals refer to the same elements in the drawings. As used herein, the term “and/or” includes any one and all combinations of one or more of the listed items.

1 is a block diagram schematically showing the internal configuration of a vehicle system equipped with an automatic alcohol level measurement function according to an embodiment of the present invention.

Referring to FIG. 1 , a vehicle system 100 according to an embodiment of the present invention is installed in a vehicle and has a function of automatically measuring the drinking of a vehicle user.

To this end, the vehicle system 100 may include an authentication unit 110, a driver riding detection sensor 120, a control unit 130, and a breathalyzer 140, and in FIG. 1, such a vehicle system 100 Peripheral components that work with are further shown.

Peripheral components may be, for example, the engine control unit 150, the air conditioning control system 160, and the shift control unit 170. All or some of these peripheral components may be defined as components included in the vehicle system 100 .

In addition, the components 110 to 170 shown in FIG. 1 may be connected through in-vehicle communication, and here, the in-vehicle communication may be, for example, CAN communication, LIN communication, and the like.

The authentication unit 110 is a unit that authenticates whether a user seated in the driver's seat is the actual owner of the vehicle, and may be implemented as, for example, a fingerprint recognition sensor or a digital key installed in the vehicle.

The authentication unit 110 processes an authentication process for a user seated in the driver's seat based on a fingerprint recognition sensor or a digital key, confirms whether the user seated in the driver's seat is the actual owner of the vehicle, and confirms that the user seated in the driver's seat is the vehicle owner. If confirmed as the actual owner of , an authentication completion result indicating successful authentication is transmitted to the control unit 130 .

The driver's boarding detection sensor 120 is a sensor that detects whether a user is seated in the driver's seat, and starts a detection operation under the control of the control unit 130 . When the control unit 130 receives the authentication completion result indicating successful authentication transmitted from the authentication unit 110, the control unit 130 transmits a command to start the detection operation of the driver riding detection sensor 120, and detects the driver riding. The sensor 120 may start a sensing operation according to a sensing operation start command from the control unit 130 . The driver riding detection sensor 120 includes a weight sensor 122 that measures the weight of the user and a seat belt fastening detection sensor 124 that detects whether the seat belt is fastened.

The weight sensor 122 is installed under the driver's seat, measures the weight of the user when the user is seated in the driver's seat, and transmits the measurement result to the control unit 130 . Here, the weight sensor 122 transmits a measurement value obtained by measuring the user's weight to the control unit 130, rather than simply providing a measurement result of comparing the threshold value with the user's weight.

The seat belt fastening detection sensor 124 detects whether the user seated in the driver's seat has fastened the seat belt, and transmits a fastening completion message indicating completion of the fastening of the seat belt to the control unit 130 .

On the other hand, in the embodiment of FIG. 1, after processing the authentication process by the authentication unit 110, the driver riding detection sensor 120 is described as sensing to determine whether the user is sitting in the driver's seat, but the driver riding detection sensor The authentication process by the authentication unit 110 may be performed after first performing a sensing operation for determining whether the user is sitting in the driver's seat by the user 120 .

The control unit 130 finally determines whether the user is seated in the driver's seat based on the weight measurement value from the weight sensor 122 and the fastening completion message from the seatbelt fastening detection sensor 124 .

When the control unit 130 finally determines that the user is seated in the driver's seat according to the weight measurement value and the engagement completion message, the control unit 130 transmits an operation start command to the breathalyzer 140 .

On the other hand, the control unit 130 compares the measured weight from the weight sensor 122 with the weight of the user learned in advance (stored in advance), and if the error is included in the allowable error range, the actual owner of the vehicle is in the driver's seat. It is judged to be seated in

That is, it can be seen that the control unit 130 performs a second authentication process in addition to the authentication process by the authentication unit 110 based on the weight measurement value from the load sensor 122 .

The control unit 130 may be implemented as a dedicated processor for automatically processing the user's drinking measurement, and preferably, in order to reduce costs due to the additional design of the dedicated processor, a higher control unit (or integration) installed in the existing vehicle control unit).

The sobriety detection sensor 140 starts an operation to measure the drunkenness of the vehicle user according to an operation start command from the control unit 130 .

To measure the alcohol of the vehicle user, the breathalyzer 140 may be implemented as a contact or non-contact breathalyzer, and is installed on the steering wheel of the driver's seat or installed in the vehicle in order to easily measure the vehicle user's sobriety sitting in the driver's seat. It can be installed in the air intake near the driver's seat associated with the air conditioning control system 160 inside.

The air conditioning control system 160 includes an indoor temperature measuring sensor for measuring the indoor temperature of the vehicle, and the indoor temperature measuring sensor is installed at an air intake.

The indoor temperature measuring sensor measures the indoor temperature of the vehicle by measuring the temperature of the air in the vehicle sucked through the air inlet through a motor driven under the control of the air conditioning control system 160 to measure the indoor temperature of the vehicle.

A drinking measuring sensor 140 is installed in the air inlet along with the indoor temperature measuring sensor. That is, the sobriety detection sensor 140 measures the concentration of alcohol contained in the air in the vehicle sucked through the air inlet by driving the motor in the same manner as the indoor temperature measuring sensor measures the vehicle interior temperature.

Since the breathalyzer 140 measures the concentration of alcohol contained in the air in the vehicle, it may be referred to as a non-contact breathalyzer.

The breathalyzer 140 implemented in a non-contact manner is installed in the air intake near the driver's seat, and when the air inside the vehicle is sucked through the air intake according to the driving of the motor, the alcohol content contained in the intake air ( Concentration) can be measured to measure alcohol consumption.

In the case of the non-contact sobriety detection sensor 140, when the seat belt of the authenticated user is detected and at the same time the seat belt is recognized as a normal fastened state, the non-contact blood alcohol concentration measurement starts.

The sobriety detection sensor 140 transmits the measured value of the vehicle user's alcohol concentration contained in the air inside the vehicle to the control unit 130 again, and the control unit 130 compares the measured value with the reference value, so that the measured alcohol concentration is If the threshold value is exceeded, the vehicle user is determined to be in a drunken state, and a gear shift lock signal is transmitted to the shift control unit 170, even if the user attempts gear shift according to the gear shift lock signal. The mode is forcibly maintained in the parking mode (P range).

In addition, when the measured alcohol concentration of the vehicle user exceeds the reference value, the control unit 130 transmits an engine on lock signal to the start control unit 150 to start the engine even if the user attempts to press the engine start button. Control it so it doesn't get caught.

Conversely, when the measured alcohol concentration is less than or equal to the reference value, the user is determined to be in a non-drinking state, and the control unit 130 transmits a gearshift unlock signal to the shift control unit 170, and the shift control unit 170 transmits the gearshift lock release signal to the gearshift control unit 170 In response to the shift unlock signal, the locked gear in the parking mode (P-range) is unlocked so that normal gear shifting and vehicle steering wheel operation are possible.

In addition, when the measured alcohol concentration is less than or equal to the reference value, the control unit 130 transmits an engine on unlock signal to the start control unit 150 so that the engine can be started when the user presses the engine start button.

Meanwhile, the control unit 130 may transmit an operation command of the air conditioning control system 160 prior to transmitting an engine on lock signal or an engine unlock signal to the engine control unit 150 .

The engine control unit 150 transmits an ignition signal to the air conditioning control system 160 according to an operation command of the air conditioning control system 160 from the control unit 130 .

The air conditioning control system 160 may operate according to an ignition signal from the engine control unit 150 .

As such, the present invention is an air conditioning control system so that the user can take a break at an appropriate vehicle interior temperature even though the user is determined to be in a drunk state as a result of the alcohol measurement by the breathalyzer 140, although the engine is not in an engine ON state. (160).

2 is a flowchart illustrating an operating method of a vehicle system equipped with an automatic alcohol level detection function according to an embodiment of the present invention.

Referring to FIG. 2 , first, in step S210, a vehicle user authentication process is performed. The authentication process may be performed by the authentication unit 110 . At this time, the authentication unit 110 may be implemented as a fingerprint recognition sensor or a digital key.

Subsequently, in step S220, when authentication of the vehicle user succeeds, a process of detecting whether the vehicle user is seated in the driver's seat is performed. This process may be performed on the passenger detection sensor 120, and the passenger detection sensor 120 may include, for example, a load sensor 122 installed under the driver's seat and a seat belt fastening detection sensor 124. have.

Simultaneously with or after the step S220, in step S280, when authentication of the vehicle user succeeds, the engine control unit transmits an ignition signal to the air conditioning control system 160 according to an operation command of the control unit, and in step S290, The process of operating the air conditioning control system 160 is performed.

Following step S220, in step S230, when it is confirmed that the vehicle user is seated in the driver's seat, the breathalyzer 140 controls the control unit 130 to control the vehicle user's breathing in the interior of the vehicle. A process of measuring the concentration of alcohol contained in the air is performed.

Here, the process of measuring the alcohol concentration in the indoor air of the vehicle may include a process of introducing the indoor air of the vehicle into an air intake near the driver's seat;

In the process of measuring the alcohol concentration contained in the indoor air of the vehicle sucked through the air intake according to the operation of the air conditioning control system 160, in which the breathalyzer installed in the air inlet starts operating in step S290, It can be done.

Subsequently, in step S240, the control unit 130 compares the measured value of the alcohol concentration measured by the sobriety detection sensor 140 with a reference value. Here, if the measured value of the alcohol concentration exceeds the reference value, the vehicle user is determined to be in a drinking state, and in the opposite case, it is determined to be in a non-drinking state.

Subsequently, in step S250, when it is determined that the vehicle user is in a drunken state, the control unit 130 transmits a gear shift lock signal to the shift control unit 170, thereby blocking the vehicle user's gear shift operation. this is done

At the same time, in step S260, if the vehicle user is determined to be in a drunken state, the air conditioning control system 160 controls the indoor temperature in the vehicle according to the operation command of the control unit to ensure the vehicle user's rest. this is done

Meanwhile, when it is determined that the vehicle user is in a non-drinking state, in step S270, the shift control unit 170 releases the gear shift control lock state under the control of the control unit 130.

The embodiments disclosed in this specification should be considered from an illustrative point of view rather than a limiting point of view, and may be variously changed. Therefore, the scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent range will be construed as being included in the present invention.

Claims (13)

performing authentication on the vehicle user by the authentication unit;
detecting whether the vehicle user is seated in a driver's seat according to control of a control unit by a boarding detection sensor when authentication of the vehicle user is successful;
measuring, by a sobriety detection sensor, alcohol concentration contained in indoor air of the vehicle under the control of the control unit, when it is determined that the vehicle user is seated in the driver's seat; and
The control unit compares the measured value of the alcohol concentration measured by the sobriety detection sensor with a reference value, and when it is determined that the vehicle user is in a drunken state, transmits a gear shift lock signal to the shift control unit to inform the vehicle user Blocking gear shift operation by
A method of operating a vehicle system having an automatic breathalyzer function comprising: In paragraph 1,
The step of performing authentication for the vehicle user,
and performing, by the authentication unit, authentication of the vehicle user according to a fingerprint authentication method or a digital key authentication method of the vehicle user. In paragraph 1,
The step of determining whether the vehicle user is seated in the driver's seat,
and determining whether the vehicle user is seated in a driver's seat by detecting the vehicle user's body weight and seatbelt fastening state by the riding detection sensor. In paragraph 1,
The step of measuring the alcohol concentration,
introducing indoor air of the vehicle through an air intake near the driver's seat; and
and measuring, by the sobriety detection sensor installed in the air inlet, the alcohol concentration contained in the indoor air of the vehicle flowing into the air inlet. In paragraph 4,
The step of introducing the indoor air of the vehicle into the air intake near the driver's seat,
A method of operating a vehicle system having an automatic breathalyzer function, characterized in that the step of introducing indoor air of the vehicle into an air intake near the driver's seat according to the operation of the air conditioning control system. In paragraph 1,
Between the step of authenticating the vehicle user and the step of determining whether the vehicle user is seated in a driver's seat,
transmitting, by the control unit, an ignition signal to an engine control unit when authentication of the vehicle user is successful; and
The method of operating a vehicle system equipped with an automatic breathalyzer function, further comprising transmitting an operation command from the engine control unit to the air conditioning control system so that the air conditioning control system operates. In paragraph 6,
After the step of blocking the gear shift operation by the vehicle user,
If the vehicle user is determined to be in a drunken state, controlling, by the air conditioning control system, the indoor temperature in the vehicle to ensure the vehicle user's rest
A method of operating a vehicle system having an automatic breathalyzer function, characterized in that it further comprises. an authentication unit that performs authentication on a vehicle user;
a boarding detection sensor for detecting whether the vehicle user is seated in a driver's seat when authentication of the vehicle user is successful;
a breathalyzer measuring alcohol concentration contained in indoor air of the vehicle according to breathing of the vehicle user when it is determined that the vehicle user is sitting in the driver's seat; and
The measured value of the alcohol concentration measured by the sobriety detection sensor is compared with a reference value, and when it is determined that the vehicle user is in a drunken state, a gear shift lock signal is transmitted to the shift control unit to prevent the vehicle user from shifting gears. control unit to block
A vehicle system having an automatic drinking test function comprising a. In paragraph 8,
The authentication unit,
A vehicle system having an automatic breathalyzer function implemented by a fingerprint recognition sensor or a digital key. In paragraph 8,
The ride detection sensor,
Weight sensor installed under the driver's seat; and
Seat belt fastening sensor that detects whether the seat belt is fastened
A vehicle system with an automatic breathalyzer function that includes a. In paragraph 8,
The alcohol measurement sensor,
A vehicle system with an automatic alcoholism measurement function, which is a non-contact sensor installed in an air intake near a driver's seat and measuring an alcohol concentration in indoor air of the vehicle flowing into the air intake according to an operation of an air conditioning control system. In paragraph 8,
The control unit,
When authentication of the vehicle user is successful, an operation command of the air conditioning control system is transmitted to the engine control unit;
The engine control unit transmits an ignition signal for operation of the air conditioning control system to the air conditioning control system according to the operation command. In paragraph 8,
The control unit,
When it is determined that the vehicle user is in a drunk state, the air conditioning control system sends an operation command for controlling the indoor temperature to the air conditioning control system to control the indoor temperature in the vehicle, so as to ensure the vehicle user's rest. A vehicle system with an automatic breathalyzer function, characterized in that for transmission to the system.

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