KR20200001691A - Smart key system for vehicle - Google Patents

Abstract

A smart key system for a vehicle according to the present invention includes: a signal application module including a communication unit and applying a signal to a vehicle through the communication unit; a control module which performs user authentication based on a signal applied from the signal application module and controls opening and closing of a vehicle door when user authentication is completed; a power supply module for supplying power to the control module; and an emergency power supply module for supplying power to the control module or the power supply module when power is not supplied from the power supply module to the control module.

Description

Smart Key System for Vehicles {SMART KEY SYSTEM FOR VEHICLE}

The present invention relates to a smart key system for a vehicle, and more particularly, to a smart key system for a vehicle that can open and close the door of the vehicle without a mechanical key even when the vehicle is discharged.

In general, a vehicle is formed such that a user inserts a key into a mechanical keyhole provided in the vehicle to open or close a door or drive an engine. Recently, the smart key system of various methods has been applied to enable easy access to the vehicle and engine driving without a mechanical key.

Specifically, the smart key system refers to a method in which the driver releases the door lock without a separate key operation or a remote control operation. More specifically, when the driver possesses the smart key and is within a certain radius of the vehicle, the smart key transmits a signal such as an authentication code, and the user authentication is completed based on the signal received from the smart key in the user authentication device in the vehicle. When the door is automatically unlocked.

However, in the conventional smart key system, when the user does not have the smart key, there is an inconvenience that the vehicle door cannot be opened and closed. To improve this, a method of opening and closing a vehicle door through user authentication using a user's smart phone, etc. has been introduced even without a smart key. However, even when the vehicle door was opened and closed using a smartphone, the door could not be opened and closed automatically when the vehicle battery was discharged. There was no need for the user to have a mechanical key.

KR 10-2012-0102414 A1

The present invention has been proposed to solve the above problems, when the power supply to the control module for controlling the opening and closing of the vehicle door due to the discharge of the vehicle battery is impossible, the power supply to the battery or control module of the vehicle through the emergency power supply module It is an object of the present invention to provide a smart key system for a vehicle that can open and close a vehicle door when the vehicle battery is discharged without a mechanical key.

In order to achieve the above object, a smart key system for a vehicle according to the present invention comprises a signal applying module for applying a signal to the vehicle through the communication unit; A control module performing user authentication based on a signal applied from the signal applying module, and controlling opening and closing of the vehicle door when user authentication is completed; A power supply module for supplying power to the control module; And an emergency power supply module supplying power to the control module or the power supply module when power is not supplied from the power supply module to the control module.

The power supply module may include at least one of a main battery and an auxiliary battery.

A monitoring unit for monitoring a charging state of the main battery and the auxiliary battery; And an auxiliary battery controller configured to charge the auxiliary battery by using the power of the main battery to maintain the charging state of the auxiliary battery above a preset value.

The auxiliary battery controller may allow the auxiliary battery to be fully charged when the state of charge of the main battery becomes less than or equal to a preset value based on a monitoring result of the monitoring unit.

The auxiliary battery controller may be turned on / off according to the charging state of the main battery and the auxiliary battery.

The auxiliary battery controller may be turned off when the main battery becomes less than or equal to a preset value and the auxiliary battery is fully charged.

When the state of charge of the main battery is less than a preset value, the switching unit for electrically connecting the auxiliary battery with the control module may be further included.

The auxiliary battery controller may be turned on when the auxiliary battery and the control module are electrically connected through the switching unit.

The signal applying module may include at least one of a smart key and a smart phone.

According to the present invention, when power cannot be supplied to the control module that controls the opening and closing of the vehicle door by discharging the vehicle battery, the vehicle battery is discharged without a mechanical key by supplying power to the vehicle battery or the control module through the emergency power supply module. The vehicle door may be opened and closed at the time, thereby improving user convenience and system stability.

In addition, it is possible to secure the degree of freedom of design of the smart key by deleting the mechanical key in the smart key system.

In addition, it is possible to reduce the weight of the vehicle by deleting the mechanical actuator and the like operated in accordance with the mechanical key together with the mechanical key.

1 is a view schematically showing the overall configuration of a vehicle smart key system according to an embodiment of the present invention.
2 is a view illustrating a state in which an auxiliary battery and a control module are electrically connected through a switching unit in a vehicle smart key system according to an embodiment of the present invention when the main battery is discharged.
3 is a flowchart illustrating an operation process of a smart key system for a vehicle according to an embodiment of the present invention.
4 is a flowchart illustrating a process of controlling an auxiliary battery in a vehicle smart key system according to an embodiment of the present invention.

Hereinafter, a smart key system for a vehicle according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a view schematically showing the overall configuration of a vehicle smart key system according to an embodiment of the present invention, Figure 2 is a state in which the secondary battery and the control module is electrically connected through a switching unit when the main battery is discharged 3 is a flowchart illustrating an operation process of a vehicular smart key system according to an embodiment of the present invention, Figure 4 is to control the auxiliary battery in a vehicular smart key system according to an embodiment of the present invention It is a flow chart showing the process.

As shown in FIG. 1, a vehicle smart key system according to an embodiment of the present invention includes a signal application module 100, a control module 200, a power supply module 300, and an emergency power supply module 400. The control unit 500 may further include a monitoring unit 500, an auxiliary battery control unit 600, and a switching unit 700. Hereinafter, a detailed configuration of a vehicle smart key system according to an embodiment of the present invention will be described in detail.

The signal applying module 100 may include a communication unit and may apply a signal to the vehicle through the communication unit. According to an embodiment, the signal applying module 100 may be configured to include at least one of a smart key and a smart phone, and the communication unit of the signal applying module 100 may include communication including Bluetooth, NFC, RF, etc. according to an embodiment. It may be a module. In other words, a smart key or a smart phone equipped with a communication unit including Bluetooth, NFC and RF may apply a signal including unique ID information of the vehicle to the vehicle through the corresponding communication unit.

As described above, when a signal including unique ID information of the vehicle is applied from the signal applying module 100, the control module 200 may perform user authentication by comparing the information of the applied signal with pre-stored authentication information. have. In addition, when the user authentication is completed by matching the information of the applied signal with pre-stored authentication information, the opening and closing of the vehicle door 800 may be controlled. Here, when the user authentication is completed, the control module 200 controls a latch (not shown) for opening and closing the vehicle door 800, an electronic actuator (not shown) for driving the latch, and the like. Can control the opening and closing.

In addition, although not shown in the drawings, a vehicle to which the smart key system for a vehicle according to the present invention is applied may be provided with a plurality of antennas for wireless communication with the signal applying module 100. In other words, the control module 200 may receive a signal applied from the signal applying module 100 through a plurality of antennas installed in the vehicle, and compare the signal with previously stored authentication information to perform user authentication. . Here, the authentication information stored in advance may be unique ID information of the vehicle, user information, and the like. That is, when a signal such as unique ID information of the vehicle applied from the signal applying module 100 matches the pre-stored authentication information, the control module 200 determines that user authentication is completed, and opens and closes the vehicle door 800. Can be. Since the configuration and operation of the signal applying module including the smart key applied to the present invention are well known techniques, a detailed description thereof will be omitted.

The power supply module 300 serves to supply power to the control module 200. In the present invention, the power supply module 300 may include at least one of the main battery 310 and the auxiliary battery 320. 1 and 2, when the power supply module 300 includes the main battery 310 and the auxiliary battery 320, the state of charge of the main battery 310 is a preset value. If it is above, as shown in FIG. 1, power may be supplied to the control module 200 through the main battery 310. If the state of charge of the main battery 310 is less than or equal to a preset value, the switching is performed as shown in FIG. The auxiliary battery 320 and the control module 200 may be electrically connected through the unit 700 to supply power to the control module 200 through the auxiliary battery 320.

Hereinafter, in the vehicle smart key system according to the present invention, when the state of charge of the main battery is greater than or equal to a preset value (when the main battery is normal), when the state of charge of the main battery is less than or equal to the preset value (if the main battery is discharged) In the operation of the detailed configuration of the vehicle smart key system according to the present invention and the operation process of the vehicle smart key system according to the case where the state of charge of the main battery and the auxiliary battery is less than or equal to a preset value (when the main battery and the auxiliary battery are discharged). This will be described in more detail with reference to FIGS. 3 and 4.

First, when the charging state of the main battery 310 is greater than or equal to a preset value, power may be supplied to the control module 200 through the main battery 310, and the main battery 310 and the monitoring unit 500 may be supplied. The charging state of the auxiliary battery 320 may be monitored. That is, when the charging state of the main battery 310 is greater than or equal to a preset value, when the signal application module 100 attempts to enter and exit the vehicle, the control module 200 is supplied with power from the main battery 310. In and through the user authentication process can control the opening and closing of the vehicle door (800).

In addition, when the charging state of the auxiliary battery 320 monitored by the monitoring unit 500 is less than or equal to a preset value, the auxiliary battery controller 600 uses the power of the main battery 310 to operate the auxiliary battery 320. By charging, the charging state of the auxiliary battery 320 may be maintained above a preset value.

In other words, when the main battery 310 is in a normal state, the monitoring unit 500 monitors the charging states of the main battery 310 and the auxiliary battery 320, and the auxiliary battery controller 600 monitors the charging unit 500. When the state of charge of the auxiliary battery 320 is less than or equal to a preset value, the auxiliary battery 320 is charged using the power of the main battery 310, thereby charging the auxiliary battery 320. You can keep the state above a preset value.

Second, when the state of charge of the main battery 310 is less than or equal to a preset value, as shown in FIG. 2, the auxiliary battery 320 and the control module 200 are electrically connected to each other through the switching unit 700. Power may be supplied to the control module 200 through the 320. In this case, when the state of charge of the main battery 310 is less than or equal to a preset value, the main battery 310 is discharged, and thus the signal applying module 100 cannot supply power from the main battery 310 to the control module 200. Authentication of a signal applied from the device cannot be performed, and thus the vehicle door 800 cannot be opened or closed. According to the present invention, when the main battery 310 is discharged, the auxiliary battery 320 and the control module 200 are electrically connected to each other through the switching unit 700, and the power source is supplied from the auxiliary battery 320 to the control module 200. By supplying this, even when the main battery 310 is discharged, the user authentication and vehicle door 800 can be opened and closed stably. The switching unit 700 may be turned on / off through the auxiliary battery controller 600 according to an embodiment.

Meanwhile, the auxiliary battery controller 600 may allow the auxiliary battery 320 to be fully charged when the state of charge of the main battery 310 is less than or equal to a preset value based on the monitoring result of the monitoring unit 500. In other words, when the auxiliary battery controller 600 determines that the charging state of the main battery 310 is insufficient to control the opening and closing of the vehicle door 800 by supplying power to the control module 200, the auxiliary battery 320 When the main battery 310 is discharged by buffering the power supply), power may be supplied to the control module 200 through the auxiliary battery 320.

In addition, the auxiliary battery controller 600 may be turned on / off according to the charging state of the main battery 310 and the auxiliary battery 320. More specifically, the auxiliary battery controller 600 may be turned off when the charging state of the main battery 310 becomes less than or equal to a preset value and the auxiliary battery 320 is fully charged. In addition, the auxiliary battery controller 600 may be turned on when the auxiliary battery 320 and the control module 200 are electrically connected through the switching unit 700.

Here, when the charging state of the main battery 310 is less than or equal to a preset value, the control module 200 must be driven by the power of the auxiliary battery 320. In the present invention, the auxiliary battery 320 is fully charged and then the switching unit The power consumption of the auxiliary battery 320 may be minimized by turning off the auxiliary battery controller 600 until the auxiliary battery 320 and the control module 200 are electrically connected through the 700.

Third, when the state of charge of the main battery 310 and the auxiliary battery 320 is equal to or less than a preset value, that is, when power supply from the power supply module 300 to the control module 200 is not possible, the emergency power supply module 400 Power may be supplied to the control module 200 or the power supply module 300 through).

According to the exemplary embodiment, the emergency power supply module 400 according to the present invention may be an energy harvesting unit that stores energy through a USB connector or energy harvesting included in the handle of the vehicle door 800. In other words, when the main battery 310 and the auxiliary battery 320 are discharged, the control module 200 and the main battery 310 through a USB connector (emergency power supply module) provided on the handle of the vehicle door 800. And by supplying power to at least one of the auxiliary battery 320 to open and close the vehicle door 800, according to another embodiment the energy stored in the energy harvesting unit control module 200, the main battery ( The vehicle door 800 may be opened or closed by supplying power to at least one of the 310 and the auxiliary battery 320.

On the other hand, in the vehicle smart key system according to another embodiment of the present invention, when the main battery 310 is discharged, the control module via the emergency power supply module 400 including a USB connector or energy harvesting unit installed in the vehicle door Power may be supplied directly to the 200. In other words, in such a vehicle smart key system, an auxiliary battery is not required separately, and when the main battery is discharged, the auxiliary battery is directly supplied to the control module through the emergency power supply module to open and close the vehicle door. It can reduce the volume and weight occupied.

100: signal application module 200: control module
300: power supply module 310: main battery
320: auxiliary battery 400: emergency power supply module
500: monitoring unit 600: auxiliary battery control unit
700: switching unit 800: door

Claims (9)

A signal applying module including a communication unit and applying a signal to the vehicle through the communication unit;
A control module for performing user authentication based on a signal applied from the signal applying module, and controlling opening and closing of the vehicle door when user authentication is completed;
A power supply module for supplying power to the control module; And
Smart power system for a vehicle comprising an emergency power supply module for supplying power to the control module or the power supply module, when power supply from the power supply module to the control module is impossible. The method according to claim 1, wherein the power supply module,
A smart key system for a vehicle comprising at least one of a main battery and an auxiliary battery. The method according to claim 2,
A monitoring unit for monitoring a charging state of the main battery and the auxiliary battery; And
And an auxiliary battery controller configured to charge the auxiliary battery by using the power of the main battery to maintain the charging state of the auxiliary battery above a preset value. The method of claim 3, wherein the auxiliary battery control unit,
And based on a monitoring result of the monitoring unit, when the state of charge of the main battery is less than or equal to a preset value, the auxiliary battery is buffered. The battery pack of claim 2, wherein the auxiliary battery controller includes:
Smart on-vehicle system, characterized in that on / off according to the state of charge of the main battery and the auxiliary battery. The method of claim 5, wherein the auxiliary battery control unit,
And the main battery is less than or equal to a preset value and is turned off when the auxiliary battery is fully charged. The method according to claim 3,
And a switching unit electrically connecting the auxiliary battery to the control module when the state of charge of the main battery is equal to or less than a preset value. The method of claim 7, wherein the auxiliary battery control unit,
And the auxiliary battery and the control module are electrically connected to each other through the switching unit. The method according to claim 1, The signal application module,
Smart key system for a vehicle comprising at least one of a smart key and a smart phone.

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