KR20100059277A

KR20100059277A - On board unit

Info

Publication number: KR20100059277A
Application number: KR1020080117986A
Authority: KR
Inventors: 김관휴
Original assignee: (주)코스페이스
Priority date: 2008-11-26
Filing date: 2008-11-26
Publication date: 2010-06-04

Abstract

PURPOSE: An on board unit is provided to implement a steady room mirror by mounting a room mirror. CONSTITUTION: A housing is separable from a room mirror(10) of the vehicles. An attaching/detaching unit is included in the one side of the housing. The attaching/detaching unit is separated from the room mirror. A card slot is formed in the one side of the housing. A smart card is inserted into the card slot. A user inputs data through a button unit. An information transfer unit informs the state and toll payment information of the smart card.

Description

High Pass Terminal {ON BOARD UNIT}

The present invention relates to a vehicle-mounted high-pass terminal for toll payment used to pay a toll of a highway generated when using a vehicle. More specifically, the present invention relates to a high-pass terminal that simplifies the structure of the high-pass terminal and improves aesthetics inside the vehicle. It is about.

Conventionally, the toll collection on the expressway is to collect the toll manually at the point of arrival after receiving the pass at the point of departure. Therefore, there were various problems such as toll gate congestion caused by manual toll collection, increased traffic flow, and increased labor costs due to the arrangement of toll gate collectors and 24-hour operation.

Intelligent Transport System (ITS) applies advanced electronic information and communication technology to the components of existing traffic such as roads and vehicles to efficiently operate traffic facilities and provide useful information to pedestrians, providing safe and convenient traffic. It is an integrated system between the traffic network and the information and communication network to ensure the efficiency of the entire transportation system. The Electronic Toll Collection System (ETCS), a subsystem of the intelligent transportation system, is emerging as an alternative to solve the traffic congestion problem that occurs during the toll collection process.

The electronic toll collection system, called Hi-Pass System, is a system that pays tolls using a smart card for toll payments in which vehicles entering a toll gate are mounted. The high pass system consists of an onboard unit (OBU) (hereinafter referred to as a high pass terminal) mounted on a vehicle, an IC card (smart card), and a high pass toll collector installed at a toll gate. Toll charged in the smart card inserted into the terminal through wireless or infrared communication between the wireless or infrared transmitting and receiving device of the terminal mounted on the vehicle and the toll collector antenna while running without stopping when passing through the toll gate installed at the exit and exit. Is automatically paid and settled.

However, the existing high-pass terminal is mounted on the dashboard of the vehicle by means of double-sided tape or the like. Therefore, there is a problem in that the installation work of the high-pass terminal is cumbersome and the workability is deteriorated.

The dashboard is equipped with peripheral devices such as navigation, GPS device and mobile phone holder according to the driver's choice.There are several peripheral devices installed in the limited space called the dashboard, so it may be difficult to secure a space for installing the high pass terminal. The high-pass terminal may obstruct the driver's field of view and has a problem that is not aesthetically good.

In addition, the installation form of the existing high-pass terminal has a weak coupling force between the vehicle and the dashboard, so that the high-pass terminal can easily fall off the dashboard, and the driver or passenger may be injured by the high-pass terminal in case of an accident such as a vehicle crash. There is a problem.

An object of the present invention for solving the above problems is to provide a high pass terminal that can be easily installed and firmly mounted to the high pass terminal in a vehicle.

In addition, the present invention is to provide a high-pass terminal that can increase the space utilization of the vehicle interior space and the upper dashboard.

According to embodiments of the present invention for achieving the above object of the present invention, a vehicle-mounted high-pass terminal is inserted into the smart card for the toll payment of the vehicle for the electronic toll collection system, the room mirror of the vehicle a housing formed to be detachable from a room mirror, a detachable unit provided at one side of the housing to be detachable from the room mirror, a card slot formed at one side of the housing to be inserted into the smart card, and provided at one side of the housing It includes a button unit for allowing a user to operate and input a function and an information transfer unit provided on one side of the housing to inform the status of the smart card and toll payment information, and on the rear side of the surface on which the mirror is mounted in the room mirror. It is integrated with the room mirror.

In an embodiment, the housing is formed to have a continuous shape with the room mirror when coupled to the room mirror.

In an embodiment, the housing is formed with a slide surface coupled to the room mirror and the room mirror is formed with a mounting surface corresponding to the slide surface, the detachable unit is provided on the slide surface and the mounting surface, respectively, It can be mechanically fastened. For example, the detachable unit is provided at one side of the slide surface and the mounting surface and is formed at a position corresponding to the slide guide on the other side of the slide guide having a hook and a groove or slit shape in which the slide guide is inserted and fastened. It can have

In an embodiment, the slide guide and the guide slot are elongated in a direction parallel to the moving direction of the housing. And the slide guide is formed in the form of the hook parallel to the direction of movement of the housing so that the slide can move along the guide slot. In addition, the slide surface may be provided with two or more slide guides parallel to each other. In addition, the two or more slide guides may be formed such that the directions of the hooks face each other or are arranged in opposite directions.

In one embodiment, one side of the guide slot is formed to be continuous with the guide slot, the removable portion is formed to be inserted and detachable to the slide guide in the guide slot. For example, the detachable portion may have a form in which the width is extended than the guide slot. Alternatively, the detachable portion may have an inclined shape in which the width gradually decreases with respect to the guide slot along the moving direction of the slide guide.

In one embodiment, the one end of the housing is formed with an insertion end to be inserted into the room mirror, the room mirror is formed with an insertion hole into which the insertion end is inserted. When the housing is coupled with the room mirror, the stepped portion is formed such that the insertion end is inserted into the room mirror and the housing and the room mirror form a continuous outer surface. In addition, the insertion end may be formed to extend one side end of the housing and have a width and thickness reduced than the width and thickness of the housing. In addition, a fastening member for fastening the room mirror and the housing is further provided, and the fastening member may be simultaneously coupled to the insertion end and the room mirror inserted into the room mirror through the room mirror.

In an embodiment, the information transfer unit may include a speaker unit provided at one side of the housing to inform the user by voice and a display unit provided at one side of the housing to visually inform the user.

On the other hand, in accordance with other embodiments of the present invention for achieving the above object of the present invention, a vehicle-mounted high-pass terminal is inserted is equipped with a smart card for the toll payment of the vehicle for the electronic toll collection system, the vehicle A housing detachably formed in the room mirror of the housing and formed in a continuous form with the room mirror and having an insertion end formed stepwise to be inserted into the room mirror, the surface being coupled to the housing mirror And a detachable unit for detachably coupling the housing and the room mirror, and a card slot provided at one side of the housing and inserting or removing the smart card into the housing, and integrated with the room mirror at the rear of the room mirror. Can be combined.

In an embodiment, the detachable unit may include a guide slot provided on one side of the housing and the room mirror and formed to insert and fasten the slide guide on the other side of the slide guide having a hook.

Alternatively, the detachable unit may include a magnet.

Alternatively, the detachable unit may include a Velcro.

Alternatively, the detachable unit may include a fastening member.

As described above, according to the present invention, first, since the high pass terminal is mounted on the room mirror and forms the rear surface of the room mirror, the high pass terminal and the room mirror are firmly coupled.

Further, according to the present invention, the high pass terminal is slide mounted to the room mirror, and a part of the housing is inserted into the room mirror, so that the installation of the high pass terminal is easy.

Second, since the high pass terminal is mounted on the rear of the room mirror, the space utilization of the interior space of the vehicle and the upper part of the dashboard can be improved, and the terminal is covered by the room mirror when the driver or the passenger sees it, so it is formed integrally with the room mirror. It can improve aesthetics.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. In describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

Hereinafter, an electronic toll collection system and a toll payment high pass terminal according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 7.

First, referring to FIG. 1, an electronic toll collection system (ETCS) is an element constituting an intelligent transport system (ITS), and a smart card and vehicle (1) for payment of tolls. The toll payment terminal (OBU) (hereinafter, referred to as a high-pass terminal) 20 mounted in the toll is used to pay the tolls from the toll gate 2 of the euro road without interruption by infrared or short-range wireless communication. It is a system.

The electronic toll collection system includes a high pass terminal 20 (see FIG. 2) mounted on the vehicle 1, a roadside station (RSE) 3 and a toll collection server 4 provided in the toll gate 2. It is composed of

The roadside base station 3 is connected to the toll collection server 4 via a network and is connected to the high-pass terminal 20 by infrared communication or short-range wireless communication to electronically perform the toll collection procedure of the vehicle 1. Automatic processing

The high-pass terminal 20 is a device for paying tolls by exchanging information with the roadside base station 3, and is provided inside the vehicle 1 and is equipped with a smart card for paying tolls.

The smart card is a non-contact or contact card that can be charged for tolls, can be divided into prepaid and postpaid custom cards, the card with an intelligent IC chip that can read card information by RF method and store data on the card Is mainly used.

Hereinafter, referring to FIGS. 2 to 7, a toll payment high pass terminal according to an embodiment of the present invention will be described in detail. For reference, FIG. 2 is a perspective view of a room mirror for explaining a state in which a high pass terminal is mounted according to an embodiment of the present invention, FIG. 3 is a perspective view showing the front of the room mirror of FIG. FIG. 2 is a perspective view illustrating a state where a high pass terminal is removed from the room mirror of FIG. 2. 5 is a perspective view illustrating a first surface of the high pass terminal of FIG. 2 that is externally seen when coupled to the room mirror, and FIG. 6 illustrates a second surface of the high pass terminal of FIG. 2 coupled to the room mirror. It is a perspective view shown. 7 is a block diagram illustrating a system of a high pass terminal according to an embodiment of the present invention.

Referring to the drawings, the room mirror 10 is provided on the front of the vehicle interior of the vehicle 1 so that the driver can observe the rear. In addition, the room mirror 10 has a mirror 12 mounted on a front surface thereof and a frame 11 for forming a main body and a room mirror fastening portion 13 for mounting the room mirror 10 to the vehicle 1. The high pass terminal 20 is mounted on the rear surface of the room mirror 10. Hereinafter, for convenience of description, the surface on which the mirror 12 is mounted in the room mirror 10 is referred to as a front surface, and a surface opposite to the front surface is referred to as a rear surface.

According to the present embodiment, since the high pass terminal 20 is mounted to the rear of the room mirror 10, the space utilization of the internal space of the vehicle 1 and the upper part of the dashboard is good, and Since it is mounted to the rear of the room mirror 10, the mirror 12, which is a function of the room mirror 10 itself, does not affect the ability of the driver to observe the rear. In addition, since the high pass terminal 20 is not seen from the front when the driver or the passenger sees it, there is an excellent aesthetic point.

The high pass terminal 20 is mounted on the rear of the room mirror 10 of the vehicle 1, in particular, is integrally coupled to the room mirror 10. In this specification, being integrally coupled does not mean being integrally formed, and as shown in FIG. 2, the high pass terminal 20 is coupled to form a rear surface of the room mirror 10.

The high pass terminal 20 and the room mirror 10 may be electrically and mechanically coupled to or separated from each other. That is, the frame 11 of the room mirror 10 and the housing 21 of the high pass terminal 20 are combined with each other to form a rear surface of the room mirror 10.

In detail, the housing 21 has a substantially rectangular parallelepiped shape so that the smart card 30 can be inserted into and fixed in the housing 21 and be integrally coupled with the rear surface of the room mirror 10. It has a shape and size that is continuous with the rear of the room mirror (10). In addition, the rear surface of the room mirror 10 has a predetermined curved shape, and the outer surface of the housing 21 has a curved surface continuous with the rear surface of the room mirror 10. Hereinafter, for convenience of description, a surface that forms the rear surface of the room mirror 10 when the high pass terminal 20 is coupled to the room mirror 10 faces an outer surface and the outer surface and faces the room. The surface coupled to the mirror 10 is called a slide surface 213.

In addition, a part of the housing 21 may be inserted into the frame 11 in order to improve the coupling force between the housing 21 and the frame 11. In addition, the housing 21 is slidably mounted to the room mirror 10 so that the high pass terminal 20 can be easily mounted and detached from the room mirror 10.

In detail, the frame 11 is provided with a mounting step 111 having a shape in which a portion of the rear surface of the frame 11 is cut to correspond to the housing 21 so that the housing 21 can be mounted. The stepped portion is provided with a mounting surface 113 having a flat shape such that the housing 21 can be slide mounted. In addition, an insertion hole 112 is formed in the mounting step part 111 so that a part of the housing 21 can be inserted into the frame 11.

The housing 21 has a flat surface so that the slide surface 213 can be slidably mounted to the frame 11, and a stepped portion (ie, a portion of the housing 21 can be inserted into the insertion hole 112). 211 and the insertion end 212 is formed.

The slide surface 213 and the mounting surface 113 have a detachable unit having a male and female structure that is mechanically fastened to each other so that the housing 21 can be fastened after being mounted to the room mirror 10. do. For example, the detachable unit is provided on the slide surface 213 and protrudes a predetermined height from the surface of the slide surface 213 to the slide guide 214 and the mounting surface 113 having end portions of the hooks 214a. It is formed and comprises a guide slot 114 to which the slide guide 214 is inserted fastening.

Here, the slide guide 214 is formed long in a predetermined length so as to securely fasten the housing 21 and the frame 11, and is formed parallel to the direction in which the housing 21 slides. In particular, the slide guide 214 has the hook guide 214a parallel to the moving direction of the housing 21 so that the slide guide 214 can slide along the guide slot 114 within the guide slot 114. 214 is elongated. And to secure the coupling force of the high pass terminal 20 and the room mirror 10 and to prevent the high pass terminal 20 from being released from its position while being mounted on the room mirror 10, Two slide guides 214 are provided on the slide surface 213 to the left and right in parallel with the moving direction of the housing 21. In addition, the two slide guides 214 are formed such that the directions of the hooks 214a face each other or are arranged in opposite directions so that the slide guides 214 can be securely fastened to the guide slots 114. .

However, the present invention is not limited by the drawings, and the shape and arrangement of the slide guide 214 may be changed in various ways.

The guide slot 114 has a recess or slit shape of a predetermined depth in the mounting surface 113 so that the hook 214a of the slide guide 214 can be fastened, and the slide guide 214 is inserted into the guide slot 114. It has a longer length than the slide guide 214 to be able to slide in the slot 114. And the width of the groove in the guide slot 114 has a width corresponding to the thickness of the slide guide 214 so that the hook 214a of the slide guide 214 is inserted into the guide slot 114 to be fixed. . That is, the width of the guide slot 114 is inserted so that the slide guide 214 is inserted, but the hook 214a does not pass through the groove of the guide slot 114 but is fastened to the inner surface of the guide slot 114. Is formed.

In addition, the guide slot 114 has a guide detachable portion 114a is formed so that the slide guide 214 can be inserted into and removed from the guide slot 114. For example, the guide detachable part 114a is formed at a position where the slide guide 214 is contacted before the mounting position of the guide slot 114, and the slide guide 214 is easily provided with the guide slot ( 114 is formed to have a width that is wider than the guide slot 114 so that it can be inserted into and separated from the inside. In addition, the detachable portion 114a is formed to be outside or inward with respect to the hook 214a direction of the slide guide 214, and the detachable portion 114a includes the hook 214a and the slide guide 214. It is preferred to have a wider width than the portion that is the maximum width of the a).

Here, the guide slot 114 may have a variety of forms in addition to the embodiment shown in the figure. For example, the length and width of the detachable part 114a may be wider than the above-described embodiment so that the slide guide 214 is easily detachable from the guide slot 114. Alternatively, the detachable portion 114a may be formed in a form in which the width of the slide guide 214 is gradually decreased along the direction in which the slide guide 214 is inserted into the guide slot 114.

That is, when the slide guide 214 is inserted into the guide slot 114 and then moved along the direction of the guide slot 114, the housing 21 is mounted while being slid to the frame 11, and the slide The hook 214a of the guide 214 and the guide slot 114 are mechanically fastened to each other to fix the housing 21 to the frame 11. The slide guide 214 and the guide slot 114 are configured to slide the high pass terminal 20 to the room mirror 10 as well as to fasten the high pass terminal 20 and the room mirror 10. It serves as a guide.

However, the present invention is not limited by the drawings, and unlike the above-described embodiment, the slide guide 214 is provided on the mounting surface 113 of the room mirror 10 and the slide of the housing 20. The surface 213 may be formed with a guide slot 114 to which the slide guide 214 is inserted fastening.

In addition, the number of the slide guide 214 and the guide slot 114 can also be variously changed.

The detachable unit is not limited to the slide guide 214 and the guide slot 114, and may have various types of fastening structures capable of mounting the high pass terminal 20 to the room mirror 10. For example, the detachable unit may be a means such as a magnet or a velcro provided on the slide surface 213 and the mounting surface 113. In addition, the detachable unit may be provided on the slide surface 213 and the mounting surface 113 and may be various types of fastening structures or fastening members that are mechanically coupled to each other.

The housing 21 to reliably prevent the high-pass terminal 20 from being separated from the room mirror 10 due to vibration caused by the movement of the vehicle 1 or the weight of the high-pass terminal 20. ) And a fastening member 15 for fastening the frame 11 is provided. For example, the fastening member 15 is a bolt, and fastening holes 115 and 215 to which the fastening member 15 is fastened are formed in the insertion end 212 and the frame 11 of the housing 21. do. That is, after the insertion end 212 is inserted into the insertion hole 112, the fastening hole 115 of the frame 11 and the fastening hole 215 of the housing 21 outside the frame 11. At the same time the fastening member 15 is fastened so that the high pass terminal 20 and the room mirror 10 can be firmly coupled.

One side of the housing 21 is formed with a card slot 23 into which the smart card 30 is inserted and separated. For example, the card slot 23 is formed on a surface opposite to the insertion end 212. Here, the smart card 30 is formed in a rectangular shape, the smart card 30 is formed to be inserted into the high-pass terminal 20 in the longitudinal direction due to the shape characteristics of the room mirror 10. . That is, the user inserts the smart card 30 into the card slot 23 in a direction parallel to the longitudinal direction of the room mirror 10 at the front of the room mirror 10. However, the present invention is not limited by the drawings, and the position of the card slot 23 may be formed above or below the room mirror 10.

The smart card 30 is inserted to be completely received into the housing 21 without protruding from the outside of the housing 21 and is fixed inside the housing 21.

A withdrawal button 23 for withdrawing the smart card 30 from the high pass terminal 20 is provided at a position adjacent to the card slot 23. For example, the withdrawal button 23 may use a push button switch, and pressing the withdrawal button 23 releases the fixed state of the smart card 30 in the housing 21. The smart card 30 is withdrawn.

The high pass terminal 20 allows a user to select and adjust a function, and is provided with a user interface for notifying the user of information such as whether the high pass terminal 20 is operated, toll payment information, balance information, and the like. For example, the user interface of the high pass terminal 20 may include a plurality of button units 24 and a speaker unit 25 that informs the user by information.

The button unit 24 is provided at one side of the housing 21, and when the high pass terminal 20 is mounted to the room mirror 10 so that a user can easily operate the button unit 24. It is provided on the lower side of the housing 21 facing downward. In addition, the button unit 24 is provided with one or more buttons for operation and function input of the high pass terminal 20. For example, the button unit 24 may include a power button 241 for turning on / off the power of the high pass terminal 20 and a menu button 242 for function manipulation and menu selection of the high pass terminal 20. And a volume button 243 for adjusting the volume of the voice guided by the speaker unit 25. However, the present invention is not limited by the drawings, and buttons of various numbers and types may be provided according to the functions of the high pass terminal 20.

The speaker unit 25 is provided on the outer surface of the housing 21 and guides the state of the smart card 30 or the toll payment information by voice.

Meanwhile, in addition to the speaker unit 25, a display unit 26 such as an LED unit or an LCD may be provided as a device for transmitting the state of the high pass terminal 20 and the toll payment information as visual information to the user. have. For example, the display unit 26 may be provided around the card slot 23. Alternatively, the display unit 26 may be provided on the front surface of the room mirror 10 as shown in FIG. 3.

One side of the housing 21 is provided with a power connection portion 27 for supplying power to the high pass terminal 20. For example, the power connection part 27 extends outward from the insertion end 212, and when the high pass terminal 20 is mounted on the room mirror 10, the power connection part 27 is inserted into the frame 11 to be inserted into the frame 11. The frame 11 is connected to a 12 ~ 14V DC power source that is the power source of the vehicle (1).

Referring to FIG. 7, a configuration of the system 220 of the high pass terminal 20 includes a processor 221, a DSRC modem 222, a memory unit 223, and a system recognition unit 224 for arithmetic processing. It is done by In addition, the high pass terminal 20 is an RF module 226 for communication, the smart card control unit 227 and the high pass for electrically and mechanically connecting the high pass terminal 20 and the smart card 30. A connection unit 225 for connecting the terminal 20 and an external device is provided.

In addition, a button unit 24 is provided as a user interface of the high pass terminal 20 so that a user can select and adjust a function, and whether or not the smart card 30 is inserted into the high pass terminal 20. B) a speaker unit 25 for displaying toll payment information and the like as voice information to the user and a display unit 26 such as an LED or an LCD for displaying time information.

The processor 221 stores a processing routine for performing a toll payment process and controls the overall operation of the high pass terminal 20. For example, the processor 221 may use an ARM7 processor.

The dedicated short range communication (DSRC) modem 222 is a device for short-range dedicated communication, and is connected to the roadside base station 3 through the RF module 226 in a 5.8 GHz wireless communication scheme.

The system recognition unit 224 is a device for recognizing the high pass terminal 20 in the roadside base station (3).

The memory unit 223 may include a flash memory 223a and an SRAM memory 223b.

The connection unit 225 may be a universal asynchronous receiver transmitter (UART) or a universal serial bus (USB) device. In addition, various types of connection units 225 suitable for the external device to be connected to the high pass terminal 20 may be provided.

However, the present invention is not limited by the drawings, and the high pass terminal 20 system 220 may further include substantially various devices for implementing the electronic toll collection system in addition to the above-described devices.

As described above, the present invention has been described with reference to the preferred embodiments, but those skilled in the art can variously modify the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated that it can be changed.

1 is a block diagram illustrating a toll collection system according to an embodiment of the present invention;

Figure 2 is a perspective view showing the rear of the room mirror equipped with a toll payment high pass terminal according to an embodiment of the present invention;

3 is a front view showing the front of the room mirror of FIG.

4 is a perspective view illustrating a state where a high pass terminal is removed from the room mirror of FIG. 2;

5 and 6 are perspective views of the high pass terminal of FIG. 2;

7 is a block diagram of a high pass terminal system according to an embodiment of the present invention.

1: vehicle 2: toll gate

3: roadside base station 4: toll collection server

10: room mirror 11: frame

12: mirror 13: room mirror fastener

15: fastening member 20: high pass terminal (OBU)

21: housing 23: card slot

24: button unit 25: speaker unit

26: display unit 27: power connection

30: smart card 111: mounting step portion

112: insertion hole 113: mounting surface

114: guide slot 114a: guide detachment

115: fastening hole 211: stepped portion

212: insertion end 213: slide surface

214: Slide guide 214a: Hook

215: fastening hole 220: system

221: Processor 222: DSRC Modem

223: Memory 223a: Flash Memory

223b: SRAM memory 224: system recognition unit

225: connection unit 226: RF module

227: smart card control unit 231: withdraw button

241: power button 242: menu button

243: volume button

Claims

In the high-pass terminal is inserted a smart card for paying the toll of the vehicle,

A housing detachably formed with a room mirror of the vehicle;

A detachable unit provided at one side of the housing to be detachable from the room mirror;

A card slot formed at one side of the housing and into which the smart card is inserted;

A button unit provided at one side of the housing to enable a user to operate and input a function; And

An information transfer unit provided at one side of the housing to inform the state of the smart card and the toll payment information;

And a high pass terminal, wherein the room mirror is integrally coupled to the room mirror at a rear surface of the surface on which the mirror is mounted.

The method of claim 1,

The housing is a high-pass terminal, it characterized in that it is formed to have a continuous form with the room mirror when coupled to the room mirror.

The method of claim 1,

The housing is formed with a slide surface coupled to the room mirror and the room mirror is formed with a mounting surface corresponding to the slide surface,

The detachable unit is provided on each of the slide surface and the mounting surface is a high pass terminal, characterized in that the mechanical fastening with each other.

The method of claim 3,

The detachable unit is provided at one side of the slide surface and the mounting surface and formed in a position corresponding to the slide guide on the other side of the slide guide formed with a hook and a guide slot having a groove or slit shape in which the slide guide is inserted and fastened. High pass terminal comprising a.

The method of claim 4, wherein

The slide guide and the guide slot is a high pass terminal, characterized in that formed long in the direction parallel to the moving direction of the housing.

The method of claim 5,

The slide guide is a high-pass terminal, characterized in that the shape of the hook is formed in parallel with the direction of movement of the housing so that the slide can move along the guide slot.

The method of claim 6,

The high pass terminal, characterized in that the slide surface is provided with two or more slide guides parallel to each other.

The method of claim 7, wherein

The two or more slide guides are high-pass terminals, characterized in that the direction of the hook is formed to face each other or disposed in the opposite direction.

The method of claim 5,

One side of the guide slot is formed to be continuous with the guide slot, the high-pass terminal, characterized in that the removable portion is formed so that the slide guide can be inserted into and removed from the guide slot.

10. The method of claim 9,

The detachable part is a high-pass terminal, characterized in that the width is wider than the guide slot.

10. The method of claim 9,

The detachable part is a high pass terminal, characterized in that it has an inclined shape that gradually decreases in width with respect to the guide slot in the direction of movement of the slide guide.

The method of claim 2,

A high pass terminal, characterized in that an insertion end is formed at one side of the housing to be inserted into the room mirror and an insertion hole is inserted into the room mirror at the insertion end.

The method of claim 12,

The housing is a high-pass terminal, characterized in that the step is formed so that the insertion end is inserted into the room mirror when combined with the room mirror and the housing and the room mirror form a continuous outer surface.

The method of claim 13,

The insertion end of the high-pass terminal, characterized in that the one end of the housing is formed extending and has a width and thickness reduced than the width and thickness of the housing.

The method of claim 12,

A fastening member for fastening the room mirror and the housing is further provided.

The fastening member is a high-pass terminal, characterized in that coupled to the room mirror and the insertion end inserted into the room mirror through the room mirror at the same time.

The method of claim 1,

The information transfer unit includes a speaker unit provided at one side of the housing to inform information by voice and a display unit provided at one side of the housing to visually inform information.

A housing formed to be detachably attached to the room mirror of the vehicle, the housing having an insertion end formed to be inserted into the room mirror and being formed stepwise to be inserted into the room mirror;

A detachable unit provided on a surface to which the housing and the room mirror are coupled to detachably couple the housing and the room mirror; And

A card slot provided at one side of the housing and inserting or removing the smart card into the housing;

And a high pass terminal, which is integrally coupled with the room mirror at the rear of the room mirror.

The method of claim 17,

The detachable unit is provided on one side of the housing and the room mirror, and a high-pass terminal, characterized in that it comprises a guide slot formed so that the slide guide is inserted into the slide guide and the other side of the hook formed hook.

The method of claim 17,

The detachable unit is a high-pass terminal, characterized in that it comprises a magnet.

The method of claim 17,

The detachable unit is a high-pass terminal, characterized in that it comprises a Velcro.

The method of claim 17,

The detachable unit is a high-pass terminal, characterized in that it comprises a fastening member.