KR102034824B1 - Antenna module assembly for high-pass - Google Patents

Abstract

Disclosed is an antenna module assembly for a high-pass lane. According to the present invention, the antenna module assembly for a high-pass lane includes an antenna of an IR method or an integrated antenna in which the IR method is used together with an RF method to adjust individually an installation angle of each of a transmitting unit and a receiving unit. Accordingly, the antenna of an IR method can be adjusted arbitrarily to increase or reduce transmitting and receiving distances and a communication area (range). The integrated antenna, in which the IR method is used together with an RF method, is configured such that an IR antenna and an RF antenna are provided separately in one main body, noise caused by mutual interference between the IR antenna and the RF antenna (e.g. electromagnetic noise, etc.) is removed, and a communication range of the IR antenna and the RF antenna can be accurately adjustable while interference caused by sunlight or light from a camera installed in the gantry is prevented. Accordingly, it is possible to improve communication performance between the antenna of an IR method and/or an RF method and a high-pass terminal installed in a vehicle which passes through a gantry of a high-pass lane.

Description

Antenna module assembly for high-pass

The present invention relates to a high-pass antenna module assembly installed in the gantry of the high-pass lane.

In general, the electronic toll collection system collects charges automatically through wireless communication with an onboard unit (OBU) installed in a vehicle on a toll road. Gantry is installed and operated by each high-pass lane to automatically collect the fare every time it passes through, or as a one tolling system, a single gantry to collect the fare only at the final exit without interim settlement. Will be installed and operated.

Therefore, the gantry is typically provided with an electric signboard (VMS), a traffic light, and an antenna, and the antenna is fixed to the gantry through a cradle, and the antenna is radio frequency (RF) and / or infrared (Infrared). It is classified into Ray (IR) communication method.

That is, the RF antenna has a wide communication area, and the IR antenna has a short transmission and reception range.

In addition, the IR antenna as described above is divided into a transmitter and a receiver. Since the installation angles of the transmitter and the receiver are adjusted at the same time through one rotation shaft, the transmission distance or the reception distance cannot be individually adjusted. .

On the other hand, conventionally, an integrated antenna in which the IR and RF antennas form an upper and lower stack structure in one main body may be used. In this case, an RF antenna having a wide communication area is applied to the IR antenna during RF communication. Noise was generated due to the IR communication circuit unit, and accordingly, an error occurred due to electromagnetic noise affecting the IR communication with the vehicle high pass terminal of the IR system.

Registered Patent Publication No. 10-1297212 (Notice date 2013.08.16) Patent Application Publication No. 10-1547033 (Announcement date 2015.08.24) Patent Application Publication No. 10-1679915 (Notice date 2016.11.25) Patent Application Publication No. 10-1804110 (Notice date 2017.12.04)

The problem to be solved by the present invention is to adjust the transmission and reception distance and the transmission and reception area (range) of the high pass IR antenna installed in the gantry of the high pass lane individually, To arbitrarily adjust the communication range, and through this to provide a high-pass antenna module assembly for improving the communication performance with the high-pass terminal mounted on the vehicle.

Another problem to be solved by the present invention is to configure the IR antenna and the RF antenna in one main body in the gantry of the high-pass lane to isolate the IR antenna and the RF antenna, mutually between the IR antenna and the RF antenna The high-pass terminal mounted on the vehicle eliminates noise caused by interference (e.g. electromagnetic noise, etc.), and enables precise setting of the communication range of the IR antenna while preventing interference caused by sunlight or camera illumination light installed in the gantry. To provide a high-pass antenna module assembly that improves the communication performance.

An antenna module assembly for a high pass, which is a means for solving the problems of the present invention, has a first accommodating groove whose front is opened, and a main body in which a mounting bracket for installing a gantry is formed on a rear surface thereof; And a first antenna unit mounted to the first receiving groove. The first antenna unit includes an IR receiver mounted on one end of the first receiving groove; And a pair of IR transmitters mounted at the other end of the first receiving groove. It includes, wherein the IR receiver is configured to adjust the installation angle by the first angle adjusting rod, and the pair of the IR transmitter is configured to adjust the installation angle by the second angle adjusting rod.

In addition, the first receiving groove is formed in the support frame for separating the IR receiver and the IR transmitter, the first angle adjusting rod is coupled so that one end is exposed to the outside of one end of the main body and the other end is coupled to the support frame The second angle adjusting rod is coupled so that the other end is exposed to the outside of the other end of the main body and one end is coupled to the support frame.

In addition, a first mounting horizontal plane is formed on the first angle adjusting rod, and a first mounting frame is coupled to the first mounting horizontal plane by a fastening member, and the IR receiver is fixed to the first mounting frame.

In addition, the upper side of the first mounting frame is to form a light blocking film to block the light flowing from the upper direction to prevent the interference by the light when receiving the information of the high-pass terminal in the vehicle.

In addition, a second mounting horizontal plane is formed on the second angle adjusting rod, and a second mounting frame having a first mounting area and a second mounting area is coupled to the second mounting horizontal plane by a fastening member, and the first mounting is performed. One IR transmitter is fixed to the area, and the other IR transmitter is fixed to the second mounting area.

Further, the first mounting area and the second mounting area maintain an installation angle within a range of 110 to 180 ° to expand or reduce the transmission / reception distance of the IR signal and to expand or reduce the communication area (range) around the reference area. will be.

In addition, the first angle adjusting rod exposed to the outside of the main body to form a first rotation guide groove that enables the installation angle adjustment of the first angle adjusting rod through a tool.

In addition, the second angle adjusting rod is exposed to the outside of the other end of the main body to form a second rotation guide groove that enables to adjust the installation angle of the second angle adjusting rod through the tool.

In addition, the first and second angle adjustment rods exposed to the outside of one end and the other end of the main body respectively coupled to the pressing frame, the pressing frame is cut or pressurized or pressed state of the first and second angle adjustment rods Forming a plurality of pressing pieces for releasing, the pressing or releasing of the pressure state of the pressing piece is made by a pressing screw fastened to the pressing piece.

In addition, the mounting bracket is to form a slot to enable the front and rear angle adjustment to the body when mounted on the antenna holder.

The antenna module assembly for a high pass, which is another means for solving the problems of the present invention, has a first accommodating groove in the lower part of the front opening and a second accommodating groove in the upper part, and a main body in which a mounting bracket for installing a gantry is formed on the rear surface ; A first antenna unit of an IR type fixed to the first receiving groove; A second antenna unit of an RF type fixed to the second receiving groove; It includes, The first receiving groove and the second receiving groove is separated into partitions to prevent mutual interference of the first antenna portion and the second antenna portion, wherein the first antenna portion one end of the first receiving groove An IR receiver mounted to the; And a pair of IR transmitters mounted at the other end of the first receiving groove. It includes, wherein the IR receiver is configured to adjust the installation angle by the first angle adjusting rod, and the pair of the IR transmitter is configured to adjust the installation angle by the second angle adjusting rod.

As described above, the high-pass IR antenna of the present invention is configured so that the installation angles of the transmitter and the receiver are individually adjusted, and through this, arbitrary adjustment of the transmission / reception distance and the transmission / reception area (range) to the required position and range is possible. It will be possible to expect the effect of improving the communication performance with the high-pass terminal mounted on the vehicle.

In addition, the integrated high-pass integrated antenna of the present invention IR and RF is a separate configuration of the IR antenna and the RF antenna in one body, through which the interference between the IR antenna and the RF antenna (e.g. electromagnetic noise, etc.) It is expected to improve the communication performance with the high-pass terminal mounted in the vehicle while removing noise caused by the noise and preventing interference by camera lights installed in the sunlight or gantry while precisely setting the communication range of the IR antenna. It can be.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view showing a structure of a high-pass antenna module assembly to which the antenna unit of the IR method is applied as an embodiment of the present invention.
Figure 2 is an exploded view showing the structure of a high-pass antenna module assembly to which the antenna unit of the IR method is applied as an embodiment of the present invention.
Figure 3 is a front sectional schematic view showing a structure of a high-pass antenna module assembly to which the antenna unit of the IR method is applied as an embodiment of the present invention.
Figure 4 a, b is a schematic cross-sectional view showing a state of adjusting the installation angle of the IR receiver to form the antenna unit of the IR method in an embodiment of the present invention.
5 is a partially enlarged view showing a state of fixing the installation angle of the IR receiver in the embodiment of the present invention.
Figure 6 a, b is a schematic cross-sectional view showing a state of adjusting the installation angle of the IR transmitter to form the antenna unit of the IR method in an embodiment of the present invention.
7 is a partially enlarged view showing a state of fixing the installation angle of the IR transmitter in the embodiment of the present invention.
8 is a perspective view illustrating a structure of a high pass antenna module assembly to which both an IR antenna unit and an RF antenna unit are applied to another embodiment of the present invention.
9 is an exploded view showing the structure of a high-pass antenna module assembly to which both an IR antenna unit and an RF antenna unit in accordance with another embodiment of the present invention.
Figure 10 is a side cross-sectional schematic view showing a structure of a high-pass antenna module assembly to which both the IR antenna unit and the RF antenna unit according to an embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, in the embodiments of the present invention, the present invention is not limited to the embodiments disclosed below, but may be embodied in different forms, and only the embodiments are provided to fully disclose the present invention and to which the present invention pertains. It is provided to fully inform the scope of the invention to those skilled in the art, and is only defined by the scope of the claims in the embodiments of the present invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase.

As used herein, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, the embodiments described herein will be described with reference to cross-sectional and / or plan views, which are ideal exemplary views of the present invention. Accordingly, the embodiments of the present invention are not limited to the specific forms shown, but include modifications of the required forms. For example, the region shown at right angles may be rounded or have a predetermined curvature. Accordingly, the regions illustrated in the figures have schematic attributes, and the shape of the regions illustrated in the figures is intended to illustrate a particular form of region of the device and is not intended to limit the scope of the invention.

Like reference numerals refer to like elements throughout the specification. Accordingly, the same or similar reference numerals may be described with reference to other drawings, even if not mentioned or described in the corresponding drawings. Also, although reference numerals are not indicated, they may be described with reference to other drawings.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view illustrating a structure of a high pass antenna module assembly to which an IR antenna unit is applied as an embodiment of the present invention, and FIG. 2 is a high pass antenna module to which an IR antenna unit is applied as an embodiment of the present invention. 3 is an exploded view showing the structure of an assembly, and FIG. 3 is a front sectional schematic view showing a structure of a high pass antenna module assembly to which an IR antenna unit is applied as an embodiment of the present invention.

Figure 4 a, b is a schematic cross-sectional view showing a state of adjusting the installation angle of the IR receiver to form the antenna unit of the IR method in an embodiment of the present invention, Figure 5 is an embodiment of the present invention to fix the installation angle of the IR receiver 6 is a partially enlarged view showing a state in which the state of FIG. 6 is a cross-sectional schematic view illustrating a state in which an installation angle of an IR transmitter of an IR antenna unit is adjusted according to an embodiment of the present invention, and FIG. 7 is an embodiment of the present invention. For example, some enlarged views showing a state in which the installation angle of the IR transmitter is fixed.

1 to 7, the antenna module assembly A for a high pass according to an embodiment of the present invention is installed on an upper portion of a gantry to perform IR communication with an in-vehicle high pass terminal. , The main body 10, the first antenna unit 20, and the first and second angle adjusting rods 40 and 50.

The main body 10 has a first receiving groove 11a having an open front and a mounting bracket 12 for installing a gantry on a rear surface thereof.

Here, the front opening of the first receiving groove (11a) is covered by a cover (not shown) made of a transparent material.

On the other hand, the mounting bracket 12 is formed with a slot portion 12a, the slot portion 12a is the front and rear angle adjustment with respect to the main body 10 when the main body 10 is mounted on an antenna holder (not shown) To make it possible.

The first antenna unit 20 is mounted in the first accommodating groove 11a, the IR receiver 21 mounted in one end of the first accommodating groove 11a, and the other end of the first accommodating groove 11a. It includes a pair of IR transmitters 22, 22 'mounted to.

The first angle adjusting rod 40 is provided to adjust the installation angle of the IR receiver 21, the second angle adjusting rod 50 is a pair of the IR transmitter 22, 22 ' Will be provided to adjust the installation angle.

That is, since the support frame 13 for separating the IR receiver 21 and the IR transmitters 22 and 22 'is formed in the first accommodating groove 11a, the first angle adjusting rod 40 is One end is coupled to one end of the main body 10 to be exposed to the outside and the other end is coupled to the support frame 13, the second angle adjusting rod 50 is so that the other end is exposed to the outside of the other end of the main body 10. Once coupled, one end may be coupled to the support frame 13.

On the other hand, by forming a first mounting horizontal surface 41 in the first angle adjustment rod 40, the first mounting horizontal surface 41 through a fastening member (not shown) made of screws or bolts / nuts, etc. The mounting frame 60 is coupled and configured to fix the IR receiver 21 to the first mounting frame 60.

Here, the upper side of the first mounting frame 60, the upper side to prevent the interference by light (for example, the illumination light of the camera installed around the sun, gantry or gantry) when receiving information of the high-pass terminal in the vehicle The shade may be installed as a light blocking film 61 to block the light flowing from the direction.

In addition, a second mounting horizontal surface 51 is formed on the second angle adjusting rod 50, so that the second mounting horizontal surface 51 is connected to the second mounting horizontal surface 51 through a fastening member (not shown) made of screws, bolts, nuts, or the like. A second mounting frame 70 having a mounting area 71 and a second mounting area 72 is combined, and one IR transmitter 22 is fixed to the first mounting area 71, and the second mounting frame 71 is fixed. In the region 72, the other IR transmitter 22 'is fixed.

In this case, the first mounting area 71 and the second mounting area 72 extend or reduce the transmission / reception distance of the IR signal and the communication area (range) according to the IR communication around the reference area 73. In order to maintain the installation angle (θ) within the range of 110 ~ 180 °.

That is, maintaining the pair of IR transmitters 22 and 22 'at the installation angle θ as described above means that the IR communication is performed during IR communication with the in-vehicle high-pass terminal near the gantry. In order to enlarge or reduce the distance and the communication area (range), the first antenna unit 20 according to the embodiment of the present invention enables the IR communication with the high-pass terminal in the vehicle away from the gantry a certain distance, Toll efficiency can be increased.

On the other hand, the first angle adjustment rod 40 is exposed to the outside of the main body 10, the installation of the first angle adjustment rod 40 through a tool (eg, coin, iron piece, driver, etc.) that can be fitted The first rotation guide groove 42 is formed to enable the angle adjustment, which means that the operator climbs up the gantry and the IR receiver 21 is coupled to the outside of the main body 10 by using a tool as described above. 1 to adjust the angle of the angle adjustment bar (40) easily.

In addition, the second angle adjustment rod 50 exposed to the outside of the other end of the main body 10, the second rotation to enable the adjustment of the installation angle of the second angle adjustment rod 50 through the tool described above A guide groove 52 is formed, and the second angle adjusting rod is coupled to the IR transmitters 22 and 22 'from the outside of the main body 10 by a worker ascending to the gantry. This is to allow easy adjustment of the angle of 50).

Here, after adjusting the installation angle of the first angle adjusting rod 40 and / or the second angle adjusting rod 50 using the tool as described above, the first angle adjusting rod 40 and / Alternatively, since the second angle adjusting rod 50 should not rotate, for this purpose, the first and second angle adjusting rods 40 and 50 are exposed to the outside of one end and the other end of the main body 10, respectively. 80 is coupled to the pressing frame 80 as a cut, forming a plurality of pressing pieces (81, 81 ') for pressing or releasing the pressurized state or the first and second angle adjusting rods (40, 50). The pressing or releasing of the pressurized state of the pressing pieces 81 and 81 'is made to be made by the pressing screw 82 fastened to the pressing pieces 81 and 81'.

That is, when the pressure screw 82 is tightened using a tool, the pressure pieces 81 and 81 'come into contact with each other to press the first and second angle adjusting rods 40 and 50 to limit rotation. When the pressure screw 82 is tightened using a tool, the pressure pieces 81 and 81 'are separated from each other while the pressure state of the first and second angle adjusting rods 40 and 50 is released. The first and second angle adjusting rods 40 and 50 are to be rotated by the tool.

As described above, the antenna module assembly A for the high pass according to the embodiment of the present invention is paired with the IR receiver 21 of the first antenna unit 20 for IR communication, as shown in FIGS. 1 to 7. By independently adjusting the installation angles of the IR transmitters 22 and 22 ', which are structures of H, the reception of the high-pass data and the transmission direction according to the IR communication can be arbitrarily set, and the vehicle passes through the gantry from this setting. I can improve the IR communication performance with my high-pass terminal.

At this time, the IR receiver 21 is blocked by the inflow of the illumination light of the camera installed around the sun, the gantry or the gantry by the light blocking film 61, while preventing the interference by the light, high in the vehicle The effect of receiving IR information transmitted from the path terminal more efficiently can be expected.

In addition, the pair of IR transmitters 22 and 22 'can be rotated as needed while maintaining the installation angle θ within the range of 110 to 180 °, and thus the IR with the in-vehicle high-pass terminal near the gantry. In communication, the transmission / reception distance and communication area (range) of the IR communication can be enlarged or reduced as needed, and the IR communication efficiency can be improved with the high-pass terminal in the vehicle away from the gantry. will be.

On the other hand, Figures 8 to 10 attached to another embodiment of the present invention, which is a first antenna unit 20 for performing IR communication and the second antenna unit 30 for performing RF communication in one body (10) It will be described for the antenna module assembly (A ') for the high pass integrated in the).

Another embodiment of the present invention, the main body having a mounting bracket 12 for installing the gantry on the rear surface having a first receiving groove (11a) and the second receiving groove (11b) of the upper opening is formed in the rear surface 10, the first accommodating groove 11a is fixed to the first antenna unit 20 of the IR method, and the second antenna part 30 of the RF method is mounted on the second accommodating groove 11b. The first accommodating groove 11a and the second accommodating groove 11b may have mutual interference between the first antenna part 20 and the second antenna part 30 (eg, electromagnetic noise, etc.). The partition wall 14 is configured to prevent a).

That is, since the first antenna unit 20 performing the IR communication and the second antenna unit 30 performing the RF communication are separated by the partition 14, the RF of the second antenna unit 30 is separated. Due to the communication, when performing the IR communication in the first antenna unit 20, it is possible to prevent interference, such as electromagnetic noise, or the like, from being included in the RF communication of the second antenna unit 30. The first and second antenna units 20 and 30 may each independently perform stable communication with an in-vehicle high pass terminal or an RF in-vehicle high pass terminal.

Hereinafter, the same parts as in the accompanying Figures 1 to 7 which are embodiments of the present invention are denoted by the same reference numerals and description thereof will be omitted.

Although the technical idea of the high-pass antenna module assembly of the present invention has been described with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

Accordingly, the present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

10; Main body 11a; First receiving groove
11b; Second receiving groove 12; Mounting bracket
12a; Slot portion 13; Support frame
14; Bulkhead 20; First antenna unit
21; IR receiver 22, 22 '; IR transmitter
30; A second antenna unit 40; 1st angle adjustment rod
41; First mounting horizontal surface 42; 1st rotation guide groove
50; Second angle adjusting rod 51; 2nd mounting horizontal surface
52; Second rotating guide groove 60; 1st mounting frame
61; Light barrier 70; 2nd mounting frame
71; First mounting area 72; 2nd mounting area
73; Reference area 80; Press Frame
81,81 '; Pressing piece 82; Pressurized Screw

Claims (11)

A main body having a first receiving groove having a front opening and having a mounting bracket for installing a gantry on a rear surface thereof; And a first antenna unit mounted to the first receiving groove. The first antenna unit includes an IR receiver mounted on one end of the first receiving groove; And a pair of IR transmitters mounted at the other end of the first receiving groove. Includes, wherein the IR receiver is configured to adjust the installation angle by the first angle adjustment rod, the pair of the IR transmitter is configured to adjust the installation angle by the second angle adjustment rod,
The first and second angle adjustment rods exposed to the outside of one end and the other end of the main body are respectively coupled to the pressure frame, but the pressure frame is cut to the first and second angle adjustment rods are cut or released from the pressure state. And a plurality of pressing pieces, wherein the pressing piece or the pressing state of the pressing piece is formed by a pressing screw fastened to the pressing piece. A main body having a lower first accommodating groove and an upper second accommodating groove, the mounting bracket for installing a gantry on a rear surface thereof; A first antenna unit of an IR type fixed to the first receiving groove; A second antenna unit of an RF type fixed to the second receiving groove; It includes, The first receiving groove and the second receiving groove is separated into partitions to prevent mutual interference of the first antenna portion and the second antenna portion, wherein the first antenna portion one end of the first receiving groove An IR receiver mounted to the; And a pair of IR transmitters mounted at the other end of the first receiving groove. Includes, wherein the IR receiver is configured to adjust the installation angle by the first angle adjustment rod, the pair of the IR transmitter is configured to adjust the installation angle by the second angle adjustment rod,
The first and second angle adjustment rods exposed to the outside of one end and the other end of the main body are respectively coupled to the pressure frame, but the pressure frame is cut to the first and second angle adjustment rods are cut or released from the pressure state. And a plurality of pressing pieces, wherein the pressing piece or the pressing state of the pressing piece is formed by a pressing screw fastened to the pressing piece. The method according to claim 1 or 2,
Forming a support frame in the first accommodation groove to separate the IR receiver and the IR transmitter;
The first angle adjusting rod is coupled so that one end is exposed to the outside of one end of the main body and the other end is coupled to the support frame,
The second angle adjusting rod is coupled to the other end is exposed to the outside of the other end of the main body and one end of the high-pass antenna module assembly, characterized in that coupled to the support frame. The method according to claim 1 or 2,
The first angle adjusting rod forms a first mounting horizontal plane,
The first mounting frame is coupled to the first mounting frame through a fastening member,
The antenna module assembly for a high pass, characterized in that for fixing the IR receiver to the first mounting frame. The method of claim 4, wherein
The upper side of the first mounting frame is an antenna module assembly for a high-pass, characterized in that for forming a light blocking film to block the light flowing from the upper direction to prevent interference by light when receiving information of the high-pass terminal in the vehicle. The method according to claim 1 or 2,
The second angle adjusting rod forms a second mounting horizontal plane,
The second mounting horizontal surface is coupled to the second mounting frame having a first mounting area and the second mounting area through a fastening member,
One IR transmitter is fixed to the first mounting area,
The antenna module assembly for a high pass, characterized in that for fixing the other IR transmitter to the second mounting area. The method of claim 6,
The first mounting area and the second mounting area maintain an installation angle within a range of 110 to 180 ° in order to expand or reduce an IR signal transmission / reception distance and a communication area (range) about a reference area. Antenna module assembly for high pass. The method according to claim 1 or 2,
An antenna module assembly for a high pass, characterized in that the first angle adjusting rod exposed to the outside of the main body to form a first rotating guide groove to enable the installation angle adjustment of the first angle adjusting rod through a tool. The method according to claim 1 or 2,
The second angle adjustment rod exposed to the outside of the other end of the main body antenna module assembly for a high pass, characterized in that for forming a second rotation guide groove to enable the adjustment of the installation angle of the second angle adjustment rod through the tool. delete The method according to claim 1 or 2,
The mounting bracket is a high-pass antenna module assembly, characterized in that for forming a slot portion to enable the front and rear angle adjustment to the main body when mounted on the antenna holder.

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