KR101496213B1 - Angle control type unified antenna device - Google Patents

Abstract

The present invention relates to an angle-adjustable integrated antenna. The disclosed angle-adjustable integrated antenna includes: a body which is installed on an antenna structure and includes an IR module and an RF antenna on the inside; a first angle adjusting unit which adjusts the angle of the IR module against the body to enhance the transmission performance of the IR module; and a second angle adjusting unit which adjusts the angle of the RF antenna against the body to enhance the transmission performance of the RF antenna.

Description

[0001] ANGLE CONTROL TYPE UNIFIED ANTENNA DEVICE [0002]

[0001] The present invention relates to an angle-adjustable integrated antenna device, and more particularly, it relates to an angle-adjustable integrated antenna device capable of finely adjusting an installation angle of an IR module and an RF antenna incorporated in a main body, To an angle-adjustable integrated antenna for improving installation workability and improving communication performance.

Generally, ETCS is an electronic toll collection system (hi-pass system) that allows to pay the toll on highway by wireless communication. It is a system of RF (Radio Frequency) and IR ) Method is adopted.

Therefore, the toll settlement can be performed by a lane controller installed on the antenna structure in a state in which the vehicle equipped with the high-pass terminal (OBU) of the RF system or the IR system runs without stopping when the vehicle passes through the charge- When the fare adjustment signal is transmitted, the fare adjustment signal is received by the lane controller through the RF antenna or the IR antenna to process the fare adjustment function.

In recent years, the automatic fare collection system has been settled in an irregular state, so that the antenna structure is installed in most toll roads and parking lots because of the advantage that it helps the flow of the vehicle and does not require staffing.

In the automatic fare collection system, an integrated antenna with IR module and RF antenna built in the body is installed in the antenna structure on the lane. The IR module and RF antenna built in the integrated antenna are fixedly installed in the body in a predetermined position.

The background art of the present invention is disclosed in Korean National Patent Registration No. 10-1208360 (entitled " Transmitter / Receiver for Automatic Toll Collection System, Nov. 29, 2012).

Since the conventional integrated antenna is installed in the antenna structure with the IR module and the RF antenna fixed in the main body, if the signal reception angle of the IR module and the RF antenna do not match, it is necessary to separate them from the antenna structure. There is a problem that it is remarkably deteriorated.

Therefore, there is a need to improve this.

The present invention is created by the above-described necessity, and it is possible to finely adjust the installation angle of the IR module and the RF antenna incorporated in the main body, so that the angles can be individually adjusted while being mounted on the antenna structure, And to provide an angle-adjustable integrated antenna capable of improving the communication performance of the integrated antenna.

In order to achieve the above object, the angle-adjustable integrated antenna of the present invention is provided in an antenna structure, and includes an IR module and an RF antenna. In order to improve transmission / reception performance of the IR module, A first angle adjuster for adjusting an angle; And a second angle adjuster for adjusting an angle of the RF antenna with respect to the main body to improve transmission / reception performance of the RF antenna.

The first angle adjusting unit may include a first turning unit supporting the IR module by a first supporting plate and rotatably supporting the first supporting plate with respect to the main body; And a first lift control unit for linearly moving the IR module to adjust the angle of the IR module with respect to the first rotation unit.

In addition, the first rotating portion may include a first connecting portion formed on both sides of the first supporting plate; And a first coupling portion formed on a base of the main body so as to be rotatably coupled to the first coupling portion and supporting the rotation of the first coupling portion.

The first connection part may include a first support plate protruding downward from the first support plate; And a first rotation protrusion protruded to one side from the first support plate body, wherein the first engagement portion includes a first fixing plate body formed on a base; And a first revolving hole formed in the first stationary plate and into which the first rotating protrusion is inserted.

The first lift control unit may include a first bracket installed on the base and having at least one rotation hole formed therein; A first rotary member rotatably installed in a rotation hole of the first bracket and having a first threaded portion formed in a real section thereof; And a first transmitting member installed on the first supporting plate and connected to the first screw to move the first supporting plate up and down by rotation of the first rotating member.

In addition, the first rotary member is provided with a pair of first elastic members on both sides of the first transmission member, so that the first transmission member provides simultaneous elastic force.

The second angle adjuster may include: a second turning unit that supports the RF antenna by a second support plate and is rotatable with respect to the main body; And a second lift control unit for linearly moving the RF antenna to adjust an angle of the RF antenna with respect to the second rotation unit.

The second pivot portion may include a second connection portion formed on both sides of the second support plate; And a second coupling portion formed on a base of the main body so as to be rotatably coupled to the second coupling portion and supporting the rotation of the second coupling portion.

The second connection portion may include a second support plate protruding downward from the second support plate; And a second rotation protrusion protruded to one side from the second support plate body, wherein the second engagement portion includes a second fixing plate body on which a base is formed; And a second revolving hole formed in the second stationary plate and in which the second revolving protrusion is inserted.

The second lift control portion may include a second bracket installed on the base and having at least one turn hole formed therein; A second rotary member rotatably installed in a rotation hole of the second bracket and having a second threaded portion formed in a real section thereof; And a second transmitting member installed on the second supporting plate and connected to the second screw to move the second supporting plate up and down by rotation of the second rotating member.

Further, the second rotary member is provided with a pair of second elastic members on both sides of the second transmission member, so that the second transmission member provides simultaneous elastic force to the second transmission member.

The first angle adjusting unit and the second angle adjusting unit may be angularly adjusted in mutually different directions, wherein the first angle adjusting unit adjusts the angle of the IR module in the forward and backward directions, And the RF antenna is configured to adjust the angle in the left-right direction.

The angle-adjustable integrated antenna according to the present invention can finely adjust the installation angle of the IR module and the RF antenna built in the main body, so that the individual angle can be adjusted in the state of being mounted on the antenna structure, It is possible to improve the communication performance of the integrated antenna.

1 is a perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
2 is an exploded perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
3 is a front view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
4 is a side view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
5 is a front perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
6 is a side perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention.
FIG. 7 is an enlarged perspective view of the body angle adjusting unit in FIG. 2;
FIG. 8 is an enlarged perspective view of the first angle adjusting portion in FIG. 2. FIG.
FIG. 8 is an enlarged perspective view of the second angle adjusting portion in FIG. 2. FIG.
10 is a cross-sectional view taken along line AA of FIG.
11 is a cross-sectional view taken along line BB of Fig. 5, and is a sectional view of the operation state of the second angle adjusting portion.

Hereinafter, an angle-adjustable integrated antenna according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention, FIG. 4 is a side view of an angle-adjustable integrated antenna according to an embodiment of the present invention. FIG.

 FIG. 5 is a front perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention, and FIG. 6 is a side perspective view of an angle-adjustable integrated antenna according to an embodiment of the present invention.

FIG. 7 is an enlarged perspective view of the body angle adjusting unit in FIG. 2, FIG. 8 is an enlarged perspective view of the first angle adjusting unit in FIG. 2, FIG. 8 is an enlarged perspective view of the second angle adjusting unit, 11 is a cross-sectional view taken along the line BB of Fig. 5, and is a sectional view of the second angle regulating portion in an operating state.

1 to 11, an angle-adjustable integrated antenna 100 according to an exemplary embodiment of the present invention includes an antenna module 2 installed in an antenna structure 2 and including an IR module 4 and an RF antenna 6 A first angle adjusting unit 30 for adjusting the angle of the IR module 4 with respect to the main body 10 for improving transmission and reception performance of the IR module 4, And a second angle adjuster 60 for adjusting the angle of the RF antenna 6 with respect to the main body 10 in order to improve the performance.

The main body 10 is configured to form the outer shape of the angle-adjustable integrated antenna 100 according to the embodiment of the present invention, and various transmission / reception devices are provided therein. The body 10 is assembled to the antenna structure 2 in a suitable fastening manner.

The IR module (4) and the RF antenna (6) built in the main body (10) allow the vehicle to detect the movement of the vehicle through a reception signal roll that returns the transmission signal to the vehicle. Therefore, in the transceiver for the automatic fare collection system, the IR module 4 and the RF antenna 6 are incorporated in the main body 10 and used as an antenna for accounting for the vehicle.

The main body 10 includes a base 12 on which the IR module 4 and the RF antenna 6 are installed and a cover 12 on the front side of the base 12 for covering the IR module 4 and the RF antenna 6 14).

The light shielding cover 18 may be provided on the upper front side of the main body 10 to shield the sunlight. Although not shown in detail in the drawings, It is preferable to configure it to be adjusted.

The base 12 is formed with a receiving groove recessed forward, and the IR module 4 and the RF antenna 6 are provided in the receiving groove.

The cover 14 is covered with a base 12 and is coupled with a screw or the like and is provided with a plastic translucent window through which the transmission and reception signals of the IR module 4 and the RF antenna 6 can be respectively viewed.

On the rear surface of the base 12, a radiation member 16 for radiating heat generated from the internal components is provided. The surface of the heat dissipating member (16) is provided with a heat dissipating fin repeatedly provided with concave and convex protrusions and concave and convex grooves to facilitate heat discharge.

The front and rear angles of the body 10 can be adjusted in the antenna structure 2 by the front-back angle adjusting portion 20. [ The front and rear angles are adjusted so that the direction in which the IR module 4 and the RF antenna 6 are directed toward the vehicle is appropriately arranged in the process of installing the main body 10 on the antenna structure 2. [

Here, the antenna structure 2 includes a pair of columns vertically installed on both sides of the road, and an installation frame horizontally connected to the upper ends of the pair of columns. The integrated antenna 100 according to the embodiment of the present invention is installed in the installation frame through the front-back angle adjusting unit 20. [

The main body angle adjuster 30 includes a sunlight shielding film 22 provided on the rear surface of the base 12 and a support member 24 provided on the rear side of the sunlight shielding film 22 and formed with a curved guide groove 23 A frame member 26 supported by the support member 24 and inserted into the bending guide groove 23 and coupled to the support member 24 to support the frame member 26, And a fastening member 28 for adjusting the angle of the member 24.

The sunlight shielding film 22 is coupled to the rear surface and both sides of the base 12 of the main body 10 through screws or bolts.

The support member 24 is joined to the rear surface of the sunlight blocking film 22 and is formed in a pair of protruding shapes in a state of being opened in a C shape. The bending guide grooves 23 are formed so as to be bent in a pair at positions corresponding to the respective support members 24. [ The support member 24 may be provided with a display scale unit for displaying the rotation angle.

The frame member 26 is formed with a screw hole or a through hole at a position where the bending guide groove 23 is arranged so that the angle of the body 10 can be adjusted by releasing or tightening the fastening member 28.

That is, after the fastening member 28 is loosened and the front and rear angles of the main body 10 are adjusted along the bending guide grooves 23 of the support member 24 with respect to the frame member 26 provided on the antenna structure 2, The fastening angle of the IR module 4 and the RF antenna 6 is adjusted by fastening the fastening member 26. The right and left angles of the IR module 4 and the RF antenna 6 are also adjusted by appropriately arranging the frame member 26 in the antenna structure 2.

At this time, the frame member 26 and the support member 24 are provided with a fastening member 28 fastened to the bending guide groove 23 and a rotary shaft member 27 for rotation separately.

The rotating shaft member 27 is provided adjacent to the fastening member 28.

As the IR module 4 and the RF antenna 6 are adjusted simultaneously by adjusting the front and back angles of the main body 10 using the main body angle adjuster 30 as described above, If the RF antenna 6 is not matched or the transmission and reception angles of the RF antenna 6 are not matched, there is a problem that each individual adjustment is difficult.

Therefore, a configuration for individually adjusting the angles of the IR module 4 and a configuration for individually adjusting the angles of the RF antenna 6 are necessary.

so. The integrated antenna 100 according to the embodiment of the present invention may include a first geodeticity adjusting unit 30 for adjusting the angle of the IR module 4 and a second angle adjusting unit 30 for adjusting the angle of the RF antenna 6 60 are provided.

At this time, it is preferable that the first angle adjusting part 30 and the second angle adjusting part 60 are angularly adjusted in mutually different directions.

The first angle adjusting unit 30 according to the embodiment of the present invention adjusts the angle of the IR module 4 in the front and back direction and the second angle adjusting unit 60 adjusts the angle of the RF antenna 6 in the left and right direction As shown in FIG.

The first angle adjusting portion 30 and the second angle adjusting portion 60 may be arranged such that the IR module 4 is adjusted in the left and right direction and the RF antenna 6 is adjusted in the anteroposterior direction, And can be configured to individually adjust the angles in various different directions.

The first angle regulating part 30 supports the IR module 4 by the first supporting plate 41 and is rotatably supported by the first rotating part And a first lift control unit 50 for linearly moving the IR module 4 to adjust the angle of the IR module 4 with respect to the first rotary unit 40.

It is preferable that a pair of the first turning portions 40 are provided on both sides of the first supporting plate 41.

The first lift control part 50 is preferably provided on one side of the first support plate 41 extending in the longitudinal direction from the center line of the pair of first support plates 41.

The first turning part 40 includes a first connecting part 42 formed on both sides of the first supporting plate 41 and a second connecting part 42 formed on the base 12 of the main body 10 so as to be rotatably coupled to the first connecting part 42. [ And a first engaging portion 46 for supporting the rotation of the first connecting portion 42.

Although not shown in the drawing, the first connection portion 42 may be a protrusion projected on both sides of the first support plate 41, or may be a recess recessed on both sides of the first support plate 41. The first engaging portion 46 may be a groove or a projection which is recessed on both sides of the base 12 so as to be engaged with the protrusion or groove of the first support plate 41.

 2, 8 and 10, the first connection part 42 includes a first support plate body 43 protruding downward from the first support plate 41, a second support plate body 43 extending from the first support plate body 43 And may include a first rotation protrusion (44) formed to protrude to one side. The first engaging portion 46 includes a first fixed plate body 47 protruding from the base 12 and a second fixed plate body 47 formed on the first fixed plate body 47, (48). At this time, the first rotation protrusion 44 is formed on the first fixed plate body 47, and the first rotation pores 48 may be formed on the first support plate body 43 as opposed to being formed on the first fixed plate body 47.

The first lift control part 50 is provided on the base 12 and includes a first bracket 52 formed with one or more revolving holes and a second bracket 52 provided rotatably in the rotation hole of the first bracket 52, A first rotary member 54 having a first screw portion 55 formed at one end thereof and a first rotary member 54 having one side fixed to the first support plate 41 and the other end screwed to the first screw portion 55, And a first transmission member 56 for moving the first support plate 41 up and down by rotation of the first support plate 41. [

The rotation of the first rotary member 54 moves the first support plate 41 upward and downward while moving the first transmission member 56 having the screw hole connected to the first screw portion 55. In this case, Since the support plate 41 is rotatably supported by the first rotary part 40, the forward and backward rotation angles of the IR module 4 mounted on the first support plate 41 are adjusted.

The first rotary member 54 is provided with a knurling member having an uneven groove formed on the outer circumferential surface so as to be rotatable by hand or a screw groove is formed on one end surface of the first rotary member 54, 22 may be separated and the fastening tool such as a screwdriver may be inserted and tightened through the hole of the sunlight blocking film 22.

The other end of the first rotating member 54 may be provided with a snap ring to prevent the first rotating member 54 from being separated.

The first rotating member 54 is provided with a pair of first elastic members 58 at both sides of the first transmitting member 56 to provide a simultaneous upward and downward elastic force of the first transmitting member 56, You can.

Since the individual rotation angle of the IR module 4 can be adjusted with respect to the main body 10 as described above, the fine rotation angle of the IR module 4 can be adjusted even if the installation angle of the main body 10 is not correct.

A reception member 90 having a rectangular hopper shape is provided on the front side of the IR module 4 so as to receive the reception signal at the receiving unit position.

The receiving member 90 includes a mounting plate 92 that is screwed to the substrate receiving portion of the IR module 4 and a receiving portion 94 formed in the central region of the mounting plate 92 and formed in an open- ). The receiving member 90 also serves to prevent a signal received by the receiving unit of the IR module 4 from being interfered by a signal of an adjacent transmitting unit.

The second angle regulating part 60 supports the RF antenna 6 by the second support plate 71 and rotates the second support plate 71 with respect to the main body 10 through a second rotation part And a second lift control unit 80 for linearly moving the RF antenna 6 to adjust the angle of the RF antenna 6 with respect to the second turning unit 70.

It is preferable that a pair of the second turning portions 70 are provided on both sides of the second supporting plate 71.

The second lift control portion 80 is preferably provided on one side of the second support plate 71 extending in the longitudinal direction from the center line of the pair of second support plates 71.

The second rotary part 70 includes a second connection part 72 formed on both sides of the second support plate 71 and a second connection part 72 formed on the base 12 of the main body 10 so as to be rotatably coupled to the second connection part 72. [ And a second engaging portion 76 for supporting the rotation of the second connecting portion 72.

Although not shown in the drawing, the second connection portion 72 may be a protrusion projected on both sides of the second support plate 71, or may be a recess recessed on both sides of the second support plate 71. The second engaging portions 76 may be grooves or protrusions that are recessed on both sides of the base 12 so as to be engaged with protrusions or grooves of the second support plate 71.

 2, 9, and 11, the second connection portion 72 includes a second support plate body 73 protruding downward from the second support plate 71, and a second support plate body 73 protruding from the second support plate body 73 And a second rotation protrusion (74) protruding in one direction. The second engaging portion 76 includes a second fixed plate body 77 protruding from the base 12 and a second fixed plate body 77 formed on the second fixed plate body 77, (78). At this time, the second rotation protrusion 74 may be formed on the second fixed plate body 77, and the second rotation hole 78 may be formed on the second support plate body 73 in the reverse order.

The second lift control portion 80 is provided on the base 12 and includes a second bracket 82 formed with one or more revolving holes and a second bracket 82 rotatably installed in the rotation hole of the second bracket 82, A second rotary member 84 on which a second screw portion 85 is formed and a second rotary member 84 having one side fixed to the second support plate 71 and the other side fixed to the second screw portion 85, And a second transmission member 76 for moving the second support plate 71 up and down by rotation of the second support plate 71.

The rotation of the second rotary member 84 causes the second transmission member 56 having the screw hole to be coupled to the second screw portion 85 to move up and down while moving the second support plate 71 up and down. Since the second support plate 71 is rotatably supported by the second rotation unit 70, the angle of the left and right rotation of the RF antenna 6 mounted on the second support plate 71 is adjusted.

A knurled member having an uneven groove formed on an outer circumferential surface thereof so as to be rotatable by hand may be provided at one end of the second rotary member 84 or a screw groove may be formed at one end surface of the second rotary member 84, 22 may be separated and the fastening tool such as a screwdriver may be inserted and tightened through the hole of the sunlight blocking film 22.

The other end of the second rotatable member 84 may be provided with a snap ring for preventing the detachment.

The second rotating member 84 is provided with a pair of second elastic members 88 on both sides of the second transmitting member 86 to provide a simultaneous upward and downward elastic force of the second transmitting member 86, You can.

Since the individual rotation angle of the RF antenna 6 can be adjusted with respect to the main body 10 as described above, the fine rotation angle of the RF antenna 6 can be adjusted even if the installation angle of the main body 10 is not correct.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the following claims.

2: Antenna structure 4: IR module
6: RF antenna 10:
12: Base 14: Cover
16: heat radiating member 18: light blocking cover
20: body angle adjusting section 22: sunlight shielding film
24: support member 26: frame member
28: fastening member 30: first angle regulating portion
40: first rotating part 41: first supporting plate
42: first connection part 43: first support plate body
44: first rotating projection 46: first engaging portion
47: first fixed plate member 48: first pupil
50: first lift control part 52: first bracket
54: first rotating member 56: first transmitting member
58: first elastic member 60: second angle adjusting portion
70: second rotating part 71: second supporting plate
72: second connecting portion 73: second supporting plate body
74: second rotating projection 76: second coupling portion
77: second fixed plate member 78: second pupil
80: second lift control part 82: second bracket
84: second rotating member 86: second transmitting member
88: second elastic member 90: signal receiving portion
92: mounting plate 94: accommodating portion

Claims (12)

Body with an IR module and RF antenna installed on the antenna structure:
A first angle adjuster for adjusting an angle of the IR module with respect to the main body to improve transmission / reception performance of the IR module; And
And a second angle adjuster for adjusting an angle of the RF antenna with respect to the main body to improve transmission / reception performance of the RF antenna,
Wherein the first angle adjuster and the second angle adjuster are angularly adjusted in mutually different directions,
The first angle adjusting unit adjusts the angle of the IR module in the front-
And the second angle adjuster is configured to adjust the angle of the RF antenna in the left-right direction.
The method according to claim 1,
Wherein the first angle adjuster comprises:
A first turning part supporting the IR module by a first supporting plate and rotatably supporting the first supporting plate with respect to the main body; And
And a first lift control unit that linearly moves the IR module to adjust an angle of the IR module with respect to the first rotation unit
Wherein the antenna comprises an antenna.
3. The method of claim 2,
The first rotating portion,
A first connection part formed on both sides of the first support plate; And
A first coupling part formed on a base of the main body so as to be rotatably coupled to the first coupling part and supporting the rotation of the first coupling part;
Wherein the antenna comprises an antenna.
The method of claim 3,
The first connection part includes: a first support plate protruding downward from a first support plate; And a first rotation protrusion protruded to one side from the first supporting plate body,
The first coupling unit may include a first fixing plate formed on the main body; And a first pivot hole formed in the first fixed plate and inserted with the first pivot projection.
3. The method of claim 2,
Wherein the first lift control portion comprises:
A first bracket installed in the main body and having at least one rotation hole formed therein;
A first rotary member rotatably installed in a rotation hole of the first bracket and having a first threaded portion formed in a real section thereof; And
A first transmitting member installed on the first supporting plate and connected to the first screw to move up and down the first supporting plate by rotation of the first rotating member;
Wherein the antenna comprises an antenna.
6. The method of claim 5,
Wherein the first rotating member is provided with a pair of first elastic members on both sides of the first transmitting member to provide simultaneous elastic force of the first transmitting member.
The method according to claim 1,
Wherein the second angle adjuster comprises:
A second turning part supporting the RF antenna by a second supporting plate and rotatably supporting the second supporting plate with respect to the main body; And
And a second lift control unit for linearly moving the RF antenna to adjust the angle of the RF antenna with respect to the second rotation unit
Wherein the antenna comprises an antenna.
8. The method of claim 7,
The second rotating portion
A second connection part formed on both sides of the second support plate; And
A second coupling part formed on a base of the main body so as to be rotatably coupled to the second coupling part and supporting the rotation of the second coupling part;
Wherein the antenna comprises an antenna.
9. The method of claim 8,
The second connection portion includes a second support plate protruding downward from the second support plate; And a second rotation protrusion protruded to one side from the second support plate body,
The second engaging portion includes a second fixing plate formed on the main body; And a second revolving hole formed in the second fixed plate to insert the second revolving protuberance.
8. The method of claim 7,
Wherein the second lift control portion comprises:
A second bracket installed in the main body and having at least one turn hole formed therein;
A second rotary member rotatably installed in a rotation hole of the second bracket and having a second threaded portion formed in a real section thereof; And
A second transmitting member installed on the second supporting plate and connected to the second screw to move the second supporting plate up and down by rotation of the second rotating member;
Wherein the antenna comprises an antenna.
11. The method of claim 10,
And the second rotary member is provided with a pair of second elastic members on both sides of the second transmission member to provide simultaneous elastic force of the second transmission member.
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