JP6127838B2 - Antenna device - Google Patents

Description

  The present invention relates to an antenna device.

  Developed an antenna device that uses a triplate line as a feed line with a central conductor plate sandwiched between two ground plates as an antenna device that can suppress losses in the feed line and simplify the structure. (For example, refer to Patent Document 1).

JP-A 63-88902

  However, in the antenna apparatus using the above-described triplate line as a feed line, there is a problem of how to connect the antenna element to the central conductor plate of the triplate line.

  For example, when the antenna element is soldered to the central conductor plate after assembling the triplate line, it is necessary to form a large working hole in the ground plate in order to perform the soldering operation, and impedance mismatching or electrical Cause deterioration of the mechanical characteristics. When the working through hole is made small, assembly work becomes difficult, and the antenna element and the central conductor plate are not sufficiently fixed, and there is a possibility that sufficient mechanical strength at the connection portion cannot be obtained.

  Therefore, the object of the present invention is to solve the above-mentioned problems, and the mechanical strength of the connection portion between the antenna element and the triplate line is high, the assemblability is good, and the deterioration of the electrical characteristics at the connection portion can be suppressed. An object is to provide an antenna device.

The present invention was devised to achieve the above object, and is an antenna device using a triplate line formed by sandwiching a central conductor between two ground plates via an air layer as a feed line. And having one end connected to the central conductor and the other end having a power feed pin made of a conductor extending through a through hole formed in the ground plate, and connecting an antenna element to the power feed pin. The antenna element and the central conductor are electrically connected , and the triplate line is connected to the first triplate line and the first triplate line so as to intersect with each other. A second triplate line, and configured to transmit an externally supplied feed signal from the second triplate line to the antenna element via the first triplate line. And the second triplate line is provided on one ground plate side of the first triplate line, and the antenna element is provided on the other ground plate side. The antenna device connects the central conductor of one triplate line and the antenna element .

The feed pin is formed in parallel to the opposing direction of the ground plate, and includes a vertical part connected to the antenna element, and a parallel part extending perpendicularly from the vertical part to the vertical part. And may be fixed to the central conductor by abutting and fixing the parallel part to the central conductor.

  The power supply pin may include a locking portion that locks in a locking hole formed in the center conductor at a lower end portion of the vertical portion and an end portion of the parallel portion opposite to the vertical portion. Good.

  Further, the present invention is an antenna device using a triplate line configured by sandwiching a center conductor between two ground plates via an air layer as a feed line, one end of which is connected to the center conductor, The other end is provided with a power feeding pin made of a conductor extending to the outside through a through hole formed in the ground plate, and the antenna element and the central conductor are connected by connecting the antenna element to the power feeding pin. The power feeding pin is formed in parallel to the opposing direction of the ground plate, and is connected to the antenna element, and a vertical portion connected to the antenna element is perpendicular to the vertical portion. A parallel portion that extends, and is fixed to the central conductor by abutting and fixing the parallel portion to the central conductor, and a lower end portion of the vertical portion and the parallel portion Opposite to the vertical part The end is to have an antenna system which includes a locking portion for locking the engaging hole formed in the central conductor.

  The power feed pin may be provided with two parallel portions so as to extend in opposite directions from the vertical portion.

  The power supply pin may be formed by bending a single metal plate.

  ADVANTAGE OF THE INVENTION According to this invention, the mechanical strength of the connection part of an antenna element and a triplate track | line is high, assembly property is favorable, and the antenna apparatus which can suppress deterioration of the electrical property in a connection part can be provided.

(A) is typical sectional drawing which shows the connection state of the triplate track | line in the antenna apparatus which concerns on this embodiment, (b) is sectional drawing of the connection part of an antenna element and a 1st triplate track | line, c) is a perspective view of a feed pin. (A) is a perspective view which shows the external appearance of the antenna apparatus which concerns on this embodiment, (b) is a perspective view which abbreviate | omitted a radome, a part of triplate track | line, and the antenna element. It is a figure which shows the structure of the 2nd triplate track | line in the antenna apparatus of FIG. 1, and is the perspective view which abbreviate | omitted one ground plate. It is a perspective view which shows the structure of the antenna element in the antenna apparatus of FIG. It is a figure which shows the modification of the antenna apparatus of FIG. 1, (a) is sectional drawing of the connection part of an antenna element and a 1st triplate track | line, (b) is a perspective view of a feed pin, (c) is 1st. It is a top view of the connection part of the center conductor plate of a triplate track | line, and a feed pin.

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

  Fig.1 (a) is typical sectional drawing which shows the connection state of the triplate track | line in the antenna apparatus which concerns on this embodiment, FIG.1 (b) is the connection part of an antenna element and a 1st triplate track | line. Sectional drawing and FIG.1 (c) are perspective views of a feed pin.

  FIG. 2A is a perspective view showing an appearance of the antenna device according to the present embodiment, and FIG. 2B is a perspective view in which a radome, a part of a triplate line, and an antenna element are omitted.

  As shown in FIGS. 1 and 2, the antenna device 1 uses a triplate line 4 configured by sandwiching a center conductor 2 between two ground plates 3 via an air layer as a feed line. The antenna device 1 is used as a base station antenna for mobile communication, for example.

  The antenna device 1 includes a cylindrical radome 21. The triplate line 4 is accommodated in the radome 21. Both ends of the radome 21 are closed by an antenna cap (not shown). The radome 21 is provided with a mounting bracket 22 for fixing to the antenna tower or the like. The antenna device 1 is attached to an antenna tower or the like by a mounting bracket 22 so that the axial direction (longitudinal direction) of the radome 21 is a vertical direction.

  In the present embodiment, a case will be described in which the antenna device 1 is a frequency sharing antenna that can transmit and receive in two frequency bands. When the antenna is used as a frequency sharing antenna in two frequency bands and vertical polarization and horizontal polarization are used at each frequency, four systems of feed lines are required. If all of these four systems of feed lines are incorporated in one triplate line 4, the area of the triplate line 4 becomes very large and the entire apparatus becomes large. Therefore, in the present embodiment, the triplate line 4 is divided into a plurality of parts and these are connected to cross each other.

  Specifically, the triplate line 4 includes a first triplate line (horizontal triplate line) 4a and one or more second triplate lines (crossing the first triplate line 4a). Vertical triplate line) 4b. Here, a total of four second triplate lines 4b are provided, one for each of the four power supply lines, and these four second triplate lines 4b are connected orthogonally to the first triplate line 4a. Configured to do.

  The antenna device 1 is configured such that a power supply signal supplied from the outside is transmitted from the second triplate line 4b to the antenna element via the first triplate line 4a. Here, the four second triplate lines 4b are spaced apart from each other and arranged in parallel, and the two second triplate lines 4b for each low-band (for example, 700 to 800 MHz band) polarized wave are placed on the outside. Two second triplate lines 4b for each polarized wave for a band (for example, 1.5 to 2 GHz band) are arranged inside. In addition, the frequency band to be shared is not limited to two, and the number and arrangement of the second triplate lines 4b are not limited to those illustrated.

  The first triplate line 4a is configured by sandwiching a center conductor plate 2a made of a metal plate to be the center conductor 2 between two ground plates 3a via an air layer. The two ground plates 3a are arranged opposite to each other so as to be parallel to each other, and the central conductor plate 2a is disposed at a position where the distances from both the ground plates 3a are equal, that is, at a position intermediate between the two ground plates 3a. Has been.

  The second triplate line 4b is configured by sandwiching a central conductor plate 2b made of a metal plate to be the central conductor 2 between two ground plates 3b via an air layer. The two ground plates 3b are arranged opposite to each other so as to be parallel to each other, and the central conductor plate 2b is arranged at a position where the distances from both the ground plates 3b are equal, that is, at a position intermediate between the two ground plates 3b. Has been. As the ground plates 3a and 3b, those made of aluminum which is lightweight, low cost and excellent in weather resistance are used.

  As shown in FIGS. 1 to 3, the second triplate line 4 b is provided with a dielectric insertion type phase shifter 31 in the central conductor plate 2 b, and adjusts the phase by distributing a feeding signal inputted from the outside. Then, it is configured to output to the first triplate line 4a. The dielectric insertion type phase shifter 31 is connected to a linear motion motor unit 32 for moving the dielectric plate along the central conductor plate 2b.

  The two ground plates 3b of the second triplate line 4b have flange portions 5 fixed in contact with the surface of the ground plate 3a of the first triplate line 4a, and are formed in a substantially L shape in cross-sectional view. Has been. By fastening and fixing the flange portion 5 and the two ground plates 3a of the first triplate line with bolts, both ground plates 3a and 3b are electrically connected and fixed. 4a and 4b are fixed.

  Further, the center conductor plate 2b of the second triplate line 4b is extended from the ground plate 3b to the outside and inserted into a through hole 41 formed in the ground plate 3a of the first triplate line 4a. The first triplate line 4a is soldered and electrically connected to the central conductor plate 2a.

  As shown in FIG. 4, an antenna element 51 is provided on the opposite side of the first triplate line 4a to the side on which the second triplate line 4b is provided. That is, the antenna device 1 is configured such that the second triplate line 4b is provided on one ground plate 3a side of the first triplate line 4a and the antenna element 51 is provided on the other ground plate 3a side.

  The antenna element 51 has an antenna substrate 54 in which a wiring pattern is formed on a plate-like substrate made of an insulator such as resin, and is erected on one ground plate 3a of the first triplate line 4a. An element fixing bracket 55 is integrally provided on the antenna substrate 54. The element fixing bracket 55 is fastened and fixed to the ground plate 3a with a bolt 56, whereby the antenna element 51 is fixed to the ground plate 3a. .

  The antenna element 51 has two antenna element pairs 52 and 53 corresponding to two frequency bands. The high-band first antenna element pair 52 includes a first horizontally polarized antenna element 52a and a first vertically polarized antenna element 52b, and the low-band second antenna element pair 53 includes a second horizontally polarized antenna. It consists of an element 53a and a second vertically polarized antenna element 53b. The configuration and arrangement of the antenna element 51 are not limited to those shown in the drawing.

  As shown in FIGS. 1B and 5, in the antenna device 1 according to the present embodiment, one end is connected to the center conductor 2 and the other end is passed through a through hole 42 formed in the ground plate 3. A power feed pin 6 made of a conductor extending to the outside is provided. In the present embodiment, since the antenna element 51 is provided on the first triplate line 4a, the feed pin 6 is configured to connect the central conductor plate 2a of the first triplate line 4a and the antenna element 51.

  In the antenna device 1, the antenna element 51 and the central conductor 2 are connected to the power supply pin 6 by connecting the wiring pattern of the antenna substrate 54 to the portion of the power supply pin 6 that extends from the ground plate 3 a to the outside. It is comprised so that it may be electrically connected via.

  The feed pin 6 is formed in parallel to the opposing direction of the ground plate 3a (that is, perpendicular to the surface of the central conductor plate 2a), and is connected to the antenna element 51, and the lower end of the vertical portion 7 And a parallel portion 8 extending perpendicularly to the vertical portion 7 (that is, parallel to the surface of the central conductor plate 2a) from the portion (the end opposite to the antenna element 51).

  In the present embodiment, the power supply pin 6 is formed by bending a single metal plate. As a result, an increase in the number of parts can be suppressed, the assemblability can be improved, and the cost can be reduced.

  In addition, the power supply pin 6 is locked in a locking hole (not shown) formed in the central conductor plate 2 a at the lower end of the vertical portion 7 and the end of the parallel portion 8 opposite to the vertical portion 7. A locking portion 9 is provided. The locking portion 9 is formed so as to extend downward (on the side opposite to the antenna element 52) from the lower end portion of the vertical portion 7 and the end portion of the parallel portion 8 opposite to the vertical portion 7. With the locking portion 9 inserted into the locking hole of the central conductor plate 2a and locked, and the parallel portion 8 being in contact with the surface of the central conductor plate 2a, the parallel portion 8 is connected to the central conductor plate 2a. By being soldered to and fixed, the feed pin 6 is fixed and electrically connected to the central conductor plate 2a.

  By adopting a structure in which the locking portion 9 is locked, it is possible to easily position the power supply pin 6, improve assemblability, and suppress displacement of the power supply pin 6 due to vibration or the like. become. In addition, by adopting a structure in which the parallel portion 8 is fixed in contact with the central conductor plate 2a, the feed pin 6 is firmly supported by the parallel portion 8, or the soldering area is increased to increase the mechanical area of the connection portion. The strength can be increased.

  In the present embodiment, the lower end portion of the vertical portion 7 is formed wide, the parallel portion 8 is formed by bending a part of the width direction, and the unfolded portion is used as the locking portion 9. However, the shape of the power supply pin 6 is not limited to this, and can be changed as appropriate.

  For example, it is good also considering the latching | locking part 9 as one place or three places or more. In addition, when forming one parallel part 8 like this embodiment, in order to raise the mechanical strength of a connection part, it is necessary to lengthen the parallel part 8 to some extent, Therefore In order to perform stable positioning, two places It is desirable to provide the above locking part 9.

  Furthermore, as shown in FIG. 5, a plurality of parallel portions 8 may be provided. FIG. 5 shows a case where two parallel portions 8 are provided so as to extend in the opposite directions from the vertical portion 7. With this configuration, each of the two parallel portions 8 can be fixed to the central conductor plate 2a using the solder 61, and a plurality of soldering locations (here, two locations) are used. It is possible to make the fixing to the central conductor plate 2a stronger.

  When the antenna device 1 is assembled, first, the second triplate line 4b is assembled, and the second triplate line 4a is assembled to the first triplate line 4a in a state where the ground plate 3a on the antenna element 51 side is removed. 4b is fixed. At this time, the flange portion 5 of the ground plate 3b of the second triplate line 4b is fastened and fixed to the ground plate 3a of the first triplate line 4a with a bolt, and the central conductor plate 2b inserted from the through hole 41 is connected to the central conductor. Soldering and electrically connecting to the plate 2a.

  Thereafter, the power supply pins 6 are attached by soldering to the central conductor plate 2a of the first triplate line 4a. After the feed pin 6 is attached, the ground plate 3a on the antenna element 51 side is attached and fastened and fixed with a bolt to assemble the first triplate line 4a.

  Thereafter, the antenna substrate 54 of the antenna element 51 is soldered to the feeding pin 6 exposed from the first triplate line 4a, and the element fixing bracket 55 of the antenna substrate 54 is fastened to the ground plate 3a with a bolt 56. Fix it. Thus, the antenna device 1 is obtained.

  In the frequency sharing antenna device 1, it is necessary to provide a plurality of antenna elements 51 for each frequency and for each polarization, and for example, it is necessary to provide a large number of antenna elements 51 of 80 or more. Therefore, in order to efficiently perform the assembling work, it is desirable to connect the triplate lines 4 first and then attach a large number of antenna elements 51. In the present embodiment, by using the feed pin 6, it is possible to perform the work of attaching the antenna element 51 after assembling the triplate line 4, so that the assemblability of the antenna device 1 can be greatly improved. That is, the present invention can be said to be particularly effective in the case where a plurality of triplate lines 4 are crossed and connected as in the antenna device 1.

  As described above, in the antenna device 1 according to the present embodiment, one end is connected to the central conductor 2 and the other end is formed of a conductor extending to the outside through the through hole 42 formed in the ground plate 3. The power supply pin 6 is provided, and the antenna element 51 and the central conductor 2 are electrically connected by connecting the antenna element 51 to the power supply pin 6.

  With this configuration, the antenna element 51 and the central conductor 2 can be easily electrically connected without forming a large working through hole in the ground plate 3a. It is possible to suppress deterioration of the physical characteristics.

  Further, since the power supply pin 6 is fixed in advance and the antenna element 51 is fixed to the exposed portion of the power supply pin 6, it is not necessary to perform an unreasonable operation of soldering through a narrow through hole as in the prior art. It is possible to improve the assembling property and increase the mechanical strength of the connecting portion.

  That is, according to the present embodiment, the antenna device 1 has high mechanical strength at the connecting portion between the antenna element 51 and the triplate line 4a, good assemblability, and can suppress deterioration of electrical characteristics at the connecting portion. Can be realized.

  In the antenna device 1, the impedance at the connection portion between the antenna element 51 and the triplate line 4 a can be easily adjusted by changing the width of the feed pin 6 and the size of the through hole 42.

  Furthermore, in the antenna device 1, it is only necessary to attach the antenna substrate 54 to a portion where the feed pin 6 is provided. Therefore, the antenna element 51 can be easily attached, and the positioning of the antenna element 51 is easy.

  The present invention is not limited to the above-described embodiment, and it is needless to say that various modifications can be made without departing from the spirit of the present invention.

  For example, in the above embodiment, the case where the center conductor 2 uses the triplate lines 4a and 4b including the center conductor plates 2a and 2b has been described. However, the present invention is not limited thereto, and one or both of the triplate lines 4a and 4b are used. A substrate triplate line using a wiring pattern formed on a dielectric substrate as the central conductor 2 may be used.

DESCRIPTION OF SYMBOLS 1 Antenna apparatus 2 Center conductor 3 Ground plate 4 Triplate line 6 Feeding pin 7 Vertical part 8 Parallel part 9 Locking part 42 Through-hole 51 Antenna element

Claims (6)

An antenna device using a triplate line configured by sandwiching a central conductor between two ground plates via an air layer as a feed line,
One end is connected to the central conductor, and the other end is provided with a power supply pin made of a conductor extending to the outside through a through hole formed in the ground plate
By connecting an antenna element to the feed pin, the antenna element and the central conductor are electrically connected ,
The triplate line has a first triplate line and one or more second triplate lines connected to cross the first triplate line, and a power supply signal supplied from the outside Is transmitted from the second triplate line to the antenna element via the first triplate line,
And, the second triplate line is provided on one ground plate side of the first triplate line, and the antenna element is provided on the other ground plate side,
The antenna device, wherein the feed pin connects the central conductor of the first triplate line and the antenna element . The power supply pin is
A vertical portion formed parallel to the opposing direction of the ground plate and connected to the antenna element; and a parallel portion extending perpendicularly from the vertical portion to the vertical portion;
Wherein the parallel portion by fixing is brought into contact with the center conductor, fixed to said central conductor Tei Ru claim 1 Symbol placement of the antenna device. The power supply pin includes a locking portion that locks in a locking hole formed in the center conductor at a lower end portion of the vertical portion and an end portion of the parallel portion opposite to the vertical portion. Item 3. The antenna device according to Item 2 .   An antenna device using a triplate line configured by sandwiching a central conductor between two ground plates via an air layer as a feed line,
  One end is connected to the central conductor, and the other end is provided with a power supply pin made of a conductor extending to the outside through a through hole formed in the ground plate,
  By connecting an antenna element to the feed pin, the antenna element and the central conductor are electrically connected,
  The power supply pin is
  A vertical portion formed parallel to the opposing direction of the ground plate and connected to the antenna element; and a parallel portion extending perpendicularly from the vertical portion to the vertical portion;
  The parallel part is fixed to the center conductor by contacting and fixing the parallel part,
  And the latching | locking part latched in the latching hole formed in the said center conductor is provided in the lower end part of the said perpendicular | vertical part, and the edge part on the opposite side to the said perpendicular | vertical part of the said parallel part.
  An antenna device characterized by that. Two parallel portions are provided on the power supply pin so as to extend in opposite directions from the vertical portion.
  The antenna device according to any one of claims 2 to 4. The feeding pin is an antenna device according to any one of claims 1 to 5 is formed by bending a single metal plate.