JP2018107830A - Antenna device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an antenna device capable of simplifying even an erected double case structure while preventing deterioration of antenna performance.SOLUTION: The present invention relates to an antenna device 1 in a double case structure that an inner case 13 with which a housing space for housing a coil element 12 or the like therein is covered by an outer case 15. A first antenna element 24a and a second element 24b are interposed between an outer surface of the inner case 13 and an inner surface of the outer case 15. The first element 24a is formed along a shape of the outer surface of the inner case 13 or the inner surface of the outer case 15. The second element 24b is also similar. The first element 24a is disposed at a front side of the second element 24b.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an antenna device having a double case structure standing on a vehicle roof.

  The case of the antenna device installed on the vehicle roof is often painted according to the body color of the vehicle. For this reason, the vehicle manufacturer must store the antenna device for each color in the inventory of the vehicle assembly line, and presses the inventory space. As a countermeasure, an attempt has been made to use an antenna device having a double case structure. For example, the antenna unit disclosed in Patent Document 1 is configured such that an antenna element is housed in a space formed by a base and an inner case with water tightness, and the inner case is covered with an outer case that matches the body color. Is done.

  On the other hand, in consideration of design, recently, an antenna device in which the case is formed into a streamline called a shark fin has been proposed. However, the height of the antenna device protruding from the vehicle roof is limited to about 70 [mm] or less due to restrictions on protrusions from the vehicle. In an antenna device that receives an AM / FM band, it is necessary to arrange an antenna element as high as possible in order to ensure electrical performance. Therefore, under conditions where the height is limited to about 70 mm or less. Cannot ensure sufficient electrical performance. As a means for solving such a problem, for example, in the low-profile antenna device disclosed in Patent Document 2, the area of the antenna element accommodated in a narrow space is as wide as possible and arranged at a high position. The ingenuity is given. That is, an antenna substrate on which an antenna pattern is formed is erected from a base, and a top portion is disposed so as to straddle the antenna substrate, and the top portion and the antenna pattern constitute a composite antenna element. Yes.

JP 2012-085044 A JP 2010-021856 A

When the low-profile antenna device described in Patent Document 2 has a double case structure like the antenna device described in Patent Document 1, the antenna element is accommodated inside the inner case. Therefore, compared with a single case, the accommodation space is narrowed by the doubled amount. As described in Patent Document 1, there is no problem when using a patch antenna that is designed to be small and small. However, as described in Patent Document 2, the electrical performance of receiving the AM / FM band is obtained. In an antenna device in which the antenna element needs to be arranged at a high position in order to ensure it, the antenna element arrangement position becomes low and the area becomes small, so that deterioration of the antenna performance is inevitable.
Further, the structure for supporting the antenna element is complicated, and there is a problem that the manufacturing cost cannot be reduced.
It is an object of the present invention to provide an antenna device that can simplify the structure of a standing-type double case structure while preventing deterioration of antenna performance.

  An antenna device according to the present invention is an antenna device installed at a predetermined portion of a vehicle body, and includes a three-dimensional inner case in which an accommodation space for accommodating an electronic component is formed, and an outer covering the inner case. A first element and a second element interposed between an outer surface of the inner case and an inner surface of the outer case, wherein the first element is the outer surface of the inner case or the outer case. The second element is formed along the shape of the outer surface of the inner case or the inner surface of the outer case, and the first element is formed of the first surface of the inner case. It is arranged in front of two elements.

  In the antenna device of the present invention, the first element and the second element are interposed between the outer surface of the inner case and the outer case. Therefore, it is possible to receive electromagnetic waves in a plurality of frequency bands while preventing a decrease in antenna performance when the single case structure is made of the same size even though the double case structure has a height restriction.

1 is an external perspective view of an antenna device according to a first embodiment. Cross-sectional structure explanatory drawing of the antenna device which concerns on 1st Embodiment. The disassembled perspective view of the antenna device which concerns on 1st Embodiment. (A) is the back surface explanatory drawing of the inner case which shows the attachment state of a coil element, (b) is the external appearance perspective view. The external appearance perspective view of the assembly before mounting | wearing with an outer case. The sensitivity characteristic comparison figure in FM band. The sensitivity characteristic comparison figure in AM band. The partial exploded perspective view of the antenna device which concerns on 2nd Embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
[First Embodiment]
<Overall configuration>
FIG. 1 is an external perspective view of the antenna device according to the first embodiment, FIG. 2 is a cross-sectional structure explanatory view, and FIG. 3 is an exploded perspective view.
The antenna device 1 of this embodiment is an antenna device that mainly receives AM and FM bands, and is watertightly attached to a base 10, a circuit board 11 on which an electronic circuit such as an amplifier is mounted, a coil element 12, and a base 10. The double case structure includes an inner case 13, an antenna element 14, and an outer case 15 that covers the inner case 13.

In this specification, for the sake of convenience, it is assumed that the mounting state of the antenna device 1 is as shown in FIG. 2, the left side of FIG. 2 is “front”, the right side of FIG. 2 is “rear”, and the upper side of FIG. In the following description, “upper” and the lower side of FIG.
The outer case 15 has a three-dimensional shape that protrudes upward at a height within 70 [mm] from the vehicle roof 20 that is an example of a mounting surface. For example, it has a shark fin type shape in which the upper front end is the lowest and the upper rear end is the highest. The outer case 15 is a radio wave transmitting member such as a resin, and is painted in accordance with the vehicle body color.

  The inner case 13 includes a zenith portion 131 that is substantially similar to the shape of the inner surface of the outer case 15, a hollow portion 132 formed in a part of the zenith portion 131, and a side wall portion 133 that is connected to the zenith portion 131. It is hollow. The edge of the inner case 13 is attached to the base 10 via the elastic pad 17. As a result, an accommodation space S for accommodating electronic components and the like is formed between the upper surface of the base 10 and the inside of the inner case 13. The inner case 13 is made of resin, for example. The zenith part 131 of the inner case 13 is formed from the upper end of the inner case 13 to a predetermined height position. The “predetermined height position” is a position at which the antenna element 14 disposed on the zenith portion 131 described later can secure antenna characteristics. In addition, a hole 134 that accommodates a tongue piece 142 of the antenna element 14 to be described later is formed at the base of the zenith portion 131. In addition, on both side surfaces of the zenith portion 131, two convex portions 135 extending upward from the lower end are formed on one side.

  The base 10 serves as a base for the inner case 13 and the outer case 15 and serves as a mounting base for the vehicle body roof 20, and is made of aluminum die casting, zinc die casting, or the like. In addition to the recess for accommodating the elastic pad 17, the base 10 protrudes below the vehicle body roof 20 to electrically connect the electronic circuit mounted on the circuit board 11 and the electronic device in the vehicle body. The connector mechanism 18 is provided.

  The circuit board 11 has a conductive terminal (not shown) that is electrically connected to the electronic circuit, and the conductive terminal and the electronic component on the board are electrically connected. A conductive terminal 111 is provided on the surface of the circuit board 11 on the inner case 13 side. The terminal 111 is a kind of metal fitting having a bifurcated portion, and electrically connects the U-shaped piece 123 and the conductive terminal of the circuit board 11 while elastically supporting a U-shaped piece 123 of the coil element 12 described later. . The bifurcated portion is formed by bending a band-shaped metal plate into an M shape to form two protrusions (bifurcated). Both ends of the M-shaped bifurcated portion are inserted and fixed on the conductive terminals of the circuit board 11. Thereby, the conductive terminal of the circuit board 11 and the terminal 111 are electrically connected.

  The coil element 12 includes a cylindrical helical coil 121 for impedance adjustment, a thin plate-shaped joint plate 122 that conducts to one end of the helical coil 121, and a U-shaped piece 123 that conducts to the other end of the helical coil 121. And have. The helical coil 121, the base portion of the joint plate 122, and the base portion of the U-shaped piece 123 are each molded by resin.

A portion where the helical coil 121 is molded is referred to as a coil support portion 125, a portion where the base portion of the joint plate 122 is molded is referred to as a front support portion 126, and a portion where the base portion of the U-shaped piece 123 is molded is referred to as a rear support portion 127.
The coil support part 125 is also formed in a cylindrical shape. A mounting hole 128 for fixing the coil element 12 to a predetermined portion of the inner wall of the inner case 13 is formed in each of the front support portion 126 and the rear support portion 127.

In addition, although the coil support part 125, the front support part 126, and the back support part 127 are normally integrally formed, the structure assembled after individually forming may be sufficient.
The joint plate 122 is formed, for example, by bending a metal plate having both ends into a substantially Z shape and providing a through hole 122a at one end thereof. The through hole 122 a is disposed at a position that substantially coincides with the central axis of the hollow portion of the coil support portion 125.
As described above, the U-shaped piece 123 is inserted into the central portion of the bifurcated portion of the terminal 111 and is elastically clamped.

  The antenna element 14 is formed in a shape substantially similar to the shape of the surface excluding the rear surface of the zenith 131, and the zenith 131 of the inner case 13 is interposed between the inner case 13 and the inner surface of the outer case 15. It is arranged. Then, the watertight connector 16 is electrically connected to the coil element 12 while maintaining the watertightness of the accommodation space S. The detailed structure of the watertight connector 16 that enables such connection will be described later.

  The antenna element 14 is made of SUS (Stainless steel) in order to suppress corrosion. In brief, by bending a plate-shaped SUS having a thickness of about 0.4 [mm] according to the outer shape of the zenith portion 131, the cross-sectional shape is formed in a substantially inverted U shape. However, the present invention is not limited to this example, and the antenna element 14 may be configured by forming a linear SUS in a net shape. As described above, the height of the antenna element 14 from the vehicle roof 20 is desirably as high as possible in order to prevent deterioration of the antenna performance. In the case of the present embodiment, the height from the vehicle roof 20 to the highest portion of the antenna element 14 is 65 [mm].

  The antenna element 14 is also formed with a through hole 141 for electrical connection with the watertight connector 16. Further, five tongue pieces 142 project downward from the edge. The tongue piece 142 is inserted into a hole 134 formed at a corresponding portion of the inner case 13. The tongue piece 142 is provided to prevent the antenna element 14 from being peeled off from the inner case and to elastically contact the convex portion 135 of the zenith portion 131 on the inner surface of the antenna element.

  The watertight connector 16 has a common bottom portion and a pair of openings that open in opposite directions, and the bottom portion is a bottomed cylindrical conductive member that blocks the accommodation space S and the space around the outer surface of the inner case 13. It is comprised including a member. Thread grooves are threaded on the inner walls of the pair of openings. The one opening is the outer terminal 161 exposed on the outer surface of the inner case 13. The other opening is exposed to the accommodation space S and becomes an inner terminal 162 that is electrically connected to the outer terminal 161 while maintaining the water tightness of the accommodation space S.

The outer terminal 161 also serves as a mounting mechanism for the antenna element 14. That is, by screwing a metal male screw through the through hole 141 of the antenna element 14, the antenna element 14 is sandwiched between the head of the male screw and the outer terminal 161, and the antenna element 14 and the watertight connector 16 Can be electrically connected.
Similarly, the inner terminal 162 also serves as an attachment mechanism for the helical coil 121. In other words, by screwing a male male screw through the through hole 122a of the joint plate 122 of the coil element 12, the joint plate 122 that is electrically connected to the helical coil 121 is sandwiched between the head of the male screw and the inner terminal 162. The watertight connector 16 and the helical coil 121 can be electrically connected.

  An outer peripheral portion of a bottom portion that is substantially in the middle between both openings of the watertight connector 16 is a protrusion 163 having a diameter larger than that of the pair of openings. For example, when the inner case 13 is molded, the watertight connector 16 having such a structure is embedded in the case body so that the opening is exposed by insert molding. The protrusions 163 prevent the embedded watertight connector 16 from coming out of the inner case 13 and further ensure the watertightness of the accommodation space S.

[Assembly procedure]
The antenna device 1 is first assembled from a portion excluding the outer case 15.
The worker first attaches the terminal 111 to the circuit board 11, and then attaches the circuit board 11 to the base 10. Further, the antenna element 14 is attached to the zenith portion 131 of the inner case 13. The antenna element 14 is attached to the zenith portion 131 by inserting the five tongue pieces 142 of the antenna element 14 into the attachment holes 134 of the inner case 13 and then inserting a male screw from the through hole 141 to the outer terminal 161 of the watertight connector 16. This is done by screwing. At this time, since the convex portion 135 of the zenith portion 131 elastically contacts the inner surface of the antenna element 14, even if the vehicle body (vehicle roof) and the antenna device 1 vibrate due to traveling of the vehicle, the antenna element 14 is removed from the inner case 13. Never leave.

Next, as shown in FIG. 4, the coil element 12 is screwed and fixed to a predetermined portion of the inner wall of the inner case 13 through a pair of attachment holes 128 formed in the front support portion 126 and the rear support portion 127. Then, the male screw is screwed into the inner terminal 162 of the watertight connector 16 through the through hole 122a of the joint plate 122 visible from the hollow portion of the coil portion 125. Thereafter, as shown in FIG. 3, the inner case 13 is attached to the elastic pad 17 on the base 10 and fixed with screws. When the inner case 13 is attached to the base 10, the U-shaped piece 123 of the rear support portion 127 of the coil element 12 is inserted and held in the terminal 111 on the circuit board 11.
Note that the antenna element 14 may be attached to the inner case 13 last.

FIG. 5 is an external perspective view of the assembly assembled in this manner. The antenna device 1 is completed by covering the assembly with the outer case 15. The outer case and the assembly are assembled by engaging a claw provided on the outer case (not shown) with a predetermined portion of the base 10.
In the assembly shown in FIG. 5, the base 10 and the inner case 13 are elastically joined via the elastic pad 17 and the watertightness is maintained and the antenna element 14 and the helical coil 121 and the like are passed through the watertight connector 16. Electrically connected. Therefore, even if the watertightness between the outer case 15 and the assembly is not sufficient, the electronic circuit in the accommodation space S is not affected, so that the manufacturing process is greatly simplified.

[Characteristic comparison]
For comparison, an experimental antenna device in which the antenna element 14 having the same area is incorporated inside the inner case 13 while changing its shape is configured, and the inner case 13 and the antenna device 1 of the present embodiment are configured. Sensitivity when placed on the outside, that is, the zenith portion 131, was measured. In the experiment, instead of the vehicle roof 20, a hole was formed in a metal plate about 1 m square, and an antenna device was attached to the metal plate. In the case of the experimental antenna device, the height from the metal plate to the highest portion of the antenna elements was about 64 [mm] (65 [mm] in the case of the antenna device 1 of the present embodiment). The frequency used was 70 [MHz] to 90 [MHz] in the FM band and 594 [kHz] in the AM band.

FIG. 6 is an FM band sensitivity characteristic comparison diagram, where the horizontal axis represents frequency and the vertical axis represents sensitivity (dB). FIG. 7 is a sensitivity characteristic comparison diagram of the AM band, and the vertical axis represents sensitivity (dB). Each “outer” represents a change in sensitivity when the antenna element 14 is arranged outside the inner case 13, and “inner” represents a change in sensitivity when arranged inside.
In any case, the sensitivity was improved by arranging the antenna element 14 at the zenith 131 of the inner case 13 as in the present embodiment.

As described above, in the antenna device 1 according to the present embodiment, the antenna element 14 is arranged at the zenith portion 131 of the inner case 13, so that the single case having the same shape and size is formed while having a double case structure. The area and height equivalent to the antenna element of the antenna device having the structure can be ensured. Therefore, it is possible to prevent deterioration of the antenna performance when the double case structure is used.
Further, the shape and area of the antenna element 14 can be flexibly changed according to the shape of the outer surface of the inner case 13.

  The antenna element 14 is attached to the inner case 13 simply by inserting the five tongue pieces 142 into the holes 134 of the inner case 13 and screwing them with male screws across the through hole 141. Moreover, since it is electrically connected to the helical coil 121 through the joint plate 122, the antenna element 14 can be attached to the antenna device 1 without providing a dedicated support member. Also, the replacement work of the antenna element 14 becomes extremely easy. Therefore, the manufacturing process of the antenna device 1 or the maintenance process of the antenna element 14 after manufacturing is significantly simplified as compared with the case of the antenna device having the conventional structure.

  In the antenna device 1 of the present embodiment, the watertight connector 16 is embedded in the inner case 13, and the antenna element 14 and the joint plate 122 are electrically connected using the watertight connector 16. Therefore, even when the antenna element 14 is disposed on the outer surface of the inner case 13, the water tightness of the accommodation space S of the inner case 13 can be easily ensured.

  In this embodiment, the helical coil 121, the base of the joint plate 122 that conducts to one end of the helical coil 121, and the base of the U-shaped piece 123 that conducts to the other end of the helical coil 121 are molded with resin. Thus, the coil element 12 was configured. This coil element 12 is modularized so that it can be incorporated into the antenna device 1 only by screwing or mounting the U-shaped piece 123 to the terminal 111. Therefore, the assembly process is simplified and mass production is facilitated as compared with the conventional antenna device of this type.

  In the present embodiment, the connection between the outer terminal 161 of the watertight connector 16 and the through hole 141 of the antenna element 14 and the inner terminal 162 of the watertight connector 16 and the through hole 122a of the joint plate 122 are screwed in with a male screw. Although an example in which the connection is made is shown, these connections may be made by engaging the pin member.

[Second Embodiment]
In 1st Embodiment, although the antenna element 14 was one and the helical coil 121 and the coil part 125 of the coil element 12 showed the example of a cylindrical shape, embodiment of this invention shows such an example. It is not limited to examples.
In the second embodiment, an example is shown in which there are two antenna elements and a module is formed by forming a coil on a substrate. A substrate formed on the substrate is referred to as a coil substrate. This coil substrate is erected on the circuit substrate 11 described in the first embodiment.
Note that providing two antenna elements means that electromagnetic waves in different frequency bands can be received.

  FIG. 8 is an exploded perspective view of the antenna device 2 according to the second embodiment. The double case structure is the same as the antenna device 1 according to the first embodiment. That is, also in the second embodiment, the outer case 15 described in the first embodiment is used.

  Referring to FIG. 8, the antenna device 2 of the second embodiment includes a first antenna element 24a and a second antenna element 24b. Therefore, two watertight connectors 26a and 26b are embedded in the inner case 23. The individual watertight connectors 26a and 26b are the same as the watertight connector 16 described in the first embodiment. The first antenna element 24a is electrically connected to the outer terminal of the watertight connector 26a, and the second antenna element 24b is electrically connected to the outer terminal of the watertight connector 26b.

  The inner terminal of the watertight connector 26a is electrically connected to the first joint plate 221a, and the inner terminal of the watertight connector 26b is electrically connected to the second joint plate 221b. The first joint plate 221a and the second joint plate 221b are attached to the inner case 23 by male screws, respectively.

The antenna device 2 is configured to hold the coil substrate 223 with a holder 222 and fix the holder 222 to a predetermined portion of the inner wall of the inner case 23. When fixed to the inner case 23, the coil substrate 223 is disposed in a direction perpendicular to the circuit substrate 11. The coil substrate 223 includes a first contact 223a that conducts with the first joint plate 221a when the holder 222 is fixed to the inner case 23, a second contact 223b that conducts with the second joint plate 221b, and a circuit board side (not shown) A third contact 223c and a fourth contact 223d are provided which are electrically connected to the terminal (having the same structure as the terminal 111 described in the first embodiment).
The first contact 223a provided on the coil substrate 223 is electrically connected to one end of the first coil (not shown), and the third contact 223c is electrically connected to the other end of the first coil. The second contact 223b provided on the coil substrate 223 is electrically connected to one end of a second coil (not shown), and the fourth contact 223d is electrically connected to the other end of the second coil.

As described above, in the antenna device 2 according to the second embodiment, the two antenna elements 24 a and 24 b are provided on the outer surface of one inner case 23. The first antenna element 24a and the first coil of the coil substrate 223 erected inside the inner case 23, and the second antenna element 24b and the second coil of the coil substrate 223 are held in a watertight manner while keeping the storage space watertight. It was made to conduct. Therefore, as in the case of the first embodiment, the antenna device 2 receives electromagnetic waves in a plurality of frequency bands without degrading the antenna performance as compared with the case of the single case structure, although it has a double case structure. Can do.
Further, since the antenna elements 24a and 24b and the coil substrate 223 can be attached to the inner case 23 simply by screwing, the manufacturing process is simplified.

  In the first embodiment and the second embodiment, the example in which the antenna elements 14, 24 a, 24 b are arranged on the outer surface of the inner cases 13, 23 has been shown, but it may be provided on the inner wall of the outer case 15. good. In this case, the watertight connectors 16, 26a, 26b and the antenna elements 14, 24a, 24b may be electrically connected by feeder wires.

  1, 2 ... Antenna device, 10 ... Base, 11 ... Circuit board, 12 ... Coil element, 13, 23 ... Inner case, 14, 24a, 24b ... Antenna element, 15 ... Outer case, 16, 26a, 26b ... Watertight connector, 131 ... Zenith part 131, 132 ... Recessed part, 133 ... Side wall part, 17 ... Elastic pad, S ... -Storage space S, 18 ... Connector mechanism.

Claims (3)

An antenna device installed at a predetermined part of a vehicle body,
It has a three-dimensional inner case in which an accommodation space for accommodating electronic components is formed, and an outer case that covers the inner case,
A first element and a second element are interposed between the outer surface of the inner case and the inner surface of the outer case,
The first element is formed along the shape of the outer surface of the inner case or the inner surface of the outer case,
The second element is formed along the shape of the outer surface of the inner case or the inner surface of the outer case,
The antenna device, wherein the first element is disposed in front of the second element. The first element is electrically connected to the electronic component while maintaining the water tightness of the housing space inside the inner case,
A watertight connector having an outer terminal exposed on the outer surface of the inner case and an inner terminal exposed on the inner surface of the inner case and conducting with the outer terminal while maintaining the watertightness of the housing space is embedded. And
Furthermore, it has the modularized 3rd element, The said inner side terminal serves as the attachment mechanism of the one end part of the said 3rd element,
The other end of the third element and the electronic component are electrically connected by a U-shaped piece,
The antenna device according to claim 1. A circuit board having a conductive terminal electrically connected to the electronic component;
A conductive terminal is provided on the surface of the circuit board facing the inner case,
The terminal electrically connects the U-shaped piece and the conductive terminal while elastically supporting the U-shaped piece.
The antenna device according to claim 2.