WO2022070620A1 - Retractable roof-mounted antenna device for vehicle - Google Patents

Retractable roof-mounted antenna device for vehicle Download PDF

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Publication number
WO2022070620A1
WO2022070620A1 PCT/JP2021/029545 JP2021029545W WO2022070620A1 WO 2022070620 A1 WO2022070620 A1 WO 2022070620A1 JP 2021029545 W JP2021029545 W JP 2021029545W WO 2022070620 A1 WO2022070620 A1 WO 2022070620A1
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WO
WIPO (PCT)
Prior art keywords
terminal
antenna device
mount antenna
roof mount
click
Prior art date
Application number
PCT/JP2021/029545
Other languages
French (fr)
Japanese (ja)
Inventor
正平 村上
Original Assignee
原田工業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 原田工業株式会社 filed Critical 原田工業株式会社
Priority to JP2022553518A priority Critical patent/JP7269450B2/en
Publication of WO2022070620A1 publication Critical patent/WO2022070620A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60RVEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
    • B60R11/00Arrangements for holding or mounting articles, not otherwise provided for
    • B60R11/02Arrangements for holding or mounting articles, not otherwise provided for for radio sets, television sets, telephones, or the like; Arrangement of controls thereof
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/12Supports; Mounting means
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01QANTENNAS, i.e. RADIO AERIALS
    • H01Q1/00Details of, or arrangements associated with, antennas
    • H01Q1/12Supports; Mounting means
    • H01Q1/22Supports; Mounting means by structural association with other equipment or articles

Definitions

  • the present invention relates to a foldable roof mount antenna device for a vehicle, and more particularly to a foldable roof mount antenna device for a vehicle that has a click feeling when swinging an antenna rod.
  • Patent Document 1 As a conventional foldable roof mount antenna device for vehicles, for example, there is one disclosed in Patent Document 1.
  • the one disclosed in Patent Document 1 has a structure in which an antenna portion is pivotally supported by a U-shaped base plate having conductivity and elasticity.
  • the swing plate provided in the antenna portion has a convex portion, and the base plate side has a concave portion that fits the convex portion, which constitutes a click mechanism.
  • a foldable roof mount antenna device having a configuration in which the click torque is increased in order to prevent such an antenna rod from collapsing
  • These foldable roof mount antenna devices have a recess in the bottom of a click cylinder made of a bottomed cylindrical member of the base assembly, and a coil spring is used in the convex portion provided in the bottomed cylindrical joint of the joint assembly.
  • the structure is such that a click feeling is obtained when the antenna rod is swung by pressing the antenna rod.
  • a foldable roof mount antenna device having a structure in which first and second clutch plates having concave portions and convex portions are provided as connection terminals and pressed by a coil spring to obtain a click feeling is also known ().
  • Patent Document 4 When the antenna rod is swung, the clutch plate, which is also used as a connection terminal, bends to release the fitting between the concave portion and the convex portion, so that a click feeling can be obtained.
  • the foldable roof mount antenna device such as Patent Document 2 and Patent Document 3 has a large number of parts and a large number of man-hours for assembly, so that the cost is high. In addition, if the number of parts is large, the tolerances of each part are piled up, and there is a possibility that the click mechanism may rattle.
  • the clutch plate is insert-molded into the molded portion of the base end member of the antenna rod, but the bending starting point of the clutch plate is the base end member. Due to the repeated bending, the molded portion of the base end member may be cracked. If the mold portion is cracked, defects such as poor appearance, loss of flexible torque, rust of flexible mechanism parts due to water intrusion, and poor conductivity due to rust may occur. In addition, the number of parts is large, and the cost is high due to the complicated structure.
  • the present invention is intended to provide a foldable roof mount antenna device for vehicles in which the number of parts is small and the mold portion is not cracked or conduction failure is not caused by the click mechanism.
  • the retractable roof mount antenna device for a vehicle is a joint assembly in which a first terminal to which an antenna rod is electrically connected is fixedly arranged.
  • the first terminal has a joint assembly having a first click structure and a pair of pivotal portions that swingably support the joint assembly, and the second terminal, which is a received signal output terminal, is fixedly arranged in the pivotal branch.
  • a second click structure that slidably contacts the base assembly and the first terminal to fit into the first click structure and give a click feeling when swinging the joint assembly is placed on the surface that contacts the first terminal.
  • the elastic member that contacts the click plate from the surface opposite to the surface that contacts the first terminal of the click plate, and the pair of pivots of the base assembly. It may be provided with a shaft bolt that is pivotally fixed, the first terminal is axially rotatably threaded, and the click plate is pivotally threaded so as to be movable along the axis without rotating the axis. ..
  • the elastic member may be any as long as it is made of a spring washer.
  • the first terminal may be electrically connected to the second terminal via a click plate and an elastic member.
  • first terminal may be electrically connected to the second terminal via a shaft bolt.
  • the elastic member may be made of a coil spring.
  • the shaft bolt may have a flange surface
  • the elastic member may have a surface opposite to the surface that contacts the click plate that contacts the flange surface of the shaft bolt.
  • first terminal may be slidably in contact with the second terminal.
  • the elastic member may be slidably in contact with the second terminal.
  • the shaft bolt may have a flange surface
  • the first terminal may have a surface opposite to the surface that contacts the click plate that contacts the flange surface of the shaft bolt.
  • the second terminal may be fixedly arranged in the pivot portion on the side close to the first terminal fixedly arranged in the joint assembly among the pair of pivot portions of the base assembly.
  • the second terminal may be a pair of pivots of the base assembly, which are fixedly arranged at the first terminal fixedly arranged in the joint assembly and the pivot portion on the distant side.
  • the shaft bolt may have a deformed shaft
  • the click plate may have a deformed hole that fits into the deformed shaft of the shaft bolt.
  • the click plate may be one that is placed at the pivot part of the base assembly so as to be movable along the axis without rotating the axis with respect to the axis bolt.
  • the elastic member may be integrally molded with the click plate and have the function of the click plate.
  • the foldable roof mount antenna device for vehicles of the present invention has an advantage that the number of parts is small and the mold portion is not cracked or conduction failure does not occur due to the click mechanism.
  • FIG. 1 is an exploded perspective view for explaining the retractable roof mount antenna device of the present invention.
  • FIG. 2 is a cross-sectional view for explaining the retractable roof mount antenna device of the present invention.
  • FIG. 3 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 4 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 5 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 6 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 7 is a diagram for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 8 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • FIG. 1 is an exploded perspective view for explaining the retractable roof mount antenna device of the present invention.
  • the foldable roof mount antenna device for a vehicle of the present invention is mainly composed of a joint assembly 10, a base assembly 20, a click plate 30, an elastic member 40, and a shaft bolt 50.
  • the resin molds of the joint assembly 10 and the base assembly 20 are shown by broken lines in the illustrated example.
  • the click plate 30, the elastic member 40, and the shaft bolt 50 are shown on the side portions of the joint assembly 10 and the base assembly 20 in a disassembled state before assembly.
  • FIG. 2 is a cross-sectional view for explaining the foldable roof mount antenna device of the present invention.
  • the parts with the same reference numerals as those in FIG. 1 represent the same objects.
  • the first terminal 11 is fixedly arranged in the joint assembly 10.
  • the first terminal 11 may be insert-molded into, for example, the resin mold of the joint assembly 10.
  • An antenna rod (not shown) is electrically connected to the first terminal 11.
  • the first terminal 11 has a first click structure 12.
  • the first terminal 11 may be composed of, for example, a conductive plate-shaped member, and has a shape composed of a circular plate-shaped member and an L-shaped member extending from the circular plate-shaped member to the antenna rod side. ..
  • the first click structure 12 shows a structure composed of a hole provided in the circular plate-shaped member. The hole may be formed of a recess.
  • the first click structure 12 may be formed of a convex portion.
  • the first terminal 11 is provided with a shaft hole 14 through which a shaft bolt 50, which will be described later, passes through.
  • the shaft hole 14 is a circular hole in the illustrated example. Since the first terminal 11 is fixedly arranged in the joint assembly 10, it does not move with respect to the joint assembly 10. Further, a joint 13 into which the antenna rod is screwed is also fixedly arranged in the joint assembly 10, and the joint 13 and the first terminal 11 are electrically connected to each other.
  • the base assembly 20 has a pair of pivotal branches 21 and 22 that swingably support the joint assembly 10.
  • a second terminal 23 which is a received signal output terminal, is fixedly arranged at the pivot branches 21 and 22.
  • the second terminal 23 may be insert-molded into, for example, the resin mold of the base assembly 20.
  • the second terminal 23 is fixedly arranged on the pivot branch 21 side of the pair of pivot branches 21 and 22.
  • the pivot portion 21 is a pivot portion on the side close to the first terminal 11 fixedly arranged in the joint assembly 10.
  • the second terminal 23 may be composed of, for example, a conductive plate-shaped member, and has a shape composed of a circular plate-shaped member and an I-shaped member extending from the circular plate-shaped member to the vehicle interior side. .. Since the second terminal 23 is also fixedly arranged in the base assembly 20, it does not move with respect to the base assembly 20.
  • the pivot portions 21 and 22 of the base assembly 20 are provided with shaft holes 24 and 25 through which the shaft bolt 50 described later passes.
  • the shaft hole 25 is a deformed hole in the illustrated example.
  • the shaft holes 24 and 25 provided in the pivot portions 21 and 22 are not limited to the illustrated examples, and may be, for example, a U-shaped groove. Further, the second terminal 23 is also provided with a shaft hole 26 through which the shaft bolt 50 described later passes.
  • an O-ring 60 may be provided on the sliding surface of the joint assembly 10 and the base assembly 20 (between the joint assembly 10 and the pivot portion 21), if necessary. Since the first terminal 11 and the second terminal 23 are present on the pivotal support portion 21, the O-ring 60 may be used for waterproofing and dustproofing so that water, dust, and the like do not enter from the sliding surface. Further, the sliding surfaces of the joint assembly 10 and the base assembly 20 may be provided with an annular uneven portion in order to assist in suppressing axial shake.
  • annular recess is provided around the shaft hole 24 of the base assembly 20 on the sliding surface, and an annular convex portion or a semi-annular convex portion fitted to the annular recess is provided on the sliding surface of the joint assembly 10. It may be provided.
  • the click plate 30 is slidably in contact with the first terminal 11.
  • the click plate 30 has a second click structure 31.
  • the second click structure 31 is provided on the surface in contact with the first terminal 11.
  • the second click structure 31 is for fitting to the first click structure 12 to give a click feeling when the joint assembly 10 is swung.
  • the click plate 30 may be made of, for example, a conductive circular plate-shaped member.
  • the second click structure 31 is composed of a convex portion provided on the circular plate-shaped member. The convex portion of the second click structure 31 is fitted into the concave portion of the first click structure 12, and the second click structure 31 is disengaged from the first click structure 12 when the joint assembly 10 is swung. You can get a click feeling.
  • the second click structure 31 may be formed of a concave portion.
  • the click plate 30 is provided with a shaft hole 34 through which a shaft bolt 50, which will be described later, passes through.
  • the shaft hole 34 is a deformed hole in the illustrated example.
  • the first terminal 11 is used as a click mechanism for giving a click feeling between the joint assembly 10 and the base assembly 20 when the antenna rod is swung.
  • the click structure 12 and the second click structure 31 of the click plate 30 are used.
  • the elastic member 40 comes into contact with the click plate 30 so as to give an urging force to the click plate 30 from a surface opposite to the surface of the click plate 30 that contacts the first terminal 11. That is, the elastic member 40 gives the click plate 30 an urging force to the first terminal 11 side.
  • the elastic member 40 is shown to be made of a spring washer.
  • the spring washer is made of, for example, a conductive member, and is formed by bending so that the peripheral portion of the washer is used as the leaf spring 41 as shown in the illustrated example.
  • the elastic member 40 is also provided with a shaft hole 44 through which the shaft bolt 50 described later passes.
  • the elastic member 40 is configured to slidably contact the second terminal 23. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the second terminal 23.
  • the shaft bolt 50 is pivotally fixed between a pair of pivot parts 21 and 22 of the base assembly 20.
  • the shaft bolt 50 may be made of, for example, a conductive member.
  • the shaft bolt 50 has a deformed shaft, is fitted into the shaft holes 24 and 25 provided in the pivot portions 21 and 22, and is pivotally fixed between the pivot portions 21 and 22 by, for example, a nut 55. ing. That is, the shaft bolt 50 having the deformed shaft does not move with respect to the base assembly 20 by being fitted into the shaft hole 25 having the deformed hole of the pivot portion 22, and is fixed so as not to rotate the shaft. become. Then, the first terminal 11 is axially passed through the shaft bolt 50 so that the shaft can rotate.
  • the shaft hole 14 of the first terminal 11 is a circular hole
  • the portion where the shaft bolt 50 is axially passed through the shaft hole 14 has a cylindrical shaft corresponding to the shaft hole 14
  • the first terminal 11 has a cylindrical shaft with respect to the shaft bolt 50. It is configured to be rotatable around the shaft.
  • the click plate 30 is axially passed through the shaft bolt 50 so as to be movable along the shaft without rotating the shaft.
  • the portion where the shaft bolt 50 passes through the shaft hole 34 has a deformed shaft
  • the shaft hole 34 of the click plate 30 is composed of a deformed hole that fits into the deformed shaft of the shaft bolt 50.
  • the click plate 30 is configured so as not to rotate about the shaft bolt 50. Therefore, the click plate 30 does not rotate on the shaft, but is axially rotated along the shaft with respect to the shaft bolt 50. That is, the click plate 30 is axially threaded so as to be movable only in the axial direction (left-right direction on FIG. 2).
  • the shaft hole 34 and the shaft bolt 50 are not necessarily deformed as long as the click plate 30 is configured so as not to rotate around the shaft with respect to the swing of the joint assembly 10. No need.
  • the shaft bolt 50 has a flange surface 51.
  • the surface of the first terminal 11 opposite to the surface that contacts the click plate 30 is configured to contact the flange surface 51. That is, even if the first terminal 11 is pressed by the click plate 30 urged by the elastic member 40, its position is fixed by the flange surface 51. Therefore, the first terminal 11 is not deformed.
  • the surface of the first terminal 11 opposite to the surface in contact with the click plate 30 may be fixed by a resin mold instead of the flange surface 51.
  • the first terminal 11 is electrically connected to the second terminal 23 via the click plate 30 and the elastic member 40.
  • the shaft bolt 50 is a conductive member, the first terminal 11 is electrically connected to the second terminal 23 via the shaft bolt 50. Therefore, the first terminal 11 and the second terminal 23 are surely electrically connected.
  • the first terminal 11 and the second terminal 23 constituting the click mechanism are fixedly arranged, while the click plate 30 is configured to be movable along the axis. ing. Therefore, since the first terminal 11 and the second terminal 23 do not bend, the mold portion does not crack due to the click mechanism. Further, since the electric connection is ensured, there is no possibility that conduction failure will occur. Further, since the click mechanism can be composed only of the first click structure arranged at the first terminal, the click plate 30, and the elastic member 40, the number of parts is small and the rattling due to the accumulation of tolerances of each part is small.
  • FIG. 3 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects.
  • the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the second terminal 23.
  • the first terminal 11 is slidably in contact with the second terminal 23. That is, the first terminal 11 and the second terminal 23 are in direct contact with each other.
  • the shaft bolt 50 has a flange surface 51.
  • the elastic member 40 is configured such that the surface opposite to the surface that contacts the click plate 30 contacts the flange surface 51. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the flange surface 51 of the shaft bolt 50.
  • the number of parts does not change, and the first terminal 11 and the second terminal 23 are fixedly arranged and do not bend. Further, since the first terminal 11 and the second terminal 23 are in direct contact with each other, they are reliably electrically connected. Further, at the time of assembling, the click plate 30 and the elastic member 40 may be inserted into the joint assembly 10 in a state of being attached to the shaft bolt 50, so that the assembling can be performed more easily.
  • FIG. 4 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects.
  • the click plate 30 and the elastic member 40 that gives an urging force to the click plate 30 are formed separately.
  • the elastic member is composed of an elastic click plate 45 integrally molded with the click plate.
  • the second click structure 31 may be provided on the leaf spring 41 at the peripheral edge of the washer of the spring washer. With such a configuration, the number of parts is further reduced and assembly becomes easier.
  • FIG. 5 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects.
  • the second terminal 23 is configured to be fixedly arranged on the pivot branch 21 side of the pair of pivot branches 21 and 22.
  • the second terminal 23 is configured to be fixedly arranged on the pivot portion 22 side. That is, the second terminal 23 is fixedly arranged at the first terminal 11 fixedly arranged at the joint assembly 10 and the pivot portion 22 on the distant side.
  • the shaft bolt 50 is made of a conductive member and is configured to have a flange surface 51 in contact with the first terminal 11.
  • the second terminal 23 is configured to come into direct contact with the shaft bolt 50 on the pivotal support portion 22 side.
  • the second terminal 23 can be fixedly arranged on either of the pair of pivotal branches 21 and 22. Therefore, there is a high degree of freedom in the arrangement of the foldable roof mount antenna device and the circuit layout.
  • FIG. 6 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • the example shown in FIG. 6 has a configuration in which the example shown in FIG. 3 and the example shown in FIG. 5 are combined. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the flange surface 51 of the shaft bolt 50, and the second terminal 23 is fixedly arranged on the pivot portion 22 side. It is configured. Even with such a configuration, at the time of assembly, the click plate 30 and the elastic member 40 may be inserted into the joint assembly 10 in a state of being attached to the shaft bolt 50, so that the assembly can be performed more easily.
  • FIGS. 7A and 7B are views for explaining another example of the retractable roof mount antenna device of the present invention
  • FIG. 7A is a cross-sectional view
  • FIG. 7B is a joint assembly of pivots. It is a side view seen from the side.
  • the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects.
  • the click plate 30 has a deformed hole and is configured to be fitted to a shaft bolt 50 having a deformed shaft so as not to rotate the shaft.
  • the shaft hole 34 of the click plate 30 is a circular hole.
  • the peripheral portion of the click plate 30 is provided with a concave portion 32, which is configured to fit into the convex portion 28 provided in the shaft hole 24 provided in the pivot portion 21 of the base assembly 20. ..
  • the click plate 30 is arranged on the pivot portion 21 of the base assembly 20 so as to be movable along the axis without rotating the axis with respect to the axis bolt 50. That is, the click plate 30 is configured so as not to rotate about the axis by the concave portion 32 and the convex portion 28 in the shaft hole 24 of the pivot portion 21, and can be moved in the axial direction (left-right direction on FIG. 7A). Will be axisd through.
  • the shaft hole 34 of the click plate 30 may be a deformed hole, and the deformed shaft fitted therein may be arranged in the pivot portion 21 of the base assembly 20. If a circular shaft hole is provided in the deformed shaft arranged in the pivot portion 21, the shaft bolt 50 can be configured with a circular shaft. As described above, in the retractable roof mount antenna device of the present invention, the shaft bolt 50 is not necessarily limited to having a deformed shaft, and may be a circular shaft.
  • FIG. 8 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
  • the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects.
  • the elastic member 40 is made of a spring washer.
  • the elastic member 40 is made of a coil spring.
  • the example shown in FIG. 8 is a modified example of the example shown in FIGS. 3 and 6.
  • the elastic member 40 is composed of a coil spring, which gives an urging force to the click plate 30.
  • the surface of the coil spring opposite to the click plate 30 is configured to be in contact with the flange surface 51 of the shaft bolt 50, as in FIGS. 3 and 6.
  • the coil spring is easier to adjust the urging force than the spring washer and can be configured at a lower cost.
  • the foldable roof mount antenna device for a vehicle of the present invention is not limited to the above illustrated example, and it is needless to say that various changes can be made without departing from the gist of the present invention. ..

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Support Of Aerials (AREA)

Abstract

Provided is a retractable roof-mounted antenna device that has a low number of components and that is not susceptible to defects associated with a click mechanism. This retractable roof-mounted antenna device for a vehicle comprises a joint assembly 10, a base assembly 20, a click plate 30, an elastic member 40, and an axial bolt 50. In the joint assembly 10, a first terminal 11 having a first click structure 12 is securely positioned. In the base assembly 20, a second terminal 23 is securely positioned on a pivot support part. The click plate 30 has a second click structure 31 for fitting to the first click structure 12 and imparting a clicking sensation, the second click structure 31 being in slidable contact with the first terminal 11. The elastic member 40 imparts urging force to the click plate 30. The first terminal 11 is passed axially through the first axial bolt 50 in a state that allows axial rotation, and the click plate 30 is passed axially through the first axial bolt 50 in a state that allows movement along the axis while disallowing axial rotation.

Description

車両用の可倒式ルーフマウントアンテナ装置Retractable roof mount antenna device for vehicles
 本発明は車両用の可倒式ルーフマウントアンテナ装置に関し、特に、アンテナロッドを揺動させるときにクリック感を有する車両用の可倒式ルーフマウントアンテナ装置に関する。 The present invention relates to a foldable roof mount antenna device for a vehicle, and more particularly to a foldable roof mount antenna device for a vehicle that has a click feeling when swinging an antenna rod.
 従来の車両用の可倒式ルーフマウントアンテナ装置として、例えば特許文献1に開示のものがある。特許文献1に開示のものは、導電性且つ弾性を有するコの字形状のベースプレートにアンテナ部が枢支される構造を有している。そして、アンテナ部に設けられる揺動プレートが凸部を有し、ベースプレート側は、これに嵌合する凹部を有しており、これらによりクリック機構が構成されている。 As a conventional foldable roof mount antenna device for vehicles, for example, there is one disclosed in Patent Document 1. The one disclosed in Patent Document 1 has a structure in which an antenna portion is pivotally supported by a U-shaped base plate having conductivity and elasticity. The swing plate provided in the antenna portion has a convex portion, and the base plate side has a concave portion that fits the convex portion, which constitutes a click mechanism.
 このような構成の場合、コの字形状のベースプレートの弾性のみによりクリック機構のクリックトルクが提供されているため、クリックトルクが弱く、車両走行中の振動等でアンテナロッドが意図せず倒れてしまう場合があった。 In such a configuration, since the click torque of the click mechanism is provided only by the elasticity of the U-shaped base plate, the click torque is weak and the antenna rod unintentionally collapses due to vibration while the vehicle is running. There was a case.
 そこで、このようなアンテナロッドの倒れを防止すべくクリックトルクを高めた構成を有する可倒式ルーフマウントアンテナ装置として、例えば特許文献2や特許文献3に記載のものがある。これらの可倒式ルーフマウントアンテナ装置は、ベースアセンブリの有底円筒状部材からなるクリックシリンダの底部に凹部を設け、ジョイントアセンブリの有底円筒状のジョイント部に設けられる凸部にコイルスプリングを用いて押圧することで、アンテナロッドを揺動させる際にクリック感を得る構造である。 Therefore, as a foldable roof mount antenna device having a configuration in which the click torque is increased in order to prevent such an antenna rod from collapsing, for example, there are those described in Patent Document 2 and Patent Document 3. These foldable roof mount antenna devices have a recess in the bottom of a click cylinder made of a bottomed cylindrical member of the base assembly, and a coil spring is used in the convex portion provided in the bottomed cylindrical joint of the joint assembly. The structure is such that a click feeling is obtained when the antenna rod is swung by pressing the antenna rod.
 また、凹部と凸部がそれぞれ設けられる第1と第2のクラッチプレートを接続端子として用いると共に、コイルスプリングにより押圧してクリック感を得る構造の可倒式ルーフマウントアンテナ装置も知られている(特許文献4)。アンテナロッドを揺動させる際には、接続端子としても用いるクラッチプレートが撓むことにより、凹部と凸部の嵌合が解除されてクリック感が得られる構造である。 Further, a foldable roof mount antenna device having a structure in which first and second clutch plates having concave portions and convex portions are provided as connection terminals and pressed by a coil spring to obtain a click feeling is also known (). Patent Document 4). When the antenna rod is swung, the clutch plate, which is also used as a connection terminal, bends to release the fitting between the concave portion and the convex portion, so that a click feeling can be obtained.
特開2006-108848号公報Japanese Unexamined Patent Publication No. 2006-108848 特開2007-306605号公報JP-A-2007-306605 特開2011-009928号公報Japanese Unexamined Patent Publication No. 2011-090928 特開2003-032015号公報Japanese Patent Application Laid-Open No. 2003-032015
 特許文献2や特許文献3のような可倒式ルーフマウントアンテナ装置は、部品点数が多く、また組み付け工数も多いため、コストもかさんでいた。また、部品点数が多いと各部品の公差が積み上げられ、クリック機構にがたつき等が生じ得るおそれもあった。 The foldable roof mount antenna device such as Patent Document 2 and Patent Document 3 has a large number of parts and a large number of man-hours for assembly, so that the cost is high. In addition, if the number of parts is large, the tolerances of each part are piled up, and there is a possibility that the click mechanism may rattle.
 また、特許文献4のような可倒式ルーフマウントアンテナ装置では、クラッチプレートはアンテナロッドの基端部材のモールド部分にインサート成形されているが、クラッチプレートの撓む起点が基端部材であるため、この撓みの繰り返しにより、基端部材のモールド部分が割れる可能性があった。モールド部分が割れてしまうと、外観不良や可撓トルクの損失、水侵入による可撓機構部品の錆や錆による導電不良等の不具合が発生し得る。また、部品点数も多く、複雑な構造によりコスト高となっていた。 Further, in the foldable roof mount antenna device as in Patent Document 4, the clutch plate is insert-molded into the molded portion of the base end member of the antenna rod, but the bending starting point of the clutch plate is the base end member. Due to the repeated bending, the molded portion of the base end member may be cracked. If the mold portion is cracked, defects such as poor appearance, loss of flexible torque, rust of flexible mechanism parts due to water intrusion, and poor conductivity due to rust may occur. In addition, the number of parts is large, and the cost is high due to the complicated structure.
 本発明は、斯かる実情に鑑み、部品点数も少なくクリック機構によりモールド部分が割れたり導電不良が起きたりすることもない車両用の可倒式ルーフマウントアンテナ装置を提供しようとするものである。 In view of such circumstances, the present invention is intended to provide a foldable roof mount antenna device for vehicles in which the number of parts is small and the mold portion is not cracked or conduction failure is not caused by the click mechanism.
 上述した本発明の目的を達成するために、本発明による車両用の可倒式ルーフマウントアンテナ装置は、アンテナロッドが電気的に接続される第1端子が固定配置されるジョイントアセンブリであって、第1端子は第1クリック構造を有する、ジョイントアセンブリと、ジョイントアセンブリを揺動可能に枢支する一対の枢支部を有し、受信信号出力端子である第2端子が枢支部に固定配置されるベースアセンブリと、第1端子に摺動可能に接触し、ジョイントアセンブリを揺動させる際に第1クリック構造に嵌合しクリック感を与えるための第2クリック構造を第1端子に接触する面に有する、クリックプレートと、クリックプレートの第1端子に接触する面とは反対側の面からクリックプレートに付勢力を与えるようにクリックプレートに接触する弾性部材と、ベースアセンブリの一対の枢支部間に枢支固定され、第1端子が軸回転可能に軸通されると共に、クリックプレートが軸回転せず軸に沿って移動可能に軸通される、軸ボルトと、を具備するものであれば良い。 In order to achieve the above-mentioned object of the present invention, the retractable roof mount antenna device for a vehicle according to the present invention is a joint assembly in which a first terminal to which an antenna rod is electrically connected is fixedly arranged. The first terminal has a joint assembly having a first click structure and a pair of pivotal portions that swingably support the joint assembly, and the second terminal, which is a received signal output terminal, is fixedly arranged in the pivotal branch. A second click structure that slidably contacts the base assembly and the first terminal to fit into the first click structure and give a click feeling when swinging the joint assembly is placed on the surface that contacts the first terminal. Between the click plate, the elastic member that contacts the click plate from the surface opposite to the surface that contacts the first terminal of the click plate, and the pair of pivots of the base assembly. It may be provided with a shaft bolt that is pivotally fixed, the first terminal is axially rotatably threaded, and the click plate is pivotally threaded so as to be movable along the axis without rotating the axis. ..
 ここで、弾性部材は、ばね座金からなるものであれば良い。 Here, the elastic member may be any as long as it is made of a spring washer.
 また、第1端子は、クリックプレート及び弾性部材を介して第2端子と電気的に接続されるものであれば良い。 Further, the first terminal may be electrically connected to the second terminal via a click plate and an elastic member.
 また、第1端子は、軸ボルトを介して第2端子と電気的に接続されるものであっても良い。 Further, the first terminal may be electrically connected to the second terminal via a shaft bolt.
 また、弾性部材は、コイルばねからなるものであっても良い。 Further, the elastic member may be made of a coil spring.
 また、軸ボルトはフランジ面を有し、弾性部材は、クリックプレートに接触する面とは反対側の面が軸ボルトのフランジ面に接触するものであっても良い。 Further, the shaft bolt may have a flange surface, and the elastic member may have a surface opposite to the surface that contacts the click plate that contacts the flange surface of the shaft bolt.
 また、第1端子は、第2端子に摺動可能に接触するものであっても良い。 Further, the first terminal may be slidably in contact with the second terminal.
 また、弾性部材は、第2端子に摺動可能に接触するものであっても良い。 Further, the elastic member may be slidably in contact with the second terminal.
 また、軸ボルトはフランジ面を有し、第1端子は、クリックプレートに接触する面とは反対側の面が軸ボルトのフランジ面に接触するものであっても良い。 Further, the shaft bolt may have a flange surface, and the first terminal may have a surface opposite to the surface that contacts the click plate that contacts the flange surface of the shaft bolt.
 また、第2端子は、ベースアセンブリの一対の枢支部のうち、ジョイントアセンブリに固定配置される第1端子と近い側の枢支部に固定配置されるものであっても良い。 Further, the second terminal may be fixedly arranged in the pivot portion on the side close to the first terminal fixedly arranged in the joint assembly among the pair of pivot portions of the base assembly.
 また、第2端子は、ベースアセンブリの一対の枢支部のうち、ジョイントアセンブリに固定配置される第1端子と遠い側の枢支部に固定配置されるものであっても良い。 Further, the second terminal may be a pair of pivots of the base assembly, which are fixedly arranged at the first terminal fixedly arranged in the joint assembly and the pivot portion on the distant side.
 また、軸ボルトは、異形軸を有し、クリックプレートは、軸ボルトの異形軸に嵌合する異形孔を有するものであっても良い。 Further, the shaft bolt may have a deformed shaft, and the click plate may have a deformed hole that fits into the deformed shaft of the shaft bolt.
 また、クリックプレートは、軸ボルトに対して軸回転せず軸に沿って移動可能にベースアセンブリの枢支部に配置されるものであっても良い。 Further, the click plate may be one that is placed at the pivot part of the base assembly so as to be movable along the axis without rotating the axis with respect to the axis bolt.
 また、弾性部材は、クリックプレートと一体成型されクリックプレートの機能を有するものであっても良い。 Further, the elastic member may be integrally molded with the click plate and have the function of the click plate.
 本発明の車両用の可倒式ルーフマウントアンテナ装置には、部品点数も少なくクリック機構によりモールド部分が割れたり導電不良が起きたりすることもないという利点がある。 The foldable roof mount antenna device for vehicles of the present invention has an advantage that the number of parts is small and the mold portion is not cracked or conduction failure does not occur due to the click mechanism.
図1は、本発明の可倒式ルーフマウントアンテナ装置を説明するための分解斜視図である。FIG. 1 is an exploded perspective view for explaining the retractable roof mount antenna device of the present invention. 図2は、本発明の可倒式ルーフマウントアンテナ装置を説明するための横断面図である。FIG. 2 is a cross-sectional view for explaining the retractable roof mount antenna device of the present invention. 図3は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。FIG. 3 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. 図4は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。FIG. 4 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. 図5は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。FIG. 5 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. 図6は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。FIG. 6 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. 図7は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための図である。FIG. 7 is a diagram for explaining another example of the retractable roof mount antenna device of the present invention. 図8は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。FIG. 8 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention.
 以下、本発明を実施するための形態を図示例と共に説明する。図1は、本発明の可倒式ルーフマウントアンテナ装置を説明するための分解斜視図である。図示の通り、本発明の車両用の可倒式ルーフマウントアンテナ装置は、ジョイントアセンブリ10と、ベースアセンブリ20と、クリックプレート30と、弾性部材40と、軸ボルト50と、から主に構成されている。なお、ジョイントアセンブリ10とベースアセンブリ20は、図示例ではその樹脂モールドを破線で示した。また、クリックプレート30や弾性部材40、軸ボルト50は、ジョイントアセンブリ10やベースアセンブリ20の側部に組立前の分解状態で示した。また、図2は、本発明の可倒式ルーフマウントアンテナ装置を説明するための横断面図である。図中、図1と同一の符号を付した部分は同一物を表している。 Hereinafter, embodiments for carrying out the present invention will be described with reference to the illustrated examples. FIG. 1 is an exploded perspective view for explaining the retractable roof mount antenna device of the present invention. As shown in the figure, the foldable roof mount antenna device for a vehicle of the present invention is mainly composed of a joint assembly 10, a base assembly 20, a click plate 30, an elastic member 40, and a shaft bolt 50. There is. The resin molds of the joint assembly 10 and the base assembly 20 are shown by broken lines in the illustrated example. Further, the click plate 30, the elastic member 40, and the shaft bolt 50 are shown on the side portions of the joint assembly 10 and the base assembly 20 in a disassembled state before assembly. Further, FIG. 2 is a cross-sectional view for explaining the foldable roof mount antenna device of the present invention. In the figure, the parts with the same reference numerals as those in FIG. 1 represent the same objects.
 ジョイントアセンブリ10には、第1端子11が固定配置されている。第1端子11は、例えばジョイントアセンブリ10の樹脂モールドにインサート成形されれば良い。第1端子11には、アンテナロッド(図示せず)が電気的に接続される。第1端子11は、第1クリック構造12を有している。第1端子11は、例えば導電性の板状部材から構成されれば良く、円形板状部材と、円形板状部材からアンテナロッド側に延在するL字状部材からなる形状を有している。図示例では、第1クリック構造12は、円形板状部材に設けられた孔部からなるものを示した。孔部は、凹部からなるものであっても良い。また、後述の第2クリック構造31との関係によっては、第1クリック構造12が凸部からなるものであっても良い。第1端子11には、後述の軸ボルト50が軸通する軸孔14が設けられている。軸孔14は、図示例では円形孔としている。第1端子11は、ジョイントアセンブリ10に固定配置されるため、ジョイントアセンブリ10に対して移動することはない。また、ジョイントアセンブリ10には、アンテナロッドがねじ込まれるジョイント13も固定配置されており、ジョイント13と第1端子11が電気的に接続されている。 The first terminal 11 is fixedly arranged in the joint assembly 10. The first terminal 11 may be insert-molded into, for example, the resin mold of the joint assembly 10. An antenna rod (not shown) is electrically connected to the first terminal 11. The first terminal 11 has a first click structure 12. The first terminal 11 may be composed of, for example, a conductive plate-shaped member, and has a shape composed of a circular plate-shaped member and an L-shaped member extending from the circular plate-shaped member to the antenna rod side. .. In the illustrated example, the first click structure 12 shows a structure composed of a hole provided in the circular plate-shaped member. The hole may be formed of a recess. Further, depending on the relationship with the second click structure 31, which will be described later, the first click structure 12 may be formed of a convex portion. The first terminal 11 is provided with a shaft hole 14 through which a shaft bolt 50, which will be described later, passes through. The shaft hole 14 is a circular hole in the illustrated example. Since the first terminal 11 is fixedly arranged in the joint assembly 10, it does not move with respect to the joint assembly 10. Further, a joint 13 into which the antenna rod is screwed is also fixedly arranged in the joint assembly 10, and the joint 13 and the first terminal 11 are electrically connected to each other.
 ベースアセンブリ20は、ジョイントアセンブリ10を揺動可能に枢支する一対の枢支部21,22を有する。ベースアセンブリ20には、受信信号出力端子である第2端子23が枢支部21,22に固定配置されている。第2端子23は、例えばベースアセンブリ20の樹脂モールドにインサート成形されれば良い。ここで、図示例では、第2端子23は、一対の枢支部21,22のうち、枢支部21側に固定配置されている。枢支部21は、ジョイントアセンブリ10に固定配置される第1端子11と近い側の枢支部である。第2端子23は、例えば導電性の板状部材から構成されれば良く、円形板状部材と、円形板状部材から車両室内側に延在するI字状部材からなる形状を有している。第2端子23も、ベースアセンブリ20に固定配置されるため、ベースアセンブリ20に対して移動することはない。ベースアセンブリ20の枢支部21,22には、後述の軸ボルト50が軸通する軸孔24,25が設けられている。軸孔25は、図示例では異形孔としている。なお、枢支部21,22に設けられる軸孔24,25は、図示例に限定されず、例えばU字溝であっても良い。また、第2端子23にも、後述の軸ボルト50が軸通する軸孔26が設けられている。 The base assembly 20 has a pair of pivotal branches 21 and 22 that swingably support the joint assembly 10. In the base assembly 20, a second terminal 23, which is a received signal output terminal, is fixedly arranged at the pivot branches 21 and 22. The second terminal 23 may be insert-molded into, for example, the resin mold of the base assembly 20. Here, in the illustrated example, the second terminal 23 is fixedly arranged on the pivot branch 21 side of the pair of pivot branches 21 and 22. The pivot portion 21 is a pivot portion on the side close to the first terminal 11 fixedly arranged in the joint assembly 10. The second terminal 23 may be composed of, for example, a conductive plate-shaped member, and has a shape composed of a circular plate-shaped member and an I-shaped member extending from the circular plate-shaped member to the vehicle interior side. .. Since the second terminal 23 is also fixedly arranged in the base assembly 20, it does not move with respect to the base assembly 20. The pivot portions 21 and 22 of the base assembly 20 are provided with shaft holes 24 and 25 through which the shaft bolt 50 described later passes. The shaft hole 25 is a deformed hole in the illustrated example. The shaft holes 24 and 25 provided in the pivot portions 21 and 22 are not limited to the illustrated examples, and may be, for example, a U-shaped groove. Further, the second terminal 23 is also provided with a shaft hole 26 through which the shaft bolt 50 described later passes.
 なお、図示の通り、ジョイントアセンブリ10とベースアセンブリ20の摺動面(ジョイントアセンブリ10と枢支部21の間)には、必要によりOリング60が設けられても良い。枢支部21側には、第1端子11や第2端子23が存在するため、この摺動面から水や塵等が侵入してこないように、Oリング60により防水・防塵を行えば良い。また、ジョイントアセンブリ10とベースアセンブリ20の摺動面に、軸ブレ抑制を補助するために環状凹凸部を設けても良い。具体的には、例えば摺動面のベースアセンブリ20の軸孔24の周辺に環状凹部を設けると共に、ジョイントアセンブリ10の摺動面に、環状凹部に嵌合する環状凸部又は半環状凸部を設けても良い。 As shown in the figure, an O-ring 60 may be provided on the sliding surface of the joint assembly 10 and the base assembly 20 (between the joint assembly 10 and the pivot portion 21), if necessary. Since the first terminal 11 and the second terminal 23 are present on the pivotal support portion 21, the O-ring 60 may be used for waterproofing and dustproofing so that water, dust, and the like do not enter from the sliding surface. Further, the sliding surfaces of the joint assembly 10 and the base assembly 20 may be provided with an annular uneven portion in order to assist in suppressing axial shake. Specifically, for example, an annular recess is provided around the shaft hole 24 of the base assembly 20 on the sliding surface, and an annular convex portion or a semi-annular convex portion fitted to the annular recess is provided on the sliding surface of the joint assembly 10. It may be provided.
 クリックプレート30は、第1端子11に摺動可能に接触している。クリックプレート30は、第2クリック構造31を有している。第2クリック構造31は、第1端子11に接触する面に設けられる。第2クリック構造31は、ジョイントアセンブリ10を揺動させる際に、第1クリック構造12に嵌合しクリック感を与えるためのものである。クリックプレート30は、例えば導電性の円形板状部材からなるものであれば良い。図示例では、第2クリック構造31は、円形板状部材に設けられた凸部からなるものを示した。この第2クリック構造31の凸部が、第1クリック構造12の凹部に嵌合しており、ジョイントアセンブリ10を揺動させた際に第2クリック構造31が第1クリック構造12から外れるため、クリック感が得られる。なお、第1クリック構造12が凸部からなるものであれば、第2クリック構造31は凹部からなるものであれば良い。クリックプレート30には、後述の軸ボルト50が軸通する軸孔34が設けられている。軸孔34は、図示例では異形孔としている。 The click plate 30 is slidably in contact with the first terminal 11. The click plate 30 has a second click structure 31. The second click structure 31 is provided on the surface in contact with the first terminal 11. The second click structure 31 is for fitting to the first click structure 12 to give a click feeling when the joint assembly 10 is swung. The click plate 30 may be made of, for example, a conductive circular plate-shaped member. In the illustrated example, the second click structure 31 is composed of a convex portion provided on the circular plate-shaped member. The convex portion of the second click structure 31 is fitted into the concave portion of the first click structure 12, and the second click structure 31 is disengaged from the first click structure 12 when the joint assembly 10 is swung. You can get a click feeling. If the first click structure 12 is formed of a convex portion, the second click structure 31 may be formed of a concave portion. The click plate 30 is provided with a shaft hole 34 through which a shaft bolt 50, which will be described later, passes through. The shaft hole 34 is a deformed hole in the illustrated example.
 即ち、本発明の可倒式ルーフマウントアンテナ装置では、アンテナロッドを揺動させるときにジョイントアセンブリ10とベースアセンブリ20との間にクリック感を与えるためのクリック機構として、第1端子11の第1クリック構造12と、クリックプレート30の第2クリック構造31とを用いている。 That is, in the foldable roof mount antenna device of the present invention, the first terminal 11 is used as a click mechanism for giving a click feeling between the joint assembly 10 and the base assembly 20 when the antenna rod is swung. The click structure 12 and the second click structure 31 of the click plate 30 are used.
 弾性部材40は、クリックプレート30の第1端子11に接触する面とは反対側の面からクリックプレート30に付勢力を与えるようにクリックプレート30に接触するものである。即ち、弾性部材40により、クリックプレート30は第1端子11側に付勢力を与えられている。図示例では、弾性部材40として、ばね座金からなるものを示した。ばね座金は、例えば導電性部材からなり、図示例のように、ワッシャの周縁部を板ばね41として用いるように折り曲げ形成したものである。弾性部材40にも、後述の軸ボルト50が軸通する軸孔44が設けられている。図示例では、弾性部材40は、第2端子23に摺動可能に接触するように構成されている。即ち、第1端子11と第2端子23の間に、クリックプレート30及び弾性部材40が挟まれるように構成されている。 The elastic member 40 comes into contact with the click plate 30 so as to give an urging force to the click plate 30 from a surface opposite to the surface of the click plate 30 that contacts the first terminal 11. That is, the elastic member 40 gives the click plate 30 an urging force to the first terminal 11 side. In the illustrated example, the elastic member 40 is shown to be made of a spring washer. The spring washer is made of, for example, a conductive member, and is formed by bending so that the peripheral portion of the washer is used as the leaf spring 41 as shown in the illustrated example. The elastic member 40 is also provided with a shaft hole 44 through which the shaft bolt 50 described later passes. In the illustrated example, the elastic member 40 is configured to slidably contact the second terminal 23. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the second terminal 23.
 軸ボルト50は、ベースアセンブリ20の一対の枢支部21,22間に枢支固定されるものである。軸ボルト50は、例えば導電性部材からなるものであれば良い。図示のように、軸ボルト50は異形軸を有するものであり、枢支部21,22に設けられる軸孔24,25に嵌合し、例えばナット55により枢支部21,22間に枢支固定されている。即ち、異形軸を有する軸ボルト50は、枢支部22の異形孔を有する軸孔25に嵌合することで、ベースアセンブリ20に対して移動することはなく、軸回転しないように固定されることになる。そして、第1端子11は、軸回転可能に軸ボルト50に軸通される。即ち、第1端子11の軸孔14は円形孔であり、軸ボルト50が軸孔14に軸通する部分がそれに合わせた円筒軸を有しており、第1端子11が軸ボルト50に対して軸回転可能に構成されている。これにより、ジョイントアセンブリ10を揺動させる際に、軸ボルト50に対して第1端子11が軸回転可能となる。一方、クリックプレート30は、軸回転せず軸に沿って移動可能に軸ボルト50に軸通される。即ち、軸ボルト50が軸孔34に軸通する部分が異形軸を有しており、クリックプレート30の軸孔34は、軸ボルト50の異形軸に嵌合する異形孔で構成されている。これにより、クリックプレート30が軸ボルト50に対して軸回転しないように構成されている。したがって、クリックプレート30は、軸回転はしないが、軸ボルト50に対して軸に沿って移動可能に軸通されることになる。即ち、クリックプレート30は、軸方向(図2上で左右方向)にのみ移動可能に軸通されている。 The shaft bolt 50 is pivotally fixed between a pair of pivot parts 21 and 22 of the base assembly 20. The shaft bolt 50 may be made of, for example, a conductive member. As shown in the figure, the shaft bolt 50 has a deformed shaft, is fitted into the shaft holes 24 and 25 provided in the pivot portions 21 and 22, and is pivotally fixed between the pivot portions 21 and 22 by, for example, a nut 55. ing. That is, the shaft bolt 50 having the deformed shaft does not move with respect to the base assembly 20 by being fitted into the shaft hole 25 having the deformed hole of the pivot portion 22, and is fixed so as not to rotate the shaft. become. Then, the first terminal 11 is axially passed through the shaft bolt 50 so that the shaft can rotate. That is, the shaft hole 14 of the first terminal 11 is a circular hole, the portion where the shaft bolt 50 is axially passed through the shaft hole 14 has a cylindrical shaft corresponding to the shaft hole 14, and the first terminal 11 has a cylindrical shaft with respect to the shaft bolt 50. It is configured to be rotatable around the shaft. As a result, when the joint assembly 10 is swung, the first terminal 11 can rotate about the shaft bolt 50. On the other hand, the click plate 30 is axially passed through the shaft bolt 50 so as to be movable along the shaft without rotating the shaft. That is, the portion where the shaft bolt 50 passes through the shaft hole 34 has a deformed shaft, and the shaft hole 34 of the click plate 30 is composed of a deformed hole that fits into the deformed shaft of the shaft bolt 50. As a result, the click plate 30 is configured so as not to rotate about the shaft bolt 50. Therefore, the click plate 30 does not rotate on the shaft, but is axially rotated along the shaft with respect to the shaft bolt 50. That is, the click plate 30 is axially threaded so as to be movable only in the axial direction (left-right direction on FIG. 2).
 なお、本発明の可倒式ルーフマウントアンテナでは、ジョイントアセンブリ10の揺動に対してクリックプレート30が軸回転しないように構成されていれば、軸孔34や軸ボルト50は、必ずしも異形である必要はない。 In the foldable roof mount antenna of the present invention, the shaft hole 34 and the shaft bolt 50 are not necessarily deformed as long as the click plate 30 is configured so as not to rotate around the shaft with respect to the swing of the joint assembly 10. No need.
 図2に示される通り、軸ボルト50は、フランジ面51を有している。そして、第1端子11は、クリックプレート30に接触する面とは反対側の面が、このフランジ面51に接触するように構成されている。即ち、第1端子11は、弾性部材40により付勢されるクリックプレート30により押圧されても、フランジ面51によりその位置が固定されることになる。したがって、第1端子11が変形することもない。なお、第1端子11のクリックプレート30に接触する面と反対側の面は、フランジ面51の代わりに、樹脂モールドにより固定されても良い。 As shown in FIG. 2, the shaft bolt 50 has a flange surface 51. The surface of the first terminal 11 opposite to the surface that contacts the click plate 30 is configured to contact the flange surface 51. That is, even if the first terminal 11 is pressed by the click plate 30 urged by the elastic member 40, its position is fixed by the flange surface 51. Therefore, the first terminal 11 is not deformed. The surface of the first terminal 11 opposite to the surface in contact with the click plate 30 may be fixed by a resin mold instead of the flange surface 51.
 ここで、クリックプレート30や弾性部材40が導電性部材からなるものであれば、第1端子11は、クリックプレート30及び弾性部材40を介して第2端子23と電気的に接続される。さらに、軸ボルト50が導電性部材であれば、第1端子11は、軸ボルト50を介して第2端子23と電気的に接続されることになる。したがって、第1端子11と第2端子23は、確実に電気的に接続される。 Here, if the click plate 30 and the elastic member 40 are made of a conductive member, the first terminal 11 is electrically connected to the second terminal 23 via the click plate 30 and the elastic member 40. Further, if the shaft bolt 50 is a conductive member, the first terminal 11 is electrically connected to the second terminal 23 via the shaft bolt 50. Therefore, the first terminal 11 and the second terminal 23 are surely electrically connected.
 このように、本発明の可倒式ルーフマウントアンテナ装置では、クリック機構を構成する第1端子11や第2端子23は固定配置される一方、クリックプレート30が軸に沿って移動可能に構成されている。したがって、第1端子11や第2端子23が撓むことはないので、クリック機構によりモールド部分が割れることもない。また、確実に電気的に接続されるため、導電不良が起きるおそれもない。また、クリック機構を第1端子に配置された第1クリック構造とクリックプレート30と弾性部材40のみで構成できるため、部品点数も少なく、各部品の公差の積み上げによるがたつき等も少ない。 As described above, in the retractable roof mount antenna device of the present invention, the first terminal 11 and the second terminal 23 constituting the click mechanism are fixedly arranged, while the click plate 30 is configured to be movable along the axis. ing. Therefore, since the first terminal 11 and the second terminal 23 do not bend, the mold portion does not crack due to the click mechanism. Further, since the electric connection is ensured, there is no possibility that conduction failure will occur. Further, since the click mechanism can be composed only of the first click structure arranged at the first terminal, the click plate 30, and the elastic member 40, the number of parts is small and the rattling due to the accumulation of tolerances of each part is small.
 次に、図3を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図3は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図2に示される例では、第1端子11と第2端子23の間にクリックプレート30及び弾性部材40が挟まれるように構成されていた。図3に示される例では、第1端子11は、第2端子23に摺動可能に接触している。即ち、第1端子11と第2端子23は、直接接触している。そして、軸ボルト50は、フランジ面51を有している。弾性部材40は、クリックプレート30に接触する面とは反対側の面が、このフランジ面51に接触するように構成されている。即ち、クリックプレート30及び弾性部材40は、第1端子11と軸ボルト50のフランジ面51に挟まれるように構成されている。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. FIG. 3 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. In the example shown in FIG. 2, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the second terminal 23. In the example shown in FIG. 3, the first terminal 11 is slidably in contact with the second terminal 23. That is, the first terminal 11 and the second terminal 23 are in direct contact with each other. The shaft bolt 50 has a flange surface 51. The elastic member 40 is configured such that the surface opposite to the surface that contacts the click plate 30 contacts the flange surface 51. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the flange surface 51 of the shaft bolt 50.
 このように構成されても、部品点数は変わらず、また、第1端子11及び第2端子23は固定配置され撓むこともない。また、第1端子11及び第2端子23は直接接触しているため、確実に電気的に接続される。さらに、組み付けの際には、クリックプレート30及び弾性部材40を軸ボルト50に装着した状態でジョイントアセンブリ10に挿入すれば良いため、より容易に組み付け可能となる。 Even with this configuration, the number of parts does not change, and the first terminal 11 and the second terminal 23 are fixedly arranged and do not bend. Further, since the first terminal 11 and the second terminal 23 are in direct contact with each other, they are reliably electrically connected. Further, at the time of assembling, the click plate 30 and the elastic member 40 may be inserted into the joint assembly 10 in a state of being attached to the shaft bolt 50, so that the assembling can be performed more easily.
 次に、図4を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図4は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図2に示される例では、クリックプレート30とそれに付勢力を与える弾性部材40とが別体で構成されていた。図4に示される例では、弾性部材は、クリックプレートと一体成型された弾性クリックプレート45で構成されている。例えば、ばね座金のワッシャの周縁部の板ばね41に第2クリック構造31を設ければ良い。このように構成されると、部品点数はさらに減り、組み付けもさらに容易となる。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. FIG. 4 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. In the example shown in FIG. 2, the click plate 30 and the elastic member 40 that gives an urging force to the click plate 30 are formed separately. In the example shown in FIG. 4, the elastic member is composed of an elastic click plate 45 integrally molded with the click plate. For example, the second click structure 31 may be provided on the leaf spring 41 at the peripheral edge of the washer of the spring washer. With such a configuration, the number of parts is further reduced and assembly becomes easier.
 次に、図5を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図5は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図2乃至図4に示される例では、第2端子23は一対の枢支部21,22のうち、枢支部21側に固定配置されるように構成されていた。図5に示される例では、第2端子23は、枢支部22側に固定配置されるように構成されている。即ち、第2端子23は、ジョイントアセンブリ10に固定配置される第1端子11と遠い側の枢支部22に固定配置されている。この場合、軸ボルト50が導電性部材からなると共に、第1端子11に接触するフランジ面51を有するように構成される。また、第2端子23は、枢支部22側で軸ボルト50に直接接触するように構成されている。このように、本発明の可倒式ルーフマウントアンテナ装置は、一対の枢支部21,22のどちらにも第2端子23を固定配置可能である。したがって、可倒式ルーフマウントアンテナ装置の配置や回路レイアウト等の自由度が高いものである。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. FIG. 5 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. In the example shown in FIGS. 2 to 4, the second terminal 23 is configured to be fixedly arranged on the pivot branch 21 side of the pair of pivot branches 21 and 22. In the example shown in FIG. 5, the second terminal 23 is configured to be fixedly arranged on the pivot portion 22 side. That is, the second terminal 23 is fixedly arranged at the first terminal 11 fixedly arranged at the joint assembly 10 and the pivot portion 22 on the distant side. In this case, the shaft bolt 50 is made of a conductive member and is configured to have a flange surface 51 in contact with the first terminal 11. Further, the second terminal 23 is configured to come into direct contact with the shaft bolt 50 on the pivotal support portion 22 side. As described above, in the retractable roof mount antenna device of the present invention, the second terminal 23 can be fixedly arranged on either of the pair of pivotal branches 21 and 22. Therefore, there is a high degree of freedom in the arrangement of the foldable roof mount antenna device and the circuit layout.
 次に、図6を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図6は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図6に示される例は、図3に示される例と図5に示される例を組み合わせたような構成である。即ち、クリックプレート30及び弾性部材40は、第1端子11と軸ボルト50のフランジ面51に挟まれるように構成されると共に、第2端子23は、枢支部22側に固定配置されるように構成されている。このように構成されても、組み付けの際には、クリックプレート30及び弾性部材40を軸ボルト50に装着した状態でジョイントアセンブリ10に挿入すれば良いため、より容易に組み付け可能となる。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. FIG. 6 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. The example shown in FIG. 6 has a configuration in which the example shown in FIG. 3 and the example shown in FIG. 5 are combined. That is, the click plate 30 and the elastic member 40 are configured to be sandwiched between the first terminal 11 and the flange surface 51 of the shaft bolt 50, and the second terminal 23 is fixedly arranged on the pivot portion 22 side. It is configured. Even with such a configuration, at the time of assembly, the click plate 30 and the elastic member 40 may be inserted into the joint assembly 10 in a state of being attached to the shaft bolt 50, so that the assembly can be performed more easily.
 次に、図7を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図7は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための図であり、図7(a)が横断面図であり、図7(b)が枢支部をジョイントアセンブリ側から見た側面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図2乃至図6に示される例では、何れもクリックプレート30は異形孔を有し、異形軸を有する軸ボルト50に嵌合して軸回転しないように構成されるものであった。図7に示される例は、クリックプレート30の軸孔34は円形孔である。一方、クリックプレート30の周縁部には凹部32が設けられており、これがベースアセンブリ20の枢支部21に設けれた軸孔24内に設けられる凸部28に嵌合するように構成されている。これにより、クリックプレート30は、軸ボルト50に対して軸回転せず軸に沿って移動可能にベースアセンブリ20の枢支部21に配置されることになる。即ち、クリックプレート30は、枢支部21の軸孔24内で、凹部32及び凸部28により軸回転しないように構成されると共に、軸方向(図7(a)上で左右方向)に移動可能に軸通されることになる。なお、クリックプレート30の軸孔34を異形孔とし、これに嵌合する異形軸をベースアセンブリ20の枢支部21に配置しても良い。枢支部21に配置される異形軸の中に円形軸孔を設ければ、軸ボルト50は円形軸で構成可能である。このように、本発明の可倒式ルーフマウントアンテナ装置では、軸ボルト50は必ずしも異形軸を有するものには限らず、円形軸であっても良い。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. 7. 7A and 7B are views for explaining another example of the retractable roof mount antenna device of the present invention, FIG. 7A is a cross-sectional view, and FIG. 7B is a joint assembly of pivots. It is a side view seen from the side. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. In each of the examples shown in FIGS. 2 to 6, the click plate 30 has a deformed hole and is configured to be fitted to a shaft bolt 50 having a deformed shaft so as not to rotate the shaft. In the example shown in FIG. 7, the shaft hole 34 of the click plate 30 is a circular hole. On the other hand, the peripheral portion of the click plate 30 is provided with a concave portion 32, which is configured to fit into the convex portion 28 provided in the shaft hole 24 provided in the pivot portion 21 of the base assembly 20. .. As a result, the click plate 30 is arranged on the pivot portion 21 of the base assembly 20 so as to be movable along the axis without rotating the axis with respect to the axis bolt 50. That is, the click plate 30 is configured so as not to rotate about the axis by the concave portion 32 and the convex portion 28 in the shaft hole 24 of the pivot portion 21, and can be moved in the axial direction (left-right direction on FIG. 7A). Will be axisd through. The shaft hole 34 of the click plate 30 may be a deformed hole, and the deformed shaft fitted therein may be arranged in the pivot portion 21 of the base assembly 20. If a circular shaft hole is provided in the deformed shaft arranged in the pivot portion 21, the shaft bolt 50 can be configured with a circular shaft. As described above, in the retractable roof mount antenna device of the present invention, the shaft bolt 50 is not necessarily limited to having a deformed shaft, and may be a circular shaft.
 次に、図8を用いて本発明の可倒式ルーフマウントアンテナ装置の他の例について説明する。図8は、本発明の可倒式ルーフマウントアンテナ装置の他の例を説明するための横断面図である。図中、図1や図2と同一の符号を付した部分は同一物を表している。図2乃至図7に示される例では、何れも弾性部材40がばね座金からなる例をしめした。図8に示される例は、弾性部材40がコイルばねからなるものである。図8に示される例は、図3や図6に示される例の変形例である。図示の通り、弾性部材40がコイルばねから構成されており、これによりクリックプレート30に付勢力を与えている。コイルばねのクリックプレート30とは反対側の面が、図3や図6と同様に、軸ボルト50のフランジ面51に接触するように構成されている。コイルばねは、ばね座金と比べて付勢力の調整が容易であり、より安価に構成可能である。 Next, another example of the retractable roof mount antenna device of the present invention will be described with reference to FIG. FIG. 8 is a cross-sectional view for explaining another example of the retractable roof mount antenna device of the present invention. In the figure, the parts having the same reference numerals as those in FIGS. 1 and 2 represent the same objects. In each of the examples shown in FIGS. 2 to 7, the elastic member 40 is made of a spring washer. In the example shown in FIG. 8, the elastic member 40 is made of a coil spring. The example shown in FIG. 8 is a modified example of the example shown in FIGS. 3 and 6. As shown in the figure, the elastic member 40 is composed of a coil spring, which gives an urging force to the click plate 30. The surface of the coil spring opposite to the click plate 30 is configured to be in contact with the flange surface 51 of the shaft bolt 50, as in FIGS. 3 and 6. The coil spring is easier to adjust the urging force than the spring washer and can be configured at a lower cost.
 なお、本発明の車両用の可倒式ルーフマウントアンテナ装置は、上述の図示例にのみ限定されるものではなく、本発明の要旨を逸脱しない範囲内において種々変更を加え得ることは勿論である。 It should be noted that the foldable roof mount antenna device for a vehicle of the present invention is not limited to the above illustrated example, and it is needless to say that various changes can be made without departing from the gist of the present invention. ..
 10  ジョイントアセンブリ
 11  第1端子
 12  第1クリック構造
 13  ジョイント
 14  軸孔
 20  ベースアセンブリ
 21,22  枢支部
 23  第2端子
 24,25  軸孔
 26  軸孔
 28  凸部
 30  クリックプレート
 31  第2クリック構造
 32  凹部
 34  軸孔
 40  弾性部材
 44  軸孔
 45  弾性クリックプレート
 50  軸ボルト
 51  フランジ面
 55  ナット
 60  Oリング 10 Joint assembly 11 1st terminal 12 1st click structure 13 Joint 14 Shaft hole 20 Base assembly 21 and 22 Pivot branch 23 2nd terminal 24,25 Shaft hole 26 Shaft hole 28 Convex part 30 Click plate 31 2nd click structure 32 Concave 34 Shaft hole 40 Elastic member 44 Shaft hole 45 Elastic click plate 50 Shaft bolt 51 Flange surface 55 Nut 60 O-ring

Claims (14)

  1.  車両用の可倒式ルーフマウントアンテナ装置であって、該可倒式ルーフマウントアンテナ装置は、
     アンテナロッドが電気的に接続される第1端子が固定配置されるジョイントアセンブリであって、第1端子は第1クリック構造を有する、ジョイントアセンブリと、
     前記ジョイントアセンブリを揺動可能に枢支する一対の枢支部を有し、受信信号出力端子である第2端子が枢支部に固定配置されるベースアセンブリと、
     前記第1端子に摺動可能に接触し、ジョイントアセンブリを揺動させる際に第1クリック構造に嵌合しクリック感を与えるための第2クリック構造を第1端子に接触する面に有する、クリックプレートと、
     前記クリックプレートの第1端子に接触する面とは反対側の面からクリックプレートに付勢力を与えるようにクリックプレートに接触する弾性部材と、
     前記ベースアセンブリの一対の枢支部間に枢支固定され、前記第1端子が軸回転可能に軸通されると共に、クリックプレートが軸回転せず軸に沿って移動可能に軸通される、軸ボルトと、
     を具備することを特徴とする可倒式ルーフマウントアンテナ装置。     A foldable roof mount antenna device for vehicles, the foldable roof mount antenna device
    A joint assembly in which the first terminal to which the antenna rod is electrically connected is fixedly arranged, and the first terminal has a first click structure.
    A base assembly having a pair of pivots that swingably support the joint assembly, and a base assembly in which a second terminal, which is a received signal output terminal, is fixedly arranged in the pivot.
    A click that slidably contacts the first terminal and has a second click structure on the surface that contacts the first terminal to fit into the first click structure and give a click feeling when the joint assembly is swung. With the plate
    An elastic member that contacts the click plate so as to give an urging force to the click plate from a surface opposite to the surface that contacts the first terminal of the click plate.
    An axis that is pivotally fixed between a pair of pivots of the base assembly, the first terminal is axially rotatable and the click plate is axially rotatable along an axis without axial rotation. Bolt and
    A foldable roof mount antenna device characterized by being equipped with.
  2.  請求項1に記載の可倒式ルーフマウントアンテナ装置において、前記弾性部材は、ばね座金からなることを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to claim 1, wherein the elastic member is a foldable roof mount antenna device made of a spring washer.
  3.  請求項1又は請求項2に記載の可倒式ルーフマウントアンテナ装置において、前記第1端子は、クリックプレート及び弾性部材を介して第2端子と電気的に接続されることを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to claim 1 or 2, wherein the first terminal is electrically connected to the second terminal via a click plate and an elastic member. Type roof mount antenna device.
  4.  請求項1乃至請求項3の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記第1端子は、軸ボルトを介して第2端子と電気的に接続されることを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to any one of claims 1 to 3, wherein the first terminal is electrically connected to the second terminal via a shaft bolt. Type roof mount antenna device.
  5.  請求項1に記載の可倒式ルーフマウントアンテナ装置において、前記弾性部材は、コイルばねからなることを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to claim 1, wherein the elastic member is a foldable roof mount antenna device made of a coil spring.
  6.  請求項1乃至請求項5の何れかに記載の可倒式ルーフマウントアンテナ装置において、
     前記軸ボルトはフランジ面を有し、
     前記弾性部材は、クリックプレートに接触する面とは反対側の面が軸ボルトのフランジ面に接触する、
     ことを特徴とする可倒式ルーフマウントアンテナ装置。     In the retractable roof mount antenna device according to any one of claims 1 to 5.
    The shaft bolt has a flange surface and has a flange surface.
    In the elastic member, the surface opposite to the surface that contacts the click plate contacts the flange surface of the shaft bolt.
    A foldable roof mount antenna device that features this.
  7.  請求項1又は請求項2に記載の可倒式ルーフマウントアンテナ装置において、前記第1端子は、第2端子に摺動可能に接触することを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to claim 1 or 2, wherein the first terminal slidably contacts the second terminal.
  8.  請求項1乃至請求項4の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記弾性部材は、第2端子に摺動可能に接触することを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to any one of claims 1 to 4, wherein the elastic member slidably contacts the second terminal.
  9.  請求項1乃至請求項4の何れかに記載の可倒式ルーフマウントアンテナ装置において、
     前記軸ボルトはフランジ面を有し、
     前記第1端子は、クリックプレートに接触する面とは反対側の面が軸ボルトのフランジ面に接触する、
     ことを特徴とする可倒式ルーフマウントアンテナ装置。     In the retractable roof mount antenna device according to any one of claims 1 to 4.
    The shaft bolt has a flange surface and has a flange surface.
    The surface of the first terminal opposite to the surface that contacts the click plate contacts the flange surface of the shaft bolt.
    A foldable roof mount antenna device that features this.
  10.  請求項1乃至請求項9の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記第2端子は、ベースアセンブリの一対の枢支部のうち、ジョイントアセンブリに固定配置される第1端子と近い側の枢支部に固定配置されることを特徴とする可倒式ルーフマウントアンテナ装置。 In the retractable roof mount antenna device according to any one of claims 1 to 9, the second terminal is close to the first terminal fixedly arranged in the joint assembly among the pair of pivotal branches of the base assembly. A foldable roof mount antenna device characterized by being fixedly placed on the side pivot.
  11.  請求項1乃至請求項4の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記第2端子は、ベースアセンブリの一対の枢支部のうち、ジョイントアセンブリに固定配置される第1端子と遠い側の枢支部に固定配置されることを特徴とする可倒式ルーフマウントアンテナ装置。 In the retractable roof mount antenna device according to any one of claims 1 to 4, the second terminal is far from the first terminal fixedly arranged in the joint assembly among the pair of pivotal branches of the base assembly. A foldable roof mount antenna device characterized by being fixedly placed on the side pivot.
  12.  請求項1乃至請求項11の何れかに記載の可倒式ルーフマウントアンテナ装置において、
     前記軸ボルトは、異形軸を有し、
     前記クリックプレートは、軸ボルトの異形軸に嵌合する異形孔を有する、
     ことを特徴とする可倒式ルーフマウントアンテナ装置。     In the retractable roof mount antenna device according to any one of claims 1 to 11.
    The shaft bolt has a deformed shaft and has a deformed shaft.
    The click plate has a deformed hole that fits into the deformed shaft of the shaft bolt.
    A foldable roof mount antenna device that features this.
  13.  請求項1乃至請求項11の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記クリックプレートは、軸ボルトに対して軸回転せず軸に沿って移動可能にベースアセンブリの枢支部に配置されることを特徴とする可倒式ルーフマウントアンテナ装置。 In the retractable roof mount antenna device according to any one of claims 1 to 11, the click plate is arranged at a pivot portion of a base assembly so as to be movable along an axis without rotating the axis with respect to a shaft bolt. A foldable roof mount antenna device characterized by being made.
  14.  請求項1乃至請求項13の何れかに記載の可倒式ルーフマウントアンテナ装置において、前記弾性部材は、クリックプレートと一体成型されクリックプレートの機能を有することを特徴とする可倒式ルーフマウントアンテナ装置。 The foldable roof mount antenna device according to any one of claims 1 to 13, wherein the elastic member is integrally molded with the click plate and has the function of the click plate. Device.
PCT/JP2021/029545 2020-09-30 2021-08-10 Retractable roof-mounted antenna device for vehicle WO2022070620A1 (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001345613A (en) * 2000-06-06 2001-12-14 Harada Ind Co Ltd Structure for rotating and pivotally fixing tiltable roof-mount antenna
JP2011009928A (en) * 2009-06-24 2011-01-13 Harada Ind Co Ltd Folding roof mount antenna for vehicle
JP2011230532A (en) * 2010-04-23 2011-11-17 Harada Ind Co Ltd Retractable roof mounted antenna for vehicle

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001345613A (en) * 2000-06-06 2001-12-14 Harada Ind Co Ltd Structure for rotating and pivotally fixing tiltable roof-mount antenna
JP2011009928A (en) * 2009-06-24 2011-01-13 Harada Ind Co Ltd Folding roof mount antenna for vehicle
JP2011230532A (en) * 2010-04-23 2011-11-17 Harada Ind Co Ltd Retractable roof mounted antenna for vehicle

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